View clinical trials related to Type 2 Diabetes.
Filter by:Both high and low environmental temperatures are associated worldwide with higher morbidity and mortality and an estimated 8% of the mortality is estimated to relate to non-optimum temperatures. The majority of the adverse health effects occur at to low, and not high temperatures, and already with a modest change in temperature. Persons with type 2 diabetes can be sensitive to the effect of temperature due to their altered neural, metabolic and circulatory functions. The pathophysiological responses of type 2 diabetes in a cold and hot environment are not known. The aim of the study is to examine how advanced type 2 diabetes (disease progression >10 years) alone, an in conjunction with coronary artery diseases and hypertension affect neural, cardiovascular and metabolic responses in a cold and hot environment. Type 2 diabetes is associated with altered neural regulation, weakened cardiovascular function, structural changes in blood vessels, altered blood constitution and metabolic disturbances. These affect thermoregulation and result in increased susceptibility to cold (lesser heat production, increased heat loss) and heat (lesser sweating and heat loss). The patients are exposed under controlled conditions in a random order to both cold (+10°C) and heat (+44°C) while resting and lightly clothed for 90 min at a time. The exposure itself is preceded by baseline measurements of the parameters of interest, and followed by repeating the same measurements after the exposure. The topic of the research is very relevant due to the worldwide epidemic of type 2 diabetes. Simultaneously, the comorbid conditions associated with diabetes become more common and are related to a higher occurrence of cardiac events. The research information is useful for all individuals with type 2 diabetes in their protection and self-management of the disease, and enabling to maintain functional ability in a cold or hot environment. The research knowledge can be utilized when developing weather warning systems for the identification of susceptible populations. Health care personnel may utilize the research information while advising their patients and for proper care. An increased awareness of the health effects of both low and high temperatures improve the functional ability of individuals and reduced help reducing morbidity and mortality from weather conditions.
The study team will study the efficacy of a high intensity medical weight loss intervention paired with a digital platform to create weight loss and induce remission of type 2 diabetes mellitus (T2DM) compared to a diabetes self-management education intervention. The digital platform provides the capability to tailor the treatment plan, provide automated support, and alert providers when a participant may need more support from the clinical team. If shown to be efficacious, this research could be highly impactful, causing us to rethink our approach to care for those with T2DM and shift the paradigm for millions of individuals in the United States. Furthermore, this approach will demonstrate the feasibility of helping people engage in metabolic treatment strategies in a way that is scalable leveraging digital and mobile solutions that extend the patient-provider relationship, shift care from episodic approaches to more of an on-going model that extends into the life of the patient, while also integrated within the healthcare system workflows.
Diabetes is a growing global health care challenge. Diabetes patients may also suffer from cardiovascular autonomic neuropathy (CAN) which may affect cerebral perfusion. The main purpose of this project is to investigate the association between CAN and disturbances in the neurovascular coupling in type 2 diabetes patients. Moreover, the purpose is also to investigate coherence between CAN and the enteric nervous system. Finally, this project aims at delineating microstructural changes in the brain tissues as a consequence of CAN.
This is a longitudinal study involving use of the January App which collects multiple data streams and employs machine learning techniques to offer personalized lifestyle recommendations and structured food and activity challenges.
Trial Title A randomized, double blind sham controlled clinical trial to evaluate the efficacy of vestibular nerve stimulation (VeNS), together with a lifestyle modification program, compared to a sham control with a lifestyle modification program, as a means of improving glycemic control in adults with type 2 diabetes mellitus. The aim of this study is to evaluate the efficacy of non-invasive electrical vestibular nerve stimulation (VeNS), together with a lifestyle modification program, as a method of reducing HbA1c, as compared to a sham control. Allocation: Randomized to either active device or control device usage. All subjects will receive the same lifestyle advice. Endpoint classification: Efficacy Study Intervention Model: Parallel Assignment in 1:1 active to control allocation Trial Participants: Those who have been diagnosed with Type 2 diabetes mellitus. Sample Size: The aim is to recruit a total of 200 participants. Planned Trial Period: The study will last 24 weeks in total for each subject. The primary analysis will be conducted at the 24 weeks timepoint. The study in total is estimated to take about 1.5 years to complete.
This is a pragmatic, 24 month, single-center, randomized, open-label, parallel-group trial comparing an obesity-centric approach with a medically-supervised and comprehensive weight loss program (Cleveland Clinic's Endocrinology and Metabolism Institute's Integrated Weight Management Program) augmented by AOMs, vs. an obesity-centric approach with a medically-supervised and comprehensive weight loss program without AOMs, vs. the current usual care approach to general health management. Informed consent will be obtained. IRB approval of the study will be obtained. 300 subjects (employees or spouses covered by our EHP) will be randomized 1:1:1 to receive either an obesity-centric approach with AOM therapy (N=100), an obesity-centric approach without AOM therapy (N=100), or the current usual care approach to general health management (N=100).
The objective of the DASH4D trial is to determine the effects, alone and combined, of (a) the DASH4D diet (a DASH-style diet modified for people with diabetes) vs. comparison diet that is typical of what many Americans eat and (b) lower sodium intake vs. higher sodium intake on blood pressure (BP). The core design is a single-site, 4-period, crossover feeding study with 5-week periods. Participants are fed each of four isocaloric diets, presented in random order. The primary contrast of interest is DASH4D diet with lower sodium vs. comparison diet with higher sodium.
African Americans are twice as likely to have type 2 diabetes as non-Hispanic Whites and are less likely to engage in effective diabetes self-management. There is a critical need for intensive lifestyle interventions that address the distress inherent in having the disease and the unique stressors faced by African Americans that may worsen diabetes-related health outcomes. Our program, Resilience-Based Diabetes Self-Management Education and Support, integrates resilience resources with diabetes self-management skills to enable African-American patients to manage the daily demands of the disease and improve long-term adherence to healthy lifestyle choices, thereby reducing the negative health burden of diabetes.
Platelet activation has been associated with bad events like heart attack and stroke. There are a variety of platelet activators that regulate how active a platelet is. We are interested in Protease-activated receptors (PAR)-1. We are currently studying PAR-1 activation in persons with severe peripheral artery disease. We seek, through this project, to understand PAR-1 activation in persons without peripheral artery disease. As many patients with peripheral artery disease have diabetes, we will also evaluate PAR-1 activation in persons with type 2 diabetes. In addition we will assess the impact of the glucagon-like peptide (GLP)-1 signaling pathway on platelet activation. Levels of platelet activation will be determined using platelet aggregation experiments and assessment of platelet-monocyte aggregates in peripheral blood.
This study involves pilot testing a newly developed diabetes nutrition education program for American Indian and Alaska Native adults with T2D. The first phase of this study (COMIRB Protocol 18-006) included a qualitative needs assessment to inform the development of this program. The Study Aims include: piloting the newly adapted program at 6 AI/AN collaborating sites to gain feedback on satisfaction, likability, usability and clinical outcomes such as HgA1C (measure of blood sugar control), blood pressure, and body mass index (BMI).