iNOS With Positron Emission Tomography (PET) in Cellular Inflammation.
| Status: | Completed |
|---|---|
| Conditions: | Cardiology |
| Therapuetic Areas: | Cardiology / Vascular Diseases |
| Healthy: | No |
| Age Range: | 21 - Any |
| Updated: | 2/9/2018 |
| Start Date: | September 2009 |
| End Date: | June 2017 |
Imaging iNOS Activity Using [18F] (+/-) NOS With Positron Emission Tomography (PET) in Cellular Inflammation.
The primary purpose of this study is to measure the level of an enzyme in a patient's heart
called inducible nitric oxide synthase(iNOS) using Positron Emission Tomography (PET) imaging
with a radioactive tracer called 18F-NOS. These PET results will be compared to tissue
results obtained during routine endomyocardial heart biopsy. The enzyme iNOS produces nitric
oxide in inflammatory diseases such as acute heart transplant rejection, diabetes,
Alzheimer's and cancer. Thus, PET with the radioactive tracer 18F-NOS may be a useful tool
for detecting the early stages of these diseases. The safety of 18F-NOS during the study will
also be assessed. All PET imaging will be performed with a CTI/Siemens Biograph 40 PET/CT
scanner. Protocol was revised to add new imaging modality, Biograph mMR PET-MR scanner in
order to investigate new hardware and software in order to optimize scanning procedures in
order to refine image quality so that we can apply the findings to future standard clinical
scans and research imaging studies. Ten additional status-post OHT patients who are scheduled
for standard of care endomyocardial biopsy for allograft rejection surveillance will undergo
PET/MR imaging with [18F](+/-)NOS.
called inducible nitric oxide synthase(iNOS) using Positron Emission Tomography (PET) imaging
with a radioactive tracer called 18F-NOS. These PET results will be compared to tissue
results obtained during routine endomyocardial heart biopsy. The enzyme iNOS produces nitric
oxide in inflammatory diseases such as acute heart transplant rejection, diabetes,
Alzheimer's and cancer. Thus, PET with the radioactive tracer 18F-NOS may be a useful tool
for detecting the early stages of these diseases. The safety of 18F-NOS during the study will
also be assessed. All PET imaging will be performed with a CTI/Siemens Biograph 40 PET/CT
scanner. Protocol was revised to add new imaging modality, Biograph mMR PET-MR scanner in
order to investigate new hardware and software in order to optimize scanning procedures in
order to refine image quality so that we can apply the findings to future standard clinical
scans and research imaging studies. Ten additional status-post OHT patients who are scheduled
for standard of care endomyocardial biopsy for allograft rejection surveillance will undergo
PET/MR imaging with [18F](+/-)NOS.
Nitric oxide (NO) is an important and unique mediator of a variety of physiological and
pathological processes. NO is generated from the oxidation of L-arginine to L-citrulline in a
two-step process by nitric oxide synthase (NOS) enzymes. In the NOS family, there are two
constitutive isozymes of NOS, neuronal NOS (nNOS) and endothelial NOS (eNOS), and one
inducible isozyme (iNOS). The three isozymes of NOS are expressed in different tissues to
generate NO for specific physiological roles. nNOS generates NO as a neurotransmitter and
neuromodulator, mainly in brain and peripheral nerve cells; eNOS regulates blood pressure,
and blood flow primarily in vascular endothelial cells. The induction of iNOS occurs by
various inflammatory stimuli (e.g., endotoxin) in activated macrophages and other types of
cells and plays a crucial role in the host defense and the inflammatory processes.
Normally, the basal level of NO in all parts of the body is very low, mainly due to the
constitutive nNOS and eNOS. In contrast, once expressed, iNOS can continue to generate NO in
large amounts (up to μM concentrations) for a prolonged period of time. Studies have shown
that production of NO by iNOS is implicated in a variety of acute and chronic inflammatory
diseases (e.g., sepsis, septic shock, organ transplant rejection, vascular dysfunction in
diabetes, asthma, arthritis, multiple sclerosis, and inflammatory diseases of the gut). iNOS
activity has also been found in many tumors. Because of the central role of iNOS in
NO-related diseases, numerous efforts have been made to develop iNOS inhibitors as
pharmaceuticals ranging from the nonselective L-arginine analogues to the selective
inhibitors reported recently. Some inhibitors of iNOS have shown promising results in animal
models of sepsis, lung inflammation, arthritis, and autoimmune diabetes. Therefore, the
development of a radiolabeled iNOS inhibitor for probing iNOS expression in vivo using
noninvasive positron emission tomography (PET) imaging will be of tremendous value to the
study and treatment of NO-related diseases.
Acute allograft rejection is the major contributor to mortality in patients receiving
orthotopic heart transplantation (OHT). Specifically, iNOS has been thought to be the main
NOS involved in producing NO that is active in acute cardiac allograft rejection.
Up-regulation of iNOS occurs in macrophage cellular infiltrates and later within the graft
parenchymal cells. In human cardiac transplantation a positive correlation has shown between
iNOS expression and left ventricular contractile dysfunction measured by echocardiography and
Doppler techniques. We have recently developed a novel PET radiotracer, [18F](+/-)NOS,
designed to measure cellular iNOS activity. This study evaluates the feasibility of the
method in OHT patients undergoing surveillance endomyocardial biopsy as part of their normal
post-transplant evaluation for potential allograft rejection. More specifically, it will
compare the myocardial kinetics of this radiotracer measured by PET with tissue measurements
of iNOS measured by immunohistochemistry.
pathological processes. NO is generated from the oxidation of L-arginine to L-citrulline in a
two-step process by nitric oxide synthase (NOS) enzymes. In the NOS family, there are two
constitutive isozymes of NOS, neuronal NOS (nNOS) and endothelial NOS (eNOS), and one
inducible isozyme (iNOS). The three isozymes of NOS are expressed in different tissues to
generate NO for specific physiological roles. nNOS generates NO as a neurotransmitter and
neuromodulator, mainly in brain and peripheral nerve cells; eNOS regulates blood pressure,
and blood flow primarily in vascular endothelial cells. The induction of iNOS occurs by
various inflammatory stimuli (e.g., endotoxin) in activated macrophages and other types of
cells and plays a crucial role in the host defense and the inflammatory processes.
Normally, the basal level of NO in all parts of the body is very low, mainly due to the
constitutive nNOS and eNOS. In contrast, once expressed, iNOS can continue to generate NO in
large amounts (up to μM concentrations) for a prolonged period of time. Studies have shown
that production of NO by iNOS is implicated in a variety of acute and chronic inflammatory
diseases (e.g., sepsis, septic shock, organ transplant rejection, vascular dysfunction in
diabetes, asthma, arthritis, multiple sclerosis, and inflammatory diseases of the gut). iNOS
activity has also been found in many tumors. Because of the central role of iNOS in
NO-related diseases, numerous efforts have been made to develop iNOS inhibitors as
pharmaceuticals ranging from the nonselective L-arginine analogues to the selective
inhibitors reported recently. Some inhibitors of iNOS have shown promising results in animal
models of sepsis, lung inflammation, arthritis, and autoimmune diabetes. Therefore, the
development of a radiolabeled iNOS inhibitor for probing iNOS expression in vivo using
noninvasive positron emission tomography (PET) imaging will be of tremendous value to the
study and treatment of NO-related diseases.
Acute allograft rejection is the major contributor to mortality in patients receiving
orthotopic heart transplantation (OHT). Specifically, iNOS has been thought to be the main
NOS involved in producing NO that is active in acute cardiac allograft rejection.
Up-regulation of iNOS occurs in macrophage cellular infiltrates and later within the graft
parenchymal cells. In human cardiac transplantation a positive correlation has shown between
iNOS expression and left ventricular contractile dysfunction measured by echocardiography and
Doppler techniques. We have recently developed a novel PET radiotracer, [18F](+/-)NOS,
designed to measure cellular iNOS activity. This study evaluates the feasibility of the
method in OHT patients undergoing surveillance endomyocardial biopsy as part of their normal
post-transplant evaluation for potential allograft rejection. More specifically, it will
compare the myocardial kinetics of this radiotracer measured by PET with tissue measurements
of iNOS measured by immunohistochemistry.
Inclusion Criteria:
1. The OHT patients will be undergoing surveillance endomyocardial biopsy and will
Patients 21 years of age or older of either sex, who are status-post OHT and normal
healthy volunteers (2 women and 2 men) will be enrolled.be on standard
immunosuppressive therapy and anti-hyperlipidemic, anti-hypertensive and anti-diabetic
therapies as needed. "Healthy volunteer" is someone who has volunteered to be imaged
and who, based on physical exam and baseline electrocardiogram, has no evidence of
cardiovascular disease, is not on medication, such as steroids, that will interfere
with the accuracy of measuring [18F](+/-)NOS activity and is not under the care of a
physician for any active medical conditions.
2. Able to give informed consent.
3. Not currently pregnant or nursing: Female subjects must be either: surgically sterile
(has had a documented bilateral oophorectomy and/or documented hysterectomy), post
menopausal (cessation of menses for more than 1 year), or of childbearing potential
for whom a urine pregnancy test (with the test performed within the 24 hour period
immediately prior to administration of [18F](+/-)NOS) is negative.
Exclusion Criteria:
1. Patients with an unstable cardiovascular (e.g., severe rejection) or other clinical
condition (e.g., active severe infection) that in the opinion of the Principal
Investigator or designee or Dr. Ewald precludes participation in the study.
2. Unable to tolerate 60-90 mins of PET imaging or is claustrophobic.
3. Normal volunteers with evidence of cardiovascular disease or other diseases based on
clinical evaluation and/or blood laboratory tests, which are judged by the Principal
Investigator or designee to interfere with accurate determination of the of
[18F](+/-)NOS on such measures.
We found this trial at
1
site
660 S Euclid Ave
Saint Louis, Missouri 63110
Saint Louis, Missouri 63110
(314) 362-5000
Washington University School of Medicine Washington University Physicians is the clinical practice of the School...
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