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Five factors underlie the ongoing overdiagnosis and misdiagnosis of long QT syndrome (LQTS), including temporary QT prolongation following vasovagal syncope, a “pseudo”-positive genetic test result, family history of sudden cardiac death, transient QT prolongation, and misinterpretation of the QTc interval, a new study suggests.

Awareness of these characteristics, which led to a diagnostic reversal in 290 of 1,841 (16%) patients, could reduce the burden of overdiagnosis on the health care system and on patients and families, senior author Michael J. Ackerman, MD, PhD, of Mayo Clinic, Rochester, Minn., and colleagues conclude.

“The findings are a disturbing and disappointing sequel to the paper we published about LQTS overdiagnosis back in 2007, which showed that 2 out of every 5 patients who came to Mayo Clinic for a second opinion left without the diagnosis,” Dr. Ackerman told this news organization.

To date, Dr. Ackerman has reversed the diagnosis for 350 patients, he said.

The consequences of an LQTS diagnosis are “profound,” he noted, including years of unnecessary drug therapy, implantation of a cardioverter defibrillator, disqualification from competitive sports, and emotional stress to the individual and family.

By pointing out the five biggest mistakes his team has seen, he said, “we hope to equip the diagnostician with the means to challenge and assess the veracity of a LQTS diagnosis.”

The study was published online in the Journal of the American College of Cardiology.
 

Time to do better

Dr. Ackerman and colleagues analyzed electronic medical records on 290 of 1,841 (16%) patients who presented with an outside diagnosis of LQTS but subsequently were dismissed as having normal findings. The mean age of these patients at their first Mayo Clinic evaluation was 22, 60% were female, and the mean QTc interval was 427 ±25 milliseconds.

Overall, 38% of misdiagnoses were the result of misinterpretation of clinical factors; 29%, to diagnostic test misinterpretations; 17%, to an apparently positive genetic test in the context of a weak or absent phenotype; and 16%, to a family history of false LQTS or of sudden cardiac or sudden unexplained death.

More specifically, the most common cause of an LQTS misdiagnosis was QT prolongation following vasovagal syncope, which was misinterpreted as LQTS-attributed syncope.

The second most common cause was an apparently positive genetic test for an LQTS gene that turned out to be a benign or likely benign variant.

The third most common cause was an LQTS diagnosis based solely on a family history of sudden unexplained death (26 patients), QT prolongation (11 patients), or sudden cardiac arrest (9 patients).

The fourth most common cause was an isolated event of QT prolongation (44 patients). The transient QT prolongation was observed under myriad conditions unrelated to LQTS. Yet, 31 patients received a diagnosis based solely on the event.

The fifth most common cause was inclusion of the U-wave in the calculation of the QTc interval (40 patients), leading to an inaccurate interpretation of the electrocardiogram.

Dr. Ackerman noted that these LQTS diagnoses were given by heart-rhythm specialists, and most patients self-referred for a second opinion because a family member questioned the diagnosis after doing their own research.

“It’s time that we step up to the plate and do better,” Dr. Ackerman said. The team’s evaluation of the impact of the misdiagnosis on the patients’ lifestyle and quality of life showed that 45% had been restricted from competitive sports (and subsequently resumed sports activity with no adverse events); 80% had been started on beta-blockers (the drugs were discontinued in 84% as a result of the Mayo Clinic evaluation, whereas 16% opted to continue); and 10 of 22 patients (45%) who received an implanted cardioverter device underwent an extraction of the device without complications.

The authors conclude: “Although missing a patient who truly has LQTS can lead to a tragic outcome, the implications of overdiagnosed LQTS are not trivial and are potentially tragic as well.”
 

 

 

‘Tricky diagnosis’

LQTS specialist Peter Aziz, MD, director of pediatric electrophysiology at the Cleveland Clinic, agreed with these findings.

“Most of us ‘channelopathists’ who see LQTS for a living have a good grasp of the disease, but it can be elusive for others,” he said in an interview. “This is a tricky diagnosis. There are ends of the spectrum where people for sure don’t have it and people for sure do. Most clinicians are able to identify that.”

However, he added, “A lot of patients fall into that gray area where it may not be clear at first, even to an expert. But the expert knows how to do a comprehensive evaluation, examining episodes and symptoms and understanding whether they are relevant to LQTS or completely red herrings, and feeling confident about how they calculate the acute interval on an electrocardiogram.”

“All of these may seem mundane, but without the experience, clinicians are vulnerable to miscalculations,” he said. “That’s why our bias, as channelopathists, is that every patient who has a suspected diagnosis or is being treated for LQTS really should see an expert.”

Similarly, Arthur A.M. Wilde, MD, PhD, of the University of Amsterdam, and Peter J. Schwartz, MD, of IRCCS Istituto Auxologico Italiano, Milan, write in a related editorial that it “has to be kept in mind that both diagnostic scores and risk scores are dynamic and can be modified by time and by appropriate therapy.

“Therefore, to make hasty diagnosis of a disease that requires life-long treatment is inappropriate, especially when this is done without the support of adequate, specific experience.”

No commercial funding or relevant financial relationships were reported.

A version of this article first appeared on Medscape.com.

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Five factors underlie the ongoing overdiagnosis and misdiagnosis of long QT syndrome (LQTS), including temporary QT prolongation following vasovagal syncope, a “pseudo”-positive genetic test result, family history of sudden cardiac death, transient QT prolongation, and misinterpretation of the QTc interval, a new study suggests.

Awareness of these characteristics, which led to a diagnostic reversal in 290 of 1,841 (16%) patients, could reduce the burden of overdiagnosis on the health care system and on patients and families, senior author Michael J. Ackerman, MD, PhD, of Mayo Clinic, Rochester, Minn., and colleagues conclude.

“The findings are a disturbing and disappointing sequel to the paper we published about LQTS overdiagnosis back in 2007, which showed that 2 out of every 5 patients who came to Mayo Clinic for a second opinion left without the diagnosis,” Dr. Ackerman told this news organization.

To date, Dr. Ackerman has reversed the diagnosis for 350 patients, he said.

The consequences of an LQTS diagnosis are “profound,” he noted, including years of unnecessary drug therapy, implantation of a cardioverter defibrillator, disqualification from competitive sports, and emotional stress to the individual and family.

By pointing out the five biggest mistakes his team has seen, he said, “we hope to equip the diagnostician with the means to challenge and assess the veracity of a LQTS diagnosis.”

The study was published online in the Journal of the American College of Cardiology.
 

Time to do better

Dr. Ackerman and colleagues analyzed electronic medical records on 290 of 1,841 (16%) patients who presented with an outside diagnosis of LQTS but subsequently were dismissed as having normal findings. The mean age of these patients at their first Mayo Clinic evaluation was 22, 60% were female, and the mean QTc interval was 427 ±25 milliseconds.

Overall, 38% of misdiagnoses were the result of misinterpretation of clinical factors; 29%, to diagnostic test misinterpretations; 17%, to an apparently positive genetic test in the context of a weak or absent phenotype; and 16%, to a family history of false LQTS or of sudden cardiac or sudden unexplained death.

More specifically, the most common cause of an LQTS misdiagnosis was QT prolongation following vasovagal syncope, which was misinterpreted as LQTS-attributed syncope.

The second most common cause was an apparently positive genetic test for an LQTS gene that turned out to be a benign or likely benign variant.

The third most common cause was an LQTS diagnosis based solely on a family history of sudden unexplained death (26 patients), QT prolongation (11 patients), or sudden cardiac arrest (9 patients).

The fourth most common cause was an isolated event of QT prolongation (44 patients). The transient QT prolongation was observed under myriad conditions unrelated to LQTS. Yet, 31 patients received a diagnosis based solely on the event.

The fifth most common cause was inclusion of the U-wave in the calculation of the QTc interval (40 patients), leading to an inaccurate interpretation of the electrocardiogram.

Dr. Ackerman noted that these LQTS diagnoses were given by heart-rhythm specialists, and most patients self-referred for a second opinion because a family member questioned the diagnosis after doing their own research.

“It’s time that we step up to the plate and do better,” Dr. Ackerman said. The team’s evaluation of the impact of the misdiagnosis on the patients’ lifestyle and quality of life showed that 45% had been restricted from competitive sports (and subsequently resumed sports activity with no adverse events); 80% had been started on beta-blockers (the drugs were discontinued in 84% as a result of the Mayo Clinic evaluation, whereas 16% opted to continue); and 10 of 22 patients (45%) who received an implanted cardioverter device underwent an extraction of the device without complications.

The authors conclude: “Although missing a patient who truly has LQTS can lead to a tragic outcome, the implications of overdiagnosed LQTS are not trivial and are potentially tragic as well.”
 

 

 

‘Tricky diagnosis’

LQTS specialist Peter Aziz, MD, director of pediatric electrophysiology at the Cleveland Clinic, agreed with these findings.

“Most of us ‘channelopathists’ who see LQTS for a living have a good grasp of the disease, but it can be elusive for others,” he said in an interview. “This is a tricky diagnosis. There are ends of the spectrum where people for sure don’t have it and people for sure do. Most clinicians are able to identify that.”

However, he added, “A lot of patients fall into that gray area where it may not be clear at first, even to an expert. But the expert knows how to do a comprehensive evaluation, examining episodes and symptoms and understanding whether they are relevant to LQTS or completely red herrings, and feeling confident about how they calculate the acute interval on an electrocardiogram.”

“All of these may seem mundane, but without the experience, clinicians are vulnerable to miscalculations,” he said. “That’s why our bias, as channelopathists, is that every patient who has a suspected diagnosis or is being treated for LQTS really should see an expert.”

Similarly, Arthur A.M. Wilde, MD, PhD, of the University of Amsterdam, and Peter J. Schwartz, MD, of IRCCS Istituto Auxologico Italiano, Milan, write in a related editorial that it “has to be kept in mind that both diagnostic scores and risk scores are dynamic and can be modified by time and by appropriate therapy.

“Therefore, to make hasty diagnosis of a disease that requires life-long treatment is inappropriate, especially when this is done without the support of adequate, specific experience.”

No commercial funding or relevant financial relationships were reported.

A version of this article first appeared on Medscape.com.

Five factors underlie the ongoing overdiagnosis and misdiagnosis of long QT syndrome (LQTS), including temporary QT prolongation following vasovagal syncope, a “pseudo”-positive genetic test result, family history of sudden cardiac death, transient QT prolongation, and misinterpretation of the QTc interval, a new study suggests.

Awareness of these characteristics, which led to a diagnostic reversal in 290 of 1,841 (16%) patients, could reduce the burden of overdiagnosis on the health care system and on patients and families, senior author Michael J. Ackerman, MD, PhD, of Mayo Clinic, Rochester, Minn., and colleagues conclude.

“The findings are a disturbing and disappointing sequel to the paper we published about LQTS overdiagnosis back in 2007, which showed that 2 out of every 5 patients who came to Mayo Clinic for a second opinion left without the diagnosis,” Dr. Ackerman told this news organization.

To date, Dr. Ackerman has reversed the diagnosis for 350 patients, he said.

The consequences of an LQTS diagnosis are “profound,” he noted, including years of unnecessary drug therapy, implantation of a cardioverter defibrillator, disqualification from competitive sports, and emotional stress to the individual and family.

By pointing out the five biggest mistakes his team has seen, he said, “we hope to equip the diagnostician with the means to challenge and assess the veracity of a LQTS diagnosis.”

The study was published online in the Journal of the American College of Cardiology.
 

Time to do better

Dr. Ackerman and colleagues analyzed electronic medical records on 290 of 1,841 (16%) patients who presented with an outside diagnosis of LQTS but subsequently were dismissed as having normal findings. The mean age of these patients at their first Mayo Clinic evaluation was 22, 60% were female, and the mean QTc interval was 427 ±25 milliseconds.

Overall, 38% of misdiagnoses were the result of misinterpretation of clinical factors; 29%, to diagnostic test misinterpretations; 17%, to an apparently positive genetic test in the context of a weak or absent phenotype; and 16%, to a family history of false LQTS or of sudden cardiac or sudden unexplained death.

More specifically, the most common cause of an LQTS misdiagnosis was QT prolongation following vasovagal syncope, which was misinterpreted as LQTS-attributed syncope.

The second most common cause was an apparently positive genetic test for an LQTS gene that turned out to be a benign or likely benign variant.

The third most common cause was an LQTS diagnosis based solely on a family history of sudden unexplained death (26 patients), QT prolongation (11 patients), or sudden cardiac arrest (9 patients).

The fourth most common cause was an isolated event of QT prolongation (44 patients). The transient QT prolongation was observed under myriad conditions unrelated to LQTS. Yet, 31 patients received a diagnosis based solely on the event.

The fifth most common cause was inclusion of the U-wave in the calculation of the QTc interval (40 patients), leading to an inaccurate interpretation of the electrocardiogram.

Dr. Ackerman noted that these LQTS diagnoses were given by heart-rhythm specialists, and most patients self-referred for a second opinion because a family member questioned the diagnosis after doing their own research.

“It’s time that we step up to the plate and do better,” Dr. Ackerman said. The team’s evaluation of the impact of the misdiagnosis on the patients’ lifestyle and quality of life showed that 45% had been restricted from competitive sports (and subsequently resumed sports activity with no adverse events); 80% had been started on beta-blockers (the drugs were discontinued in 84% as a result of the Mayo Clinic evaluation, whereas 16% opted to continue); and 10 of 22 patients (45%) who received an implanted cardioverter device underwent an extraction of the device without complications.

The authors conclude: “Although missing a patient who truly has LQTS can lead to a tragic outcome, the implications of overdiagnosed LQTS are not trivial and are potentially tragic as well.”
 

 

 

‘Tricky diagnosis’

LQTS specialist Peter Aziz, MD, director of pediatric electrophysiology at the Cleveland Clinic, agreed with these findings.

“Most of us ‘channelopathists’ who see LQTS for a living have a good grasp of the disease, but it can be elusive for others,” he said in an interview. “This is a tricky diagnosis. There are ends of the spectrum where people for sure don’t have it and people for sure do. Most clinicians are able to identify that.”

However, he added, “A lot of patients fall into that gray area where it may not be clear at first, even to an expert. But the expert knows how to do a comprehensive evaluation, examining episodes and symptoms and understanding whether they are relevant to LQTS or completely red herrings, and feeling confident about how they calculate the acute interval on an electrocardiogram.”

“All of these may seem mundane, but without the experience, clinicians are vulnerable to miscalculations,” he said. “That’s why our bias, as channelopathists, is that every patient who has a suspected diagnosis or is being treated for LQTS really should see an expert.”

Similarly, Arthur A.M. Wilde, MD, PhD, of the University of Amsterdam, and Peter J. Schwartz, MD, of IRCCS Istituto Auxologico Italiano, Milan, write in a related editorial that it “has to be kept in mind that both diagnostic scores and risk scores are dynamic and can be modified by time and by appropriate therapy.

“Therefore, to make hasty diagnosis of a disease that requires life-long treatment is inappropriate, especially when this is done without the support of adequate, specific experience.”

No commercial funding or relevant financial relationships were reported.

A version of this article first appeared on Medscape.com.

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FROM THE JOURNAL OF THE AMERICAN COLLEGE OF CARDIOLOGY

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