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Hydrolyzed Collagen Shows Promise In Ant-Aging Research (Part 1)
When we think of aging, many of us start with what we see in the mirror. What do we see? If we’re getting to a certain age, we might notice some deterioration in the elasticity of our skin. Hydrolyzed Collagen Shows Promise In Ant-Aging Research
I think you’re going to enjoy reading this article and, like me, find some of the research surprising.
Rhonda And Team
More than skin deep, we might feel more aches as we go about our day. These aches, no doubt, share a connection to that deterioration that may be evident in the mirror.
Collagen, however, is also a component of the diet, a special context we talk about in today’s new topic article.
Collagens type I, II, and III are typically hydrolyzed and utilized as oral supplements, which have demonstrated promise in improving skin health, decreasing joint pain due to arthritis or athletic injury, and ameliorating hypertension.
For example, collagens type I, II, and III might be beneficial in improving skin health. Multiple randomized controlled trials have shown that oral supplementation with hydrolyzed collagen improves skin elasticity, wrinkles, and more. The beauty of collagen is more than skin deep, though.
Hydrolyzed collagen supplementation may reduce pain and disability in people with arthritis and may be an affordable and effective strategy for treating the symptoms associated with the condition.
It also might be effective for treating rheumatoid arthritis, an autoimmune disorder that degrades the joints. Evidence from in vitro studies suggests that type II collagen regulates the balance of pro-inflammatory immune cells and increases anti-inflammatory mediators to improve joint health.
And in a surprising example of “more is not necessarily better,” some of the clinical studies investigating the use of hydrolyzed collagen for rheumatoid arthritis used really low doses (in the microgram range, compared to the milligram range utilized in other studies)…But how does that work?
Some researchers have suggested that lose-dose hydrolyzed type II collagen might act as an antigen to stimulate active immune suppression.
The upshot: Collagen appears to induce peripheral immune tolerance to suppress autoimmune responses, which is pretty mind-boggling.
Hydrolyzed collagen might be beneficial for healthy people, too – especially athletes, who often experience activity-related joint pain.
Getting from collagen to hydrolyzed collagen, also referred to as collagen peptides or collagen hydrolysate, takes a little work.
Collagen proteins have to be denatured, or broken down, into smaller amino acid chains (called peptides) by heating or enzymatic treatment – a process called hydrolysis.
Hydrolyzed collagens are widely available as dietary supplements.
The hydrolyzed collagens in supplements can be derived from a wide range of animal sources, such as cows, pigs, and chickens.
Most hydrolyzed collagens come from marine species, however, because they’re widely available and less likely to carry transmittable diseases (like mad cow disease, for one).
Of course, you could try to cook up your own collagen in a batch of homemade bone broth.
Evidence suggests that the key amino acids in collagens differ substantially in various bone broth preparations compared to hydrolyzed collagen supplements, which are pretty standardized.
Another benefit of hydrolyzed collagens: They might be absorbed faster and more efficiently than undenatured collagen.
Once absorbed, some animal research suggests some of the collagen peptides appear to be directly deposited in tissues such as cartilage and skin.
This is important because once there, they can aid in tissue growth or repair.
In addition to collagen’s beneficial effects on soft tissues, evidence indicates it may improve bone health and healing.
Several clinical studies have found that hydrolyzed collagen powder can improve bone mineral density and attenuate bone loss, particularly in combination with vitamin D and calcium.
But in more bad news about aging:
Once you reach the age of 18 years, your skin collagen content maxes out. And then steadily decreases by about 1 percent every year thereafter.
By the time you’re 80 years old, the collagen production in your skin might be 75 percent of that in the skin of someone in their teens or early 20s.
Although lots of topical cosmetic products contain hydrolyzed collagens, they probably won’t help a lot in terms of replacing lost collagen.
They might penetrate the first layer of the skin to some extent, so they might aid in skin moisturizing, but that’s about it.
Collagens serve as major structural proteins in numerous tissues of the body, including tendons, ligaments, cartilage, skin, blood vessels, muscles, gut tissue, and dentin. They are the most abundant proteins in the body, comprising 30 percent of the total protein mass. The human body continuously manufactures collagens to maintain tissue structural integrity. However, aging drives a progressive decrease in protein synthesis and the associated reduced capacity to produce new collagen.
Collagens are also highly versatile biomaterials, with wide applications and usage across medical, dental, and pharmacological fields. In 2018, financial experts estimated that the collagen market accounted for nearly $3.5 billion and will likely reach $4.6 billion by 2023, in large part due to the rising demand in the medical and healthcare industries.
Collagen Types And Structure
Collagens are characterized by a triple helix arrangement that forms a sturdy, resilient structure, composed of approximately 1,300 to 1,400 amino acids. They serve general functions in tissue assembly and maintenance, including tissue scaffolding, morphogenesis, and repair. Twenty-eight distinct collagen proteins have been identified, designated by Roman numerals (I–XXVIII). These collagens differ in their interactions with other proteins, cellular components, and location within the body.
Collagens I, II, and III are the most abundant collagen types and are considered fibril collagens – bundles of individual collagen proteins that principally provide support and strength to tissues. Collagens I, II, and III have different amino acid sequences and differ in their locations within the body. Type I collagen is found in the connective tissue of tendons, ligaments, corneas, bones, and skin. Type III collagen typically co-locates with collagen I in skin and blood vessels, while type II collagen is primarily found within cartilage. The amino acids glycine, proline, and hydroxyproline account for more than 50 percent of the amino acids that comprise collagen. 
The most common three-amino acid sequence in collagens, called a tripeptide, is glycine-proline-hydroxyproline. However, collagen type III contains more hydroxyproline compared to type I and II. The two-amino acid sequence proline-hydroxyproline, called a dipeptide, is more abundant in type I versus type III.
Collagens type I, II, and III are typically hydrolyzed and used as oral supplements, which have demonstrated promise in improving skin health, decreasing joint pain due to arthritis or athletic injury, and ameliorating hypertension. Hydrolyzed collagen, also referred to as collagen peptides or collagen hydrolysate, is derived by denaturing, or breaking down, collagen into smaller amino acid chains (called peptides) by thermal or enzymatic means. For example, exposure to heat (as in cooking) denatures collagen’s structure, reducing it to shorter peptide chains and causing it to form gelatin. The peptides in gelatin are larger than those of hydrolyzed collagen, which typically average 30 to 60 amino acids in length. The amino acids glycine, proline, and hydroxyproline are the most abundant amino acids in hydrolyzed collagen. While oral hydrolyzed collagen supplementation has been shown to have some therapeutic effects, it should not be used as a protein replacement as it lacks the essential amino acid tryptophan.
Hydrolyzed Collagen Sources
Collagen can be derived from numerous sources, including bovine animals (primarily cows), pigs, chicken, and marine animals. After the extraction of collagen from the bones, tendons, lungs, or connective tissue of these animals, hydrolyzed collagen is produced by thermal and enzymatic cleavage. Collagen types I, II, and III are all from the same fibril collagen family, but differ in their amino acid sequence. Although collagens I, II, and III each primarily contain the amino acids glycine, proline, and hydroxyproline, these collagens may contain different quantities and types of peptide sequences that are distinguished by the human body. Studies comparing potential differences between the hydrolyzed sources and forms of collagen I, II, and III are lacking.
Bovine Versus Marine Collagen Sources
Marine and bovine sources may differ in their predominant collagen types as well as risk profiles. Marine collagens are associated with lower pathological risk of disease transmission since marine animals do not transmit bovine spongiform encephalopathy (commonly known as “mad cow disease”) or avian and swine influenza.  However, to date, the clinical trials that have used oral hydrolyzed collagen from bovine sources as well as from marine, pig, and chicken sources have found the products to be safe and well-tolerated. Future studies may uncover whether differences exist between the various sources of hydrolyzed collagen. No standard therapeutic dose has been established, however, so studies are needed to determine appropriate doses for specific uses such as skin care or joint health and to distinguish any differences between the collagen sources.
“A study found that the key amino acids glycine, proline, and hydroxyproline were significantly lower in various bone broth preparations compared to a reference 20-gram collagen supplement. The amino acid content of the broths varied considerably according to preparation techniques” Click To Tweet
Bone Broth As A Source Of Hydrolyzed Collagen
Bone broth is a dietary collagen source that has received numerous medical claims, from aiding in digestion to supporting bone and joint health. The broth is made by simmering bone and connective tissue of various animals in a liquid such as water for extended periods of time to extract collagen as well as additional amino acids, minerals, and bone marrow. Unlike hydrolyzed collagen, however, the evidence regarding the health effects of bone broth consumption is limited. Additionally, bone broth may provide unreliable concentrations of hydrolyzed collagen compared to supplemental forms of hydrolyzed collagen. A study found that the key amino acids glycine, proline, and hydroxyproline were significantly lower in various bone broth preparations compared to a reference 20-gram collagen supplement. The amino acid content of the broths varied considerably according to preparation techniques. While bone broth is not necessarily harmful to consume in terms of nutritional quality, wide variation in amino acid content due to differences in preparation techniques raises concerns over reliability and, ultimately, therapeutic value. In this regard, commercially-prepared, therapeutically-dosed collagen supplements may be more reliable sources.
Hydrolyzed Collagen Absorption
Proteins can be made up of thousands to tens of thousands of individual amino acids linked together. In order for proteins to be absorbed by the body, the proteins have to be denatured into individual amino acids or short peptide sequences of two to three amino acids in length. Since hydrolyzed proteins are smaller in length compared to undenatured proteins, they are generally absorbed more readily. Therefore, hydrolyzed collagen may be absorbed faster and more efficiently than undenatured collagen.
A study in 10 healthy men between the ages of 18 and 35 years found that the consumption of hydrolyzed collagen enhanced the post-meal absorption rate of amino acids compared to undenatured collagen. The study used a crossover design in which the men consumed one of three products on non-consecutive days: a placebo, 35 grams of hydrolyzed collagen, or 35 grams of undenatured collagen, each dissolved in 250 milliliters of water. Both the hydrolyzed and undenatured collagen supplements were from a commercial product derived from beef bone, which contains primarily type I collagen. After the study participants consumed the product or placebo, the authors of the study sampled their plasma every 20 minutes for up to 240 minutes. Compared to the placebo, there was a significant increase in the total amino acid concentration in the plasma after the ingestion of either collagen supplement, but there was no significant difference between the collagen-supplemented groups. All amino acid concentrations peaked faster after the intake of hydrolyzed collagen compared to undenatured collagen. Over the course of 240 minutes, the average concentrations of the individual amino acids glycine, proline, and hydroxyproline in the plasma were significantly higher after the consumption of hydrolyzed collagen compared to undenatured collagen. Thus, the ingestion of hydrolyzed collagen may lead to significantly higher plasma concentrations of glycine, proline, and hydroxyproline, compared to undenatured collagen.
Incorporation Of Hydrolyzed Collagen Into Connective Tissue
Studies in vivo showed that after oral consumption of hydrolyzed collagen, the collagen peptides may be directly deposited in tissues such as cartilage and skin. A study in mice demonstrated that after feeding mice radiolabeled gelatin hydrolysate, some of the collagen peptides were broken down into amino acids but others were absorbed intact, likely as two- to three-amino acid peptides. Peptides from gelatin hydrolysate preferentially accumulated (more than twice as much) in the cartilage compared to proline only.
A separate study found that rats fed either a radiolabeled three-amino acid collagen peptide (glycine-proline-hydroxyproline) or radiolabeled proline alone experienced a rapid increase of radioactivity in the plasma from the portal vein, abdominal aorta, and tail vein in both groups, indicating that the collagen tripeptide can be absorbed undenatured. The glycine-proline-hydroxyproline peptide exhibited no cartilage-specific accumulation, but the peptide was found in the skin 14 days after feeding. These rodent studies indicate that peptides from hydrolyzed collagen may directly deposit in various tissues, aiding in tissue growth or repair.
These studies indicate that ingestion of hydrolyzed collagen may be directly fueling connective tissue building processes instead of being broken down and utilized as energy or used as components for other proteins. More studies are needed in humans to determine the extent to which peptides from hydrolyzed collagen are deposited in tissues.
Hydrolyzed Collagen And Skin
Collagen plummets as we age. Collagen comprises roughly 70 percent of the skin’s dry weight. Of the skin’s total collagen content, type I collagen comprises 80 percent, and type II comprises 15 percent. After a person reaches the age of 18 years, their skin collagen content decreases by about 1 percent per year. By the time a person reaches 80 years old, collagen production in the skin may be decreased by 75 percent compared to young adults.
While some evidence supports ingesting collagen as a means to improve certain parameters of skin health, the use of topical collagen, as in cosmetics, has weaker overall evidence. Collagen is used in numerous cosmetic formulations because of its predominant role in maintaining skin structure and integrity. Undenatured collagen cannot penetrate the skin, but hydrolyzed collagen may penetrate the first layer of the skin to some extent. As a result, undenatured collagen and hydrolyzed collagen creams and lotions will not replace collagen loss in the skin but may aid in skin moisturizing, potentially by promoting cell proliferation or the release of certain molecules from cells. Conversely, the ingestion of oral hydrolyzed collagen has shown positive effects on improving skin aging.
Oral intake of hydrolyzed collagen elicited a reversal in the natural decline of skin elasticity in aging women. A randomized placebo-controlled trial in 69 women between the ages of 35 and 55 years demonstrated that oral intake of hydrolyzed collagen may improve skin elasticity (the ability to resume original shape after being stretched). The women consumed either 2.5 grams of hydrolyzed collagen, 5 grams of hydrolyzed collagen, or 2.5 grams of placebo (maltodextrin) every day for eight weeks. The hydrolyzed collagen was derived from pig type I collagen. The women had similar baseline measurements of skin elasticity, skin moisture, transepidermal water loss, and skin roughness. Compared to the placebo, both hydrolyzed collagen doses increased skin elasticity an average of 7 percent after four and eight weeks of intake. There was no statistically significant difference between either dose of hydrolyzed collagen intake. A subgroup analysis showed that an improvement in skin elasticity was more pronounced in women older than 50 years compared to women younger than 50 years, regardless of the dose of hydrolyzed collagen.
A separate randomized placebo-controlled trial studied the effects of hydrolyzed collagen on skin aging. The study involved 112 women between the ages of 39 and 59 years who were assigned to take a placebo (500 milligrams of cellulose) or a commercial product (containing 300 milligrams of hydrolyzed type II collagen, 100 milligrams of chondroitin sulfate, and 50 milligrams of hyaluronic acid) twice a day for 12 weeks. Chondroitin sulfate is an important structural component of cartilage, while hyaluronic acid is a structural component of cartilage, connective, epithelial, and neural tissue. The women were required to abstain from all topical skin-treatment products during the study. The objective measured outcomes included facial lines, wrinkles, crow’s feet lines, skin texture, smoothness, skin tone, and the presence of erythema or dryness. Both the placebo and commercial product groups had statistically significant improvements in skin dryness, crow’s feet, texture, smoothness, and skin tone from baseline to week 12. However, the commercial product significantly outperformed the placebo in improvements of facial lines and wrinkles, with an average percent improvement from baseline for facial lines and wrinkles of 8.35 percent for those who supplemented with the commercial product versus 0.63 percent for those who supplemented with the placebo. Supplementation with the commercial hydrolyzed collagen product was well tolerated with no allergic reactions reported and was effective at decreasing wrinkles.
Another randomized, placebo-controlled trial studied the effects of hydrolyzed collagen for improving hydration, elasticity, and wrinkling in human skin in women between the ages of 40 to 60 years. The authors of the study assigned 64 women to receive 50 milliliters of a liquid supplement containing a placebo or 1,000 milligrams of hydrolyzed collagen with greater than 15 percent of the collagen hydrolyzed into tripeptides once daily for 12 weeks. The liquid supplement also contained 100 milligrams of vitamin C and fruit concentrate mix. Aside from helping maintain healthy skin, vitamin C is a cofactor for enzymes involved in collagen stabilization, and vitamin C has been shown to increase collagen gene expression. The collagen obtained for the study was derived from the skin of catfish, therefore the collagen was likely type I. The women were permitted to use only topical cosmetics supplied by a specific company for the duration of the study (the type of cosmetics was not specified). The hydrolyzed collagen-supplemented group had a 7.23-fold greater improvement in skin hydration at six weeks and a 2.9-fold greater improvement in skin hydration at 12 weeks compared to the women who supplemented with the placebo. The researchers suggested that the improvement seen at 12 weeks in the placebo group might have been due to the effect of the placebo (vitamin C and fruit concentrate) or the topical cosmetics supplied. Additionally, the visual grade related to wrinkle formation was significantly improved from the baseline to 12 weeks in the collagen supplemented group, and the improvement in wrinkle visual grade was 10.5-fold greater in the collagen supplemented compared to placebo. The net elasticity of the skin was significantly higher in the test group than in the placebo group at 12 weeks.
These studies, along with others that include hydrolyzed collagen in combination with vitamins and minerals such as vitamins C and E, biotin, and zinc, suggest that the consumption of oral hydrolyzed collagen may be effective at improving skin aging. Studies comparing possible differences between the source of collagen as well as the specific type (I, II, and III) – the ratio of which varies between different sources – would shed more light on the effectiveness of hydrolyzed collagen on skin aging.
Hydrolyzed Collagen And Arthritis
Arthritis is a degenerative disorder of joints that can cause pain and reduced mobility. Destruction of cartilage within the joints can drive arthritis. Collagen, specifically type II, contributes 60 percent of the dry weight of cartilage. Currently, there is no cure for arthritis, but some treatments include pain and anti-inflammatory medications, exercise, and joint surgery. Hydrolyzed collagen supplementation may reduce pain and disability in people with arthritis and may be an affordable and effective supplement for treating the symptoms associated with arthritis.
Hydrolyzed Collagen And Osteoarthritis
Osteoarthritis is a degenerative disease of joint cartilage that typically begins in people over the age of 50 years and likely affects more than 32 million people living in the United States. Osteoarthritis differs from rheumatoid arthritis in that it is largely age- or injury-related rather than autoimmune. Data from multiple studies suggest that oral hydrolyzed collagen supplementation may be an effective supplement in managing symptoms of osteoarthritis.
A randomized placebo-controlled trial involving 80 men and women investigated the use of a commercially available hydrolyzed collagen product for the symptoms of osteoarthritis. The participants consumed 1 gram of a placebo containing cellulose or 1 gram of a commercial product composed of 600 milligrams of hydrolyzed chicken type II collagen, 200 milligrams of chondroitin sulfate, and 100 milligrams of hyaluronic acid, and 50 milligrams uncharacterized cartilage components, twice daily for 70 days. Use of anti-inflammatory drugs, corticosteroids, and drugs causing central nervous system depression was not permitted during the study duration. On the 70th day of treatment, the authors of the study assessed the participants’ pain levels, determined by a visual analog scale. Both the placebo and commercial product supplement groups reported significant decreases in acute and chronic pain compared to baseline measurements. However, the commercial product reduced pain scores by 35 percent compared to 14.9 percent with the placebo, which was statistically significant. On the Western Ontario and McMaster Universities Osteoarthritis Index, a clinical tool used to assess pain, stiffness, and physical function in people with osteoarthritis, those who supplemented with the commercial product had a 38 percent decrease in their scores compared to baseline, while the placebo group had a 19.8 percent reduction compared to baseline. The difference between the commercial product and placebo was statistically significant. There were no severe adverse events reported, and the commercial product outperformed the placebo in all measures of pain, stiffness, and physical function.
Although the commercial product used in the aforementioned study contained additional ingredients other than hydrolyzed collagen, a meta-analysis showed that hydrolyzed collagen is effective at improving osteoarthritis symptoms. The analysis reviewed data from five randomized placebo-controlled trials evaluating the effect of orally administered collagen on people with osteoarthritis. Four of the studies administered 2 to 10 grams per day of hydrolyzed collagen, while one study administered 40 milligrams of undenatured type II collagen per day. The duration of the studies was ten to 48 weeks, and the participants were assessed for pain and physical functioning using the Western Ontario and McMaster Universities Osteoarthritis Index and a visual analog scale. Those who took the hydrolyzed collagen supplement experienced decreases in pain, stiffness, and functional limitations on both assessments. These data indicate that hydrolyzed collagen may be a viable option for reducing symptoms associated with osteoarthritis.
Undenatured collagen supplementation may reduce pain as well. Hydrolyzed collagen has been the subject of much clinical research on the therapeutic value of collagen supplementation due to a higher absorption of glycine, proline, and hydroxyproline, which are thought to elicit many of the beneficial effects. However, undenatured collagen supplements may also provide some therapeutic value. For example, a study in 52 people with osteoarthritis of the knee showed that supplementation with undenatured type II collagen reduced pain, stiffness, and physical limitations compared to a placebo. The study participants received either 40 milligrams of undenatured collagen II or 1.5 grams of glucosamine and 1.2 milligrams of chondroitin (proteins found in the joint) every day for 90 days. While both treatments reduced the participants’ pain, stiffness, and physical limitations compared to baseline, treatment with collagen reduced pain 33 percent, compared to 14 percent in the glucosamine and chondroitin treated group. Similarly, compared to baseline measurements, collagen treatment reduced pain 40 percent as compared to 15.4 percent in the glucosamine and chondroitin treated group. These data suggest that undenatured collagen II is more effective than glucosamine and chondroitin at improving quality of life in people with osteoarthritis of the knee.
Hydrolyzed Collagen And Rheumatoid Arthritis
Hydrolyzed collagen may also be effective for treating rheumatoid arthritis, an autoimmune disorder that causes joint degradation. Evidence from in vitro studies suggests that type II collagen regulates the balance of pro-inflammatory immune cells and increases anti-inflammatory mediators to improve joint health.
Collagen supplementation seems to elicit greater improvements than some antirheumatic drugs, except in people treated with methotrexate. A pilot study treated 10 people between the ages of eight and 14 years who had active rheumatoid arthritis with undenatured type II collagen. The participants received 100 micrograms of type II collagen for the first month, followed by 500 micrograms of type II collagen for two additional months. The participants were required to discontinue treatment with disease-modifying antirheumatic drugs during the course of the study. At the end of the study period, nine participants had responded to the treatment, with an average decrease of 43 percent in the number of swollen joint counts and an average decrease of 51 percent in the number of tender joint counts compared to baseline. The average duration of morning stiffness and 50-foot walking time also decreased after three months of treatment compared to baseline. There were no adverse events related to collagen treatment.
Larger clinical trials also demonstrated that hydrolyzed collagen improved symptoms related to rheumatoid arthritis. A study of 274 people between the ages of 18 and 80 years with active rheumatoid arthritis found that hydrolyzed collagen reduced pain, stiffness, and disease activity. The study authors randomized participants to receive a placebo or one of four doses (20, 100, 500, or 2,500 micrograms) of hydrolyzed type II chicken collagen in a diluted liquid of acetic acid (an organic compound) every day for 24 weeks. The clinical assessments of pain, stiffness, and disease activity included three criteria: the Paulus criteria, the American College of Rheumatology criteria, and a reduction of greater than 30 percent in both tender and swollen joint counts. The participants were required to discontinue treatment with disease-modifying antirheumatic drugs.
Of the patients who supplemented with 20 micrograms of hydrolyzed collagen, 39 percent had improvements in the cumulative Paulus criteria compared to 19 percent in the placebo group. The authors of the study noted improvements in the 20-microgram group, based on the American College of Rheumatology criteria, and a reduction of greater than 30 percent in both tender and swollen joint count scores compared to the placebo group. Improvements were also seen with the other doses but they were not statistically significant. Additionally, there were no clear differences in response rates between doses of hydrolyzed collagen used.
A 24-week randomized controlled trial involving 503 people diagnosed with rheumatoid arthritis found that hydrolyzed collagen is an effective treatment for the condition. The authors of the study assigned participants to receive 100 micrograms of chicken type II collagen once daily or 10 milligrams of methotrexate (a commonly prescribed drug for the treatment of rheumatoid arthritis) once per week. Compared to baseline, both groups had significant decreases in pain, morning stiffness, tender joint count, and swollen joint count assessed by both a physician and the participant at 12 and 24 weeks, but the methotrexate outperformed hydrolyzed collagen in all parameters. Circulating levels of C-reactive protein (a marker of inflammation) decreased by approximately 11 percent at 24 weeks with hydrolyzed collagen supplementation, but the results were not statistically significant. On the other hand, methotrexate significantly decreased C-reactive protein by 31.1 percent at week 12 and 35.1 percent at week 24. Compared to methotrexate, hydrolyzed collagen is not a superior treatment; however, hydrolyzed collagen supplementation may be partially effective for the treatment of rheumatoid arthritis.
The aforementioned studies used a surprisingly low dose of hydrolyzed collagen (in the microgram range, compared to the milligram range used in other studies). Some researchers suggest that a low dose of type II collagen may act as an antigen to stimulate an active immune suppression. Therefore, the administration of hydrolyzed type II collagen may induce a peripheral immune tolerance to suppress autoimmune responses in rheumatoid arthritis.
Another study administered higher doses (1 or 10 grams) of undenatured type II collagen every day for 12 weeks in 90 people with rheumatoid arthritis. The authors of the study evaluated participants for improvements in tender and swollen joint counts and assessment of disease activity. While there was a higher prevalence of responders in type II collagen supplemented groups compared to the placebo, the authors observed no significant differences.
More studies are needed to determine the extent to which hydrolyzed or undenatured collagen can improve symptoms of rheumatoid arthritis and the appropriate dose that may elicit benefits.
Hydrolyzed Collagen And Bone Health
Bone health may benefit from supplementation, especially in certain clinical disorders. Bone mineral content is the primary contributor to bone stiffness and rigidity, while collagen fibers provide the shape of the tissue by acting as a scaffold for cells and additional macromolecules. The importance of properly formed collagen for bone integrity and health is illustrated in specific collagen-related genetic disorders. Osteogenesis imperfecta, a genetic disorder caused primarily by mutations in type I collagen, causes improper bone formation, leading to frequent bone fractures.(Source: Genetics Home Reference) Studies demonstrate that bovine hydrolyzed collagen can stimulate the growth of bone cells and increase mineralized bone matrix formation in vitro, while hydrolyzed casein (a protein commonly found in milk) had limited effects. Additionally, preclinical studies have shown that hydrolyzed collagen can increase bone healing and prevent bone loss. To date, only a few clinical studies have investigated the use of hydrolyzed collagen on bone metabolism.
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