Exogenous Ketosis During Bed Rest in Older Adults

Physical Inactivity Clinical Trial

— KBR  

Official title:

Ketone Bodies as Therapeutic Agents to Reduce the Harmful Effects of Bed Rest on Muscle Mass and Metabolic Health in Older Adults

Clinical Trial Details — Status: Completed

Administrative data

• NCT number: NCT05679596
• Other study ID #: 427929
• Status: Completed
• Phase: N/A
• Start date: February 27, 2023
• Est. completion date: November 15, 2023

Study information

• Verified date: February 2024
• Source: McGill University
• Contact: n/a
• Is FDA regulated: No
• Study type: Interventional

Clinical Trial Summary

The goal of this randomized, double-blind, parallel group interventional study is to evaluate the effect of ketone bodies on healthy older adults (65-85 y) during 5 days of bed rest. The main questions it aims to answer are: Does supplementation of ketone bodies prevent the typical decline in muscle protein synthesis, muscle size, muscle function, insulin sensitivity, and muscle mitochondrial function that occurs in response to bed rest? Researchers will compare ketone supplements (KET) to an energy matched control beverage (carbohydrates and fats) to see if the ketones can rescue the decline in muscle protein synthesis rates, muscle loss, muscle function, insulin sensitivity, and mitochondrial function due to 5 days of bed rest. This may positively impact the heath of older adults subjected to bed rest.

Description:

Bed rest is a common feature of many clinical environments such as hospitals and long-term care facilities. However, physical inactivity due to bed rest decreases muscle size, muscle strength, and physical performance (i.e. rising from a chair) that can lead to a reduced quality of life and a higher risk of disease and death. Eating protein-rich foods and exercising normally helps to maintain muscle size by building proteins found in muscle. However, during bed rest there is a reduction in the rate at which proteins found in muscle are made and this leads to smaller muscles. Bed rest leads to problems with blood glucose regulation and insulin resistance which can increase the risk for diabetes. Both the loss of muscle size and insulin resistance are linked to problems with parts of our cells called mitochondria. Mitochondria do a lot of important things including keeping our cells full of energy. Bed rest occurs more frequently in older adults and also negatively impacts their health more than in younger adults. Sadly, there are limited options to prevent the problems associated with bed rest. Ketone bodies are molecules that come from fat that are normally produced in the body in response to reduced carbohydrate intake (i.e. a ketogenic diet). Recently ketone supplements have become available, which increase the amount of ketone bodies in the body without the need to limit carbohydrate intake from food. Elevated ketone bodies may help protect muscle size and health during bed rest by enhancing the process of building muscle proteins, improving blood glucose regulation, and helping mitochondria work optimally.

Recruitment information / eligibility

• Status: Completed
• Enrollment: 30
• Est. completion date: November 15, 2023
• Est. primary completion date: November 15, 2023
• Accepts healthy volunteers: Accepts Healthy Volunteers
• Gender: All
• Age group: 65 Years to 85 Years

Eligibility

Inclusion Criteria:

• Healthy, male, and female, older adults.
• Healthy will be defined as screen by the 2020 PAR-Q+, medical screening questionnaire, GAQ, and COVID-19 symptom questionnaire patient screening.
• 'Older' will be defined as being 65-85 years of age.
• Participants are required to not engage in structured resistance training for at least 6 months prior to participation in the study.
• Participants are willing to abide by the compliance rules of this study.

Exclusion Criteria:

• Pre-menopausal females: Women must be postmenopausal having not menstruated for at least 1 year prior to study participation. Hormonal fluctuations associated with the menstrual cycle have been reported to alter protein metabolism and may influence indices of muscle protein synthesis and breakdown (69-71).
• BMI <18.5 or > 30 kg · m-2.
• Self-reported regular tobacco use and vaping products.
• Self-reported illicit drug use (e.g., growth hormone, testosterone, etc.)
• Individuals who have participated in studies within the past year involving a stable isotope of 2H.
• A history of thrombosis, diagnosed with type 2 diabetes mellitus by physician or HbA1c values of > 7.0%, dementia, coronary artery disease, musculoskeletal/orthopedic disorders, and severe allergies.
• The use of medications known to modulate skeletal muscle metabolism (e.g., corticosteroids, hormone replacement therapy, non-steroidal anti-inflammatory drugs, metformin).
• The use of over-the-counter supplements (protein supplements, creatine, fish oil).
• Inability to adhere to any of the compliance rules judged by the principal investigator or medical doctor.

Related Conditions & MeSH terms

• Cognitive Function
• Functional Capacity
• Hypersensitivity
• Insulin Resistance
• Insulin Sensitivity
• Mitochondrial Function
• Muscle Atrophy
• Muscle Protein Synthesis
• Muscle Strength
• Muscular Atrophy
• Physical Inactivity

Intervention

Dietary Supplement:
• ketone monoester (R)-3-hydroxybutyl (R)-3- hydroxybutyrate
Provided twice a day between meals.
• carbohydrate-fat placebo (fructose, corn and canola oil 50:50 ratio)
Provided twice a day between meals.

Locations

Country	Name	City	State
Canada	Research Institute - McGill University Health Centre	Montréal	Quebec

Sponsors (2)

Lead Sponsor	Collaborator
McGill University	Canadian Institutes of Health Research (CIHR)

Country where clinical trial is conducted

Canada, 

Outcome

Type	Measure	Description	Time frame	Safety issue
Primary	Changes in integrated fractional synthesis rate (%/d) in response to bed rest with and without ketone monoester (KET) supplementation.	Integrative myofibrillar fractional synthesis rate will be calculated during baseline (day 0-5) and bed rest (day 5-10) phases.	Day 0-5 and day 5-10
Secondary	Changes in whole body insulin sensitivity in response to bed rest with and without ketone monoester (KET) supplementation.	Measurements taken in the fasted state before and after bed rest. Will measure blood glucose and insulin concentration during a hyperinsulinemic-euglycemic clamp.	Day-3 and Day 10.
Secondary	Changes in whole-body lean mass (kg) in response to bed rest with and without ketone monoester (KET) supplementation	Measurements taken in the fasted state using dual-energy x-ray absorptiometry (DXA) following urinary void before and after bed rest.	Day-3 and Day 10.
Secondary	Changes in leg lean mass (kg) in response to bed rest with and without ketone monoester (KET) supplementation	Measurements taken in the fasted state using dual-energy x-ray absorptiometry (DXA) following urinary void before and after bed rest.	Day -3 and Day 10.
Secondary	Changes in quadriceps muscle volume in response to bed rest with and without ketone monoester (KET) supplementation.	Measurements taken before and after bed rest via magnetic resonance imaging (MRI).	Day -3 and Day 10.
Secondary	Changes in maximal voluntary isometric contraction (N/m) of the knee extensors in response to bed rest with and without ketone monoester (KET) supplementation.	Measurements taken before and after bed rest using a Biodex dynamometer.	Day -3 and Day 10.
Secondary	Changes in handgrip strength (kg) in response to bed rest with and without ketone monoester (KET) supplementation.	Measurements taken before and after bed rest using a Jamar hand dynamometer.	Day -3 and Day 10.
Secondary	Changes in physical performance (numerical score) as determined by short physical performance battery (SPPB) in response to bed rest with and without ketone monoester (KET) supplementation.	Measurements taken before and after bed rest	Day -3 and Day 10.
Secondary	Changes in physical performance (numerical score) as determined by 5-item physical performance test in response to bed rest with and without ketone monoester (KET) supplementation.	Measurements taken before and after bed rest	Day -3 and Day 10.
Secondary	Changes in cognitive status in response to bed rest with and without ketone monoester (KET) supplementation.	NIH Toolbox Cognition Battery (computerized). Measurements taken before and after bed rest	Day 4 and Day 9.
Secondary	Changes in markers of inflammation in systemic circulation in response to bed rest with and without ketone monoester (KET) supplementation.	Markers of inflammation including: IL-1 beta, NF-K beta 1, IL-6, TNF-alpha, IFNY, MIP-1 beta will be evaluated. Measurements taken before, during, and after bed rest.	Day -3 and Day 10.
Secondary	Changes in muscle mRNA expression of inflammatory regulators will be assessed in response to bed rest with and without ketone monoester (KET) supplementation.	Muscle mRNA expression of NFKB1, TLR-4,IL-6, TNF-alpha, and IL-1Beta will be evaluated. Measurements taken before and after bed rest	Day -3 and Day 10.
Secondary	Changes in skeletal muscle phenotype in response to bed rest with and without ketone monoester (KET) supplementation.	Muscle cross-sections immunolabeled for type I, IIa, and IIx myosin heavy chains. Measurements taken before and after bed rest.	Day -3 and Day 10.
Secondary	Changes in skeletal muscle fiber size in response to bed rest with and without ketone monoester (KET) supplementation.	Muscle cross-sections analyzed for cross-sectional area.	Day -3 and Day 10.
Secondary	Changes in mitochondrial content in response to bed rest with and without ketone monoester (KET) supplementation.	Via the assessment in succinate dehydrogenase activity.	Day -3 and Day 10.
Secondary	Changes in mitochondrial respiration in response to bed rest with and without ketone monoester (KET) supplementation.	Assessed using standard substrate and inhibitor addition protocols in O2k high resolution Respirometer. Measurements taken before and after bed rest.	Day -3 and Day 10.
Secondary	Changes in mitochondrial calcium retention capacity (marker of mitochondrial propensity to trigger apoptosis) in response to bed rest with and without ketone monoester (KET) supplementation.	Determined spectrofluorometrically using the Calcium Green probe. Measurements taken before and after bed rest.	Day -3 and Day 10.
Secondary	Changes in mitochondrial reactive oxygen species (ROS) production in response to bed rest with and without ketone monoester (KET) supplementation.	Assessed using standard substrate and inhibitor addition protocols in O2k high resolution Respirometer. Measurements taken before and after bed rest.	Day -3 and Day 10.
Secondary	Changes in mitochondrial time to the permeability transition pore opening (marker of mitochondrial propensity to trigger apoptosis) in response to bed rest with and without ketone monoester (KET) supplementation.	Determined spectrofluorometrically using the Calcium Green probe. Measurements taken before and after bed rest.	Day -3 and Day 10.
Secondary	Changes in the phosphorylation status of anabolic signaling molecules modulating muscle protein synthesis (MPS) in response to bed rest with and without ketone monoester (KET) supplementation.	Western blotting - membranes will be probed with phospho-specific antibodies against IRS-1S527/Thr446, AktSer473, mTORSer2448, 4E-BP1Thr37/46, rpS6Ser240/244, p70S6KThr389. Measurements taken before and after bed rest.	Day -3 and Day 10.
Secondary	Changes in the phosphorylation status of catabolic signaling molecules modulating muscle protein breakdown (MPB) in response to bed rest with and without ketone monoester (KET) supplementation.	Western blotting - membranes will be probed with phospho-specific antibodies against FoxO3aThr32, MuRF1, and MAFbx. Measurements taken before and after bed rest.	Day -3 and Day 10.
Secondary	Blood beta-hydroxybutyrate concentrations (mmol/L) in response to bed rest with and without ketone monoester (KET) supplementation.	Measurements taken at the start and end of bed rest.	Day 5 and Day 10
Secondary	Changes in subjective pain via visual analog scale in response to bed rest with and without ketone monoester (KET) supplementation.	Throughout the 5 day bed rest period.	Day 5-10.
Secondary	Changes in muscle area in response to bed rest with and without ketone monoester (KET) supplementation.	Peripheral quantitative computed tomography (pQCT). Measurements taken before and after bed rest.	Day -3 and Day 10.
Secondary	Changes in muscle density in response to bed rest with and without ketone monoester (KET) supplementation.	Peripheral quantitative computed tomography (pQCT). Measurements taken before and after bed rest.	Day -3 and Day 10.
Secondary	2H enrichments in body water before and during bed rest with and without ketone monoester (KET) supplementation.	Throughout the baseline and bed rest period.	Day -1 to Day 10.
Secondary	2H-alanine enrichment in venous blood before and during bed rest with and without ketone monoester (KET) supplementation.	Throughout the baseline and bed rest period.	Day -1 to Day 10.
Secondary	Changes in resting metabolic rate (RMR) in response to bed rest with and without ketone monoester (KET) supplementation.	Measurements taken before and after bed rest.	Day -3 and Day 10.
Secondary	Physical activity level via accelerometer before bed rest.	Throughout the baseline period	Day 0-4.
Secondary	Changes in sleep disturbance (numerical score) during bed rest with and without ketone monoester (KET) supplementation.	Via Patient-Reported Outcomes Measurement Information System (PROMIS) Short form 8a. Measured throughout the 5 day bed rest period.	Day 5-10.
Secondary	Changes in sleep quality (numerical score) during bed rest with and without ketone monoester (KET) supplementation.	Via Pittsburgh Sleep Quality Index (PSQI). Measured throughout the 5 day bed rest period.	Day 5-10.
Secondary	Average habitual dietary intake assessed using Keenoa for 3 days (a food tracker application).	Dietary intake will be assessed for total energy (kcals) and macronutrient (protein, carbohydrate, and fat consumption; g) intake.	Measured before bed rest.
Secondary	Changes in Thigh Absolute Synthetic Rate (ASR) in response to bed rest with and without ketone monoester (KET) supplementation.	Changes in Thigh Absolute Synthetic Rate (ASR) will be calculated during baseline (day 0-5) and bed rest (day 5-10) phases.	Day 0-5 and day 5-10
Secondary	Changes in Thigh Absolute Protein Breakdown Rate (ABR) in response to bed rest with and without ketone monoester (KET) supplementation.	Changes in Thigh Absolute Protein Breakdown Rate (ABR) will be calculated during baseline (day 0-5) and bed rest (day 5-10) phases.	Day 0-5 and day 5-10