View clinical trials related to Weight Gain.
Filter by:The overall objective of this study is to evaluate the efficacy of a mindfulness-based intervention to prevent weight regain in weight-reduced adults.
Participants will be randomized into one of two different experimental groups: 1) Exercise group and 2) No exercise (control group). Subject participation in the study will involve a series of metabolic tests before and after participants undergo a 10% weight loss program (with or without exercise training depending on group randomization). After completing this weight loss portion of the study, participants will then be required to adhere to a high calorie diet program to regain half of the weight the participant lost - followed by the same series of metabolic tests.
Prepregnancy body mass index (BMI) and gestational weight gain (GWG) have Significant effects on the risk of pregnancy outcomes such as gestational hypertension disease and gestational diabetes mellitus in singleton pregnancies. This paper is to investigate the relationship between pre-pregnancy body mass index (BMI) and weight gain during pregnancy and pregnancy outcomes in women with twin pregnancy.
Appropriate gestational weight gain (GWG) is a key factor in balancing maternal and neonatal needs of nourishment and health, which is especially important in women with gestational diabetes mellitus (GDM). However, there are no specific guidelines for GWG in Chinese pregnant women and even for GDM pregnant women.This project intends to fill in the gaps of this field through multi-center large sample prospective cohort study.
The aims of this randomized controlled trial are to determine the effects of a lifestyle program that supports weight maintenance and fat mass loss during pregnancy in women with obesity on changes in 1) maternal weight, fat mass, and cardiometabolic risk factors; 2) safety measures, including fetal and neonatal growth; 3) the mediators and moderators of the fat mass loss intervention and 4) the effects gestational fat mass loss has on reducing incidence of adverse obstetrical outcomes, including non-elective cesarean delivery, gestational diabetes, hypertension, and pre-eclampsia.
Healthy for Two, Healthy for You (H42/H4U) is an innovative evidence-based pregnancy/postpartum health coach intervention that is remotely-delivered (phone coaching using motivational interviewing, web-based platform, mobile phone behavioral tracking). The aim of this randomized controlled trial (RCT) is to embed H42/H4U into Johns Hopkins prenatal care clinics that serve a racially and economically diverse population, leveraging existing staff as trained health coaches to test its effectiveness and implementation. The investigators hypothesize that women in the H42/H4U arm will have lower gestational weight gain and lower rates of gestational diabetes, without an increase in low birth weight infants, and that implementation into the investigators' prenatal care clinics will be feasible and scalable.
Interdialytic weight gain determines how much fluid (ultrafiltration) has to be removed during each hemodialysis session. High ultrafiltration volumes stress the organism and lead to a higher risk of death. Thirst is the main driving factor of interdialytic weight gain, and thirst is mainly driven by salt intake, molecules that increase blood tonicity (such as sugar in diabetics) and fluid loss (such as in dehydration and blood loss). It has been speculated that fluid loss during hemodialysis could increase the sense of thirst immediately following dialysis, but this statement requires further evidence.
The study consists of two arms: 1) intervention group using eggs as supplementary food given from 2nd trimester of pregnancy to birth, and 2) observational group of pregnant mothers. it aims to assess the effectiveness of improving dietary quality during pregnancy on the epigenetic and stunting related outcomes (growth and development) in infants, who will be followed up until 24 months old
Pancreas transplantation is currently the most reliable method for glycemic control in insulin dependent diabetic patients. Outcomes of pancreas transplantation have improved significantly over the years due to improved surgical techniques, medical management and immunosuppression. However, weight gain after pancreas transplantation remains a common problem with associated consequences such as development of type 2 diabetes, coronary artery disease, graft loss, metabolic syndrome and increased risk of cardiovascular death. Excessive weight gain is well known after liver and kidney transplantation; however there are very few studies that have looked at weight gain after pancreas transplantation. In a recent study by Knight et al, 26% of the pancreas transplant recipients had excessive weight gain, defined as more than 30% of their baseline weight by 1-year post transplant. The study focused mainly on the endocrine function of the pancreas, explaining that excessive peripheral insulin circulation post-transplant may explain the weight gain. Other factors like immunosuppression, increased oral intake and potentially reduced activity may also have played a role. However no study has looked at the possible role of exocrine secretion from the new pancreatic allograft, combined with exocrine secretion of the old pancreas, leading to excessive availability of digestive juices like trypsin, chymotrypsin, lipase, amylase, gelatinase, elastase etc. Our hypothesis is that the excessive weight gain after pancreas transplant, which is more than in other solid organ transplants, is driven by the excessive digestive juice leading to improved conversion of available food and nutrient into storable energy and subsequently leading to weight gain. The patient will therefore need to either increase physical activity to avoid weight gain post-transplant or significantly reduce caloric intake. Fecal elastase test (FE-1)-elastase is a proteolytic enzyme produced by pancreatic acinar cells. They bind to bile salt and pass through the gut without degradation. These levels correlate well with the other pancreatic enzyme levels. Fecal elastase concentration (FEC) has been used routinely to screen for pancreatic exocrine insufficiency (PEI). Exocrine pancreatic juice has been a target for the management of obesity lately, with the use of drugs like Orlistat (Xenical) that inhibits pancreatic lipase and therefore interfere with the absorption of fat. If our theory of excessive pancreatic juice availability after pancreas transplant can be proven, it can help guide the targeted use and appropriate dosing of such drugs based on the level of the pancreatic juice as measured by the FEC.
The primary purpose of this study is to see if people with HIV who had a significant weight gain after starting INSTI (integrase strand transfer inhibitor)+TAF/FTC (tenofovir alafenamide/emtricitabine) (TAF/3TC (lamivudine)) regimen could either slow their rate of weight gain or lose weight within about 1 year if they switch to a regimen containing doravirine (DOR; a newer, non-nucleoside reverse transcriptase inhibitor medication). The study will also try to see if participants changing from TAF/FTC (or TAF/3TC) to TDF/FTC (or TDF/3TC) will experience less additional weight gain or a reduction in overall body weight at 48 weeks compared to persons continued on an INSTI + TAF/FTC (or TAF/3TC) combination. INSTINs assessed in A5391 include bictegravir (BIC), dolutegravir (DTG), or raltegravir (RAL). Additionally, the study will see whether a change in ART can affect things like waist circumference, metabolic and cardiovascular health, fat and lean mass body composition, bone health, and maintenance of virologic suppression. Finally, the study will look at the safety and tolerability of DOR plus either TAF/FTC (or TAF/3TC) versus TDF/FTC (or TDF/3TC).