Meeting Transcript
June 23, 2006
COUNCIL MEMBERS PRESENT
Edmund Pellegrino,M.D.,Chairman
Georgetown University
Floyd E. Bloom,M.D.
Scripps Research Institute
Benjamin S. Carson, Sr., M.D.
Johns Hopkins Medical Institutions
Daniel W. Foster, M.D.
University of Texas, Southwestern Medical School
Michael S. Gazzaniga, Ph.D.
University of California, Santa Barbara
Alfonso Gómez-Lobo, Dr.phil.
Georgetown University
William B. Hurlbut, M.D.
Stanford University
Leon R. Kass, M.D.
American Enterprise Institute
Peter A. Lawler, Ph.D.
Berry College
Paul McHugh, M.D.
Johns Hopkins University School of Medicine
Gilbert C. Meilaender, Ph.D.
Valparaiso University
Janet D. Rowley, M.D., D.Sc.
University of Chicago
Diana J. Schaub, Ph.D.
LoyolaCollege
Carl E. Schneider, J.D.
University of Michigan
INDEX
- Session 5: Newborn Screening for Genetic Disorders
- Session 6: Newborn Screening for Genetic Disorders
- Session 7: Public Comments
SESSION 5: NEWBORN SCREENING FOR
GENETIC DISORDERS
CHAIRMAN PELLEGRINO: This morning we turn to a new
topic, Newborn Screening for Genetic Disorders. Our first speaker will
be Dr. Duane Alexander, who is Director of the National Institute of
Child Health and Human Development, National Institutes of Health.
Dr. Alexander, we usually do not go into a lengthy
curriculum vitae, simply because it's so long and so impressive
that we want to leave time for you to speak rather than spend it all on
your biography. So if you would be kind enough, we're delighted to
have you address us.
DR. ALEXANDER: Thank you very much. That's the best kind
of introduction, is a very brief one.
Thank you for the opportunity to speak with you today on a
topic that's very dear to my heart, something that I've been
involved in for a long time, something that I am not involved in as a
geneticist or a professional genetics screener, but as a pediatrician
who has had some experience in the ethics arena, but has been dealing
throughout his career with the field of developmental disabilities and
mental retardation and ways to alleviate those particular problems and
disorders, by prevention when possible and by treatment to the fullest
extent that we can.
I'm going to be talking with you about newborn
screening, and I'm going to begin with a highly visible
disclaimer. These are usually in small print at an end, but the fact
is that much of the factual information that I'm presenting is
clear and referenced and well defined, but I will also be presenting to
you some opinions that are quite clearly my own, not necessarily those
of the Department or of the NIH or of the NICHD.
Some of these have been vetted and cleared for publication
by the Department, an article by Dr. Van Dyck and myself that's I
believe in your folders, but that has a disclaimer on it as well as
representing our views and not necessarily those of the Department.
And it's very clear that that be understood.
Now, newborn screening has been around really as long as
medicine has for particular defects or problems with the infant. We
look at the newborn infant, we count numbers of fingers and toes, we
listen to the heart for heart murmurs or successions of heart disease,
or look at the skin color. We look at the genitalia for abnormalities
and other parts of the anatomy as well.
We even look at the baby with the idea of genetic disorders
in mind, for Down's Syndrome, we look for ephocanthal folds,
low-set ears, transverse Palmer crease .. this is something that's
called a simian crease .. and we were diagnosing Down's Syndrome, a
genetic disorder, long before we knew it was a genetic disorder, and
far longer than we knew that it was caused by an extra chromosome 21.
So the idea of newborn screening itself is not new. What
is new is using laboratory studies to help with that process of
screening the newborn infant for genetic disorders. And it really
begins with the story of phenylketonuria. It's important that you
understand that background, because it not only was the first but
it's the model on which we learn about newborn screening for other
disorders.
And some of the problems we've had with it, some of the
unexpected things that have occurred, and how we've dealt with them
are all important for you to have as background for understanding
what's going on with newborn screening today and presents to us
some of the ethical issues and concerns. So I'm going to spend a
fair amount of time about .. talking about the PKU story.
It really began in 1934 with a description of the condition
for the first time by Foling, who observed several patients with
phenylpyruvic acid in the urine in association with their severe mental
retardation, and he called this condition phenylketonuria.
It was clearly due to a deficiency of an enzyme that
converts phenylalanine to tyrosine, so that phenylalanine accumulates
in the blood, crosses into the brain, and the high levels of
phenylalanine are toxic to the developing brain and caused the mental
retardation and some of the other adverse symptoms of the condition.
No therapy was possible. People started to question
whether it might be possible to reduce the amount of phenylalanine in
the diet and, therefore, reduce the phenylalanine levels in the blood.
There was no good way to do that at the time. Phenylalanine is one of
the essential amino acids. It's part of protein, and it's
essential because the body can't make it itself. It has to be
supplied to some degree in the diet.
But in persons with this condition, just the amount that
they get in a diet is too much for their systems to handle, because
they can't get rid of the phenylalanine by converting it to
tyrosine, and so it accumulates and causes the damage. It was very
difficult with the knowledge from the '30s to the '50s to make
a diet sufficiently reduced in phenylalanine to really do studies, but
some people did this.
They tried the treatment of people who already had
full-blown PKU with all of the symptoms, and some people reported some
suggested improvement, but for the most part there was no evidence of
any benefit by this kind of late treatment of people who had already
been damaged.
The only people who could benefit were the siblings of
people who were born to some .. to parents who had already had a child
with PKU and who could be identified in the newborn period and be
treated with a low phenylalanine diet. This was done, and there was
enough evidence of benefit that people thought that they ought to try
to do this in a better way.
This required two things .. first, a better source of
dietary protein that was free of phenylalanine; and, second, a way to
identify not just siblings of affected individuals who are very few
contributing to the problem, but people who had no family history of
the disorder and were born with hyperphenylalanine and were people who
could potentially benefit from treatment if we had a low phenylalanine
diet.
In 1958, the infant formula industry developed a product called
Lofenalac, which was markedly reduced in phenylalanine. It didn't
taste very good, but it worked. And people who were identified
early .. sibs of affected individuals .. did show clear benefit
from this reduced phenylalanine diet.
Then, the remarkable breakthrough occurred by a
microbiologist, not a pediatrician, named Bob Guthrie. Dr. Guthrie had
a mentally retarded son, and he had a niece who had phenylketonuria,
and he attacked this as a problem of trying to develop an early
diagnostic test that would work in infants. And what he came up with
was something that was quite ingenious, that a microbiologist, not
somebody else, might think of.
He identified a species of bacterium, a very common
organism, called bacillus cedillas that was deficient in the ability to
produce phenylalanine and required phenylalanine to be provided in
order for it to grow. Without phenylalanine, it didn't grow. What
he did then was plate agar plates about the size of a cookie sheet with
cultures of bacillus cedillas, and held those in reserve and then would
put onto that cookie sheet of agar the .. a sample of blood from
newborn with or without phenylketonuria.
Without elevated phenylalanine in the blood the organism
didn't grow, didn't have the substrate that it needed for it to
grow. But if there was elevated phenylalanine in that blood spot, the
organism would grow and you get a growth ring around the spot of
blood. The blood was collected on little pieces of filter paper, just
little dots about half an inch in diameter, and used in a project to
test and see whether you could screen newborn infants this way.
And Guthrie's test worked. You could clearly identify if
you .. if the baby had been on milk formula for one or two days,
those who had elevated levels of phenylalanine. Guthrie announced
this test in 1960, and there was a rush to apply it across the whole
arena. Even though it was very clear that phenylketonuria was not
a very common cause of mental retardation, it was represented in
institutions for individuals with MR (mental retardation), but it
was a relatively small contributor.
When these individuals were picked up as newborns, and the dietary
treatment with Lofenalac was instituted within the first couple
weeks of life, these infants grew normally, they developed normally,
and appeared to be spared the ravages of phenylketonuria.
There was not a study done immediately about this, but just
a few anecdotal cases were sufficient to spark an interest in the whole
mental retardation community and really helped to start a revolution in
mental retardation research. The picture of mental retardation
research before 1960 when Guthrie's test became available was not a
pretty one.
It was mostly conducted in institutions for individuals
with mental retardation. It was not a topic that was either taught or
researched very much in medical schools. It was frowned on as a third
rate field. The people who were doing the research were pretty much
limited to people who worked in state institutions for individuals with
mental retardation, and you never saw a person with mental retardation
on a medical school campus or in a hospital.
This was the sad state of affairs, and one of the reasons
was the belief that this was a futile area for study. There was
nothing to be done for these individuals. We could not improve their
condition, we had no means of treatment, we had no means of
intervention.
The PKU test changed that. All of a sudden there was a
means of detection and prevention of these terrible disabilities, and
the idea was if there's PKU, there may be other PKUs out there.
Can we find them? If we can find them and identify them, particularly
in newborns, we may be able to develop treatments akin to what we are
able to do for PKU that will alleviate other disorders that cause
mental retardation, and the search began.
People who previously had shunned the field of mental
retardation entered it. This was spurred in part by a stimulation of
the Joseph P. Kennedy, Jr. Foundation, which the Kennedy family
started, and they funded scholars in mental retardation, they funded
centers in mental retardation, and this shifted and emphasis as well
from places .. from these people working in institutions to working in
academic centers .. again, the idea being, can we find and treat other
PKU-like conditions?
The timing couldn't have been better, because President
Kennedy .. John Kennedy was elected in 1960, the same time as the PKU
test became available. And he, as part of his transition team in
Health Education and Welfare, included Dr. Robert Cooke, who had .. who
was Chair of Pediatrics at Johns Hopkins and had two retarded ..
mentally retarded children of his four children, and had a very
profound interest in mental retardation.
He proposed establishing a new institute at the NIH to focus on mental
retardation and development in general, to be called the National
Institute of Child Health and Human Development, to provide a focus for
research on mental retardation. President Kennedy also appointed a
President's Committee on Mental Retardation that still exists
today.
It has just changed its name to President's Committee on
Intellectual Disabilities in keeping with the trend of the time, but
that still exists. And that committee made a number of
recommendations, including efforts .. making efforts to try to reduce
the prevalence of mental retardation by 50 percent by the year 2000.
This was the extent of the optimism that was triggered by the ability
to screen for and treat and prevent PKU.
Legislation was also passed as part of President Kennedy's program
to construct 12 mental retardation research centers at universities and
academic health centers, not at the institutions, to bring this
research into the mainstream of biomedical research in the country.
They also established .. again, part of President Kennedy's
legislative program .. university-affiliated facilities for mental
retardation in a number of states, and now each state has at least one
of these, for research on .. not medical treatment but behavioral
treatment, educational treatment, social treatment, for individuals
with mental retardation, and for training personnel to work in this
field.
Also a part of this was a campaign begun by the Advertising Council
spurred by the President's Committee on Mental Retardation, by the
National Association for Retarded Children, to make PKU screening
universal. Their slogan was: PKU tests should be a must for all
babies everywhere. This was done without real evidence of efficacy
other than basically anecdotal case reports. There had not been a
combined study really looking at this in a scientific way.
So the Children's Bureau joined with NICHD in funding a study of
efficacy. This was based on a recommendation from a report from the
American Academy of Pediatrics in 1965 that said a collaborative study
to evaluate management of this disease would be valuable.
They also pointed out that without any citation that there was evidence
of some infants actually being harmed by unnecessary treatment for
phenylketonuria when they really didn't have it, because they had
some variant of the disorder that was relatively benign, and other
infants who had suffered malnutrition because the restriction of
phenylalanine from the diet was so severe. You have to have some. You
can't eliminate it totally. And some people in the zeal for this
treatment eliminated it too much, more than was appropriate, and some
babies did suffer malnutrition as a consequence.
So in 1967, this collaborative study was launched of children with PKU,
and the data from this study showed clearly that early treatment led to
normal growth of these kids, their IQ levels were comparable to those
of their unaffected siblings, and that the diet should be maintained at
least throughout childhood.
The best predictor of efficacy was the age at which the dietary
treatment began, and second was the degree of dietary control that was
maintained.
So with this information, then, more and more states began to pick up
and screen. Massachusetts, New York, Louisiana, and Rhode Island led
the way, and many other states joined. By 1975, 43 states had mandated
PKU screening.
We had learned that its prevalence was 1 in 14,000 births. We had
discovered variants, particularly a non-PKU hyperphenylalanine anemia,
that did not require treatment. We had also started to learn about
what we knew was going to happen, the problems of false positives and
false negatives. At that time, in the early days, about 95 percent of
the babies who screened positive were false positives. Only 1 in 20
who tested positive actually had the condition, so there was a fairly
high ratio.
False negatives, up to 10 percent in the early days were missed. Most
of these misses were people who were not appropriately .. who were not
screened in the hospital. Today our figures are a little better. The
prevalence is 1 in 14,000. We identify in 14,000 about 10 kids who
test positive by screening. Only one of those has PKU, so we've
lowered it from only 1 in 20 being positive to 1 in 10 being positive.
We still have a rare, rare false negative. These are almost
non-existent. And if there are kids who were missed, they were not
generally screened in the hospital. It's not the lab test that
fails; it's the fact that they were born at home or for some other
reason didn't get screened in the hospital.
So we've made major efforts to improve these, and that's about
where we are at the present time. You can't totally eliminate your
false positives, because of the way these levels are distributed in a
population, and what you have to do is draw a line, your cutoff, of
babies who are called back for a retesting for a confirmatory test, so
that you can not miss kids who should be tested. And that's a very
tricky thing. It has to be done differently for each disorder we
screen for. But, again, here's the lesson, the model from PKU.
Okay. Other problems with PKU. One was dietary management. We
didn't know at the beginning how low we had to keep phenylalanine
in order to allow for normal growth but to avoid the adverse
consequences of phenylalanine being too high. Over the years we
learned that the level should be about six milligrams per deciliter,
and that has been the target for control.
We also didn't know how long to continue the diet. The studies
early on suggested that it probably should be continued through
childhood. Initially, people said age seven and then let up. Now
people believe I think it certainly should be continued throughout
childhood.
Adolescence is tough. There's an awful lot of phenylalanine
in a hamburger, and these kids have to stay on some dietary restriction
that's hard to do and have a good bit of their protein intake
coming still from Lofenalac in order to avoid still some consequences
in their behavior, their intellectual functioning, their general
sense of well being, as teenagers, and it looks like this carries
over into adulthood as well.
Then, there's the problem of maternal PKU. This really did take
people pretty much by surprise. What we did was create a population
that had never existed before .. that is, a group of women who instead
of being severely retarded and basically out of the reproductive pool,
were now functioning normally, marrying, and having children. They had
high phenylalanine levels during their pregnancy, and it turned out
that the phenylalanine crosses the placenta and is toxic to the
development of the brain and other body parts in the fetus.
Even though the fetus does not have phenylketonuria itself, and it is
an obligate carrier, but it does not have PKU, but it is adversely
affected by the high levels of phenylalanine it is exposed to during
the pregnancy, because of the mother's high levels. And as a
consequence, those babies are born microcephalic, many of them have
heart disease, they stay small, and they are mentally retarded.
Generally, their mental retardation is not as severe as people with
untreated PKU, but it is severe enough to be significantly
problematic. What the data showed, then, was that if each of these
women had two children .. and all of them are affected, there was no
escape .. we would have as much mental retardation due to PKU in a
generation as we had before we started the screening program.
Something had to be done.
Rather than give up screening, we've looked for a way to try to
deal with the problem of the high phenylalanine levels in pregnancy.
And the obvious approach was to try to reinstitute the diet during
pregnancy, ideally before pregnancy, keep the mother's
phenylalanine levels as low as possible, six was the target, and see if
this would not reduce the likelihood of hyperphenylalanine anemia in
the mom, crossing in the placenta into the baby and affecting its
developing brain.
This was tried. NICHD actually organized a collaborative study that
started in 1984, went on for about 15 years, and that study
demonstrated very clearly the benefits of this dietary approach. It
also showed how difficult it was. Many of the women were off the diet
before they got pregnant and had instituted it again during early
pregnancy. It was very difficult to do. Some women just could not do
it.
The ones who did the best and had the best outcomes, basically normal
babies, were the ones who had instituted the diet before they got
pregnant, kept their dietary control around six during the pregnancy,
and the babies basically were minimally affected, although that was not
100 percent, and essentially were normal.
The moms who were not able to achieve this still had the problems with
babies who were damaged by the phenylalanine exposure. So NICHD held a
consensus conference on this topic after the study was done trying to
bring attention of the scientific community and the OB/GYN and
pediatric communities to this as a problem .. the fact that there was a
solution, it was a hard one, but there was a way to avoid this as an
issue.
And today I think there is general knowledge in the OB/GYN and
pediatric communities about this as a problem. What we don't
always know is that the women are phenylketonuric, because they appear
normal in so many ways, unless the moms tell and unless we remember to
ask.
The other thing that happened was the addition of new disorders to the
screening. With the success in PKU and the development of means to
detect other conditions, it was pressed for these to be added to the
conditions we screened for. The most successful of these was
congenital hypothyroidism. This has a prevalence about four times as
high as that of PKU, about 1,000 babies born in the United States each
year with congenital hypothyroidism, compared to about 250 with PKU.
So if the problem with congenital hypothyroidism is that, again, these
babies don't look any different than other kids at birth. They are
very hard to pick up, because the mother's thyroid has protected
them during pregnancy. But once they lose that maternal thyroid
hormone, they start to develop symptoms.
Thyroid hormone is necessary for normal growth and brain development.
Without it, the kid's growth slows, their appearance changes, and
their intellectual development suffers irreparably. If we don't
pick these kids up by three to four months of age and institute thyroid
hormone replacement therapy, they are marked for life.
They do not improve their mental function. They may change their
physical appearance, but that brain development that is so critical in
those early months has not taken place in the absence of thyroid
hormone stimulation, and they permanently are mentally retarded.
Dr. Del Fisher, a pediatric endocrinologist at the University of
California-San Francisco, in the 1970s said, "I think we can
develop a test to screen for congenital hypothyroidism like we screen
for PKU." It's different, it's not genetic. It's
like a birth defect that is sporadic. The thyroid gland basically
doesn't grow. There is a very small portion of this that is
genetic that's based on an enzyme deficiency in making thyroid
hormone, but that's a very small subset of the group. Most of
these kids do not have thyroid glands.
If we replace that absent thyroid gland with thyroid hormone, which is
very cheap, very easy to do, these kids grow normally, their brain
development is normal. So he set out to develop a screening test using
the same filter paper blood spots that we used to screen for PKU and
was able to develop a micro-assay for thyroid hormone and
thyroid-stimulating hormone, was able to pick up virtually every kid
with congenital hypothyroidism.
The thyroid hormone is very low. The thyroid-stimulating hormone, TSH,
is very high, because it's responding to the lack of thyroid
hormone and overworking, trying to make something make a hormone that
isn't there. So with the combination of these two assays,
basically you've demonstrated you could pick up all the kids. Dr.
Dussault in Quebec demonstrated in a province-wide study that this
screening system worked and states rushed to add it to their screening
armamentarium. And very quickly it became mandatory, along with PKU.
But in 1975, a National Research Council report on newborn screening,
particularly for PKU, was issued and it was cautionary in several
ways. First, it said, "Do not rush to add too many new tests to
screening, until you have systems in place for medical education to
know how to deal with these, to counsel parents, to provide information
so that misinformation is not there, and kids don't get treated
inappropriately."
They also issued what sort of was practiced in the community but became
dogma, which was a recommendation that you should not screen for
anything that you don't have an effective treatment for. And that
dogma has persisted until just .. until recent years.
I'm going to skip now over the intervening years until today and
look at where we are. Here's where we stand today with newborn
screening. This is data as of June 1st. You can see that there are
nine states that screen for more than 50 disorders. What has made this
growth possible is the development of what we call tandem mass
spectroscopy, where we are able to use a technique that looks at
proteins, enzymes in the blood, as well as accumulated abnormal
products, and detect those in a way that multiple things can be
detected at once. So you basically with tandem mass spec can detect as
many as 50 disorders, and the number of those is growing.
So there are nine states that are screening for 50 or .. for more than
50 disorders. There are .. and you can see the other numbers right
here. There are only three states that screen for less than 10, so
that this system of screening has grown markedly, and a lot of that
growth has occurred in the last two or three years with the advent of
tandem mass spectroscopy.
With the report from the American College of Medical Genetics
recommending the expanded use, and the adoption and endorsement of that
report by the Secretary's Advisory Committee, this has markedly
expanded. So you can see the current picture of newborn screening.
How fast is this? How quick can we get answers? I can give you one
example. The State of Iowa screens for 53 disorders. They pick out or
they get samples sent to the state laboratory every day by 5:00 p.m.
All those samples are at the laboratory by midnight. They work 24
hours a day, seven days a week. They run those analyses. The results
are back to the hospital by 5:00 p.m. the next day, 24-hour
turnaround. That's very, very, very fast.
So we are able to pick up these kids by really a day after the heel
stick is done. Not every state is that fast, but the rest are not far
behind that kind of a record.
Now, we've learned, as I said, a lot of lessons along the way from
PKU screening, from congenital hypothyroidism screening, from
galactosemia screening, from screening for many of these other
disorders. And basically, we've learned from this process enough
that I believe we can proceed with caution to avoid harm. But we must
proceed to take advantage of the preventive potential of this technique
of newborn screening.
And if we apply the lessons we have learned as we have broken this new
ground, we didn't do it perfect the first time around. We learned
along the way, but we have learned a lot and there is carryover
applicability to virtually each of the other conditions that we would
screen for. And if we apply these lessons we learned as we broke this
new ground, we can implement expanded screening responsibly.
Now, how do we proceed? There are a number of guidelines here that
I'm just going to run through very quickly, and then I'm going
to spend some time on each of them in order. First, I think we need to
make the programs comparable across the states. We need to improve the
technology that we use in screening, emphasizing DNA-based approaches.
We need to aggressively pursue development and testing of therapies for
disorders that currently we could screen for, but we don't have
effective treatments for them. We need to evaluate the tests to
minimize the false positives and the negatives, and have a confirmatory
test system in place that can operate very quickly to evaluate kids who
screen positive and have a good system of parental counseling,
especially for those with the false positives, so they don't
continue to think "something is wrong with my kid."
We also need for the treatable conditions to have a science-based
service delivery and a followup system in place, so that these children
do get appropriate treatment, and expand our screening to include
disorders that don't yet have proven preventive therapy available,
and also provide a registry of these patients with parental approval,
so that they will be available for future research participation if the
parents agree to do that, because only in this way can we develop,
test, and evaluate effective treatments for the conditions we don't
have treatments for now.
Let's take a look at each of these now in order. First, making
newborn screening programs comparable across the states. These
programs vary from state to state. Remember the map. These are state
programs; they're not Federal Government programs. The Federal
Government has provided assistance to the states through the Maternal
and Child Health Bureau grants to develop and implement these screening
programs.
But the government has not dictated what you screen for. The states
choose that. They choose it in a variety of ways. Sometimes the
legislature itself dictates which conditions will be screened for.
Sometimes they set up a commission. Sometimes they entrust the Health
Department to do it. But each state winds up with essentially a
different group of conditions for which they screen, and, again,
remember the map.
They decide this in a variety of ways. It can be either based on
legislation, on a payment system, what they'll pay for, what the
costs of the individual tests may be. Some are more expensive than
others, and essentially you're paying for each test separately,
except for tandem mass spec, and a variation in prevalence of the
conditions by state.
North Dakota or Montana may not have very many people who would be even
at risk for sickle cell disease, and they may not want to spend
whatever additional it costs to screen for that condition.
So this is really what got me involved, I will confess to you, in
newborn screening, was this problem of variability across the states.
And this is .. I got involved with this, I will tell you, by a letter
that was referred to me by Hillary Clinton when she was First Lady.
She had gotten a letter from a constituent. She passed it on to me to
respond to. I'm going to read to you a piece of this letter,
because it had such a profound effect on me, making me determined to
try to do something about this if I ever got the chance, that I think
you ought to .. because it sets the case forward so well. And I'm
going to just take a minute to read this.
The letter was from the mother of an infant with a very rare condition
called glutaric acidosis. The cause of that condition was first
described in 1985 by Steve Goodman at the NICHD-supported University of
Colorado, Mental Retardation Research Center. It's a genetic
disorder that causes an enzyme defect.
The affected children appear normal at birth with no suggestion of
abnormality until enough brain injury occurs at around one year of age
to cause poor muscle tone and movement problems. Treatment by dietary
restriction of lysine and tryptophan is at least partially successful
if instituted before the brain injury occurs, again like PKU, but is
useless once symptoms appear.
This mother's poignant story illustrates the problem of a
policy of screening for a disease that is based on cost and rarity.
Here's her letter. "There's a two-year old boy with
golden curls, bright blue eyes, and an incredible will to walk and
run, talk and play. His story, however, is one of constant struggle
and heartache. He was born prematurely. Although small for his
age, he did all of the things that normal babies do.
"On Christmas Eve, one month before his first birthday, the real
tragedy began. With the entire family at home ready to celebrate all
the joys of the season, he was sick. Held close in his father's
arms, his limbs were limp. His golden curls dangled as his head fell
back.
"No one could possibly imagine the diagnosis. In the local
hospital he was subjected to a variety of tests. The doctors were
baffled; all tests were negative. But his condition remained the same,
even worse. His motor skills had regressed to those of an infant.
After months of prodding and poking, he was diagnosed with a rare
genetic disease .. glutaric acidosis Type I, a genetic disorder that
could have been detected at birth with a $17 routine test.
"Instead, it is a disease that results in brain deterioration.
There are approximately only 70 cases known in the United States, less
than double that figure worldwide. Each story is equally
heartbreaking. The statistics are grim, and research minimal, due to
the small number of children affected."
That's the end of the letter. This letter goes on to talk about a
foundation that parents set up to support research and education and
provide support for other parents. Resolving this screening dilemma is
a major problem we face when we have a preventable disease that we can
screen for, but the rarity and the expense mitigate against doing so.
So that's the situation we face.
Equity across states, I believe, is an ethical imperative. Mandating
it is difficult. Another approach would be to try to develop a test
that tests for everything at once, with one cost, no difference between
how many tests you test for. If you test for five, it's the same
cost as if you test for 50 or 100 or 200. And that test could then be
so attractive that every state would want to adopt it.
For a long time such an idea was only a dream, but with new genetic
technology it now becomes possible to think about doing that and try to
develop a single, unified test system. Tandem mass spec comes close,
but it is limited in the number of disorders it can screen for. It is
not a gene-based test. It's not a DNA-based test. It's a
product .. a gene product-based test. And so we're still trying to
find this single DNA-based test.
So the current system basically is a different test for everything you
want to screen for. Congenital hypothyroidism is different from the
bacterial assay of PKU, which is different from the gene assay for
something else, or a biochemical assay, or an endocrine assay, or
whatever.
Tandem mass spec has changed this a lot, but it still doesn't go as
far as we need it to go. And so we're looking at potential
DNA-based systems. If we could have this, we could screen for
basically anything we have the gene for. We could screen for all of
the genetic metabolic diseases that have mental retardation or neural
degeneration associated with them.
We could screen for all the immunodeficiencies, all the
hemoglobinopathies like sickle cell disease or thalycemia, all the
coagulopathies like hemophilia, all the muscular dystrophies,
Dushen's, spinal muscular atrophy, for cystic fibrosis, for
hereditary deafness syndromes, and others as well. The numbers go into
the hundreds.
And each time we discover a new gene or a new abnormality of a gene the
number of conditions would go up. The only exception that couldn't
be done this way is congenital hypothyroidism, which as I said is not a
genetic disorder. We would still have to screen for that separately.
So NICHD almost a year ago put out a solicitation for contract
proposals to develop and test new approaches to newborn screening
focusing on DNA-based systems. Now, we have received applications for
those. Those are in the review process and will be negotiated and
hopefully funded early in the next fiscal year.
We are optimistic that these systems will work. Now, there's two
basic systems. Excuse me for a minute. I want to pick up one of these
things. This is a microchip, DNA microassay, microarray. This one is
for the mouse. This chip has 45,000 genes on it, basically a whole
genome of a mouse. That's how fast this technology has come along.
Basically, there's a separate little dot, a well for each gene, and
basically what we can do is digest the DNA, break up the DNA of the
genome of a mouse or of an infant, newborn, and expose it to .. with a
special technique to this chip, and any abnormalities that are detected
will be .. can be detected by a color change of the little dot on this
chip that's read by a computer. I'm going to pass this around
so you can see it.
Potentially, we could screen every newborn with this kind of a system.
If we put on a chip, just not 30,000 genes of the whole human genome,
but the genes that we are interested in screening for, for conditions
that we're interested in screening for, either the normal gene to
make sure that what we see in the infant is normal or the
abnormalities, the genetic .. specific gene abnormalities of the
conditions.
That gets a little complicated. Some of these conditions only have one
or two known gene abnormalities. Some have several hundred, like
cystic fibrosis. So the technology for doing this still needs to be
developed, but we're determined to proceed with trying to do this.
There's a second technology that has come along and is in early
testing phases. It's called Luminex microbeads, and it replaces
this gene chip with a microbead system. Each of the beads has annealed
onto it oligonucleotides, small fragments of a gene of particular
interest. Here we can make a bead for a given gene of interest, and,
again, expose the chopped up DNA of the infant to the beads in this
case rather than to the microarray chip, and, again, with lasers and
computers identify which .. whether there are any abnormalities of
interest.
We don't, again, have to put the whole genome on it. We put on
genes of interest, ones that are associated with the abnormalities that
we want to screen for.
This is another technology that's coming along. It has some
potential advantages over the microarray chip. It's simpler to
use, it's easier to change, it might even be cheaper. So these are
things that are coming along and that we are investing in, trying to
develop an enhanced capability to screen, and to have a test that is so
attractive, so simple, and not too expensive, so that every state will
want to use this in their screening program, and no longer will there
be this state-to-state variability, so that what you get screened for
depends on the state in which you're born.
Imagine being the physician who had to tell a mom that .. who has an
injured infant that, "If you had been born in the neighboring
state, your child would have been screened for this disorder. It would
have been detected, we could have initiated treatment, and your child
would be normal." That's what we've got to get away
from. That's why we've got to push the development of this
technology.
Okay. So the next thing, if we're going to develop capabilities
for screening like this, we also need to develop improved approaches to
treatment. And what we need to do here is remember that part of the
justification for screening for these disorders is to identify a
population that is presymptomatic, so that they don't have damage
before we have an opportunity to try therapies.
Once they've developed these .. the brain deterioration or lost the
brain development, it's too late for any known potential therapy.
And so they have to be picked up as newborns. Only newborn screening
can do that.
So what screening has the potential to do is to make available
populations of patients with these rare disorders .. there's not
many of them .. for study of new treatments as we get ideas for these
approaches and be able to use to .. approach the families of these
children before they get symptomatic ideally, and roll them .. with
their permission .. in trials of new therapy developments.
In companionship with our solicitation for new screening technology
development by contracts, NICHD also put out a program announcement to
the scientific community asking them to submit their ideas for new
therapeutic approaches to conditions that we could screen for but
don't have effective treatments for at the present time.
We have already received a number of proposals. Some of these look
very good and are all set to get funded. This is an ongoing
solicitation that runs over three years, and I hope that we will get
many projects, many ideas from investigators for therapeutic
interventions.
We also by doing this will have an opportunity to enter patients in a
registry with the consent of parents, and I'm going to spend a
little more detail on that in a minute.
We also need to evaluate tests to minimize false positives and
negatives as they are entered into the screening system. Clearly, as I
indicated before, there's a balance in where you draw your cutoffs,
particularly so that you don't have too many false positives, but
you don't miss patients at the same time. And this is tricky.
There's also some variability from lab to lab, and there's
needs to try and make practices in labs as comparable as possible.
Again, with these new techniques this lab-to-lab variability should
basically be eliminated.
There's concerns of the costs and the parental anxiety with these
.. particularly by the false positives. Each false positive requires a
subsequent visit and a workup and evaluation. They cost money. They
also worry parents. You get a phone call, "Your child screened
positive. We need to do a followup. It may not be anything, but we
need to check." And immediately the anxiety meter goes off the
scale. So we need to minimize those false positives to the extent we
can to avoid both the cost and the anxiety.
The Secretary's Advisory Committee on Inheritable Disorders and
Genetic Diseases in Newborns and Children is evaluating each of these
proposed new tests before recommending its addition to a treatment
regimen, taking into account this issue of false positives and
negatives.
There's also an ongoing monitoring and standardization needed, that
the system of regional collaboratives .. there are seven .. each state
is part of one of seven regional collaboratives network, and it's
headed by a national coordinating center. And this gives us the
opportunity for monitoring and standardization across the state sites.
We have to have in place a confirmatory test system with parental
counseling. Again, the problem with the false positives, we have to
have .. these are just part of a screening. Remember, this is
screening. This is not diagnosis.
The screening must be followed by diagnosis, often a second screen. If
the second screen is negative, then we just can kind of relax. If the
second screen is also positive, then we go on to a confirmatory test
and make sure whether .. that the person in fact has the disorder and
what the nature of it is and can institute therapy.
Again, we have the system of the regional collaboratives and the
national coordinating center in place to make sure that patients who
screen positive get referred for this confirmatory testing, and this
has to be done very quickly in order to initiate therapy when it's
needed, and the results have to get confirmed by experts, a system of
referrals has to be in place, so that we get the best information for
these, and this information has to be passed on to the families.
The treatment initiation has to be done. There has to be a system in
place, so that these kids don't fall through the cracks, so that
there is an expert system of care for those who test positive and have
a disorder that we can treat. And, again, the regional collaboratives
follow .. provide this, and we need to learn as we go, so we must have
a system in place with these regional collaboratives as they begin
treatment, particularly for disorders where we don't know what
standard treatment should be, or we're testing new ones, to follow
these, to gather data, so that we can evaluate these new treatment
approaches.
Finally, we need to expand screening to diagnose .. include disorders
without definitive treatment. Now, this goes against the dogma, and
this is probably the biggest challenge that we have. Why do we want to
do this? Again, as I mentioned before, even though the standard belief
has been don't screen for something you can't treat, we now
have confronting us not just the definitive preventive or therapeutic
treatment, but other ancillary treatments for these kids as well.
There are some things that you can do for these children that don't
necessarily mean a curative treatment, but they improve their quality
of life and their ability of parents to care for them, and their
ability to get programs and services in the community. So there is
benefit to the child from having this diagnosis, even if there is not
definitive therapy.
In addition to that, the only way we are going to develop therapies for
these conditions is to be able to diagnose them before symptoms
develop. And the only way to do that is through newborn screening.
The requirements here I believe should be .. include consent. Most of
the state programs for newborn screening for conditions now do not have
a consent. A few states do, but they are part of standard treatment,
and their parents do generally not sign a form to consent for these.
If you're going to screen for conditions that don't have
a treatment, some parents might like not to know about that, and
they should .. this is being done in part as research, and parents
should have the opportunity to be informed that this is being done
and have the opportunity to opt out if they wish to of this part
of the screening, not for the mandatory parts where we have clear
benefit to the child. But if there's not evidence of clear
benefit, this, again, is .. this is my belief, they should be asked
for their consent to this screening.
There should also be counseling for the parents, and there should be
supportive treatment available for those who have conditions that are
diagnosed that we don't have effective treatment for. I also
believe that there should be an opportunity offered to the parents to
have their child listed in a registry that would be maintained either
by the regional collaboratives or by the Centers for Disease Control or
some other possibility.
This, again, would be offered to the parents, an opportunity to list
their child on this registry by disease and disorder with contact
information for the parents, agreeing to be contacted by investigators
if someone comes up with a potential trial for a therapy that .. for
these disorders.
What drives this is that many of these disorders are so rare nobody can
get enough of a population at their own academic health center to
test. And it requires not just a collaboration of 10 or 20 academic
health centers, but the whole national network of screening to get a
sufficient number of children presymptomatically to do the studies once
they're ready for human testing of these therapeutic interventions.
So this would be kept confidential, and parents would just agree to be
contacted, not necessarily to participate, but to weigh the study and
decide on each study's basis whether they want their child to
participate in this or not. And the outcomes of these studies would
also be maintained by the registry, so that we gain knowledge of what
the effects of these interventions are.
Okay. That brings us to my final slide, and this is what I call the
legislative and ethical imperative. And this is perhaps the key to the
whole success of this operation of newborn screening. Basically, it
relates to a belief that nobody's DNA information should be used to
discriminate against them in employment or insurance.
And unless we assure by national legislation that such discrimination
won't happen I think parents are going to be reluctant to have
their newborns screened in a public program, particularly for
conditions if we don't have a treatment for them. What they will
worry about is that this will disqualify their children for insurance,
it will disqualify them later as adults for employment if they have a
condition that, you know, may not develop until later on, and this
proceeding with caution .. as we've talked about from the
beginning, "proceed with caution" includes providing this
protection as well as all of the medical and the laboratory procedures
identified.
I think that if we have learned enough from the experience that
we've had starting with PKU, and involving numerous other disorders
as well, that if we apply what we've learned and we can have the
necessary funding support and continue to learn as we go, that newborn
screening can take its full place among the most significant and
effective public health measures of all time.
Thank you for your attention. This has been a long talk. I'll be
glad to answer any questions.
(Applause.)
CHAIRMAN PELLEGRINO: Thank you very much, Dr. Alexander, for a very
enlightening overview of a very complex problem. We appreciate it
very, very much.
I'm going to ask now a Council Member, Dr. Floyd Bloom, to open the
discussion. Would you, Dr. Bloom?
DR. BLOOM: I enjoyed reading your paper and hearing your talk
to spell out the details of your paper, but it brings up the fact that,
while I don't think that anyone could argue with the concept that
if we could prevent mental retardation due to a post-natal screening
procedure that we'd want to do so, obvious as that is.
The question is .. you've named the points .. the cutoffs, the need
for evolving technology to improve the breadth and sensitivity and
accuracy of the tests. And when are we ready to implement such tests?
As you say, the Luminex technology looks as though it will displace DNA
chip technology.
You raise a very radical concept of screening for things even
if we can't treat them, because unless we can identify who has
them we'll never be able to develop treatments for them. I
think those are all very laudable, but I foresee great difficulties
in getting states, particularly poor states whose health budgets
are already compromised, to invest in such testing, particularly
with such rare disorders.
Maybe just to get your discussion aspects going, I'll take you to
one aspect of your paper with Dr. Van Dyck in which you said perhaps
the biggest set of discussions will involve deciding what not to
include in the set of tests, and there you list Huntington's
Disease as something not to include. But it seems to me that fulfills
all of the criteria by which you listed the tests that you want to
include, even though we can't treat them.
And Nancy Wexler has many poignant stories of people who grew up
thinking they had the gene and lived their lives as though they were
going to die and then found out they didn't, whose lives were then
wasted, and people who grew up not knowing creating additional children
with the genes and thereby perpetuating the problem.
And one could contrast that with the prenatal testing for Gaucher's
Disease where the community involved and vulnerable to the disease
decided to have all their children tested, so that that recessive
disease could be identified and to avoid matings among people in whom
the recessive pairings would perpetuate that disease. And that has
been largely eliminated.
So my question is: why did you put Huntington's Disease on the
question of not to be tested for, and why do you not also focus
intensively on prenatal testing as well as neonatal screening?
DR. ALEXANDER: Okay. Good and difficult questions.
Huntington's was thrown out as one example for discussion for
consideration, and probably the one where there has been much .. most
discussion and controversy about screening. I think where people have
come own on that is allowing individuals to decide when they have
capabilities for decisionmaking, whether they want to be screened for
that or not.
The consequences of that disease are so devastating, but they fail to
appear until relatively late in life, after child-bearing is over, that
parents knowing about that particular one where there really is nothing
that we have to offer at the present time may well treat that child
differently. If that child is told what they have, and they may well
not be, knowing .. just knowing that information may be extremely
difficult in terms of the life choices it presents, and so forth.
I did not put that down as an absolute, just as an example of something
that might be considered, maybe at the top of the list, as a prototype
for conditions that you might exclude from this.
So I think you're quite right in raising the question, and
responding exactly as I hoped people would, and thinking about, are
there conditions that we might not want to screen for, that we
can't treat for, can't treat, and just use Huntington's as
probably the most familiar example of something that might be in that
category?
As far as, you know, the state decisions, and so forth, part of the
drive here is to develop a technology that can screen for with
basically one test instead of multiple tests, at one cost, many
conditions, so that you don't have to look at the individual cost
of adding/not adding each test. And that's what we would hope the
microarray or the beads might provide.
As for the issue of screening for conditions that we can't treat,
again, there are benefits to and arguments for this above and beyond
the issue of making available a population to test presymptomatically,
to try interventions. There are benefits to the child and the family,
the benefits of knowing what a diagnosis is, the benefits of avoiding
what's often called the diagnostic odyssey, when the child does
start to develop some symptoms, as you well know .. the search that the
parents undergo to try to come up with a diagnosis.
Many of these are such rare diseases that physicians have not seen or
even heard of them, and that odyssey may go on for two or three years
before they get to a point where the diagnosis is finally made. During
those three years, that child has been poked, prodded, radiated,
everything you can imagine. And having that diagnosis made as a
newborn would avoid that diagnostic odyssey and what is done to the
child in the course of such a diagnostic odyssey.
It also enables the parents to make decisions .. decisions about future
child-bearing, decisions about care and treatment for that child,
decisions as practical as if you have a child with muscular dystrophy,
should I buy a one-story house or a two-story house? Very practical
things like that.
And you hear stories about families whose kids were not diagnosed with
muscular dystrophy until they were three or four, and in the meantime
they bought a two- or three-story house that they would not have done
if they knew they were going to have a child with this kind of
disability getting around. They would have bought a one-story house.
So decisionmaking on practical things like that are added to benefits
I believe of being able to give parents a diagnosis before the child
shows any symptoms, and even for conditions that you don't have
treatment for. I have not done a large sample, but I have talked
to a lot of parents of kids with a variety of conditions and asked
them, many having completed the diagnostic odyssey, "Would
you rather have had this diagnosis at one or two weeks of age, or
gone through what you have gone?" And to a person, there hasn't
even been one who hesitated with an answer, "I would rather
have known about it right from the beginning."
Now, that's not a big sample, but it's a diverse sample, and
it's without even any hesitancy or any divergence of opinion. So I
think that parents, offered the choice, are likely to opt for having
this screening available as to their newborn infant, even if we
don't have a specific preventive, curative treatment to offer.
CHAIRMAN PELLEGRINO: Dr. Rowley?
DR. ROWLEY: Well, I think it's very common. It has to do
with the Guthrie blots. And just as an aside, it's interesting
that some states, and particularly countries in Europe, save the blots
for quite a long time and they were used quite imaginatively by Mel
Greaves in London to show that children who developed leukemia,
sometimes even as adolescents, but initially he used them for children
who developed leukemia in the first few years of life to show that they
had leukemic cells circulating at the time of their birth, namely at
the time that Guthrie's file was taken. And for those of us in the
arcane field of leukemia, and the etiology of leukemia, that came as a
surprise.
So that's .. unfortunately, in Illinois, because of financial
reasons, they store blots only for about three months, so they're
not useful. Some states do store them longer.
Let me now get to my questions, and there are two. It was my
impression as a member of the American Society for Medical Genetics
that at least the Senate had considered the question of making genetic
information not available to insurance, or at least disallowing
insurance discrimination based on genetic information, and that would
go to one of the points or concerns that you raised. And I could be
incorrect, because this was just coming for a vote rather than having
been for a vote.
And I know that isometrics chips at least at the University of Chicago
cost a great deal of money, and so I'm interested about cost. And
can you give more insight as to why, when the Federal Government is
willing to intervene on many different arenas, why the tests aren't
either federally mandated or uniform across states?
Thank you. And I should say I enjoyed your talk very, very much.
DR. ALEXANDER: Thank you. Excellent questions. First, let me
say something about the leukemia issue. Clearly, the studies have
shown this. The problem is that they also find leukemic cells in
individuals who never developed leukemia, and so they are not 100
percent predictive. So you're not quite sure what to do with
them. And until we try to figure that out, I don't think we're
ready to, you know, start screening and treating individuals with
leukemia.
We still have to figure out what the natural history of that phenomenon
is. But it's a very interesting observation, and it's
something that could in fact lead to earlier treatment, if we can
separate out those kids who are destined to go on and develop
full-blown leukemia from those who for some reason lose these cells.
The Senate vote .. a year ago the Senate voted 99 to nothing to support
this legislation to ban discrimination based on genetic discrimination
in insurance or employability. And it was just totally overwhelming ..
99 to nothing. Legislation is now before the House, and the House has
not taken action on it. The reasons for that are not totally clear.
You would presume that there is objection to it from insurers, perhaps
from employers, but, again, I don't have the information to really
comment on that, other than to say the effort now must be with the
House. And we really need to push that agenda, if we are, I believe,
going to be able to take full advantage of what the potential is for
newborn screening into public health measure.
You mentioned the cost of the chips. This chip, if you try to .. if
you buy them individually it's about $400. If you buy them in bulk
it's about $200. Now, there's not four million of these sold
and run a year. What we are hoping and anticipating in our discussions
with the companies that make these and the beads is that by bulk
purchase and bulk use that cost would come down dramatically. And what
we have been talking about is trying to get these under $100.
Many of the states now that screen for this many disorders spend $100 a
kid or more. And if you could substitute this for many of these other
tests, you would not be money behind. You might come out ahead. And,
in fact, you could screen for so many more disorders with these that
you might come out way ahead.
So what we're hoping is that if you have a purchase of 4.1 million
of these a year that that cost will come down significantly. Now,
that's just the cost of the chip. That's not the cost of
running the assays and the personnel and the system, and so forth.
DR. ROWLEY: Or the oligonucleotides that are used.
DR. ALEXANDER: Yes. So, but I think with the large numbers of
these that we can get .. we should be able to get the cost down.
That's the goal.
Finally, about a federal mandate, one of the things that the Federal
Government has generally tried to stay away from is directing health
care policies in states. And one of the things that they definitely
have stayed away from is dictating what conditions states screen for.
States pretty much jealously guard their prerogatives in the medical
arena, and the Federal Government has, to a large extent, not always,
stayed away from dictating these kinds of policy. So I don't see
much likelihood of that changing. That's why I think the carrot,
rather than the stick approach, is the one that's likely to be the
most successful. And that carrot is a chip or a bead.
CHAIRMAN PELLEGRINO: Dr. Meilaender?
DR. MEILAENDER: This is just a small question that follows up,
really, on something Janet just asked about. But with respect to the
worry that parents would not want to have children tested for
non-treatable .. currently non-treatable disorders because of the
possibility of not being able to get health insurance or something like
that, and your answer to that is the need for legislation to prohibit
that.
I'm just wondering .. and I don't know the answer to this
exactly, but with .. and we don't know what the future direction of
health insurance will be in this country, but with the proliferation of
consumer-driven plans and cafeteria policies, and so forth, aren't
there plenty of ingenious ways to get a select population that
don't involve anything that would be called discrimination? I
mean, I'm just wondering if .. it's not so easy to get a
solution to that problem, it seems to me, and I just wondered what
you'd say about that.
DR. ALEXANDER: Well, it was in the Senate. You're right. This is
a changing field, a changing situation, and there are opportunities for
things like you're talking about. But they're not universal;
people have to know about them, have to search for them, need to know
what they have to look for something like this.
It won't take too many cases, if we start down this path, of
families being denied insurance for their child who tested positive for
something we can't treat to get publicized and scare people away
very quickly. That's what worries me.
And I think it is imminently solvable. We have it half-solved, and we
need to go the rest of the way. That's my personal view.
CHAIRMAN PELLEGRINO: Dr. Kass?
DR. KASS: Thank you very much, and thank you for the very
illuminating and clear presentation.
The Council has been given, and no doubt you have seen, this commentary
from the May 5th .. May issue of Pediatrics by Dr. Botkin and
colleagues, "Newborn Screening Technology: Proceed with
Caution." And ..
DR. ALEXANDER: You may have recognized some of those words in
my talk.
DR. KASS: No. I recognized "proceed with caution,"
but they seem to be much less ready than you are to proceed along the
lines you've suggested, and the particular offer for
recommendations that ought to take place before, in fact, one
institutes a plan for which you are so enthusiastic. And I wonder what
comments you might offer in response to this critique.
I mean, I could raise some of the issues, but let's .. Council has
all read this, and I would just .. these are all people in the field.
I mean, these are not just outlying ethicists who ..
(Laughter.)
DR. ALEXANDER: This field has been one of widely divergent
opinions in some of these issues from the beginning. PKU screening was
characterized by many widely differing opinions about whether it should
be done at all, whether it should be mandatory, etcetera.
Sam Besseman made a life work of critiquing PKU screening, and making
many claims, some of which were true, many of which had no foundation
in truth at all, about PKU screening. It has persisted in spite of
that.
I think that the concerns and the issues that are raised by Botkin and
his colleagues are concerns that many people have thought about but
come down differently in terms of our readiness for moving ahead. I
think that numbers of problems that have occurred and infants that have
been affected by adverse consequences in the past are not documented,
and probably are vastly exaggerated.
If you really try to go to the literature, the courts, or anywhere,
finding these is .. the numbers are very, very small, and we have
learned from those frank mistakes how to try to avoid them, and things
that we should avoid, not just with PKU but with other disorders as we
move into those.
My contention is that we know where the minefields are, we know where
the problems are, we know enough that we can proceed with caution if we
put into place the things that I listed. And those are pretty much not
very different from Botkin's. Where we differ I think is in the
availability of this system to carry the stuff out.
And we need .. we have the beginnings of it. We have the foundations
for it. Every state screens .. everybody. Every state has a list of
conditions they screen for. Every state has a system of standards.
Every state is a member of one of the regional collaboratives .. the
seven. There is a national coordinating center for those regional
collaboratives.
We hope to build on that foundation to construct the things that I have
listed here, so that we have in place that whole system, starting with
obtaining the blood spots, doing the analyses, confirming the analyses,
doing the counseling with the parents, initiating the treatment,
following the treatment, that can make this go right. That has not
always been present in the past, and that has accounted for some of our
failures and our problems.
I think that we are .. we now have the foundation to build on, and what
we have to make is the commitment to do that building, to proceed with
caution. I don't disagree with that at all. I fully agree. I
think we must proceed with caution. We'll get in trouble if we
don't, and I think we're only going to get one shot at this
kind of expanded screening program, and we have to do it right.
And I think that the field knows what they have to do, there's a
commitment to do it, and wise people who are in positions to try to
make sure that that happens, and critics out there who are going to
point out the problems as they develop, so that we can fix them.
CHAIRMAN PELLEGRINO: Yes, go ahead, Leon.
DR. KASS: May I just follow up? Let me land on just one of the
questions that I at least would have before one moved to any kind of
mandatory screening. And I grant you all the states have them, so this
is not something new. But the yield is very small. The number of
false positives .. the ratio of false positives to actual cases is very
high. I mean, if you looked at the total of the data that's
pooled, 95 percent of the initial screens are false positives over all
of the different diseases.
As you can say, you know, one should reassure those parents whose
subsequent tests reveal that their child doesn't have a disease,
but we all know that simply telling somebody once doesn't sort of
settle the anxieties. And the question is: are there built-in
programs before you make this thing mandatory and not requiring
parental consent that one do the careful research to find out what the
consequences are simply of having identified somebody as a positive
incorrectly on the first screen?
Now, maybe we don't do enough of that already, but we are on the
threshold, it seems to me, of screening not just for the 29 things here
but with the new DNA arrays for potentially thousands of things, many
of which will not have treatment. So there's a kind of
complication, and the question is whether one has built in enough
research to make sure that one is not in those areas doing harm as
opposed to the harm done by giving someone a treatment which is itself
harmful.
I mean, that wasn't well put, Duane, but perhaps you could address
that.
DR. ALEXANDER: Yes, that's a very good point, an extremely
important consideration. The issue of false positives has haunted this
field from the very beginning, and major efforts have been directed to
get that number down as low as possible, with PKU screenings now down
to about 1 in 10, a little less. But you still have nine families that
you are going to subject to the anxiety at least of a repeat test.
The field is very aware of this. One of the major topics of discussion
in the Secretary's Advisory Committee is the issue of false
positives, of laboratory standards, and of trying to draw the
boundaries as precisely as possible. It's not easy, and you're
always going to have some number, some proportion of false positives.
You're going to have more false positives than true positives, and
you just try to keep that number in balance as low as possible.
What we do need to learn .. and I think you're absolutely right
here .. is better ways as we counsel families, as we deal with
families, of conveying the information about false positives, what they
mean, and then, when we go back and do the confirmatory tests and
it's normal, your child has nothing. This was a fluke, this was a
temporary phenomenon, we don't have an explanation for it, but your
child does not have this disorder. And you can go home and not worry
about it, treat them as normally. There's no risk of this
condition.
We need to be .. to learn how to do that better and more effectively
than we're doing in the past, because the studies that have been
done have in fact shown that even some years later parents still have
some concern. "Well, they said he was okay, but I'm not sure
he really is."
And that's a valid concern, and we do need to study that better and
get better at our counseling techniques of conveying that information
and that assurance that if you have been retested and the confirmatory
test is negative, and even the screening test is now negative, you can
stop worrying.
CHAIRMAN PELLEGRINO: Professor Schneider?
PROFESSOR SCHNEIDER: I just wanted to say a word about the
confidentiality issue, which showed up in this conversation and which
showed up in the paper we're going to be discussing later. I'm
aware that part of the confidentiality problem is not a problem about
actual leaks of information or misuse of information. It's
apprehension about misuse of information.
I think for that reason it's especially important that bodies like
this one and people who are supposed to be knowledgeable about the
kinds of problems people are going to encounter speak accurately about
what the actual behavior of insurance companies is.
And there is a small literature that suggests that insurance companies
in fact, in reality, do not discriminate on this basis, and that they
have no good economic reasons for discriminating on this basis, partly
because an awful lot of genetic risks never materialize, and it just ..
and the numbers are so small that it isn't worth the insurance
companies trying to take these things into account, partly of course a
lot of .. an awful lot of American insurance is insurance acquired
through employers and the companies essentially don't have an
opportunity to discriminate on that basis.
In any event, since there is this empirical information suggesting that
at least now insurance companies are not discriminating and have
reasons not to discriminate, partly of course market reasons not
wanting to be branded as companies that discriminate on this basis, I
think it would be a good thing if we were able to tell people that even
if Congress has not acted that no problems seem currently to be
materializing.
I'm also apprehensive about the idea of asking Congress to
legislate to get rid of a problem that does not exist, because when
Congress and the Department of Health and Human Services have tried to
act to protect confidentiality, as through HIPAA, they have often done
so in ways that have been damaging and clumsy and extremely burdensome
without being remotely beneficial. So I urge us to keep this empirical
information in mind. It may not be accurate, but it's the best
information I've been able to locate.
CHAIRMAN PELLEGRINO: I have ..
DR. ROWLEY: On this point ..
CHAIRMAN PELLEGRINO: I'm sorry. On this point?
DR. ROWLEY: On this point, concern for discrimination,
while it's true that these newborn screening disorders have
been on aspect of it, the other is the concern of patients who have
genetic changes predisposing to cancer. And this is particularly
true of women with BRC-1 mutations, and there are many women who
have a strong family history of breast cancer in young parents or
other young female members of their family who have refused to have
BRC-1 mutation analysis because of this.
Now, you're saying, as I gather the gist of your remarks, that they
are either misinformed, that there is no discrimination, or they are
concerned about a problem that doesn't exist, because that's
another whole group that has refused diagnostic DNA analysis for fear
of discrimination.
PROFESSOR SCHNEIDER: Yes, that's quite right, and that was
one of the reasons that the research that I'm describing was done,
and it's quite clear that genetic counselors, for example,
themselves often believe that any such testing ought to be done outside
of your insurance program, so the insurance company won't find out.
But the fact that it is widely believed that insurance companies are
going to discriminate on this basis doesn't make it true, and what
alarms me is the extent to which it is apparently universally believed
that this is a real problem currently going on at a serious level when
there doesn't seem to be actually any information about it. So
I'd like to be able to calm people's apprehensions.
CHAIRMAN PELLEGRINO: We're getting close to the end of the time
for this session, so can I ask Dr. Carson and Dr. Hurlbut, who have
asked to speak, to pose their questions, and Dr. Alexander to hold
until they've both presented, and then you respond to both. Thank
you.
DR. McHUGH: Am I not in the queue? Can I join the three of
them?
CHAIRMAN PELLEGRINO: Yes, by all means, Paul. I didn't see
you. Thank you.
DR. CARSON: Okay. Very interesting and well presented
dialogue. This is obviously a rapidly-moving train as we are able to
diagnose more and more things. And as you're working with various
others to try to create, you know, legislation that will protect
children in the long run, is there any interest on your behalf of
looking at prenatal genetic diagnosis?
Because it seems to me like if we go through a great deal of trouble
dealing with just post-natal, and then we .. while the prenatal
diagnosis is moving along very rapidly, particularly with more and more
older women involved in in vitro fertilization, and the possibilities
of multiple types of screenings there, shouldn't there be some
effort to try to couple these things, so that we don't have to go
through the whole thing all over again?
CHAIRMAN PELLEGRINO: Could you hold? Dr. Hurlbut, and then Dr.
McHugh.
DR. HURLBUT: Well, my question/comment relates to that as
well. Obviously, it's a very exciting time, because we're
getting at the molecular foundations of disease, and yet at the same
time there is a troubling reductionistic foundation for .. a
reductionistic kind of paradigm that is operating here, and that raises
some questions I want to probe with you a little bit.
You spoke of the false positives and negatives. Obviously, in some
cases you're speaking not just of a missed detection of a presence
of an indicator, but a lack of correlation between a real indicator and
a phenotypic outcome. In other words, you can have the presence of a
gene, but balanced with other genes it will never express a disease.
Right? That's a fair statement at this point?
DR. ALEXANDER: In some rare instances, that could be the case.
DR. HURLBUT: I mean, if we start with a one-to-one correlation
between genotype and phenotype, that's one possibility, but there
are many other possibilities .. variable penetrants and various even
lack of manifestations of a phenotype.
DR. ALEXANDER: Right.
DR. HURLBUT: I mean, identical twins, for example, are largely
thought to be on the popular level identical, when in fact their
concordance of gene expression, at least at one study done at Stanford,
was only 18 percent relative to fraternal twins, 18 percent higher.
So the point is that what we're really looking at is not one-to-one
correlations for many things. Some traits will be one to one, but many
will be just statistical probabilities. And, therefore, you finally
have to come down to what the gene tests really mean, and that means
you have to do even further tests and maybe further tests of the
further tests. Isn't this fair to say?
And that finally you are going to enter into that strange zone of,
what's the phenotype really? The secondary question of that is:
wouldn't this logically translate out .. and here I'm not
objecting, I'm just raising these concerns and questions.
Wouldn't this logically play out ultimately to much more
complicated phenotypes, not just obvious genetic diseases, but finally
even behavioral phenotypes? And wouldn't this then carry us into
the realm of racial implications and backwards into prenatal diagnoses
that would also relate to potential treatments in the womb?
And I'm just raising this because I think there are lots of issues
here that we haven't yet introduced. And a troubling implication I
think we all ought to face is the idea that they're talking now
about the $1,000 genome, where every gene is tested. That would
obviously, is you were doing a purely scientific approach to it,
logically be correlated with phenotypes all the way through the history
of the individual's life, not just at birth. Maybe mandatory
testing at two, five, and 10 years, and 22 years, and so forth.
And a huge data bank of the relationship between genotype and
phenotype, and then backwards into prenatal diagnosis, maybe even
pre-implantation diagnosis. I mean, you can see this opening up into a
hugely positive but hugely dangerous thing.
And let me just close with one comment here. There was a public .. it
wasn't .. it was a public forum at a major hospital in the United
States recently in which somebody stood up and said to the physicians,
"Well, what are you doing in this university about Down's
Syndrome?" And a physician told me that the physician who
answered this question stood up and said, "The cure for Down's
Syndrome is abortion."
And that .. regardless of how you feel about the status of the fetus at
the stage in which these tests are done, it struck me as a strange
transformation of the historical attitude in medicine that we are a
healing profession. And I find there is troubling dimensions to all of
this, and I also find very positive things in what you said, certainly
the poignancy of the letter you read. It's powerful.
Could you just give us some general comments on how we need to frame
this to make sure that the positives come out and not the negatives?
CHAIRMAN PELLEGRINO: Dr. McHugh?
DR. McHUGH: Dr. Alexander, I want to thank you very much for
that splendid presentation, and the demonstration of how lucky in
America we are to have public servants like yourself. I particularly
appreciate this, of course, as a neuropsychiatrist who has looked over
and has lived in this field for over 60 years and have turned to the
PKU achievements and the achievements that have followed after it as
one of the few advances that have really occurred in the field, and to
see it described and developed the way you have and show how carefully
our people are .. doctors and public servants are working to make all
the messages of that achievement clear and the advances go further from
it.
It was a great drink of water in the desert, so ..
(Laughter.)
But I wanted also to ask you, and I'm sure you are thinking in
these terms, but they come up for someone like myself in the
neuropsychiatric domain. And that is that as biology and particularly
neurobiology advances, the issues illuminated by mental retardation and
the issues of mental retardation will blur with the .. will blur the
seemingly and obviously biologically inappropriate sharp division
between the cognitive disorders that turn up in childhood, and the
cognitive disorders that turn up in adulthood.
And those are the matters that are little touched upon by what Floyd
Bloom said to you about Huntington's Disease, another condition
that I am very .. have been very interested in, and the two .. the two
issues that come up, and I wonder whether your group is thinking about
them .. in deciding about what to study for and what to recognize early
on, the first one is that other matters besides the cognitive problems
of patients with these genetic disorders are accessible to treatment,
after all, if they are early identified.
In the MR group, of course, it's the autistic features and other
kinds of things that go along with the cognitive problems, some of
which can be treated with medications today. And particularly in
Huntington's Disease there are two aspects of that that are
appropriate to identify.
One of them is the great vulnerability of these patients to show
classical bipolar disorder before the onset of either the motor or
other cognitive disorder, and in that time the suicide rate amongst
Huntington's patients, whether they know or not about the presence
of their genetic thing, is extremely high, not only suicide but
homicide. You probably know that.
But it does make it clear that in the discussion of the biology of
these matters, from MR until now, people like yourself can champion a
spread of these identified .. I understand all that we .. at Hopkins we
know a lot about the problems of counseling and the issues of
identification, particularly in Huntington's Disease. So I know
it's a fraught area, but on the other hand there are things to be
said other than just that we can cure the disorder now to make it
identified.
And the other thing is that, you know, one of the great messages of PKU
and congenital hypothyroidism is that the preventive treatment
post-natally is the action. You work because the disorder isn't
symptomatic at this point, and you can prevent it by treating now.
Well, it .. if I'm correct that there will be a blurring of the
boundaries, then conditions like Huntington's Disease that
don't show up until you're in your late thirties or early
forties .. by the way, there are some Huntington's patients, as you
know, that turn up at age 12, 13, or 14, very difficult problems.
But if Huntington's Disease or Alzheimer's Disease or things of
that sort take from conception until 40 or 50 years later to produce
their effect, presumably there are things that are going on that we may
be able to interfere with and interrupt, again, given the model of PKU
and congenital hypothyroidism. And, once again, I wondered whether
those issues are considered in terms of the scientific advances, the
state programs, and, to some extent, very much the ethical principles
that we have as a caring society.
CHAIRMAN PELLEGRINO: Thank you very much, Dr. McHugh.
Dr. Alexander, we have presented you with three very complex questions,
so we're going to extend the time so you have a chance to give
justice to those questions and to yourself. I hope all of you will
permit this. Thank you.
DR. ALEXANDER: Well, they are terrific questions. It's
hard to do justice to them. Let me just try to respond without too ..
not too extensively. The question of using comparable technologies for
prenatal diagnosis is obviously one that people have thought of and
talked about.
Basically, what you need is cells, cells of the fetus and those are
obtainable by either amniocentesis or chorionic villi sampling.
That's basically what we use now.
We're not developing it for that purpose. We're dealing ..
we're working on this for newborn screening. Whether people will
take it and apply it in prenatal diagnosis, it's likely that that
will be done. But I have no way of predicting that for sure, and the
applications that we're working on right now are focused very
precisely on prenatal .. on newborn screening, and all of the
technologies that are associated with that, where you're screening
essentially everybody in the population.
So that's a short answer to a question.
With regard to the issues of gene variability and behavioral
phenotypes, and so forth, clearly this is a problem and a concern. The
classic example here is cystic fibrosis. There is hundreds of gene
variants in cystic fibrosis. There's an extremely variable
phenotype of people who are affected severely in infancy and early
childhood to people who show no symptoms at all even until late
adulthood. And it would be nice if this would correlate with the
particular gene variant, but it doesn't seem to precisely.
So one of the issues that we have to deal with in this .. and, believe
me, we have our eyes open, it's not like we're doing this for
the first time, like we were with PKU. We know the issue of gene
variability, and the .. how the .. not only the genes vary, but the
phenotype varies as well. And to take this into account as we make our
diagnoses.
This is a problem much more for some conditions than it is for others.
For others there is very little gene variability, and the clinical
course and the phenotype show very little variability. But for others
it's enormous, and, again, we've learned a lot about that. We
know for many of these conditions what that variability is.
We know the different gene variants that are associated with the
disorders, and at least we are aware of the issue and the problem and
the concern, and it is humbling, believe me, to people who are working
in this, trying to deal with it, and to know that there is no 100
percent predictability for most of this, because not only is there
variation in the gene, there is variation, as you say, in what other
genes may be present and what environmental stimuli may be, etcetera.
So it's a very good question, a very important point to raise. I
should have included it. I didn't. I appreciate your raising the
issue.
Dr. McHugh, the issues that you raise about more than just the newborn
in terms of the expression of these issues, clearly there are some of
these conditions that don't have expression until later on. We
know most about the ones that express early, and we are just in the
process of learning about some of these others that have perhaps some
suggestive signs but not the expected phenotype earlier in life. Your
Huntington's example is a perfect one.
So this is in the category of things we still have to learn about, and
why we have to proceed with caution as we go about this screening
process, and implement it in a way that we learn about the conditions
as we go. We don't assume that we know everything, and that we
don't start screening for some of these things where there is so
much variability that we can't predict until we know more.
So people are making decisions about what should be in the test
regimen, and part of that is based on how much predictability there is
about phenotype from genotype, and when these things are likely to
occur.
Another issue with the Huntington's is that the whole picture of
Huntington's may change within the .. before the disease might be
expressed. Hopefully, it's going to. I've got my fingers
crossed and my hopes up. And so I hope that .. another reason for
maybe not screening for that condition that isn't manifest in most
people until later is that the picture may change.
And why worry people unnecessarily for 30 years if we are going to have
a much better treatment prognosis outlook for them? So that, again, is
part of the thinking.
DR. McHUGH: Just to follow up on that, given that you have been
saying that we need to have these registries and things to go forward
to know these treatments, and that's about the kids that show their
disorders in childhood ..
DR. ALEXANDER: That's right.
DR. McHUGH: .. how much more is it necessary to do the same
thing for things which are slower in onset but still have the causal
factors present at conception?
DR. ALEXANDER: That's a very good point.
CHAIRMAN PELLEGRINO: Again, on behalf of the
Council members, let me thank you for a superb presentation. We are
going to have our break until 10:30, and then pick up the next
session.
Again, thank you very much, Dr. Alexander.
DR. ALEXANDER: Thank you.
(Applause.)
(Whereupon, the proceedings in the foregoing matter went off the record
at 10:14 a.m. and went back on the record at 10:33 a.m.)
SESSION 6: NEWBORN SCREENING
FOR GENETIC DISORDERS
CHAIRMAN PELLEGRINO: Thank you for reassembling. My
apologies. Our next session will be devoted to discussion around a
staff paper prepared by Richard Roblin, Dr. Daniel Davis'
predecessor as Executive Director of the President's Council. The
discussion will be opened by Dr. Leon Kass. Leon, you're on.
DR. KASS: Thank you. First of all, I want to say that I think
that Dick has done an admirable job of laying out some of the questions
that should come before this Council as a prelude to thinking about
what I think is the question we ought to be discussing in this session,
namely is there work for the Council to do on this subject. That's
where he gets us at the end and my comments are with a couple of
preliminaries. I'm going to put my foot in the water on that last
question.
I do think that one should not underestimate the seriousness and
importance of this move to increase mandatory screening. These 29
metabolites are just the tip of the iceberg and when genomic knowledge
is added and the DNA screening can be done, we will see a massive
increase in screening and it, therefore, behooves somebody, a body like
this to at least consider whether there are ethical questions beyond
saying proceed with caution and to see whether there is some kind of
positive intellectual contribution that one could make just sorting out
those questions. So I don't think there's any question about
the importance of this subject, even if at the moment we're talking
about identifying 8,000 babies — screening 4 million children to
identify 8,000 patients with disease. This is a big subject and coming
fast.
Second, without in any way casting any doubts on the motives,
intentions, goodwill of the people who are bringing us these questions,
there is a certain kind of logic which goes something like this and
this is a caricature but have test, can screen, will find, may treat,
must screen. And for certain kinds of conditions where there really is
clear treatment, where the ratio of false positives to true positives
is small, much less worrisome, but if you look at the table that Dick
has provided for us, we are talking really about false positive to true
positive ratio in the neighborhood of 15 to one over all of these
diseases and I think it's very important to raise the question that
he does about the absence of information about what the effect of this
false positive diagnosis is and whether or not it's enough to say,
"You're baby is in the clear" when you've got some
empirical studies that suggest that there are deleterious consequences
to children and their families going long beyond and the need to study
that before speaking with confidence that this is really a marginal
problem, I think is evident.
By the way, it's going to be hard to get that data thanks to HIPAA
because we're not going to be able easily to do the findings, to do
the studies on these families that have been given false positive
diagnosis at first and then find out what those effects were. So this
is an area in which research will be needed. It's going to be hard
to do.
Should the Council take this up and what could we contribute? There
are people who like clean ethical problems. Is the embryo one of us or
not, that's hard to answer but it's at least formulable. Here
when Dick poses the question about how do I analyze the risks and
benefits which are incommensurable, the goods and the harms are sort
of incommensurable where you're dealing with statistical
matters at best. I think that this will not appeal to the people who
like neat and clean but it seems to me that increasingly in sort of
risk management medicine, more and more of our ethical problems are
going to be formulated in these terms. And while I'm not sure I
know how to proceed with that analysis and I know it's going to be
a mess, it does seem to me that it would be given the importance of
screening, given the difficulties in fact of doing proper sort of
assessment of goods and harms, I think it would be worth a try to see
if we can't make some progress, maybe ahead of the curve, to begin
to lay down certain kinds of notions of how to begin to think about
this before one rushes ahead, especially, and this is — well, let me
just stop with that. I think that's really enough to open — I
hope to open a conversation.
CHAIRMAN PELLEGRINO: Thank you very much, Leon. Dr.
Roblin?
DR. ROBLIN: I'm much in agreement, I think, with
Leon's analysis of where this issue is, vis-a-vis, the Council.
Certainly if you read the working paper and if you followed the
discussions in the Council meetings over the last several months, this
is now I think the third or fourth meeting where the Council has had
some presentations and some discussion on newborn screening programs.
And so I think it is timely to move to a discussion of whether the
Council sees something here as Leon was pointing out, that is worth
further time and attention, and if so, some guidance to the staff sort
of in what directions those things might lie.
CHAIRMAN PELLEGRINO: Dr. McHugh.
PROFESSOR McHUGH: I think it's imperative that we go on
and do this and follow up with what Dick has already done. And again,
in my preamble to my questions to Dr. Alexander, you can't —
unless you were there, I suppose, realize what it was like to try to
stimulate an interest in young psychiatrists in mental retarded
patients and the like. They really thought it was a waste of time,
futile, all that kind of stuff, and yes, it's true that PKU has
huge false positives, and yes, it's all of these things but the
opening, the dynamic opening of interest in mental retardation that is
now so common that when somebody says a psychiatrist is interested in
it, they wonder whether it really belongs in psychiatry, but that's
a problem for psychiatry.
And one of the things psychiatrists realize is that you
know, if you look at medicine and the like, we don't have anything
like the achievements of germ theory, even anesthesiology or the
experimental method, almost, so this comes as a tremendous opening in
the arena of neuro-biology. I do appreciate exactly what is being said
in both of these papers about the dangers of false positives and the
issues of what false positives present to the world but by the way, if
we were going to go out and attack conditions or tests that are now
uniformly used in America, that turn out to have huge false positives.
The one test that we should be attacking vigorously as an ethical
problem is the triple test for Down's syndrome given to mothers
during early pregnancy which has a false positive rate that's so
high that — and then when it's recognized to be false, becloud not
only that pregnancy but every other pregnancy that a young woman goes
through. So when it comes to the false positives there, they are just
as vicious and perhaps, more vicious than these issues which ultimately
can be resolved with work-ups and identify the issues of what screening
is about. So I would very much like to see and the Council engage in a
discussion about the matters of policy, the matters of ethics, the
matters of issues of life that turn up and are trying to understand and
develop screenings for the neuro-psychiatric disorders of which mental
retardation is but one and given that we've already devoted a good
bit of our attention to the study of Alzheimers disease in the past, I
would have thought given that biology is biology, that this would be an
appropriate thing for us to discuss and talk about its meanings even as
it continues to be a developing arena.
CHAIRMAN PELLEGRINO: Thank you. Dr. Meilaender?
PROFESSOR MEILAENDER: This won't really be a clarifying
remark. It's just to add a puzzle but I don't think Leon
mentioned this, though despite the Chairman's insistence, I was a
minute late getting in here, so maybe I missed something. But the
question that — I don't know what I think about it and I would be
happy to hear what anybody said with respect to it, is whether
uniformity is really that desirable or not here with respect to the
newborn screening tests.
I mean, I understand the difficulty one might have in the
scenario Dr. Alexander painted for us of saying to parents, "If
you child had been born in the adjoining state this would have — you
know, we would have caught this very rare disease." On the other
hand, they are very rare. Uniformity multiplies mistakes, if mistakes
are — wrong directions are taken. Non-uniformity allows for sort of
experimentally different approaches to doing things and so forth.
Is uniformity really desirable or not here? I honestly, I
don't — that's what I said, this is not a clarifying remark.
I don't know what I think. I'd be glad to be persuaded one way
or the other by anything anybody else had to say but I think that's
also a part of the issue that would be worth pondering a bit.
CHAIRMAN PELLEGRINO: Thank you. Dick, any response?
Dr. Roblin: This was certainly raised in the working paper
and I'm probably as uncertain in my own mind as Dr. Meilaender
is, about what the right answer. I mean, certainly you can note
a number of things and one is the rare but tragic stories of people
who learn that their affected child might have been helped if they
had lived in another state where they do screen for this rare condition
that the child has.
I can understand how devastating that would be to the
parents on a number of levels. However, we're — a certain
structural feature of the screening system is the reliance on each
individual state to make its own judgment, using the inputs that Dr.
Alexander sketched as to what particular panel of tests they will
mandate. It's done somewhat differently in different states. The
paper makes reference to the program in New England. There's a
regional cooperative program where they mandate testing for a certain
number of conditions and the subsequent, I think 19 conditions or so
are made part of a research study approach.
Parents are informed that this is available. They have an
opportunity to take advantages of those tests and have those tests done
if they wish. I think in those circumstances where the diseases are
very rare and much is unknown about the efficacy of treatment, the
research approach has much to recommend it. I'm much more
comfortable, I guess with a framework where parents are frankly told in
a discussion what the level of understanding of their particular
infant's condition is and what really is available at the moment in
terms of treatment.
CHAIRMAN PELLEGRINO: Thank you. Professor Gómez-Lobo?
DR. GÓMEZ-LOBO: I think Dick's paper is just
wonderful. I think it's very clear and it sorts out the main
ethical issues and Leon being one of those people who like the black
and white and clear-cut ethical dilemmas. I just wanted to suggest a
friendly amendment to Dick's paper which, I think, may be of use to
us and it's this; that on page 7, the argument for the present
practice is described as being conceived in a utilitarian framework.
Now, I would argue that it's also an argument perfectly acceptable
for a non-utilitarian and the sense that it's not so much a matter
of balancing goods but rather of saying, well, here there is a common
good to be protected, to be pursued and nothing untoward is being done
to pursue that. And I suspect this is similar to the bioethical
argument for vaccination, where you know, some families, some children,
may have to suffer some negative effects, but the public health good is
so clear that, I mean, it — I just can't see an ethical argument
in that regard.
So I would say that if, indeed, the screening practice is so
important for all of these reasons that we were given, I think I, at
least, would have no ethical qualms about it, even though we have
problems such as false positives, et cetera.
CHAIRMAN PELLEGRINO: Thank you. Leon?
DR. KASS: May I just a brief comment to you, Alfonso,
I've puzzled in reading the discussion of this under the heading of
public health. That this is an instance of preventive medicine is
clear, early diagnosis, intervention, no disease. But — and I can
also understand why if the state winds up paying the costs of the care
of the people who have this disease untreated, it is a public problem.
But unlike an epidemic of smallpox, these things are not public health
menaces in that sense.
It's very hard, it seems to me, to make a common good
argument unless you want to say by common good, the health of every
citizen is somehow a piece of the common good. But I would, I think,
myself be more inclined to a more narrow view of those things which are
genuinely public and I'm sort of puzzled by the treatment of this
under the general heading of public health even though the health of
each of us contributes to the health of the whole. It's a
different paradigm and maybe the field is moved in that direction but I
find it puzzling.
CHAIRMAN PELLEGRINO: Go ahead, yes, please.
DR. GÓMEZ-LOBO: Yeah, I think I stand corrected on
the apparent equation of public health and common good, but I think an
argument can be made to the effect that although this may not be a
public health issue in the way an epidemic is, if we conceive of the
public good not just as the aggregate of pleasure experienced by the
majority but really as providing the conditions for every single member
of the community to flourish as best he or she can. I would say there
is an issue of public good.
It's just like the expropriation of the house to build
road, I mean, there is a sense in which there is a protection of the
common good
