Study Results
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Basic Information
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COMPLETED
NA
22 participants
INTERVENTIONAL
2018-05-01
2020-03-01
Brief Summary
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However, sports nutrition recommendations for supporting resistance exercise-induced gains in muscle mass and strength differ substantially from population-level recommendations, especially for protein intake. Therefore the difference in environmental impact between omnivorous and plant-based diets for adults following such recommendations is as yet unknown.
A prior analysis found that a high-protein, non-animal-derived diet can support resistance training-induced gains in muscle mass and strength to the same extent as a protein-matched omnivorous diet. These findings align with previous research showing that, in the context of a high-protein diet, the source of protein - whether animal or plant-based - does not affect the rate of resistance exercise-induced gains in muscle mass and strength.
The present study therefore plans to retrospectively analyze the diet records from previously published research to determine the difference in environmental impact between the high protein animal-free and omnivorous diets.
The findings could highlight the unique difference in environmental impacts between those following high protein plant-based and omnivorous diets.
Detailed Description
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It has been demonstrated that, in the context of a high-protein diet as a whole, both animal and plant-based protein sources lead to similar RET-induced gains in muscle size and strength. However, the difference in environmental impacts of plant and animal-based protein sources has been shown to be substantial. Both the direct processes related to livestock management (for example, methane production by ruminants) and indirect processes through the inefficiency of using crops for animal feed rather than directly for human consumption contribute to substantially higher environmental impacts for animal-based foods relative to plant-based foods.
Such differences have been highlighted by modeling the environmental impact of replacing population-level food intake with plant-based diets. For instance, a systematic review of 34 studies using environmental life cycle assessments found that, compared to omnivorous diets that followed the same dietary guidelines and caloric content, plant-based diets achieved median reductions of 59% for land use, 45% for water use, and 50% for GHG emissions. Other research has found that high income countries shifting towards a plant-based diet would reduce their annual agricultural production emissions by 61%.
However, established sports nutrition recommendations for protein intake to support RET-induced muscular adaptations differ from general population-level intakes. Therefore the difference in environmental impact between omnivorous and plant-based diets for adults following such recommendations is as yet unknown.
The present study therefore aims to compare the environmental impacts of RET-induced gains in lean mass through consumption of a high protein omnivorous diet with a protein-matched plant-based diet. A previously published study assessed the effects of dietary protein source during a 10-week high volume resistance training program, and found a high protein (\~2.0g·kg bm-1·d-1), exclusively plant-based diet and a protein-matched mixed diet led to similar increases in lean mass and strength accrual.
During this study, each participant was required to record dietary intake for a minimum of three days a week, allowing for detailed nutritional analyses. By utilizing environmental life cycle assessments and applying findings from previous meta-analyses, the investigators plan to compare the mean dietary intakes of the two groups, extrapolated across the intervention, to assess each diet's impact on greenhouse gas emissions, land use and water use through a comparative analysis.
Conditions
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Keywords
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Study Design
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RANDOMIZED
PARALLEL
BASIC_SCIENCE
NONE
Study Groups
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Plant-based
Participants were to consume a high protein plant-based diet while completing a 10-week exercise program consisting of 5 exercise sessions per week.
VEG2
Participants were provided with a caloric target to place them in a ∼0 to 10% energy surplus, and a protein target of 2 g·kg bm-1·d-1. Participants were instructed to avoid animal products for ≥6 d per wk, focusing their intake on protein-rich non-animal-derived foods (for example, mycoprotein-containing products, pulses, soy). To facilitate reaching protein intake targets, the research team provided participants with mycoprotein-containing vegan products (∼1-2 products per day) to be used as the main protein source for some meals. This group also received 105-g mycoprotein (46-g protein, 10-g carbohydrate, 13-g fat, 348 kcal), 35-g post-training, and 70-g before bed.
Omnivorous
Participants were to consume a high protein omnivorous diet while completing a 10-week exercise program consisting of 5 exercise sessions per week.
OMNI2
Participants were provided with a caloric target to place them in a ∼0 to 10% energy surplus, and a protein target of 2 g·kg bm-1·d-1. Participants in OMNI2 were instructed to consume an omnivorous diet, focusing their intake on high-quality animal-derived proteins (that is, meat, milk, yogurt, cheese). To facilitate reaching protein intake targets, the research team provided participants with a weekly supply (∼1-2 products per day) of chicken or beef to be used as the main protein source for some meals. This group also received 59-g supplemental milk protein daily (47-g protein, 2-g carbohydrate, \<1-g fat, 198 kcal) 19.5-g to drink post-training and 39-g to drink before sleep.
Interventions
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VEG2
Participants were provided with a caloric target to place them in a ∼0 to 10% energy surplus, and a protein target of 2 g·kg bm-1·d-1. Participants were instructed to avoid animal products for ≥6 d per wk, focusing their intake on protein-rich non-animal-derived foods (for example, mycoprotein-containing products, pulses, soy). To facilitate reaching protein intake targets, the research team provided participants with mycoprotein-containing vegan products (∼1-2 products per day) to be used as the main protein source for some meals. This group also received 105-g mycoprotein (46-g protein, 10-g carbohydrate, 13-g fat, 348 kcal), 35-g post-training, and 70-g before bed.
OMNI2
Participants were provided with a caloric target to place them in a ∼0 to 10% energy surplus, and a protein target of 2 g·kg bm-1·d-1. Participants in OMNI2 were instructed to consume an omnivorous diet, focusing their intake on high-quality animal-derived proteins (that is, meat, milk, yogurt, cheese). To facilitate reaching protein intake targets, the research team provided participants with a weekly supply (∼1-2 products per day) of chicken or beef to be used as the main protein source for some meals. This group also received 59-g supplemental milk protein daily (47-g protein, 2-g carbohydrate, \<1-g fat, 198 kcal) 19.5-g to drink post-training and 39-g to drink before sleep.
Eligibility Criteria
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Inclusion Criteria
* Body mass index between 18 and 30.
* Recreationally active.
* Resistance training experienced (have previous performed resistance exercise, and are familiar with the basic movements).
Exclusion Criteria
* Any diagnosed cardiovascular disease or hypertension (to avoid any complications associated with heavy exercise).
* Elevated blood pressure at the time of screening. (An average systolic blood pressure reading of ≥140mmHg over two or more measurements and an average diastolic blood pressure of ≥90mmHg over two or more measurements.)
* Chronic use of any prescribed or over the counter pharmaceuticals (that may modulate muscle protein metabolism).
* A personal or family history of epilepsy, seizures or schizophrenia.
* Allergic to mycoprotein / Quorn, penicillin, or milk.
* Pregnancy.
18 Years
40 Years
ALL
Yes
Sponsors
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University of Exeter
OTHER
Game Changers Institute
OTHER
Responsible Party
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Locations
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Game Changers Institute
Laguna Niguel, California, United States
Countries
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References
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Monteyne AJ, Coelho MOC, Murton AJ, Abdelrahman DR, Blackwell JR, Koscien CP, Knapp KM, Fulford J, Finnigan TJA, Dirks ML, Stephens FB, Wall BT. Vegan and Omnivorous High Protein Diets Support Comparable Daily Myofibrillar Protein Synthesis Rates and Skeletal Muscle Hypertrophy in Young Adults. J Nutr. 2023 Jun;153(6):1680-1695. doi: 10.1016/j.tjnut.2023.02.023. Epub 2023 Feb 22.
Other Identifiers
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41490987
Identifier Type: -
Identifier Source: org_study_id