Why You Should Be Using Collagen Peptides for Muscle Growth!

Most amateur bodybuilders focus on stacking anabolic hormones and their immediate impact on muscle growth. However, many need to pay more attention to a fundamental aspect of muscle growth, which is a comprehensive nutritional plan. Essential for more than just muscle development, proper nutrition is key to overall health, including skin condition and injury prevention. A critical component of this is understanding the role of collagen, which constitutes a significant part of your human body, including muscles, skin, tendons, bones, and organs. 

This article delves into the importance of collagen supplementation, particularly the role of collagen peptides in a bodybuilder's diet. You'll learn why supplementing with collagen peptides is an essential part of effective prohormone cycles and why Vintage Muscle's Collagen Peptide Powder could be an optimal choice for enhancing collagen synthesis in the body.

Table of contents

1 What Is Collagen?
2 Types of Collagen Supplements Available
3 Why Collagen Peptide Powder is Superior
4 Clinical Studies on Collagen Benefits
5 Other Names for Collagen
6 Collagen Peptide Video

What Is Collagen?

Collagen is the most abundant protein in the human body, found in bones, muscles, skin, and tendons. It plays a crucial role in providing structure, strength, and support throughout the body. Collagen's specific roles include helping in the formation of new cells in the skin, replacing dead skin cells, and giving elasticity to the skin. As we age, our body produces less collagen, and the quality decreases, leading to signs like wrinkled skin, muscle weakening, and joint pain.  

Types of Collagen Supplements Available

There are several types of collagen, with at least 28 identified types. They differ in their molecular assembly, the added cell components, and their usage in the body. Type I collagen is the most abundant type of collagen in the human body, accounting for about 90% of the body's total collagen. This type is crucial in forming connective and load-bearing tissues, providing structural support to ligaments, tendons, skin, and blood vessels. Below is a short list of a few different types that make up your body:

Type I Collagen: This is the most abundant collagen in the human body. It's found in skin, tendons, vascular ligatures, organs, and bone (main constituent). Type I collagen provides structure to skin, bones, tendons, fibrous cartilage, connective tissue, and teeth.

Type II Collagen: Mainly found in cartilage, type II collagen makes up a significant portion of our connective tissues. It is vital for joint health and is known to support joint flexibility and cushioning.

Type III Collagen: This type is frequently found alongside type I collagen in the body. It's abundant in reticular fibers, which are found in connective tissues such as skin, muscle, and blood vessels. Type III collagen is crucial for the structure of muscles, organs, and arteries.

Type IV Collagen: Type IV collagen forms the basal lamina, a layer found in the epithelial cells. It is important for the filtration in capillaries and the glomeruli of the kidneys. This type plays a critical role in nerve and blood vessel function and helps with filtration.

Type V Collagen: This type is found in the cells of hair, placenta, and the surfaces of cells. It is also present in the interstitial matrix of muscles, liver, lung, and bone marrow. Type V collagen is necessary for the surface of cells and hair.

Type VI Collagen: This type is found in many interstitial tissues, typically alongside type I collagen. It's present in the extracellular matrix (ECM) and is involved in cell adhesion, making it essential for organ and tissue structure and function. It also plays a role in maintaining the health of connective tissues.

Type VII Collagen: Primarily located at the dermal-epidermal junction in the skin, type VII collagen is crucial for the stability and integrity of the skin structure. It forms anchoring fibrils that help attach the dermal layer of the skin to the epidermal layer. Mutations in this collagen type can lead to skin disorders such as dystrophic epidermolysis bullosa, a condition characterized by fragile skin.

Type VIII Collagen: This type is found in the endothelial cells that line the blood vessels and is important in angiogenesis, the formation of new blood vessels. It's also present in some other tissues, such as the cornea of the eye, and plays a role in wound healing and tissue repair.

Type IX Collagen: Found in cartilage, type IX collagen is associated with type II collagen and is crucial for cartilage structure and function.

Type X Collagen: This type is present in the cartilage and is important for bone formation and growth, especially in the growth plate of long bones.

NOTE: The different types of collagen, despite all containing the key amino acids glycine, proline, and hydroxyproline, have distinct differences that categorize them into various types. These differences arise from several factors:

Molecular Structure and Organization: While all collagens are composed of triple helices, the arrangement and organization of these helices can vary. The differences in the molecular structure, such as the length of the collagen fibrils and the manner in which they are organized, contribute to the unique properties of each type.

Amino Acid Sequence Variations: Even though glycine, proline, and hydroxyproline are prevalent in all collagen types, the sequence and ratio of these and other amino acids can vary. This variation in the amino acid sequence influences the physical and biological properties of each type of collagen.

Post-Translational Modifications: After collagen is synthesized, it undergoes several post-translational modifications. These include hydroxylation of proline and lysine residues and the formation of cross-links between collagen molecules. Variations in these modifications can affect the stability, strength, and function of different collagen types.

Function and Tissue Distribution: Each type of collagen is adapted to the specific functional requirements of the tissues where it is found. For example, Type I collagen, found in skin and bone, is densely packed and provides strength and structure, while Type II collagen, found in cartilage, has a different structure suited for cushioning and flexibility.

Interaction with Other Molecules: Different types of collagen interact with various other molecules, such as proteins and polysaccharides, in the extracellular matrix. These interactions are specific to each collagen type and contribute to their unique roles in the body. 

Why Collagen Peptide Powder is Superior

There are several different collagen supplements available on the market. While your body can synthesize collagen, ingesting the building blocks of collagen in your diet is still crucial. This is where supplementing with Collagen peptides comes into play. Collagen peptides are small pieces of animal collagen that the body can absorb more easily than whole collagen. You might find these peptides are usually sold in the form of pills or powders, often labeled as hydrolyzed collagen. These products are very popular in the marketplace since they are effective for improving skin hydration and elasticity and for relieving joint pain in conditions like osteoarthritis. For bodybuilders, the R&D team at Vintage Muscle has created our very own version of Collagen Peptide Powder, specifically formulated for use right along with our line of Prohormone products.

When you shop from Vintage Muscle, you are always guaranteed quality products made in an American facility; we follow good manufacturing practices in all our processes, bringing you the best products your money can buy.

 

Clinical Studies on Collagen Benefits

Here are some studies on the benefits of Collagen peptide Supplementation:

"Effects of specific collagen peptide supplementation combined with resistance training on Achilles tendon properties"

A study examined the effects of specific collagen peptide supplementation combined with resistance training on Achilles tendon properties in healthy male volunteers. Participants were divided into two groups: one receiving 5g of collagen peptides daily and the other a placebo. The study found that collagen peptide supplementation led to a significantly greater increase in tendon cross-sectional area and muscle thickness compared to the placebo group. Both groups showed increases in tendon stiffness and muscle strength but without significant differences between them. The results suggest that collagen peptide supplementation, when combined with resistance training, can enhance hypertrophy in tendinous and muscular structures in physically active men. PMID: 35403756

"The effects of collagen peptide supplementation on body composition, collagen synthesis, and recovery from joint injury and exercise: a systematic review"

Collagen peptide supplementation, particularly when combined with exercise, shows promise in managing degenerative bone and joint disorders. This is attributed to the stimulatory effects on the extracellular matrix of connective tissues, enhancing structure and load-bearing capabilities. The supplementation has been found beneficial in improving joint functionality, reducing joint pain, and showing certain improvements in body composition, strength, and muscle recovery. However, it's important to note that while collagen synthesis rates are elevated with collagen peptide supplementation, its impact on muscle protein synthesis compared to higher quality protein sources remains less significant. These findings are derived from a systematic review of various studies, indicating the potential of collagen peptides in aiding joint health and recovery from exercise and joint injuries: PMID: 34491424

"Collagen peptides supplementation improves function, pain, and physical and mental outcomes in active adults"

A study published in the "Journal of the International Society of Sports Nutrition" (2023) investigated the effects of daily collagen peptide (CP) consumption over periods of 3, 6, and 9 months on pain, function, and physical and mental health in middle-aged active adults. The study found that a dosage of 10 grams per day of CP over 6 months led to improvements in activities of daily living and pain, particularly in individuals who engaged in high-frequency exercise. Additionally, mental component scores improved with 10 grams per day of CP over 3-9 months, while physical component scores improved with a 20-gram daily dosage over the same period, especially in females. These findings suggest that CP supplementation of 10 to 20 grams per day over 6 to 9 months may enhance activities of daily living, pain management, and mental and physical health in middle-aged active adults. PMID: 37551682 

Other Names for Collagen

Collagen is also referred to in various forms depending on its source and processing. These include hydrolyzed collagen, gelatin (a form of collagen obtained by boiling animal bones and cartilage), and marine collagen (derived from fish). We at Vintage Muscle only use the highest-quality collagen peptides available, so you are always guaranteed quality. 

Collagen in Diet and Lifestyle

While eating collagen-rich foods does not directly increase collagen levels, they provide the raw ingredients that support collagen production. These include foods high in proline, glycine, vitamin C, zinc, and copper. A well-balanced diet, along with habits like avoiding smoking, limiting sun exposure, and practicing healthy lifestyle choices, can help maintain natural collagen production in the body.

In conclusion, while the benefits of collagen supplements, especially for aging bodybuilders, are subject to ongoing research and debate, maintaining a balanced diet and healthy lifestyle, along with potentially including collagen peptide powder, can support overall health and possibly enhance the effectiveness of prohormone cycles.

Collagen Peptide Video