Cardiac Function in Patients With Hereditary Hemochromatosis
Status: | Active, not recruiting |
---|---|
Conditions: | Hematology |
Therapuetic Areas: | Hematology |
Healthy: | No |
Age Range: | 21 - Any |
Updated: | 2/23/2019 |
Start Date: | September 8, 2003 |
Characterization of Cardiac Function in Subjects With Hereditary Hemochromatosis Who Are New York Heart Association Functional Class I
This study will examine the effect of iron buildup in the hearts of patients with hereditary
hemochromatosis (HH), a genetic disease that causes the body to accumulate excess amounts of
iron. The excess iron can damage the heart, liver, pancreas, skin, and joints. Generally,
early treatment with phlebotomy (periodic removal of a unit of blood), and in some cases
chelation (using a drug to remove iron from the body) slows down organ damage in HH patients.
This study will try to elucidate the effect of iron buildup in the heart and determine if
phlebotomy and chelation help keep the heart healthy.
Patients with HH and healthy volunteers 21 years of age and older may be eligible for this
study. (Normal volunteers will provide normal values of heart function that will be used to
verify abnormalities detected in HH patients.) Patients must have a gene abnormality of Hfe
gene Cys282Try homozygote. They may or may not be receiving treatment for HH and they must
have no heart symptoms or serious organ damage due to HH. Candidates will be screened with a
medical history and physical examination, blood tests, electrocardiogram (EKG), Holter EKG
(24-hour EKG monitoring, see description below), and chest x-ray.
Participants will undergo the following tests and procedures over 2 to 5 days:
- Exercise test: The participant exercises on a treadmill while wearing a mouthpiece,
which is used to measure how much oxygen is used. Electrodes placed on the chest and
arms monitor the heartbeat during the test.
- Echocardiography: This ultrasound test uses sound waves to take pictures. A small probe
is held against the chest to allow a technician to take pictures of the heart and assess
its function. A drug called Optison may be injected in an arm vein if needed to enhance
the ultrasound images.
- Exercise stress echocardiography: The participant exercises on a stationary bike while
heart function is measured with an echocardiogram, EKG, and blood pressure cuff.
- 24-hour Holter EKG: The participant wears a small machine that records heart rhythm
continuously for 24 hours. The recorder is connected by cables to electrodes placed on
the chest.
- Magnetic resonance imaging: This test uses a magnetic field and radio waves to obtain
detailed images of the heart and blood vessels. The participant lies flat on a table
that slides inside the scanner, which is a large hollow tube.
All tests are performed once in normal volunteers and in patients who have received standard
treatment for HH. Untreated patients repeat the tests 6 months after beginning phlebotomy or
chelation. Additional time points for these tests might be added if further evaluation is
needed.
hemochromatosis (HH), a genetic disease that causes the body to accumulate excess amounts of
iron. The excess iron can damage the heart, liver, pancreas, skin, and joints. Generally,
early treatment with phlebotomy (periodic removal of a unit of blood), and in some cases
chelation (using a drug to remove iron from the body) slows down organ damage in HH patients.
This study will try to elucidate the effect of iron buildup in the heart and determine if
phlebotomy and chelation help keep the heart healthy.
Patients with HH and healthy volunteers 21 years of age and older may be eligible for this
study. (Normal volunteers will provide normal values of heart function that will be used to
verify abnormalities detected in HH patients.) Patients must have a gene abnormality of Hfe
gene Cys282Try homozygote. They may or may not be receiving treatment for HH and they must
have no heart symptoms or serious organ damage due to HH. Candidates will be screened with a
medical history and physical examination, blood tests, electrocardiogram (EKG), Holter EKG
(24-hour EKG monitoring, see description below), and chest x-ray.
Participants will undergo the following tests and procedures over 2 to 5 days:
- Exercise test: The participant exercises on a treadmill while wearing a mouthpiece,
which is used to measure how much oxygen is used. Electrodes placed on the chest and
arms monitor the heartbeat during the test.
- Echocardiography: This ultrasound test uses sound waves to take pictures. A small probe
is held against the chest to allow a technician to take pictures of the heart and assess
its function. A drug called Optison may be injected in an arm vein if needed to enhance
the ultrasound images.
- Exercise stress echocardiography: The participant exercises on a stationary bike while
heart function is measured with an echocardiogram, EKG, and blood pressure cuff.
- 24-hour Holter EKG: The participant wears a small machine that records heart rhythm
continuously for 24 hours. The recorder is connected by cables to electrodes placed on
the chest.
- Magnetic resonance imaging: This test uses a magnetic field and radio waves to obtain
detailed images of the heart and blood vessels. The participant lies flat on a table
that slides inside the scanner, which is a large hollow tube.
All tests are performed once in normal volunteers and in patients who have received standard
treatment for HH. Untreated patients repeat the tests 6 months after beginning phlebotomy or
chelation. Additional time points for these tests might be added if further evaluation is
needed.
Hereditary hemochromatosis (HH) is the most common hereditary metabolic abnormality among
Caucasians. Homozygosity for the Cys282Tyr mutation, which is the most common known mutation
with a predisposition to iron overload, occurs with an estimated frequency of 8 per 1000 in
the Caucasians. Hemochromatosis in its advanced stages is associated with severe cardiac
complications including congestive heart failure, premature coronary artery disease, and
cardiac arrhythmias. The clinical manifestations of HH are due to increased iron absorption
and abnormal iron cycling with excessive iron deposition in various organs. Mutations of the
Hfe gene on chromosome 6 have been recently identified. Although the pathophysiology remains
incompletely understood, a homozygote mutation in Cys282Tyr is present in 84 to 100% of
clinically confirmed HH cases. This discovery permits the early diagnosis of this disease and
could be used for screening to identify asymptomatic cases. Therefore, the NHLBI in January
2000 launched a 30 million dollar project named HEIRS (HEmochromatosis and IRon overload
Study) to screen 1,000,000 adults for HH, and recently completed enrollment.
Increased left ventricular wall thickness and mass has been found to be early cardiac
manifestations of HH appearing before the onset of contractile dysfunction. Interestingly, a
report also indicates that functional abnormalities of the heart can be seen in predominantly
asymptomatic HH patient group. Such abnormalities of diastolic function are detected by
Doppler echocardiography. Observations support the theory that asymptomatic cardiac
dysfunction is detectable with non-invasive cardiac imaging in patients with HH.
Although the pathophysiology of cardiac dysfunction in HH has not been well characterized, it
is speculated that enhanced production of reactive oxygen species (ROS) may be responsible
for tissue damage. Therefore, biochemical and/or genetic markers of oxidant stress might be
helpful in determining whether this mechanism is involved in producing cardiac dysfunction.
In this protocol, we propose a retrospective pilot study with a small-sized nested
prospective study of cardiac function in patients with HH. The intention is to utilize
obtained results to design a larger definitive study if results are warranted. The following
hypotheses will be tested: Cardiac abnormalities 1) can be diagnosed with conventional
non-invasive cardiac imaging in HH patients with New York Heart Association Functional Class
I (asymptomatic), 2) limit patients' exercise capacity, 3) are associated with an elevated
oxidant stress level, and 4) are improved by phlebotomy and its efficacy correlated with a
reduction in oxidant stress.
Caucasians. Homozygosity for the Cys282Tyr mutation, which is the most common known mutation
with a predisposition to iron overload, occurs with an estimated frequency of 8 per 1000 in
the Caucasians. Hemochromatosis in its advanced stages is associated with severe cardiac
complications including congestive heart failure, premature coronary artery disease, and
cardiac arrhythmias. The clinical manifestations of HH are due to increased iron absorption
and abnormal iron cycling with excessive iron deposition in various organs. Mutations of the
Hfe gene on chromosome 6 have been recently identified. Although the pathophysiology remains
incompletely understood, a homozygote mutation in Cys282Tyr is present in 84 to 100% of
clinically confirmed HH cases. This discovery permits the early diagnosis of this disease and
could be used for screening to identify asymptomatic cases. Therefore, the NHLBI in January
2000 launched a 30 million dollar project named HEIRS (HEmochromatosis and IRon overload
Study) to screen 1,000,000 adults for HH, and recently completed enrollment.
Increased left ventricular wall thickness and mass has been found to be early cardiac
manifestations of HH appearing before the onset of contractile dysfunction. Interestingly, a
report also indicates that functional abnormalities of the heart can be seen in predominantly
asymptomatic HH patient group. Such abnormalities of diastolic function are detected by
Doppler echocardiography. Observations support the theory that asymptomatic cardiac
dysfunction is detectable with non-invasive cardiac imaging in patients with HH.
Although the pathophysiology of cardiac dysfunction in HH has not been well characterized, it
is speculated that enhanced production of reactive oxygen species (ROS) may be responsible
for tissue damage. Therefore, biochemical and/or genetic markers of oxidant stress might be
helpful in determining whether this mechanism is involved in producing cardiac dysfunction.
In this protocol, we propose a retrospective pilot study with a small-sized nested
prospective study of cardiac function in patients with HH. The intention is to utilize
obtained results to design a larger definitive study if results are warranted. The following
hypotheses will be tested: Cardiac abnormalities 1) can be diagnosed with conventional
non-invasive cardiac imaging in HH patients with New York Heart Association Functional Class
I (asymptomatic), 2) limit patients' exercise capacity, 3) are associated with an elevated
oxidant stress level, and 4) are improved by phlebotomy and its efficacy correlated with a
reduction in oxidant stress.
- INCLUSION CRITERIA:
HH Patients
Group A patients (untreated HH patients)
Adults 21 years or older
New York Heart Association Functional Classification Class I
Documented positive phenotyping for homozygote Cys282Tyr of Hfe gene with documented serum
ferritin level above 400 ng/ml or documented % iron saturation more than 60%.
Patient has not received standard chronic phlebotomy or deferoxamine treatment. Individuals
are allowed to have up to 3 emergency phlebotomies for alleviation of severe iron
accumulation before enrollment.
Group B patients (treated HH patients)
Adults 21 years or older
New York Heart Association Functional Classification Class I
Documented positive phenotyping for homozygote Cys282Tyr of Hfe gene with documented serum
ferritin level above 400 ng/ml or documented % iron saturation more than 60%.
Patient has been compliant with standard phlebotomy and/or deferoxamine treatment for 6
months or longer and in stable phase with iron saturation 50% or less.
Healthy Volunteers
Group C Patients (Age-Gender Matched Healthy Control Subjects)
Adults 21 years or older.
No symptoms suggestive of heart disease or any other medical conditions, negative Hfe
genotyping for Cys282Tyr or His63Asp with normal ferritin and iron saturation.
EXCLUSION CRITERIA:
HH patients
Group A patients (untreated HH patients)
Pregnant or lactating women
History or present evidence of coronary artery disease, heart failure, peripheral vascular
disease, coagulopathy, or uncontrolled hypertension (systolic blood pressure over 170 mmHg
and/or diastolic pressure over 100 mmHg).
History of significant end-organ damage secondary to HH.
Serum creatinine greater than 2.0 mg/ml
LFT's more than 2.5 times above upper limit of normal
History of structural cardiac disease except mitral valve prolapse with mild mitral
regurgitation
Uncontrolled glucose levels with hemoglobin A(1c) above 8 mg/dl or the use of more than one
oral hyperglycemic agents or insulin therapy to control diabetes.
Current use of antioxidant treatment such as vitamin E and C. However, the cessation of
this treatment 4 weeks prior to the study will allow for inclusion.
Evidence of impaired immunity including HIV
Chronic systemic inflammatory disease such as SLE, rheumatoid arthritis, collagen vascular
disease.
Participation in unrelated research involving investigational pharmacological agent in past
30 days.
Current alcohol use (more than 26 grams averaged ethanol intake per day) or drug abuse.
Inability to provide informed consent
Smoking in past 3 months.
Use of beta-adrenergic blocking agents and calcium channel blockers with negative
chronotropic effect within 1 week.
Inability to perform treadmill or bicycle exercise testing.
Inability to undergo MRI such as ferromagnetic implant.
Group B patients (treated HH patients)
Pregnant or lactating women
History or present evidence of coronary artery disease, heart failure, peripheral vascular
disease, coagulopathy, or uncontrolled hypertension (systolic blood pressure over 170 mmHg
and/or diastolic pressure over 100 mmHg).
History of significant end-organ damage secondary to HH.
Serum creatinine greater than 2.0 mg/ml
LFT's more than 2.5 times above upper limit of normal
History of structural cardiac disease except mitral valve prolapse with mild mitral
regurgitation
Uncontrolled glucose levels with hemoglobin A(1c) above 8 mg/dl or the use of more than one
oral hyperglycemic agents or insulin therapy to control diabetes.
Current use of antioxidant treatment such as vitamin E and C. However, the cessation of
this treatment 4 weeks prior to the study will allow for inclusion.
Evidence of impaired immunity including HIV
Chronic systemic inflammatory disease such as SLE, rheumatoid arthritis, collagen vascular
disease.
Participation in unrelated research involving investigational pharmacological agent in past
30 days.
Current alcohol use (more than 26 grams averaged ethanol intake per day) or drug abuse.
Inability to provide informed consent
Smoking in past 3 months.
Use of beta-adrenergic blocking agents and calcium channel blockers with negative
chronotropic effect within 1 week.
Inability to perform treadmill or bicycle exercise testing.
Inability to undergo MRI such as ferromagnetic implant.
Healthy volunteers
Group C Patients (Age-Gender Matched Healthy Control Subjects)
Pregnant or lactating women.
History or present evidence of any structural cardiac disease except mitral valve prolapse
with mild mitral regurgitation, heart failure, peripheral vascular disease, coagulopathy,
and uncontrolled hypertension (systolic blood pressure over 170 mmHg and/or diastolic
pressure over 100 mmHg).
Serum creatinine greater than 2.0 mg/ml.
LFT's more than 2.5 times above upper limit of normal.
Current use of antioxidant treatment such as vitamin E and C. However, the cessation of
this treatment 4 weeks prior to the study will be included.
Uncontrolled glucose levels with hemoglobin A(1C) above 8 mg/dl or the use of oral
hyperglycemic agents or insulin therapy to control diabetes.
Evidence of impaired immunity including HIV.
Chronic systemic inflammatory disease such as SLE, rheumatoid arthritis, collagen vascular
disease.
Participation in unrelated research involving investigational pharmacological agent in past
30 days.
Current alcohol use (more than 26 grams averaged ethanol intake per day) or drug abuse.
Inability to provide informed consent.
Smoking in past 3 months.
Subjects with any chronic medical problems*
Inability to undergo MRI such as ferromagnetic implant.
*For the purpose of this protocol "chronic medical problems' is defined as any current
condition not amenable to curative therapy and which requires long-term medical treatment
and/or clinical monitoring.
We found this trial at
1
site
9000 Rockville Pike
Bethesda, Maryland 20892
Bethesda, Maryland 20892
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