Diagnostic Utility of SGLT1/2 Inhibition to Facilitate Myocardial Glucose Suppression
Status: Recruiting
Conditions: Sarcoidosis
Location:
University of PennsylvaniaCity/State:
Philadelphia, Pennsylvania
Contact Information:
Name: Mary E Hansbury, BS
Phone Number: 2157468192
Email: [email protected]
Name: Erin Schubert, BA
Phone Number: 215-573-6569
Email: [email protected]
Brief Summary: This is a pilot mechanistic study of the diagnostic utility of sodium-glucose cotransporter-1/2 inhibition (SGLT1/2) on myocardial glucose suppression on FDG PET/CT. The investigators will test whether the addition of a SGLT1/2 inhibitor (SGLT1/2i) plus the standard dietary modification (ketogenic diet) will provide enhanced myocardial glucose suppression. The primary objective is to assess rates of complete myocardial glucose suppression (MGS) with 7 days of sotagliflozin 400 mg QD among healthy volunteers on a background of 1 day (N=20) or 3 days (N=20) of the KD. The secondary goal is to investigate the relationship between sotagliflozin, targeted metabolite levels, and myocardial glucose utilization on FDG-PET.
Participants will be asked to:
-
- undergo a screening visit that includes blood tests, vitals, and questions regarding health history/medications
- take the provided sotagliflozin as instructed for 7 days leading up to the scan
- follow a ketogenic diet as instructed for 1 or 3 days leading up to the scan
- undergo an FDG PET/CT scan, which includes vitals and blood draws
Detailed Description The purpose of this mechanistic pilot study is to evaluate the effect on myocardial glucose suppression, and therefore on image quality, with the addition of a brief course of an FDA approved SGLT1/2 inhibitor prior to FDG PET/CT scan. FDG PET/CT is a clinically utilized scan for diagnosis of cardiac sarcoidosis following the standard diet and fasting requirements, this study will test the addition of the 7 days of sotagliflozin prior to the scan.
Sotagliflozin (INPEFA™) is a sodium-glucose cotransporter-2 inhibitor (SGLT1/2i) Sodium-glucose cotransporter-2 inhibitor that has been studied in humans and is FDA approved for reduce the risk of cardiovascular death, hospitalization for heart failure, and urgent heart failure visit in adults with heart failure or type 2 diabetes mellitus, chronic kidney disease, and other cardiovascular risk factors. In this study, the investigators will be using it “off-label” in healthy volunteers and will be using only a short course (approximately 1 week) of the drug prior to the FDG PET/CT PET scan. “Off-label” use is when an FDA approved drug is prescribed for a condition/use other than that for which the drug has been officially approved. Therefore, the study will be utilizing sotagliflozin in way that it has yet to be approved for by the FDA.
The investigators may enroll up to 40 fully evaluable healthy volunteers. A fully evaluable subject must complete the PET/CT scan. Subjects who do not complete the PET/CT scan will not be counted as fully evaluable, however, collected data may still be used in some secondary analyses. The participants will be aged at least 18 years old. After completing a screening visit and meeting study eligibility, each participant will undergo an FDG PET scan after taking sotagliflozin for 7 (up to 10 maximum) days and following a ketogenic diet for either 1 day (N=20) prior to the scan with overnight fasting or 3 days (N=20) prior to the scan with overnight fasting. Enrollment of the 20 participants undergoing 3 days of KD is dependent on sufficient funding, and therefore initial efforts will be targeted toward enrolling participants in the 1 day of KD stratum. Participants will be asked to track when they have taken the sotagliflozin in a provided diary.
FDG PET/CT imaging will be used to evaluate glycolytic activity in the heart using the FDA approved clinical Positron Emission Tomography (PET) radiotracer, [18F] Fluorodeoxyglucose (FDG) Imaging will be done on a dedicated whole-body PET scanner. For each PET scan, dynamic images over the body will be acquired from the time of injection to up to 60 minutes after injection of FDG. Imaging data will be processed as per standard protocols. The study will be performed under the regulatory approval of the Penn Institutional Review Board (IRB).
Participants will undergo an FDG PET/CT after taking 7 (up to 10 maximum) days of oral sotagliflozin overlapping with 1 or 3 day(s) of dietary modification (standard ketogenic diet) and overnight fasting prior to FDG injection.
For all subjects, the investigators may measure blood levels of BHB, lipids, basic metabolic panel, complete blood counts HbA1c, free fatty acid, acylcarnitine, glucose, and insulin at screening, some of these tests will be repeated on the day of the scan. The investigators plan to use the Penn Metabolomics Core and Penn Diabetes Radioimmunoassay and Biomarkers Core for sample processing. Since intravenous access will be obtained for administration of the tracer on the day of the PET scan, a blood draw will be performed from this line. Thereafter, the investigators will perform comprehensive, targeted metabolomic profiling from this peripheral blood so the study team can correlate myocardial suppression with other metabolic markers. Most of the research testing will occur at later dates with stored samples. The lab test results that may be entered in the medical record include BHB, lipids, basic metabolic panel, complete blood counts and glucose. Other experimental test results will not be provided to the subjects.
Participants will be asked to follow a standard prescribed ketogenic diet and keep a diet diary during the KD prior to the FDG PET visit, this diet matches the clinical SOC pre-scan preparation for sarcoidosis. On the day of FDG-PET, the diet diary will be collected and reviewed by an investigator. The diet will also be reviewed, usually at a later date, by a CHPS nutritional specialist and information reported by the subject will be used to perform meal analysis and estimate grams of fat, protein and carbohydrates.
This is a single institution, pilot mechanistic study of FDG PET/CT to determine optimal method of myocardial glucose suppression. Patients may participate in this study if they are greater than 18 years of age. Subjects that may meet eligibility criteria will be approached about study participation regardless of race or ethnic background.