PreDiabetes Clinical Trial
Official title:
2-A-Day Study: Twice a Day Meals Study.
Caloric restriction increases lifespan and/or healthspan across multiple species. However implementation of long-term CR in humans is problematic and unacceptable to many individuals. As a result, intermittent fasting models have been developed to improve adherence. Such models have been shown to improve blood pressure, insulin sensitivity, decrease hepatic fat content and body weight. Investigators established an isocaloric twice-a-day (ITAD) feeding plan in mice, wherein test mice were acclimatized to consume over two hour periods (8-10am and 5-7pm), the same amount of food as ad-libitum mice. This intervention prevented obesity and age-associated type 2 diabetes via system-wide activation of autophagy. The investigators will perform further studies of the same feeding model in humans in a randomized crossover design. The objective is to test the hypothesis that restricting eating periods to twice a day (TAD), when compared to isocaloric ad lib meal timing (ALMT), will have beneficial effects on glucose metabolism, body composition, energy expenditure and autophagy in human subjects at risk for diabetes
Caloric restriction (CR) increases lifespan and/or healthspan across multiple species including non-human primates. However, implementation of long-term CR in humans is problematic and unacceptable to many individuals. Further, since CR leads to loss of muscle mass in mice, it is likely that its implementation as a restorative strategy during aging may exacerbate age-associated muscle loss. As a result, intermittent fasting models, e.g., alternate-day fasting, alternate day-modified fasting, the 5:2 diet, and the more recently elucidated early time-restricted feeding (eTRF)3 were developed as alternative strategies to improve adherence. Intermittent fasting increases glucose clearance/improves insulin sensitivity, decreases hepatic fat content, lowers blood pressure and body weight by varying degrees (at least when calories were unmatched). Despite these metabolic advantages, these approaches have also shown poor adherence in humans. For instance, alternate-day fasted subjects remained hungry on the fast days, which led to the conclusion that this approach cannot be continued for extended periods of time, and that adding one small meal on the fasting day may make this model more acceptable. Accordingly, in alternate day-modified fasting, fasted days (25% caloric intake) alternated with feasting days (125% calories), which improved compliance although dropout rates remained relatively high (38%) when compared to control group (26%). In addition, this feeding approach was not found to be superior to daily caloric restricted controls in terms of adherence, weight loss or cardiovascular benefits. More recently, eTRF wherein men with prediabetes were subjected to a 6-hr feeding interval with dinner before 1 pm displayed a number of metabolic benefits when compared to individuals on a 12-hr feeding time-frame. Nevertheless, due to vocational or societal factors, it is plausible that a vast majority of individuals may not be able to adhere to a regimen requiring the consumption of three meals within the first 6 hr of the diurnal cycle. In the attempt to offset compliance-related issues and to pursue a simpler approach, investigators established an isocaloric twice-a-day (ITAD) feeding plan in mice, wherein test mice are acclimatized to consume over two 2hr-periods (8:00-10:00am and 5:00-7:00pm) the same amount of food as ad libitum-fed mice. This would effectively translate to a breakfast and dinner (two meals) in humans. It has been shown that two periods of food restriction per day in mice prevents obesity and age-associated type 2 diabetes via system-wide activation of autophagy. This study is to determine if twice-a-day feeding will restore normoglycemia and promote metabolic correction in older men with prediabetes. Autophagy is a lysosomal degradative pathway that plays key roles in maintaining "clean" cells. It is well-established that basal autophagy levels begin to decline progressively in aged organisms. Maintaining higher autophagy levels improves organ function and stress response. For instance, liver-specific overexpression of autophagy genes protects against diet-induced obesity and tumor necrosis factor-mediated acute hepatotoxicity. In the investigators' studies with ITAD feeding in mice, blocking autophagy in distinct tissues resulted in loss of the metabolic benefits from this feeding strategy. Consequently, it is propose that establishing ITAD feeding in humans will yield a cost-effective, practical and immediately translatable strategy to prolong health-span by preventing diabetes and sarcopenia as well as the vast number of secondary diseases caused by sustained hyperglycemia. This study will investigate the feasibility of a TAD eating regimen and collect preliminary data to inform a larger-scale and more definitive trial. Specific Aims: Aim 1: To assess the feasibility of implementing a structured TAD eating regimen using study-provided meals 1a. To design meal plans that are isocaloric with habitual intake and intended to maintain weight and to develop methods to prepare, package and deliver the meals. 1b. To develop and evaluate methods to enhance and monitor participant adherence to TAD eating; this will include patient logs, photo records of food intake and continuous (participant blinded) glucose monitoring. 1. c. To assess participant satisfaction with TAD meal restriction, using validated instruments to evaluate hunger, satiety and well-being Aim 2: To collect preliminary data on the effect of TAD meal restriction to inform design of an adequately powered RCT 2. a. To collect preliminary data on the effect of TAD meal restriction on glucose tolerance, insulin sensitivity and secretion, body composition and energy expenditure 2b. To collect preliminary data on the effect of TAD meal restriction on cellular processes related to autophagy ;
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