Clinical Trials Logo

Clinical Trial Summary

Sarcopenic obesity in older individuals presents a clinical conundrum without an effective therapeutic strategy. This study will determine the impact of precision amino acid delivery as part of a meal replacement (EMR) during weight loss on the preservation of lean tissue and improvements in metabolic health and physical function in older obese adults. Following weight loss, the investigators will examine whether one serving/day of EMR will sustain the above stated benefits.


Clinical Trial Description

The health status of the aging population is negatively affected by sarcopenic obesity as described by the progressive loss of lean tissue and an increase in adipose tissue. This condition presents a clinical conundrum as it predisposes older obese individuals to a high risk for disability, morbidity and mortality. Insulin resistance, chronic inflammation, elevations in intrahepatic lipid and detrimental alterations in the gut microbiome are also evident. The application of caloric restriction-induced weight loss (CRWL) used to address these health risks in younger individuals may exacerbate muscle wasting and increase morbidity in older adults. Unfortunately, low fitness levels and poor compliance limit the mitigating influence of weight loss through exercise training on sarcopenic obesity. In order to address anabolic resistance or the decreased ability to maintain protein synthesis that contributes to sarcopenic obesity, the investigators have developed a complete meal replacement that contains a mechanism-targeted profile of essential amino acids (17 grams). This profile is designed to overcome anabolic resistance and maintain net protein balance even in the hypocaloric state. It is our overarching hypothesis that EMR will promote the retention of lean tissue mass, and improve metabolic and functional outcomes following 12 weeks of CRWL, and that those endpoints will be sustained over a 12 week maintenance period with the once per day (q.d.) consumption of EMR. The investigators will randomly assign older obese individuals to either EMR or an isocaloric serving of Bariatrics Advantage (meal replacement that contains 27 grams of intact protein) during these interventions. The investigators will execute these specific aims to test our hypotheses: SA1. Establish the importance of EMR in the preservation of lean tissue mass during CRWL. Lean tissue mass and adipose tissue mass will be determined by dual energy x-ray absorptiometry (DXA) and magnetic resonance imaging/spectroscopy (MRI/MRS) scans. MRI/MRS will be used to measure intrahepatic lipid, and the investigators will evaluate alterations in insulin sensitivity using the HOMA score. The investigators will measure potential changes in gut microbiota in collaboration with Dr. Duddleston at the University of Alaska Anchorage. SA2. Determine the influence of EMR on physical function and increased daily activity during CRWL. Slow walking speed is a strong predictor of morbidity and mortality. The investigators chose the 6-minute walk test to represent the primary endpoint for this aim. The investigators will also determine alterations in gait speed, skeletal muscle power and strength and stair climbing ability, and changes in physical activity using Actigraph GT3X+ devices. SA3. Identify whether EMR q.d. will sustain improvements in body composition, physical function and metabolic parameters over a 12 week, maintenance period following CRWL. Since the preservation of lean tissue mass is directly linked to optimal function and metabolic health, the investigators will measure the influence of EMR q.d. on the indices of metabolic health (ie., intrahepatic lipid, insulin sensitivity) and physical function. ;


Study Design


Related Conditions & MeSH terms


NCT number NCT04282603
Study type Interventional
Source University of Alaska Fairbanks
Contact
Status Terminated
Phase Phase 1/Phase 2
Start date April 18, 2019
Completion date December 31, 2021

See also
  Status Clinical Trial Phase
Completed NCT03119610 - The Physiologic Effects of Intranasal Oxytocin on Sarcopenic Obesity Phase 1/Phase 2
Recruiting NCT03212391 - WAVE Study- Walking and Aging in VErona Study N/A
Recruiting NCT05289219 - Effects of Physical Exercise on Sarcopenia After Bariatric Surgery N/A
Completed NCT05143398 - Nutritional Supplementation in Sarcopenic Obesity N/A
Completed NCT04122638 - Prevalence of Sarcopenia and Sarcopenic Obesity in Older Adults
Recruiting NCT05582668 - Sarcopenia After Bariatric Surgery in Older Patients: A Cohort Study
Active, not recruiting NCT02379026 - Lifestyle Modifications for the Treatment of Sarcopenic Obesity N/A
Enrolling by invitation NCT05638035 - Effects of Obesity on Rectus Femoris Muscle Thickness, Sarcopenia, Gait and Balance in Women
Recruiting NCT05477277 - Adverse Outcomes and Mortality in Liver Transplant N/A
Not yet recruiting NCT04597788 - Efficacy of Protein Supplemented Very Low Calorie Meals on Weight Loss N/A
Completed NCT04771377 - Effect of Protein Supplementation and a Structured Exercise Program on Muscle in Women After Bariatric Surgery. N/A
Recruiting NCT03347773 - Oral Nutritional Supplement Intervention Among Hemodialysis Patients With Sarcopenic Obesity N/A
Active, not recruiting NCT04272073 - A High-PRotein Mediterranean Diet and Resistance Exercise for Cardiac Rehabilitation N/A
Recruiting NCT06320158 - Dissecting the Molecular and Cellular Pathophysiology of Sarcopenic Obesity in the Elderly
Completed NCT03863379 - Sarcopenic Obesity in Neurodisabilities
Recruiting NCT04221750 - Diet and Exercise Plus Metformin to Treat Frailty in Obese Seniors Phase 3
Completed NCT05918159 - Effects of Sarcopenia on General Health Status in Elderly: a Population-based Study
Completed NCT05029713 - Sarcopenic Obesity in Liver Transplanted Patients
Completed NCT03370211 - Resistance Training and Sarcopenic Obesity Elderly Women N/A
Recruiting NCT05734755 - Dietary Programme and Exercise Training in Combination or Separately on Managing Sarcopenic Obesity in Older Adults N/A