Lifestyle Intervention and Testosterone Replacement in Obese Seniors

Obesity and Hypogonadism Clinical Trial

— LITROS  

Official title:

Testosterone Replacement to Augment Lifestyle Therapy in Obese Older Veterans

Clinical Trial Details — Status: Completed

Administrative data

• NCT number: NCT02367105
• Other study ID #: ENDA-034-12F
• Secondary ID: CX000906
• Status: Completed
• Phase: Phase 3
• Start date: February 1, 2015
• Est. completion date: December 31, 2019

Study information

• Verified date: January 2022
• Source: VA Office of Research and Development
• Contact: n/a
• Is FDA regulated: No
• Study type: Interventional

Clinical Trial Summary

The prevalence of obesity in Veterans is greater than in the general population, and even more so among users of the VA Health Care System. In addition, the population of obese older Veterans is rapidly increasing as more baby boomers become senior citizens. In older Veterans, obesity exacerbates the age- related decline in physical function and causes frailty which predisposes to admission to a VA chronic care facility. However, the optimal clinical approach to obesity in older adults is controversial because of the concern that weight loss therapy could be harmful by aggravating the age-related loss of muscle mass and bone mass. In fact, the MOVE (Managing Overweight/Obese Veterans) program does not have any guidelines for eligible Veterans if they are 70 or older. It is possible that the addition of testosterone replacement to lifestyle therapy will preserve muscle mass and bone mass and reverse frailty in obese older Veterans and thus prevent their loss of independence and decrease demand for VA health care services.

Description:

Obesity is not only highly prevalent among Americans, but even more so among Veterans using VA medical facilities. Failure to assist Veterans in managing weight and sedentary lifestyle affects current treatment and increases future demand for VA health care services. Decreased muscle mass with aging and the need to carry extra mass due to obesity make it particularly difficult for obese older Veterans to function independently and results in frailty leading to increased nursing home admissions and increased morbidity and mortality. Data from preliminary studies showed that lifestyle therapy resulting in weight loss in this understudied population improves physical function and ameliorates frailty. However, this improvement in physical function is modest at best and most obese older adults remain physically frail. More importantly, there are concerns that lifestyle therapy may exacerbate underlying sarcopenia and osteopenia from weight loss- induced loss of lean body mass and bone mineral density (BMD). As a result, most geriatricians are reluctant to recommend lifestyle therapy that includes weight loss in obese frail elderly patients although the combination of weight loss and exercise is recommended as part of standard care for obese patients in general. Thus, it is not surprising that among Veterans, the MOVE (Managing Overweight/Obese Veterans) program does not have any guidelines for eligible Veterans if they are 70 or older. In addition to overeating and lack of exercise, age-related decline in anabolic hormone (i.e. testosterone) may contribute to sarcopenia and osteopenia, which in turn is exacerbated by obesity. Indeed, preliminary studies discovered that obese older men had markedly low levels of serum testosterone at baseline which remained low throughout the duration of lifestyle therapy. Because testosterone replacement therapy has been shown to increase muscle mass and BMD, it is therefore likely that concomitant testosterone replacement during lifestyle therapy in obese older adults would preserve lean body mass and BMD, and reverse frailty. Accordingly, the optimal management to the problem of sarcopenic obesity and frailty might require a comprehensive approach of a combination of lifestyle intervention and the correction of anabolic hormone deficiency. Therefore, the primary goal of this proposal is to conduct a randomized, comparative efficacy, double-blind, placebo-controlled (for testosterone) trial of the effects of 1) lifestyle therapy (1% diet-induced weight loss and exercise training) + testosterone replacement therapy versus 2) lifestyle therapy without testosterone replacement (testosterone placebo) in obese (BMI e 30 kg/m2) older (age e 65 yrs) male Veterans. The investigators hypothesize that 1) lifestyle therapy + testosterone replacement will cause a greater improvement in physical function than lifestyle therapy without concomitant testosterone replacement; 2) lifestyle therapy + testosterone replacement will cause a greater preservation of fat-free mass and thigh muscle volume than lifestyle therapy without testosterone replacement, 3) lifestyle therapy + testosterone replacement will cause a greater preservation in BMD and bone quality than lifestyle therapy without testosterone replacement, and 4) lifestyle therapy + testosterone replacement will cause a greater reduction in intramuscular proinflammatory cytokines than lifestyle therapy without testosterone replacement. The overarching hypothesis across aims is that a multifactorial intervention by means of lifestyle therapy plus testosterone replacement will be the most effective approach for reversing sarcopenic obesity and frailty in obese older male adults, as mediated by their additive effects in suppressing chronic inflammation, and stimulating muscle and bone anabolism. Obesity in older adults, including many aging Veterans, is a major public health problem. In fact, the public health success that has occurred in recent years could be in danger if lifestyles of older adults are neglected. The novel health outcomes and mechanistic-based data generated from this proposed randomized clinical trial (RCT) will have important ramifications for the standard of care for this rapidly increasing segment of the aging Veteran population.

Recruitment information / eligibility

• Status: Completed
• Enrollment: 83
• Est. completion date: December 31, 2019
• Est. primary completion date: July 31, 2019
• Accepts healthy volunteers: No
• Gender: Male
• Age group: 65 Years to 85 Years

Eligibility

Inclusion Criteria:

Subjects will be

• older (65-85 yr)

• obese (BMI 30 kg/m2 or greater) Veteran men with low testosterone (less than 300 mg/dL) as defined by the Endocrine Society

• mild to moderately frail

• must have stable weight (~not less than or more than 2 kg) during the last 6 months

• sedentary (regular exercise less than 1 h/week or less than 2x/week for the last 6 months)

Exclusion Criteria:

• Any major chronic diseases, or any condition that would interfere with exercise or dietary restriction, in which exercise or dietary restriction are contraindicated, or that would interfere with interpretation of results.

• Examples include, but are not limited to:

• cardiopulmonary disease (e.g. recent myocardial infarction (MI), unstable angina, stroke etc) or unstable disease (e.g. CHF)

• severe orthopedic/musculoskeletal or neuromuscular impairments

• visual or hearing impairments

• cognitive impairment (Mini Mental State Exam Score less than 24)

• current use of bone active drugs

• uncontrolled diabetes (i.e. fasting blood glucose more than 140 mg/dl and/or HbA1c greater than 9.5%).

• Any contraindications to testosterone supplementation

• history of prostate or breast cancer

• history of testicular disease

• untreated sleep apnea

• hematocrit more than 50%

• prostate-related findings of palpable nodule on exam, a serum PSA of 4.0 ng/ml or greater

• International Prostate Symptom Sore more than 19

• history of venous thromboembolism

• Osteoporosis or a BMD T-score of -2.5 in the lumbar spine or total hip as well as those patients with a history of osteoporosis-related fracture (spine, hip, or wrist)

Related Conditions & MeSH terms

• Hypogonadism
• Obesity and Hypogonadism

Intervention

Drug:
• Testosterone
Daily testosterone gel applied once daily in the morning to intact skin

Other:
• Lifestyle Therapy
Weekly behavioral diet to induce ~10% weight loss in combination with supervised aerobic and exercise training three times a week

Drug:
• Placebo
Placebo gel for testosterone

Locations

Country	Name	City	State
United States	Michael E. DeBakey VA Medical Center, Houston, TX	Houston	Texas

Sponsors (4)

Lead Sponsor	Collaborator
VA Office of Research and Development	Baylor College of Medicine, Biomedical Research Institute of New Mexico, Michael E. DeBakey VA Medical Center

Country where clinical trial is conducted

United States, 

Outcome

Type	Measure	Description	Time frame	Safety issue
Other	Change in Total Testosterone Levels	as measured in the peripheral blood by liquid chromatography/mass spectrometry	Baseline and 6 months
Other	Change in Estradiol	As measured by LC-MS/MS	Baseline and 6 months
Other	Change in Hematocrit	the ratio of the volume of red blood cells to the total volume of blood.	Baseline and 6 months
Other	Change in Prostate Specific Antigen	blood test to screen for prostate cancer	Baseline and 6 months
Other	Change in Short Form Health Survey (SF-36) Quality of Life Physical Component	Using Short Form-36 of Life Questionnaire Physical Component subscale. Minimum score is 0, Maximum score is 100. Higher scores indicate better outcome.	Baseline and 6 months
Other	Change in International Prostate Symptom Score	Using the International Prostate Symptom Scoring (IPS); Minimum score is 0, Maximum score is 35. Higher scores mean worse outcome.	Baseline and 6 months
Other	Change in Triglyceride Levels	Blood samples obtained in the fasting state as part of measurements of lipid profile	Baseline and 6 months
Other	Change in HDL-cholesterol	Blood samples obtained in the fasting state as part of measurements of lipid profile	Baseline and 6 months
Other	Change in Waist Circumference	Waist circumference as measured horizontally at the midpoint between the highest point of the iliac crest and the lowest portion of the 12th rib in the standing position.	Baseline and 6 months
Other	Change in Glucose	Measured in the blood after overnight fast	Baseline and 6 months
Other	Change in Mood	Using Yesavage Depression Scale Lower scores indicate better mood (range 0 to 30).	Baseline and 6 months
Other	Number of Participants With Significant Changes in Functional Connectivity in the Default Mode Network	Functional connectivity was measured with seeds of the DMN (medial prefrontal cortex [MPFC] and posterior cingulate cortex [PCC]). Correlation coefficients representing the degree of connectivity between hypothesized regions were Fisher transformed. An a priori threshold of p<.001 at the voxel level and p<.05, FDR corrected for multiple comparisons across the whole brain, at the cluster level were used to determine significant connectivity.	Baseline and 6 months
Other	Change in Skeletal Muscle Growth Factor (MYOD1)	Assessed by using RNA-seq quantification of gene expression in skeletal muscles obtained during muscle biopsies.	Baseline and 6 months
Other	Change in Peripheral Quantitative Computed Tomography Measures (Volumetric Bone Density)	assessed by quantitative computed tomography at 4% distal tibia using the following thresholds: 180 mg/cm3 and 45% of the area	Baseline and 6 months
Primary	Change in the Physical Performance Test	The primary functional outcome is the modified physical performance test, which includes seven standardized tasks (walking 50 ft, putting on and removing a coat, picking up a penny, standing up from a chair, lifting a book, climbing one flight of stairs, and performing a progressive Romberg tests) plus two additional tasks (climbing up and down four flights of stairs and performing a 360-degree turn). The score for each task ranges form 0 to 4; a perfect score is 36. Higher scores indicate better physical function.	Baseline and 6 months
Secondary	Change in Endurance Capacity	Assessed by measuring peak oxygen consumption using indirect calorimetry during a treadmill exercise stress test	Baseline and 6 months
Secondary	Change in Functional Status	Assessed by the Functional Status Questionnaire. Score range: 0 to 36 with higher scores indicating better functional status; Provides information of the participants ability to perform activities of daily living.	Baseline and 6 months
Secondary	Change in Body Weight	Measured after an overnight fast using calibrated scales	Baseline and 6 months
Secondary	Change in Lean Body Mass	Assessed by using dual-energy x-ray absorptiometry	Baseline and 6 months
Secondary	Change in Fat Mass	Assessed by using dual-energy x-ray absorptiometry	Baseline and 6 months
Secondary	Change in Thigh Muscle Volume	Assessed by using magnetic resonance imaging	Baseline and 6 months
Secondary	Thigh Fat Volume	Volume of fat in the thigh by measured by magnetic resonance imaging	6 months
Secondary	Change in Total Hip Bone Mineral Density	Assessed by using dual-energy x-ray absorptiometry	Baseline and 6 months
Secondary	Change in Lumbar Spine Bone Mineral Density	As measured by Dual energy x-ray absorptiometry	Baseline and 6 months
Secondary	Change in Muscle Strength	assessed by total1-repetition maximum (the maximal weight lifted at one time; the totals are the sum of the maximal weights lifted in the biceps curl, bench press, 387 seated row, knee extension, knee flexion, and leg press exercises).	Baseline and 6 months
Secondary	Change in Static Balance	assessed by one leg limb stance	Baseline and 6 months
Secondary	Change in Dynamic Balance	Assessed by using the obstacle course	Baseline and 6 months
Secondary	Change in Gait Speed	Determined by measuring the time needed to walk 25 ft.	Baseline and 6 months
Secondary	Change in Composite Cognitive Z-score	Test of overall cognitive performance formed by averaging the standardized scores for several domains of cognitive function (attention, memory, executive, language, global). Higher scores indicate better cognitive status.; The Z-score indicates the number of standard deviations away from the mean. A Z-score of 0 is equal to the mean of the baseline scores (units on a scale). Negative numbers indicate values lower than the reference population and positive numbers indicate values higher than the reference population	Baseline and 6 months
Secondary	Change in Modified Mini-mental Exam	Test of global cognition with components for orientation, registration, attention, language, praxis, and immediate and delayed memory. Score ranges from 0 to 100 with higher scores indicate better cognition.	Baseline and 6 months
Secondary	Stroop Interference	Assess the ability to inhibit cognitive interference that occurs when the processing of a specific stimulus feature impedes the simultaneous processing of a second stimulus attribute, well-known as the Stroop Effect.; Minimum score is 0, there is no maximum value. Higher scores indicate better outcome.	Baseline and 6 months
Secondary	Change in Word List Fluency	Measure of verbal production, semantic memory, and language. Minimum score is 0, there is no maximum value. Higher scores indicate better outcome.	Baseline and 6 months
Secondary	Change in Ray Auditory Verbal Learning Test	The Rey Auditory Verbal Learning Test (RAVLT) evaluates a wide diversity of functions: short-term auditory-verbal memory, rate of learning, learning strategies, retroactive, and proactive interference, presence of confabulation of confusion in memory processes, retention of information.; Minimum score is 0, there is no maximum value. Higher scores indicate better outcome.	Baseline and 6 months
Secondary	Change in Trail A	Test of visuospatial scanning, speed of processing, mental flexibility, and executive function (with a greater focus on attention).; Minimum score is 0, there is no maximum value. Higher scores indicate better outcome.	Baseline and 6 months
Secondary	Change in Trail B	Test of visuospatial scanning, speed of processing, mental flexibility, and executive function (with a focus on executive function); Minimum score is 0, there is no maximum value. Higher scores indicate better outcome.	Baseline and 6 months
Secondary	Change in Symbol Digital Modalities Test	Assesses key neurocognitive functions that underlie many substitution tasks, including attention, visual scanning, and motor speed.; Minimum score is 0, there is no maximum value. Higher scores indicate better outcome.	Baseline and 6 months
Secondary	Change in Trabecular Bone Score	The trabecular bone score is a measure of bone texture correlated with bone microarchitecture and a marker for the risk of osteoporosis.; Minimum score is 0, there is no maximum value. Higher scores indicate better bone microarchitecture.	Baseline and 6 months
Secondary	Change in C-terminal Telopeptide	biochemical marker of bone turnover (bone resorption) as measured by immunoassay technique	Baseline and 6 months
Secondary	Change in N-terminal Propeptide of Type I Procollagen	Biochemical marker of bone turnover (bone formation) as measured by radioimmunoassay technique	Baseline and 6 months
Secondary	Change in Insulin Growth Factor-1	Measured by immunoassay methodology	Baseline and 6 months
Secondary	Change in Trabecular Bone Score (Trabecular Bone Quality)	assessed by trabecular bone score (TBS), a newly developed index for assessing trabecular bone quality and fracture risk.; TBS is a bone texture parameter that quantifies cancellous bone microachitecture, which is key in determining bone strength and resistance to fracture, by computing raw data from dual energy x-ray absorptiometry of the lumbar spine.; There are no minimum or maximum values. Higher scores mean better outcome.	Baseline and 6 months
Secondary	Change in Levels of 25-hydroxyvitamin D	assessed by using immunoassay methodology	Baseline and 6 months
Secondary	Change in Parathyroid Hormone Level	Measured by immunoassay methodology as marker of bone metabolism	Baseline and 6 months
Secondary	Change in High-sensitivity C-reactive Protein (Inflammatory Marker)	measured in the peripheral blood using immunoassay technique methodology	Baseline and 6 months
Secondary	Change in Interleukin-6	Measured from fasting serum using immunoassay technique as marker of inflammation	Baseline and 6 months