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Clinical Trial Details — Status: Active, not recruiting

Administrative data

NCT number NCT04347447
Other study ID # IRB-2019-218
Secondary ID
Status Active, not recruiting
Phase N/A
First received
Last updated
Start date May 1, 2020
Est. completion date December 1, 2024

Study information

Verified date August 2023
Source Purdue University
Contact n/a
Is FDA regulated No
Health authority
Study type Interventional

Clinical Trial Summary

Loss of muscle mass and strength is a well-established outcome of normal aging. Muscle strength and mobility are also dependent on the quality and strength of connective tissue, which surrounds skeletal muscle. These layers, which are continuous with tendons, allow for the effective transfer of tension from skeletal muscle to bone to enable movement. Importantly, skeletal muscle strength is directly related to connective tissue strength. Greater tendon connective tissue cross-sectional area and stiffness optimize force transfer through tendon to maximize musculoskeletal function. As with skeletal muscle, tendon connective tissue quality declines with age. Previous research indicates that resistance training can improve muscle strength in older adults, but may not counter the effects of aging on tendon. The specific problem is that no approaches are available that benefit both skeletal muscle and tendon health to minimize loss of muscle mass and quality while also improving connective tissue quality and function in older adults. A critical need exists to assess approaches that improve both muscle and connective tissue strength and function. This need is highly relevant for older women, due to their higher risk of sarcopenia than men. Resistance training, especially when combined with higher protein intake, has been consistently shown to improve muscle mass and strength in older adults. Further, emerging research indicates that diets rich in total and indispensable amino acids (as in beef) augment exercise-induced improvements in tendon cross-sectional area in rodents and young humans. However, limited research exists on the impact of beef consumption combined with resistance training on muscle and tendon tissue outcomes, especially in older women. This research study will assess the effects of consuming a healthy, protein-rich diet emphasizing lean beef, compared to a healthy, normal-protein, lower beef diet (control 1), and a healthy protein-rich, lower beef diet emphasizing non-beef/red meat protein (control 2) on resistance training-induced changes in muscle and tendon tissue size, strength, and quality in older women.


Description:

Sarcopenia, i.e., loss of muscle mass and strength, is a well-established consequence of normal aging. Skeletal muscle strength and mobility is also dependent on the composition and mechanical properties of connective tissue, which encase skeletal muscle allowing for effective transfer of tension developed during cross-bridge cycling. Importantly, skeletal muscle strength and function is directly related to connective tissue strength. Specifically, greater tendon connective tissue cross-sectional area (CSA) and stiffness optimize force transfer through tendon to maximize musculoskeletal function, including muscle power output, locomotion economy, and control of balance. As with skeletal muscle, aging leads to the decline of tendon connective tissue quality, including reductions in tendon collagen (the primary structural component of tendon), and a decrease in tendon CSA. Previous research indicates that resistance training (RT) can improve muscle mass and strength in older adults but may not counter the effects of aging on tendon. Specifically, a 12-week RT protocol improved tendon properties in young but not older adults. The specific problem is that no approaches are available that target both skeletal muscle and tendon health to minimize loss of muscle mass and quality while simultaneously improving connective tissue quality and function in older adults. Therefore, a critical need exists to scientifically assess interventions that concomitantly improve muscle and connective tissue strength and function. This need is highly relevant for older women, due to their higher risk of sarcopenia than men. Resistance training, especially when combined with higher protein intake, has been consistently shown to improve muscle mass and strength in older adults. However, limited research exists on the impact of beef consumption combined with RT on sarcopenia-related outcomes, especially in older women. Further, emerging research indicates that diets rich in leucine or glycine (as in beef) augment resistance or aerobic exercise-induced improvements in tendon CSA in rodents and young humans. However, the potential benefit of lean proteins, such as beef, on connective tissue adaptations in older adults requires investigation. This study will assess the effects of consuming a healthy, protein-rich diet emphasizing lean beef on RT-induced changes in skeletal muscle and tendon connective tissue size, strength, and quality in older women. It is hypothesized that consumption of a healthy diet high in protein from predominately lean beef will augment improvements in both skeletal muscle and tendon responses to RT, when compared to consuming a healthy diet with normal or high-protein and less total red meat. The overall healthy diet will be modeled from the U.S. Healthy Eating Pattern and consistent with the 2015-2020 Dietary Guidelines for Americans.


Recruitment information / eligibility

Status Active, not recruiting
Enrollment 45
Est. completion date December 1, 2024
Est. primary completion date December 20, 2022
Accepts healthy volunteers Accepts Healthy Volunteers
Gender Female
Age group 60 Years to 80 Years
Eligibility Inclusion Criteria: - Women 60-80 years old. - BMI < 40 - Women with HbA1c less than 6.5% (non-diabetic) - Must be able to complete upper and lower body resistance training exercise Exclusion Criteria: - Chronic users of analgesic medications such as acetaminophen, ibuprofen, or prescription cyclooxygenase inhibitors -Prisoners- - Users of tobacco - Individuals with claustrophobia or implanted objects who cannot complete on MRI scan - Individuals with any orthopedic condition that would prevent them from properly performing exercise.

Study Design


Related Conditions & MeSH terms


Intervention

Other:
Exercise training
All groups will complete a supervised 12-week resistance training protocol, 3 days per week.

Locations

Country Name City State
United States Purdue University West Lafayette Indiana

Sponsors (2)

Lead Sponsor Collaborator
Purdue University National Cattlemen's Beef Association

Country where clinical trial is conducted

United States, 

Outcome

Type Measure Description Time frame Safety issue
Primary Skeletal Muscle Mass MRI will be used to determine thigh muscle volume before and after the intervention within 1 week prior to beginning the intervention and then again within 1 week of completing the intervention
Primary Tendon Connective Tissue Stiffness Patellar tendon stiffness will be assessed using ultrasound methods within 1 week prior to beginning the intervention and then again within 1 week of completing the intervention
Primary Skeletal Muscle Strength Strength will be determined using the 1 repetition maximum method within 1 week prior to beginning the intervention and then again within 1 week of completing the intervention
Primary Patellar Tendon Size MRI will be used to determine tendon cross-sectional area and length within 1 week prior to beginning the intervention and then again within 1 week of completing the intervention
Secondary Blood glucose a blood sample will be taken for assessment of blood glucose 6 and 12 weeks
Secondary HbA1c a blood sample will be taken for assessment of blood glucose 6 and 12 weeks
Secondary Cholesterol a blood sample will be taken for assessment of cholesterol levels 6 and 12 weeks
Secondary Triglycerides a blood sample will be taken for assessment of total triglyceride levels 6 and 12 weeks
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