Here is a copy of a paper I wrote for my Sports Nutrition class last
semester regarding Glucosamine and Chondroitin supplementation. A week
or so after I turned in the paper I came across this web page, which provides the research that the NCCAM has found on the effectiveness of GlucoChondro.
Non-steroidal
anti-inflammatory drugs (NSAIDs) have been a popular choice for
athletes to relieve their joint pain and other symptoms of
osteoarthritis. These drugs are great for providing relief for short
periods of time, but have some negative effects that can delay injury
recovery if taken long-term. (4) One alternative to NSAIDs that has been
suggested in the last decade is glucosamine/chondroitin
supplementation. It is believed that glucosamine helps in the formation
of cartilage as well as its repair. Chondroitin has a similar function
and helps with the elasticity of cartilage. Glucosamine and chondroitin
sulfate are chemicals that are naturally produced by the body. Because
their production isn’t dependent on the individual’s diet, it is
suggested that supplementation will either increase cartilage growth or
decrease its breakdown. (5) Rock climbers are known for the strain they
put on their bodies, especially their joints. Taking a glucosamine and
chondroitin sulfate supplement is strongly encouraged within the
climbing community (6,7) to prevent osteoarthritis though the research
regarding the effectiveness of such supplementation is conflicting to
say the least.
The usual dose for glucosamine and chondroitin is
1500 mg/d and 1200 mg/d respectively. (1,5) The larger doses are due to
the fact that the supplement’s bioavailability is only 12 to 21%.
Glucosamine/chondroitin supplementation is relatively safe due to a
small number of adverse effects. As a supplement, glucosamine is derived
from the exoskeleton of shellfish like shrimp, lobsters, and crabs and
can causes allergic reactions in individuals who have seafood allergies.
Chondroitin can have a blood-thinning effect and should be avoided by
individuals taking blood-thinning medication. Other adverse effects that
have been reported are nausea, abdominal pain, headaches, and back
pain. (1)
Most of the positive evidence regarding
glucosamine/chondroitin supplementation has been obtained from
experiments involving animals. Though these studies do not directly
related to human patients they do provide information that would be
difficult or unethical to obtain from human subjects. One study
involving cows used the cartilage and ligament cells surrounding the
metacarpals joints as cultures and concluded that
glucosamine/chondroitin not only stimulates cartilage growth but
ligament growth as well. (4) Another study conducted on rabbits suggests
that glucosamine/chondroitin supplementation cannot improve already
healthy joints. (2)
A study comparing a mineral supplement,
Aquamin, a glucosamine/chondroitin supplement, and a combination of the
two in their ability to relieve osteoarthritis pain happened upon some
shocking results. This study tested the functional capacity of subjects
with moderate to severe osteoarthritis in their knees. Aquamin is a
supplement derived from seaweed that contains minerals such as calcium,
magnesium, salt, and other trace minerals. The subjects were tested by
walking as far as they could until their pain was too much. The distance
they could walk was measured several times during the 12 week study.
The study found that Aquamin provided the greatest amount of relief and
allowed for the greatest distance of walking, followed by glucosamine
and chondroitin, the placebo, and the combination of the two
supplements. (8) The performance of the combination treatment suggests
the ingredients of the two supplements must be counteractive in one-way
or another. This topic would be very interesting to study. The results
of the study should be viewed with caution because Marigot Ltd, the
manufacturer of Aquamin, paid for the study.
The clinical practice
guideline approved by the American Academy of Orthopedic Surgeons is
based on a review of published studies regarding osteoarthritis in the
knee. The purpose of the review is to compile a list of recommendations
of non-invasive treatments for osteoarthritis. One of these
recommendations is to refrain from prescribing glucosamine and
chondroitin to patients. This recommendation is based on another review
of studies that concludes that glucosamine/chondroitin supplementation
doesn’t provide any clinical benefits to the patient but is superior
compared to a placebo. Unfortunately, the guidelines do not define
clinical importance or specify what clinical benefits are. Though the
guidelines do not suggest glucosamine/chondroitin supplementation they
do suggest the prescribing on NSAIDs as well as acetaminophen despite
the long-term implications. (3)
With this review of the research
literature it would be suggested that glucosamine/chondroitin
supplementation should only be recommended as a last resort treatment
for osteoarthritis. Supplementation hasn’t been shown to prevent joint
injuries or the onset of osteoarthritis so it should only be tried by
those that have already suffered injury. Also supplementation should be
considered if the duration of injury recovery is longer than the
suggested duration of NSAID use to avoid longer delays in recovery.
Because research suggests that improvements due to
glucosamine/chondroitin supplementation take 6 to 8 weeks to show (1);
supplementation should stop after 8 weeks if improvements aren’t
noticed.
References
1. Leburn, CM. GLUCOSAMINE (and Chondroitin). American Journal of Medicine and Sports. 2004 May/June
2. Bradley-Popovich, G. Sports Injury Management: Do Diet and Supplementation Play a Role?. Strength and Conditioning Journal. 2004 October
3. Richmond, J; Hunter, D; Irrgang, J; Jones, M; et al. Treatment of Osteoarthritis of the Knee (Nonarthroplasty). Journal of American Orthopedic Surgeons. 2009 September
4. Lippiello,
L. Collagen Synthesis in Tenocytes, Ligament Cells and Chondrocytes
Exposed to a Combination of Glucosamine HCl and Chondroitin Sulfate. Advance Access Publication. 2006 December
5. Dunford, M. Sports Nutrition. American Dietetic Association. 2006
6. Horst, E. Training for Climbing. Falcon Guide Publishing. 2008
7. Rosenberg, Thomas. To Supplement or Not To Supplement? Climbing.com
8. Frestedt,
J; Walsh, M; Kuskowski, M; Zenk, J. A natural mineral supplement
provides relief from knee osteoarthritis symptoms: a randomized
controlled pilot trial. Nutrition Journal. 2008 February
Sunday, January 8, 2012
Sunday, January 1, 2012
Antagonistic Muscle Training: Part 2
We'll finish off this series of posts by going over exercises that
minimize the imbalances between our quads/hamstrings and the finger
flexors/extensors.
Quads/Hamstrings
Our quads do a couple of things, but they mainly straighten our knees when we stand up, which we do a lot in climbing. In contrast, our hamstrings mainly help bend our knees, which we do on occasion when high stepping or heel hooking. Exercising the hamstrings is kind of tricky because most specific sport specific movements initiated by the hamstrings are closed chain movements (our legs aren't usually moving, think about pulling off of a heel hook. The heel stays in place while the rest of the body moves). There is only one closed chained exercise for the hamstrings that I know, the Romanian Deadlift. This lift is great because it utilizes a barbell so the weight can increased until there just isn't anymore room. On the downside it doesn't look like anything that would be done in climbing. My favorite way to target the hamstrings is the Stability Ball Hamstring Curl. This exercise isn't closed chained but probably the closest thing to actually heel hooking and because it is performed on a stability ball it engages the core muscles as well.
Finger Flexors/Extensors
The finger flexors and extensors reside in our forearms and they do exactly what the say they do. So when we are climbing we're flexing our fingers in order to grab on to the rock but we don't really extend our fingers forcefully. If our fingers are always flexing we're putting a lot of strain on the extensor muscles and tendons. It used to be that the main way to exercise the finger extensors was by doing Reverse Wrist Curls. I'm not a big fan of this method because in order to grip on to the dumbbell the flexors muscles would have to be engaged too (this is kinda like taking 2 steps forward and 1 step back, you're still headed towards the goal but very slowly). Luckily Metolius Climbing has developed the Grip Saver Plus.** The Grip Saver Plus is nice because the fingers can be extended fully as well as the wrist. If you don't want to fork out the money to buy a Grip Saver, you can always use a rubber band in the same fashion.
I feel that taking the time to train our antagonistic muscles is worthwhile, not only do these exercises help prevent injury, they give us something to do on our active rest days. Like always, if you have a question about anything discuss in this post or any of the others just let me know.
Quads/Hamstrings
Our quads do a couple of things, but they mainly straighten our knees when we stand up, which we do a lot in climbing. In contrast, our hamstrings mainly help bend our knees, which we do on occasion when high stepping or heel hooking. Exercising the hamstrings is kind of tricky because most specific sport specific movements initiated by the hamstrings are closed chain movements (our legs aren't usually moving, think about pulling off of a heel hook. The heel stays in place while the rest of the body moves). There is only one closed chained exercise for the hamstrings that I know, the Romanian Deadlift. This lift is great because it utilizes a barbell so the weight can increased until there just isn't anymore room. On the downside it doesn't look like anything that would be done in climbing. My favorite way to target the hamstrings is the Stability Ball Hamstring Curl. This exercise isn't closed chained but probably the closest thing to actually heel hooking and because it is performed on a stability ball it engages the core muscles as well.
Finger Flexors/Extensors
The finger flexors and extensors reside in our forearms and they do exactly what the say they do. So when we are climbing we're flexing our fingers in order to grab on to the rock but we don't really extend our fingers forcefully. If our fingers are always flexing we're putting a lot of strain on the extensor muscles and tendons. It used to be that the main way to exercise the finger extensors was by doing Reverse Wrist Curls. I'm not a big fan of this method because in order to grip on to the dumbbell the flexors muscles would have to be engaged too (this is kinda like taking 2 steps forward and 1 step back, you're still headed towards the goal but very slowly). Luckily Metolius Climbing has developed the Grip Saver Plus.** The Grip Saver Plus is nice because the fingers can be extended fully as well as the wrist. If you don't want to fork out the money to buy a Grip Saver, you can always use a rubber band in the same fashion.
I feel that taking the time to train our antagonistic muscles is worthwhile, not only do these exercises help prevent injury, they give us something to do on our active rest days. Like always, if you have a question about anything discuss in this post or any of the others just let me know.
**I was not paid to mention the Grip Saver Plus**
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