Product Description
Introduction to Tableted Collagen Peptide
Tableted collagen peptide refers to collagen peptides that have been processed into tablet form for convenient consumption. Collagen peptides are derived from collagen, a major structural protein in the human body, through enzymatic hydrolysis, microbial fermentation, or chemical hydrolysis. These peptides have a lower molecular weight and higher bioavailability compared to intact collagen, making them more easily absorbed by the body.
Applications of Tableted Collagen Peptide
1. Skin Health
Collagen peptides are widely used to improve skin elasticity, hydration, and overall appearance. Studies have shown that oral intake of collagen peptides can increase skin moisture content, reduce wrinkles, and enhance elasticity. For example, a supplemented collagen peptide composition (SCPC) containing collagen peptides, elastin peptides, and hyaluronic acid has been shown to inhibit β-galactosidase activity, elevate telomerase activity, and up-regulate collagen I gene expression, thereby delaying skin aging.
2. Bone and Joint Health
Collagen peptides are beneficial for maintaining bone density and reducing joint pain. They have been shown to improve muscle strength and alleviate symptoms of osteoarthritis. This makes them a popular dietary supplement for individuals with joint issues or those looking to maintain overall bone health.
3. Functional Foods and Nutraceuticals
Tableted collagen peptides are increasingly used in functional foods and nutraceuticals due to their health benefits. They can be easily incorporated into tablets, capsules, or other supplement forms, making them convenient for daily consumption.
Benefits of Tableted Collagen Peptide
1. High Bioavailability
Collagen peptides have a lower molecular weight compared to intact collagen, which enhances their absorption rate in the gastrointestinal tract.
2. Convenience
Tablet form makes collagen peptides easy to consume and transport, ensuring consistent intake without the need for mixing or preparation.
3. Versatility
Collagen peptides can be combined with other bioactive compounds, such as hyaluronic acid or elastin peptides, to enhance their efficacy.
Challenges and Future Directions
1. Challenges
• Optimizing Bioavailability: Ensuring that collagen peptides maintain their bioactivity during processing and storage is a key challenge.
• Regulatory Compliance: Meeting regulatory standards for dietary supplements and ensuring the safety and efficacy of collagen peptides are important considerations.
2. Future Directions
• Advanced Formulations: Developing new formulations that combine collagen peptides with other bioactive compounds to target specific health issues.
• Sustainable Production: Utilizing waste materials from the food industry to produce collagen peptides sustainably.
• Personalized Nutrition: Tailoring collagen peptide supplements to meet individual health needs based on genetic and lifestyle factors.
Conclusion
Tableted collagen peptides offer a convenient and effective way to support skin, bone, and joint health. Their high bioavailability and versatility make them a valuable addition to the nutraceutical market. As research continues to uncover new applications and benefits, collagen peptides are poised to play an increasingly important role in functional foods and health supplements.
| Raw Material |
Preparation Method |
| Silver carp scale |
Enzymatic hydrolysis (pepsin) |
| Squid skin |
Enzymatic hydrolysis (neutral protease) Enzyme dosage 600 U/g, 45°C, 4 h, pH 6.0 |
| Cod skin |
Enzymatic hydrolysis (trypsin) |
| Yellowfin tuna skin |
Enzymatic hydrolysis (alkaline protease) |
| Squid skin |
Stepwise enzymatic hydrolysis (alkaline protease, papain) |
| Tibetan sheep skin |
Ultrasound-assisted (alkaline protease) |
| Bovine bone |
Ultrasound-assisted (alkaline protease and flavor protease) |
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