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Genetic Linkage
Genetic Counselors Best to Interpret DTC Genetic Tests
March 13, 2016
Can health care providers adequately explain results from direct-to-consumer (DTC) DNA tests to patients? “Consumer Perceptions of Interactions With Primary Care Providers After Direct-to-Consumer Personal Genomic Testing,” a study published March 1, suggests a disconnect between what consumers expect and what their doctors can deliver.
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Disappearing Down Syndrome, Genetic Counseling, and Textbooks
August 13, 2015
Last week, several people sent me a perspective piece by bioethicist Art Caplan published in PLOS Biology, "Chloe’s Law: A Powerful Legislative Movement Challenging a Core Ethical Norm of Genetic Testing." The concise and compelling article considers legislation to mandate that genetic counselors talk to their patients more about positive aspects of having a child with trisomy 21 Down syndrome. Read More
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Genetic Modifiers: Healthy Mutants Fuel Drug Discovery
April 12, 2013
I’m uneasy counseling a patient for mutations in the BRCA1 or BRCA2 cancer susceptibility genes. Typically, she’ll have a “first degree relative” – usually a mother or sister – with a related cancer, or might even have a test result in hand. This happened a week ago.
FUZZY GENETIC INFORMATION
My patient comes from a long line of female relatives who’d died young from breast or ovarian cancer. She’s already been tested and knows she has a BRCA1 mutation. Will she get the family’s cancer? Knowing would enable her to decide whether and when to undergo surgery to remove her breasts, ovaries, and uterus. Read More
FUZZY GENETIC INFORMATION
My patient comes from a long line of female relatives who’d died young from breast or ovarian cancer. She’s already been tested and knows she has a BRCA1 mutation. Will she get the family’s cancer? Knowing would enable her to decide whether and when to undergo surgery to remove her breasts, ovaries, and uterus. Read More
Genetic Testing: Carrier Confusion & Generation Reversal
February 5, 2013
In the usual trajectory of passing on genetic information, the older tell the younger, when the time is right. Typically, a patient has a genetic test because family history, ethnic group, or some other clue suggests to an astute practitioner an increased risk of something specific.
If a test reveals a mutation that could cause a disease, then the patient and perhaps her partner discuss how, when and what to tell their children – in the best of circumstances, with the help of a genetic counselor. Read More
If a test reveals a mutation that could cause a disease, then the patient and perhaps her partner discuss how, when and what to tell their children – in the best of circumstances, with the help of a genetic counselor. Read More
The Battle of the Prenatal Tests
December 9, 2012
The young couple looked at me expectantly as I re-read the amnio report and tried to decide what to tell them.
“The ultrasound from 15 weeks looks fine,” I stalled, trying to present the good news first.
“What about the amnio?”
“Well, there is something unusual. It’s the Y chromosome. Part of it appears to be flipped. What we call an inversion. It’s a little like if the exits on a highway turned around,” I explained.
The couple looked at each other, puzzled, then back at me, and he reached for her hand.
“What does that mean?” they both asked. Read More
“The ultrasound from 15 weeks looks fine,” I stalled, trying to present the good news first.
“What about the amnio?”
“Well, there is something unusual. It’s the Y chromosome. Part of it appears to be flipped. What we call an inversion. It’s a little like if the exits on a highway turned around,” I explained.
The couple looked at each other, puzzled, then back at me, and he reached for her hand.
“What does that mean?” they both asked. Read More
My New View of DTC Genetic Testing
February 15, 2012
“Are you still collecting stories about DTC testing? I've got one for you!” my grad student L.W. e-mailed a few days ago. Little did I know her family's experience would change my mind about direct-to-consumer genetic testing.
L.W. had taken my online course “Genethics” in 2008 for the master’s program at the Alden March Bioethics Institute of Albany Medical College. Read More
L.W. had taken my online course “Genethics” in 2008 for the master’s program at the Alden March Bioethics Institute of Albany Medical College. Read More
Genetic Incidentalomas
June 12, 2011
Brandon Alspaugh is worried. He’s an interventional radiologic technologist at South University in Charlotte, NC, taking human genetics in preparation for physician’s assistant school. When he got to the end of my textbook, where I ask students to e-mail me their concerns, he wrote the following:
“Dr. Lewis,
Coming from the medical field, I worry that personal genomics, while useful in terms of screening for genetic disease, will come to have the same effect as full-body CT scans, where the amount of noisy data generated will drown out the important bits. As with atypical anatomy, a person might spend a month chasing down a suspicious allele only to find it's a normal variant of a beneficial gene.”
Brandon’s describing a new breed of incidentaloma, looking for one sign of abnormality that turns up what could be another. I went in for a CT scan of my lungs, for example, and the doctor fretted over my polycystic liver. A friend had it much worse. She volunteered to be a control in an Alzheimer’s imaging trial, and her scan revealed two brain aneurysms!
The term “incidentaloma” was coined to describe an adrenal tumor (hence the "oma") found on a scan looking for something else. More recently, incidentalomas are arising as collateral damage from the sequencing of the human genome and the genetic testing it has spawned. We now have too much information, and too few people (genetic counselors) to translate what we do know.
The founding fathers (there were no mothers in the famed “amino acid club”) who deciphered the genetic code back in the 1960s would not have predicted genetic incidentalomas; surely all DNA was translated into protein. Over the years, the percentage fell, precipitously, so that now we know (or suspect) that a mere smidge under 2% of the genome actually encodes proteins – a little like a John Grisham novel in which much of the story turns out to be, if not irrelevant, then not central to the main story.
Genetics is about variation, not just disease, and I fear that because of this, a direct-to-consumer genetic testing company, anxious to spew as much information as possible at its clientele, could indeed impart a sequence or two that is innocuous, as Brandon the astute student suggests. And genetic incidentaloma-ism extends to well known protein-encoding genes. I saw this the day after I heard from Brandon, when a nurse-midwife at the practice where I provide genetic counseling called me, alarmed at a lab result for a patient.
“What’s SMN? The blood test results came back with a risk of 1 in 632 for SMA, based on SMN copy number. What’s that?”
If the nurse-midwife didn’t recognize it (and why would she?), I feared, the patient certainly wouldn’t. And so I explained that SMN is the gene “survival motor neuron” and various versions of it are implicated in the most common type of spinal muscular atrophy (SMA),a recessive disease in the same general incidence ballpark as cystic fibrosis – 1 in 38 of us is a carrier. (I elected not to get into copy number variants, a recently-recognized form of mutation.)
I knew that more widespread testing for SMA was beginning because of pending legislation (The SMA Treatment Acceleration Act) “to authorize the Secretary of Health and Human Services to conduct activities to rapidly advance treatments for spinal muscular atrophy, neuromuscular disease, and other pediatric diseases, and for other purposes.” Some three dozen labs offer carrier testing at GeneTests.org.
I also knew about SMA from a young hospice patient I’d visited in a nursing home. She was 7, a long-term survivor for this disease known as “baby ALS" that is usually fatal by age 3. (Also see Families of SMA.)
So should the midwife tell the patient, who must have signed something but likely has no idea her blood was tested for SMA, her carrier risk? Would the patient understand that the test indicates her risk is well BELOW that of the average person for something that she probably doesn't know exists? Does alerting and possibly alarming many people justify the additional SMA cases that screening might prevent by detecting potential parents who are both carriers? After all, this is the approach that has nearly vanquished Tay-Sachs disease. (See A Brief History of Genetic Testing.)
A slippery slope looms.
How far are we from personal genome scans that yield long lists of risks, some meaningful, some not? Who will develop the criteria for what is meaningful, for what a patient should know? Should a health care practitioner disclose ALL genetic information so as not to be paternalistic, or shield the patient from test results to “do no harm?” What happens when a genetic risk identified today declines with a future discovery? (Not everyone taps into 23andMe on a daily basis to check for updates.) Or should a patient indeed be told absolutely everything, in case there is something he or she can do, environmentally speaking, to alter genetic destiny?
As with all matters scientific, the more we learn, the more we find out that we don’t know. It will be interesting to see how the impending avalanche of genetic incidentalomas plays out. Read More
“Dr. Lewis,
Coming from the medical field, I worry that personal genomics, while useful in terms of screening for genetic disease, will come to have the same effect as full-body CT scans, where the amount of noisy data generated will drown out the important bits. As with atypical anatomy, a person might spend a month chasing down a suspicious allele only to find it's a normal variant of a beneficial gene.”
Brandon’s describing a new breed of incidentaloma, looking for one sign of abnormality that turns up what could be another. I went in for a CT scan of my lungs, for example, and the doctor fretted over my polycystic liver. A friend had it much worse. She volunteered to be a control in an Alzheimer’s imaging trial, and her scan revealed two brain aneurysms!
The term “incidentaloma” was coined to describe an adrenal tumor (hence the "oma") found on a scan looking for something else. More recently, incidentalomas are arising as collateral damage from the sequencing of the human genome and the genetic testing it has spawned. We now have too much information, and too few people (genetic counselors) to translate what we do know.
The founding fathers (there were no mothers in the famed “amino acid club”) who deciphered the genetic code back in the 1960s would not have predicted genetic incidentalomas; surely all DNA was translated into protein. Over the years, the percentage fell, precipitously, so that now we know (or suspect) that a mere smidge under 2% of the genome actually encodes proteins – a little like a John Grisham novel in which much of the story turns out to be, if not irrelevant, then not central to the main story.
Genetics is about variation, not just disease, and I fear that because of this, a direct-to-consumer genetic testing company, anxious to spew as much information as possible at its clientele, could indeed impart a sequence or two that is innocuous, as Brandon the astute student suggests. And genetic incidentaloma-ism extends to well known protein-encoding genes. I saw this the day after I heard from Brandon, when a nurse-midwife at the practice where I provide genetic counseling called me, alarmed at a lab result for a patient.
“What’s SMN? The blood test results came back with a risk of 1 in 632 for SMA, based on SMN copy number. What’s that?”
If the nurse-midwife didn’t recognize it (and why would she?), I feared, the patient certainly wouldn’t. And so I explained that SMN is the gene “survival motor neuron” and various versions of it are implicated in the most common type of spinal muscular atrophy (SMA),a recessive disease in the same general incidence ballpark as cystic fibrosis – 1 in 38 of us is a carrier. (I elected not to get into copy number variants, a recently-recognized form of mutation.)
I knew that more widespread testing for SMA was beginning because of pending legislation (The SMA Treatment Acceleration Act) “to authorize the Secretary of Health and Human Services to conduct activities to rapidly advance treatments for spinal muscular atrophy, neuromuscular disease, and other pediatric diseases, and for other purposes.” Some three dozen labs offer carrier testing at GeneTests.org.
I also knew about SMA from a young hospice patient I’d visited in a nursing home. She was 7, a long-term survivor for this disease known as “baby ALS" that is usually fatal by age 3. (Also see Families of SMA.)
So should the midwife tell the patient, who must have signed something but likely has no idea her blood was tested for SMA, her carrier risk? Would the patient understand that the test indicates her risk is well BELOW that of the average person for something that she probably doesn't know exists? Does alerting and possibly alarming many people justify the additional SMA cases that screening might prevent by detecting potential parents who are both carriers? After all, this is the approach that has nearly vanquished Tay-Sachs disease. (See A Brief History of Genetic Testing.)
A slippery slope looms.
How far are we from personal genome scans that yield long lists of risks, some meaningful, some not? Who will develop the criteria for what is meaningful, for what a patient should know? Should a health care practitioner disclose ALL genetic information so as not to be paternalistic, or shield the patient from test results to “do no harm?” What happens when a genetic risk identified today declines with a future discovery? (Not everyone taps into 23andMe on a daily basis to check for updates.) Or should a patient indeed be told absolutely everything, in case there is something he or she can do, environmentally speaking, to alter genetic destiny?
As with all matters scientific, the more we learn, the more we find out that we don’t know. It will be interesting to see how the impending avalanche of genetic incidentalomas plays out. Read More
I'm a DES Daughter
June 6, 2011
Early June marks the 30th anniversary of the reporting of the first AIDS cases, but it’s also an older medical anniversary – recognition that the drug diethylstilbestrol (DES) derailed development of the reproductive systems of a huge cohort of fetuses. I was one.
My mom, like millions of others, was handed “a vitamin” while pregnant with me in 1954, which in those days of medical paternalism, she never questioned. And so when I became a teenager, I began to drip, and was hauled off to the gyno. The verdict: Adenosis. The label: DES daughter. It was scary.
As an endocrine disrupter before the term was coined, DES, among other things, played havoc with the boundaries between tissues of the cervix, which prevented glands from vanishing on schedule. With the hormonal onslaught of adolescence, the errant glands went into overdrive. Fortunately, I didn’t have the otherwise rare cancer whose sudden appearance led to identifying the problem, as with AIDS. I also escaped the trademark DES small uterus, and my husband, a DES son, escaped XY-related problems. But my mom did die of breast cancer – another legacy of the “vitamin” thought to protect against pregnancy loss. And so far the DES Follow-up Study on the third generation – my three daughters – has revealed only a slight increase in ovarian cancer risk that is likely a statistical fluke awaiting larger numbers.
Pregnancy paternalism took years to dissipate. In 1981, my ob clearly knew something was amiss, but he said nothing. And so we were shocked at the on-time birth of daughter #1, who weighed less than the scraggliest chicken at the supermarket.
Then in the middle '80s I began providing genetic counseling at CareNet Medical Group in Schenectady, NY, founded by a wonderful ob/gyn, Hong Kyu Cheon, whose mother had been a midwife in Korea. When he retired, he handed the practice over to his daughter and daughter-in-law. Today CareNet is run by women. It's not that an XY ob/gyn can't be competent or caring, but there is something comforting, given what happened to my mother, about a woman-run practice.
And how things have changed! Patients now come into doctors offices already very informed, even naming specific drugs thanks to all the TV ads. My genetic counseling patients come armed with printouts describing their risks and possible tests, and sometimes even direct-to-consumer genetic test results. It is hard to imagine my mother's time, when she was expected to happily take anything the white-coated authority figure handed out. Read More
My mom, like millions of others, was handed “a vitamin” while pregnant with me in 1954, which in those days of medical paternalism, she never questioned. And so when I became a teenager, I began to drip, and was hauled off to the gyno. The verdict: Adenosis. The label: DES daughter. It was scary.
As an endocrine disrupter before the term was coined, DES, among other things, played havoc with the boundaries between tissues of the cervix, which prevented glands from vanishing on schedule. With the hormonal onslaught of adolescence, the errant glands went into overdrive. Fortunately, I didn’t have the otherwise rare cancer whose sudden appearance led to identifying the problem, as with AIDS. I also escaped the trademark DES small uterus, and my husband, a DES son, escaped XY-related problems. But my mom did die of breast cancer – another legacy of the “vitamin” thought to protect against pregnancy loss. And so far the DES Follow-up Study on the third generation – my three daughters – has revealed only a slight increase in ovarian cancer risk that is likely a statistical fluke awaiting larger numbers.
Pregnancy paternalism took years to dissipate. In 1981, my ob clearly knew something was amiss, but he said nothing. And so we were shocked at the on-time birth of daughter #1, who weighed less than the scraggliest chicken at the supermarket.
Then in the middle '80s I began providing genetic counseling at CareNet Medical Group in Schenectady, NY, founded by a wonderful ob/gyn, Hong Kyu Cheon, whose mother had been a midwife in Korea. When he retired, he handed the practice over to his daughter and daughter-in-law. Today CareNet is run by women. It's not that an XY ob/gyn can't be competent or caring, but there is something comforting, given what happened to my mother, about a woman-run practice.
And how things have changed! Patients now come into doctors offices already very informed, even naming specific drugs thanks to all the TV ads. My genetic counseling patients come armed with printouts describing their risks and possible tests, and sometimes even direct-to-consumer genetic test results. It is hard to imagine my mother's time, when she was expected to happily take anything the white-coated authority figure handed out. Read More