BOC Sciences is a global leader in life sciences and chemical research services, focusing on providing high-quality products and solutions to the pharmaceutical, biotechnology, and cosmetics industries. In the field of collagen peptides, BOC Sciences offers a comprehensive range of services from extraction, manufacturing to analysis, leveraging its advanced technological platform, extensive experience, and strict quality control system. We are committed to providing high-purity, bioactive collagen peptides that meet the needs of various industries.
Collagen peptides are small molecular peptide chains derived from collagen through special hydrolysis or enzymatic processes, typically composed of shorter amino acid sequences such as tripeptides or tetrapeptides. Chemically, they retain the basic amino acid composition features of collagen, primarily consisting of glycine, proline, and hydroxyproline. These amino acids are arranged in a specific sequence to form a unique peptide chain structure. In terms of composition, it is rich in several elements that are essential for the organism, just like collagen. Its unique structure gives it specific properties. Compared to the complete collagen macromolecule, collagen peptides have a smaller molecular weight, typically ranging from several hundred to several thousand Daltons. This smaller molecular weight enhances their solubility and bioavailability, allowing them to be more easily absorbed and utilized by the body, thus performing various important physiological functions. Currently, with the increasing global demand for health and beauty products, collagen, as an important biological macromolecule, is widely used in fields such as medicine, nutrition, and skincare.
In the field of collagen extraction, BOC Sciences is committed to providing efficient and controllable collagen peptide production processes through multidimensional innovative extraction technologies. We focus on enzymatic hydrolysis as the core method, combined with high-temperature, acid hydrolysis, alkaline hydrolysis, and other methods, to extract collagen from various animal sources such as cowhide, pigskin, fish scales, and bones. The entire extraction process strictly controls hydrolysis conditions, including reaction time, temperature, and pH, to ensure that collagen peptides maintain high purity and biological activity. Through advanced separation and purification techniques such as membrane separation and chromatography, we can accurately separate and purify collagen peptides, ultimately using freeze-drying or spray-drying technologies for efficient drying, providing high-quality collagen products for various industries.
BOC Sciences possesses advanced production facilities and a comprehensive quality management system, capable of meeting diverse needs ranging from small-scale laboratory trials and pilot tests to large-scale industrial production. The company strictly adheres to GMP standards and is equipped with internationally advanced automated production lines to ensure the safety, consistency, and efficiency of the products.
Capable of providing large-scale production from gram-level to pilot-scale to ton-level based on customer needs.
Strict adherence to GMP standards, equipped with advanced quality testing equipment to ensure the safety and stability of every batch of products.
Collagen peptides with different molecular weights, sequences, and functional characteristics can be customized according to customer functional requirements.
Liposome encapsulation technology uses a phospholipid bilayer structure to encapsulate collagen peptides, effectively enhancing their stability and bioavailability. This technology protects collagen peptides from external influences such as gastric acid and enzymatic degradation, while enhancing their absorption and utilization efficiency through liposome-targeted delivery mechanisms. BOC Sciences employs advanced liposome preparation processes, making collagen peptides more effective in anti-aging, beauty, and healthcare applications.
Nano-structured lipid carriers (NLC) form nanoparticles through a combination of solid and liquid lipids, offering high drug loading capacity and stability. NLC technology enhances the solubility, permeability, and bioavailability of collagen peptides, achieving sustained release effects that prolong their action time in the body. The collagen peptide products developed using NLC technology by BOC Sciences are widely used in anti-aging skincare products, functional foods, and dietary supplements, significantly enhancing product efficacy and market competitiveness.
SMEDDS, consisting of oil phase, surfactants, and co-surfactants, spontaneously form nano-sized microemulsions in the digestive tract. This technology significantly improves the solubility and absorption rate of collagen peptides while reducing the impact of food on absorption. BOC Sciences utilizes SMEDDS technology, making collagen peptides easier to absorb, ideal for functional foods and oral beauty products, greatly enhancing bioavailability and product efficacy.
Cyclodextrin encapsulates collagen peptides within its hydrophobic cavity and hydrophilic outer structure, enhancing their stability, solubility, and bioavailability. This technology effectively protects collagen peptides from heat, light, oxidation, and also masks any unpleasant odor, improving the sensory experience of the product. BOC Sciences utilizes efficient cyclodextrin encapsulation processes, allowing collagen peptides to be widely used in functional foods, beverages, and dietary supplements, enhancing product quality and consumer satisfaction.
The combination of collagen peptides and hyaluronic acid forms a synergistic formula system that significantly enhances moisturizing, repairing, and anti-aging effects. The high water retention of hyaluronic acid, combined with the repairing function of collagen peptides, enhances skin permeability and adhesion, thereby improving bioavailability. BOC Sciences optimizes the combination ratio, making collagen peptide products widely used in high-end skincare products, oral beauty products, and functional foods, meeting diverse market demands.
BOC Sciences provides advanced sustained-release technology support for collagen peptides, including nanoencapsulation, microencapsulation, enteric coating, and enzyme-triggered release. Our expertise ensures controlled peptide delivery, enhanced stability, and improved bioavailability for diverse applications. We optimize formulation strategies using pH-responsive systems, polymer-based carriers, and lipid-based nanoparticles to achieve precise release kinetics.
BOC Sciences provides comprehensive quality testing services for collagen peptides to ensure compliance with high standards. In quality control, we utilize Gel Permeation Chromatography (GPC) or Mass Spectrometry (MS) to analyze molecular weight distribution, ensuring the collagen peptides meet specifications. Amino acid analyzers are used to verify amino acid composition and ratio for product consistency. High-Performance Liquid Chromatography (HPLC) or UV-Vis spectroscopy monitors impurity content to guarantee high purity. Additionally, we assess the bioactivity of collagen peptides through cell-based or animal experiments. For stability testing, we evaluate the stability of collagen peptides under varying temperature and pH conditions, as well as conduct long-term storage stability analysis to verify activity retention. Safety testing includes the detection of heavy metals, microorganisms, and pesticide residues, ensuring compliance with international regulations and safety standards.
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Extraction and Manufacturing
Analysis and Testing
Formulation Development (if required)
Product Delivery
In the cosmetics field, collagen peptides are widely used in skincare products such as creams, serums, and masks due to their excellent skin penetration and anti-aging effects. The collagen peptides provided by BOC Sciences help repair skin structure, enhance skin elasticity, and make the skin firmer and smoother.
In the medical field, collagen peptides can be used as auxiliary materials for wound healing, tissue repair, and fracture recovery. Through meticulous process control, BOC Sciences ensures high biocompatibility and reparative functionality of collagen peptide products, offering high-quality raw materials to the medical industry.
Collagen peptides are commonly used as nutritional supplements, especially in sports nutrition and joint health. Athletes and the elderly often use collagen supplements to promote muscle repair, enhance joint function, and slow down bone aging.
The application of collagen peptides in food processing is growing. As a natural protein source, it not only provides nutritional value but also improves the texture and mouthfeel of foods. For example, collagen peptides are commonly added to food and beverages such as collagen drinks, energy bars, and snacks. These convenient forms allow consumers to easily supplement collagen.
Collagen peptides are common ingredients used to enhance bone, joint, and skin health. In the health supplement sector, collagen peptides can be used to improve bone density, enhance joint flexibility, and slow down aging. The high-purity collagen peptides provided by BOC Sciences can effectively enhance the body's absorption of collagen, thereby improving product efficacy.
Collagen peptides are believed to provide various benefits, especially for skin health, joint function, and muscle repair. Research suggests they can improve skin elasticity, reduce wrinkles, and support joint health by promoting collagen production. However, results can vary depending on dosage, duration, and individual factors.
Collagen peptides are short chains of amino acids derived from collagen protein. They support skin elasticity, reduce wrinkles, and promote joint and bone health. Collagen peptides are also known to aid in muscle recovery and can help strengthen hair and nails by providing essential building blocks for collagen production in the body.
The pH of collagen peptides typically ranges from 5.0 to 7.0, depending on the source and processing method. This mildly acidic to neutral pH range is generally considered safe for consumption and skin applications. The exact pH can vary slightly based on the product formulation and any added ingredients.
Yes, collagen peptides are a form of protein. They are derived from collagen, a structural protein found in connective tissues like skin, tendons, and cartilage. When hydrolyzed into smaller peptides, collagen retains its protein structure, offering amino acids like glycine, proline, and hydroxyproline, which are essential for supporting various bodily functions.