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The goal of this clinical trial is to explore the impact that an at-home cardio-oncology rehabilitation (CORE) may have on short-term cardiovascular fitness and psychosocial wellness in pediatric cancer survivors. The main question it aims to answer are * To evaluate the efficacy of an at-home CORE model on short-term cardiovascular fitness and psychosocial wellbeing in adolescent cancer survivors. * To evaluate the exercise adherence rate among adolescents at risk for heart failure and assess barriers to compliance. * To explore which specific CORE resources are of most value to patients in creating sustainable healthy lifestyle modifications. * Hypothesis: Pediatric cancer survivors who implement exercise and dietary recommendations will demonstrate improvement in cardiovascular fitness and general wellness. A multidisciplinary team approach can facilitate adherence to a moderately rigorous exercise prescription, and thus enhance the health benefits of a CORE program at CHLA. Participants will undergo cardiovascular studies and a quality-of-life survey prior to exercise intervention, and at the end of the 6-month study period.
This trial is a pilot-scale, single institution randomized, placebo-controlled trial to assess the feasibility, acceptability, and efficacy of administering dapagliflozin for cardiovascular risk reduction in the postpartum period. The target population is patients at high risk of adverse cardiovascular outcomes within five years post-delivery. Eligible participants will be randomized to receive either: 1) dapagliflozin (10mg daily) for six months (DAPA group) or 2) an orally administered, daily placebo (Control group). The study hypothesizes: The dapagliflozin group will have higher cardiovascular risk reduction scores than the Control Group.
A high prevalence of diabetes has been reported in Qatar with nearly 23% population suffering from the pandemic, thereby increasing the associated healthcare cost. Low compliance with exercise and physical activity in patients with diabetes increases foot risk complications, deteriorates health, and further increases economic costs. This is particularly true among patients with diabetes who are undergoing hemodialysis (HD) process. Exercise interventions have been shown to improve mobility and balance, reduce the incidence of falls, and improve peripheral blood flow, which is essential to reduce foot problems and peripheral arterial disease. However, uptake of exercise programs for individuals who are undergoing HD treatment has been limited. The three main factors limiting uptake and adherence among HD patients are time availability, post-dialysis fatigue, and transportation to exercise programs, which are usually offered in rehabilitation departments or cardiovascular centers but not in nephrology departments or in free-standing dialysis clinics. Many of these patients visit clinics 3 times a week to receive hemodialysis, providing an optimal opportunity for intervention. Thus the investigators are proposing an innovative intervention based on plantar electrical stimulation treatment during HD (3 times per week) to enhance balance and quality of life while reducing the risk of peripheral arterial diseases and diabetic foot ulcers, which are highly prevalent among people with diabetes and chronic kidney disease. This interdisciplinary study is based on preliminary studies, in which the investigators demonstrated that regular plantar electrical stimulation is an effective and practical therapy to enhance motor performance and plantar sensation in patients with diabetes. The scientific premise of the proposed intervention has been also supported by literature as well as three systematic reviews suggesting the effectiveness of electrical stimulation to reduce pain, improve balance, improve skin perfusion, and improve plantar sensation. In the context of this study, the investigators propose to bring an innovative technology based on an FDA-cleared bio-electric stimulation technology (BEST®) microcurrent platform, named Tennant Biomodulator® (Avazzia Inc., Dallas, TX, USA), which is a transcutaneous electrical nerve stimulator (TENS) and has been designed for symptomatic relief and management of chronic pain. However, the system was modified to provide electrical stimulation to the plantar area via two electrodes placed on the hind and forefoot area instead of the leg. The device has a 60-minute run cycle after which it automatically turns off. In the context of a previous study funded by QNRF, the investigators developed and tested 50 electrical stimulation units (which will be used in the context of the study), including 25 active systems and 25 placebo systems. The placebo systems are similar to active systems in the appearance and functioning of lights and indicators. However, they were programmed not to provide any electrical current. In a preliminary study, the proof of concept of this revised technology was tested in the context of enhancing balance and skin perfusion in ambulatory patients with diabetes and peripheral neuropathy. In the context of this study, the investigators plan to translate this technology for routine treatment during HD sessions for patients with diabetes who are undergoing regular HD treatment. Using a double-blinded randomized-controlled model, the investigators will validate the effectiveness of this technology to enhance balance, reduce pain, and improve skin perfusion. One hundred (n=100) HD volunteers with diabetes will be recruited and randomized to either intervention (n=50) or control (CG: n=50) group for the purpose of this study. Plantar electrical stimulation will be provided during HD sessions, 3 times per week and for 12 weeks. Outcomes will be assessed at baseline, 6 weeks, and 12 weeks to examine the effectiveness of the proposed intervention to enhance balance, improve quality of life, and improve lower extremity skin perfusion among HD patients with diabetes. This proposal is in line with Qatar National Priorities Research goals and if successful the result will open new doors to managing diabetes and kidney failure. In a setting where no therapeutic agents or interventions effectively address poor balance and loss of protective sensation among HD patients with diabetes and where affected individuals life with a heightened risk of developing a debilitating foot ulcer and quite possibly a disabling amputation, the potential impact from the plantar electrical stimulation system may offer the potential for significant clinical benefit, with very low risk, and with ease of implementation in routine care application for patients who are undergoing HD treatment.
The purpose of this research study is to understand what effect near complete estrogen deprivation (NCED) therapy has on the heart in breast cancer patients. Investigators want to understand if NCED changes how the heart works.