Collagen for An Active Lifestyle: Collagen Repairs Muscles

Collagen Peptides For Muscle Repair and Restoration
Protein loss occurs in muscles during and after long periods of exercise due to oxidation, inflammatory reactions, and muscle microlesions. Research shows that protein synthesis decreases during exercise, then immediately increases after exercise for an extended period of time1. The high amino acid content of collagen makes it useful for muscle repair and recovery. Supplementing with collagen may help muscle repair, making it essential post-workout nutrition.

Collagen May Speed up Injury Recovery Time
Science has identified the body’s two main processes for healing torn or ruptured muscles: regeneration of muscle fibers simultaneously with the production of connective scar tissue. The key to both of these processes is collagen formation. In a study measuring the rates of collagen production for 3 weeks after a muscle rupture, scientists found collagen synthesis rates to be heightened in muscle cells during this time. Type III collagen synthesis reached a maximum during the first week of wound healing and is linked to the development of flexibility/plasticity of the connective tissue. Type 1 collagen formation began later during the healing process and was linked to increasing the strength of the new muscle fibers and connective tissue2.

Collagen May Help with Injury Prevention by Strengthening Joints and Ligaments
In a study following three different categories of athletes, supplementation with a combination of collagen peptides, BCAA, and arginine over a two-year period decreased tendon-ligament and joint-related injury rates3. Another study that measured the effects of daily intake of collagen peptides on the structure of the Achilles tendon found a significant increase in collagen fiber diameter, suggesting improved strength of the tendon as a result of collagen supplementation4.

Collagen May Reduce Joint Pain Associated with Sport-Related Injuries
Clinical trials have shown supplementation with collagen may reduce activity and exercise-related joint pain. High-impact activities and high-intensity sports exert stress on joints that can lead to pain and injury. In a study among subjects who experienced activity-related joint pain, supplementation with collagen for 120 days resulted in improved joint function and flexibility while exercising, and subjects were able to exercise longer before experiencing joint pain5.

Supplementing With Collagen Can Help Improve Performance

Collagen is an Ideal Post Workout Supplement
Collagen powder is ideal for post-workout nutrition due to its high amino acid content that supports the body’s protein needs during and after exercise. Further Food Collagen contains 18 amino acids and 8 of the 9 essential amino acids that cannot be made by the body and must be consumed through dietary proteins.

Collagen May Improve Athletic Performance
Muscular contraction during exercise is dependent on creatine, a molecule made of 3 amino acids – glycine, methionine, and arginine. Further Food Collagen contains 20% glycine and 8% arginine, which may support the synthesis of creatine in the body to improve performance during shorts burst of muscle contraction. Science has also linked oral arginine intake to increased athletic performance.  A study showed that oral intake of 1g of arginine and ornithine for five weeks can increase strength by stimulating the release of growth hormone 7. Two servings of Further Food Collagen provide 1.3 grams of arginine, which supports improved athletic performance.

Review of Collagen Benefits for An Active Lifestyle 

    • Collagen may help repair and restore muscles
    • Collagen supplementation may help to speed up the recovery time from injuries
    • Collagen may help in strengthening joints and ligaments, helping to prevent injuries
    • Collagen may reduce activity and exercise-related joint pain
    • Collagen is an ideal post-workout nutrition as it contains a high amino acid content
    • Further Food Collagen contains glycine and arginine hich help support athletic performance

Source: furtherfood ~ By Further Food ~ Image: Canva Pro

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