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Doctor's Best
Product Description:
Each tablet
contains:
Glucosamine
Sulfate KCI 375 mg
Chondroitin Sulfate 300 mg
MSM (Lingusum brand) 250 mg
Excipients: Cellulose,
magnesium stearate, stearic acid, gelatin capsule
Glucosamine/Chondroitin/MSM
• Best Glucosamine Sulfate contains pure glucosamine
sulfate, as confirmed by HPLC testing. Glucosamine sulfate consists of
glucosamine, an amino sugar extracted from "chitin," a component of shellfish
skeletons. ("Chitin," the resilient polysaccharide that forms the structural
framework of animal shells, is a long-chain polymer consisting of many
glucosamine molecules linked together.) The purified glucosamine is then
sulfated and stabilized with potassium chloride.
Note: Glucosamine sulfate is derived from the shells of ocean-growing shellfish.
It is processed to remove all residues of protein and impurities, yielding pure
glucosamine sulfate as the final material.
• Glucosamine/Chondrotin/MSM contains chondroitin sulfate with a purity of 90
percent or greater. Quality assurance testing is performed using two
sophisticated laboratory analysis methods: 1) HPLC and 2) C.P.C. Titration, a
newly developed method now accepted as the most definitive test for chondroitin
sulfate.
• Glucosamine/Chondrotin/MSM contains pure LIGNISUL MSM (methylsulfonylmethane).
LIGNISUL™ MSM is natural-source MSM derived from trees. A biological compound
that occurs in the human body and in some foods, MSM is an excellent dietary
source of bioavailable organic sulfur.
Understanding Glucosamine Sulfate and Chondroitin Sulfate and Their Roles in
Joints
Cartilage contains connective tissue composed of cells (chondrocytes), protein
fibers (chiefly collagen) and clusters of complex molecules called "proteoglycans."
Proteoglycan molecules are formed from long proteins (polypeptides) with
numerous side chains. (The proteoglycan structure looks like a bottle brush.)
The attached side chains, chiefly chondroitin sulfate and keratin sulfate, are
long polysaccharide molecules called "glycosaminoglycans." 1,2 Glucosamine is a
key component of keratin sulfate, and it can be converted to galactosamine,
which, along with glucuronic acid, forms chondroitin sulfate.2
Cartilage contains collagen fibers embedded within a
gel-like matrix known as "intracellular cement." Proteoglycans are the key
structural component within this matrix. Chondroitin sulfate and the other
glycosaminoglycans have a strong attraction for water, due to negative charges
on their sulfate groups. These negative charges also repel each other, creating
spaces between glycosaminoglycan side-chains in the proteoglycan molecule. Water
enters the spaces, giving cartilage a sponge-like quality that allows it to
function as a shock absorber for joints. The movement of water in and out of
cartilage allows nutrients to flow in and wastes to flow out.2
Glucosamine is also a component of hyaluronic acid,
another glycosaminoglycan found in cartilage and other connective tissues.
Hyaluronic acid forms the backbone for the proteoglycan clusters.2 As essential
components of cartilage, glucosamine and chondroitin sulfate are therefore
critically important for the health and function of joints.2,3
The MSM Story-One of Nature's Primary Sources of Organic Dietary Sulfur!
The human body requires a continuous supply of usable sulfur, and MSM is one of
the primary organic sulfur-containing molecules for use by living organisms.
From life's earliest beginnings, primitive marine organisms (blue-green algae
and phytoplankton) have absorbed inorganic sulfur from ocean waters and produced
organic sulfur molecules, primarily dimethyl sulfonium salts. These salts are
released back into the sea, where they are converted to dimethyl sulfide, which
readily evaporates into the upper atmosphere. Dimethyl sulfide is then oxidized
by UV light, forming DMSO and MSM. The two compounds are delivered to land
masses in rain water, and absorbed by plants. MSM is a stable end-product of
this process, serving as a primary source of sulfur in the food chain.
Benefits
Supports Joint Structure and Function*
Glucosamine Sulfate
Glucosamine sulfate is one of the most important nutritional supplements for
joint health ever developed. Glucosamine sulfate provides significant benefits
for both the structure and function of joints. Many years of research have
produced unequivocal evidence that glucosamine sulfate normalizes cartilage
metabolism, slows breakdown of cartilage, and improves joint function.4,5,6
Glucosamine sulfate has been thoroughly researched over the last twenty years.
Experimental studies and human clinical trials convincingly demonstrate that
orally consumed glucosamine sulfate improves joint function. 4,5,6
In one large open trial, over 1200 people took oral glucosamine sulfate for
periods ranging from 36 to 64 days. 252 physicians participated in this
multicenter study. 95% of the subjects experienced greater joint comfort and
increased mobility. The physicians reported "good" results in 59%, and
"sufficient" results in 36%. The improvements lasted for up to three months
after the glucosamine sulfate was discontinued.5
Chondroitin Sulfate
In a 1996 controlled, double-blind multicenter clinical trial published in the
Journal of Rheumatology,7 146 volunteers consumed 1200 mg of chondroitin sulfate
every day for 6 months. Changes in joint function were measured according to
several clinical parameters and carefully analyzed. After the first month,
significant improvements were noted and maintained for three months after the
subjects stopped taking the chondroitin sulfate. In an earlier double-blind
study subjects taking chondroitin sulfate had improvements in joint function
after three months of use, as determined by both objective and subjective
measurements.8 In both studies, the benefits lasted for weeks after subjects
stopped taking chondroitin sulfate.
In another controlled multicenter study, 192 subjects
took 1200 mg of chondroitin sulfate or a placebo daily for one year. At the end
of the trial, chondroitin sulfate produced substantial increases in joint
cartilage thickness, while those on placebo had decreases. Improvements in joint
function also occurred. The researchers reported that "we clearly demonstrated
that (chondroitin sulfate) exerts a chondroprotective activity."9
New Clinical Evidence of MSMs Joint Benefits
A small pilot study recently conducted at the U.C.L.A. School of Medicine is the
first controlled double-blind trial to test the effects of MSM on joints.10
Sixteen subjects demonstrating need for joint support took either MSM or a
placebo daily for six weeks. As measured by a Visual Analog Scale, those taking
MSM registered an 82 percent improvement compared to 20 percent with placebo.
Though preliminary due to the small number of subjects, these results suggest
potential for MSM as a joint support nutrient that warrants further
investigation in larger double-blind trials.
Additional Benefits of MSM
Sulfur is a structural mineral that maintains the strength of various tissues by
forming sulfur "tie-bars" (sulfhydryl bonds) between connective tissue proteins.
MSM serves as a readily available source of sulfur for this function, and thus
helps maintain the pliancy of tissues and cell membranes.
Based on anecdotal clinical reports, as outlined in MSM patents, ingestion of
MSM by humans appears to have the following beneficial effects: 1) Supports
normal gastrointestinal function; 2) Improves the body's resistance to adverse
physical stress; 3) Supports mental alertness and maintenance of healthy mood;
4) Helps regulate body's inflammatory function; 5) Helps modify the physiologic
response to allergens; 6) Supports normal lung function; 7) Helps maintain
healthy skin.11,12
Supplementation is Needed to Realize the Benefits of
MSM
Widespread in nature, MSM is found in a variety of foods, including fresh fruits
and vegetables, raw milk, raw meat and raw fish. However, MSM is a volatile
substance easily lost during cooking, pasteurization, food processing and
storage. The average American diet thus supplies at best a marginal MSM intake
which may be inadequate to maintain the optimum MSM concentration in the body.
The average body's MSM concentration is also believed to decline with increasing
age.11,12,13
Scientific References
1. Bland, J.H., Cooper, S.M. Osteoarthritis: A review of the cell biology
involved and evidence for reversibility. Management rationally related to known
genesis and pathophysiology. Seminars in Arthritis and Rheumatism
1984;14(2):106-133.
2. Hardingham, T. Proteoglycans: Their structure, interactions and molecular
organization in cartilage. Biochemical Society Transactions 1981;9(6):489-97.
3. Pipitone, V.R. "Chondroprotection with chondroitin sulfate" Drugs Exptl. Clin.
Res. (1991) XVII(1):3-7.
4. Vidal y Plana, R.R., Bizzarri, D., Rovati, A.L., "Articular cartilage
pharmacology: I. In vitro studies on glucosamine and non-steroidal
anti-inflammatory drugs," Pharmacological Research Communications 1978;
10(6):557-569.
5. Macario , J. T., Rivera, I.C., Bignamini, A.A., 'Oral glucosamine sulfate in
the management of arthritis: report on a multi-centre open investigation in
Portugal, Pharmatherapeutica 1982; 3(3):157-68.
6. Vaz, A.L., 'Double-blind clinical evaluation of the relative efficacy of
ibuprofen and glucosamine sulfate in the management of osteoarthritis of the
knee in out-patients,' Current Medical Research and Opinion 1982;
8(3):145-149.
7. Morreale, P. et. al. "Comparison of the anti-inflammatory efficacy of
chondroitin sulfate and diclofenac sodium in patients with knee osteoarthritis"
J Rheumatol (1996) 23:1385-91.
8. Mazires, B. et. al. Chondroitin sulfate for the treatment of coxarthrosis
and gonarthrosis. A prospective, multicenter, placebo-controlled, double blind
trial with five months follow up. Rev. Rhum. Mal. Ostoartic.
1992;59(7-8):466-472.
9. Pipitone, V., et. al. "A multicenter, triple-blind study to evaluate
galactosaminoglucuronoglycan sulfate versus placebo in patients with
femorotibial gonarthritis" Current Therapeutic Research 1992 52(4):608-38.
10. Lawrence, R.M. Methyl-sulfonyl-methane (M.S.M.) A double-blind study of its
use in degenerative arthritis. International Journal of Anti-aging Medicine
1998; 1(1):50.
11. Herschler, R. Dietary and pharmaceutical uses of methylsulfonylmethane and
compositions comprising it. United States Patent 4,514,421; April 30, 1985.
12. Herschler, R. Methylsulfonylmethane in dietary products. United States
Patent 4,616,039; October 7, 1986.
13. Jacob, S., Herschler, R. Introductory remarks: dimethyl sulfoxide after
twenty years. Annals of the New York Academy of Sciences 1983; 411:xiii-xvii.
