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Laser Blood Irradiation
http://www.laserpartner.org/lasp/web/en/2003/0058.htm
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more info thanks to hapyman Some info from http://www.wanliyiliao.gz.cn/product.asp Cardio-cerebral vascular disease laser therapeutic apparatus *edit* "C-reactive protein measures general levels of inflammation in your body." http://www.revolutionhealth.com/article ... ipc=B00232 "reduction of the degree of C - reactive protein [due to laser blood irradiation]" http://www.lasercliniclondon.com/phdi/p ... ent&part=5 Quote:
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Laser Blood Irradiation
In lieu of hijacking that post above anymore, I thought I would put added information on this here. Here is more info on Laser Blood Irradiation:
As for how often to use, this study did laser blood irradiation 3 times per week. They also state that the effects seem to last for 15 or 16 weeks. Here's the link to the study http://www.laser-akupunktur.info/pdf...ggi_valles.pdf Here's a good quote "We can imagine that, after a complete cycle of treatment, all circulating red blood cells are “activated”; since they have different “ages”, they will survive for different times; but, in any case, the youngest among them will disappear from circulating blood after about 15 weeks and, after that, the therapeutic effect will be lost." Here's an interesting patent and information ------------------------- "Intransal Red Light Probe for Treating Alzheimer's Disease" (DiMauro). *-edit* http://www.faqs.org/patents/app/2008...#ixzz0Rt1V9xTC |
Hi
I have had to do some edits re copyright please just add the link and only a short quote. also please check all source articles...if they say All Rights reserved or have copyright rules in their terms of use, we have to abide by those and not have copy/pasting I have also merged one of your posts from the other thread here as it is a different topic thanks |
From doing a Google search, I found this page. It cites about 11 studies done in other countries on Lasers showing benefit to Peripheral Neuropathy.
http://docs.google.com/viewer?a=v&q=...OQi0cxwB_2gSgQ |
Anodyne therapy has been used for PN for quite a while.
Here is a discussion about it and compares it to laser: http://www.anodynetherapy.com/infrared_therapy.html here is a post link to some more information on LLLT: http://neurotalk.psychcentral.com/post592917-2.html |
As I mentioned in the "Neuropathy does improve" sticky--
--it does seem as if this laser therapy is the next generation of anodyne/infrared therapy, which has been around a long time, and was actually first used in veterinary practice.
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I just started doing the blood irradiation and I am going to purchase an infrared 850-930nm laser at some point and experiment. Have any of you or do you know of anybody who has used the Anodyne devices? |
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Have you done a search of this site for 'Anodyne'?
There may be some answers here for you. |
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Neurol Res. 2004 Mar;26(2):233-9. Phototherapy promotes regeneration and functional recovery of injured peripheral nerve. Anders JJ, Geuna S, Rochkind S. Department of Anatomy, Physiology and Genetics, Uniformed Services University of the Health Sciences, Bethesda, Maryland 20854, USA. janders@usuhs.mil Numerous attempts have been made to enhance and/or accelerate the recovery of injured peripheral nerves. One of the methods studied is the use of phototherapy (low power laser or light irradiation) to enhance recovery of the injured peripheral nerve. A critical analysis of the literature on the employment of phototherapy for the enhancement of the regeneration process of the rat facial and sciatic nerve (after crush injury or transection followed by surgical reconstruction) is provided, together with the description of some of the most suitable basic biological mechanisms through which laser radiation exerts its action on peripheral nerve regeneration. http://www.ncbi.nlm.nih.gov/pubmed/1...&ordinalpos=11 Lasers Surg Med. 2009 Jan;41(1):36-41. 810 nm Wavelength light: an effective therapy for transected or contused rat spinal cord. Wu X, Dmitriev AE, Cardoso MJ, Viers-Costello AG, Borke RC, Streeter J, Anders JJ. Department of Anatomy, Physiology and Genetics, Uniformed Services University of the Health Sciences, Bethesda, Maryland 20814, USA. BACKGROUND AND OBJECTIVES: Light therapy has biomodulatory effects on central and peripheral nervous tissue. Spinal cord injury (SCI) is a severe central nervous system trauma with no effective restorative therapies. The effectiveness of light therapy on SCI caused by different types of trauma was determined. STUDY DESIGN/MATERIALS AND METHODS: Two SCI models were used: a contusion model and a dorsal hemisection model. Light (810 nm) was applied transcutaneously at the lesion site immediately after injury and daily for 14 consecutive days. A laser diode with an output power of 150 mW was used for the treatment. The daily dosage at the surface of the skin overlying the lesion site was 1,589 J/cm(2) (0.3 cm(2) spot area, 2,997 seconds). Mini-ruby was used to label corticospinal tract axons, which were counted and measured from the lesion site distally. Functional recovery was assessed by footprint test for the hemisection model and open-field test for the contusion model. Rats were euthanized 3 weeks after injury. RESULTS: The average length of axonal re-growth in the rats in the light treatment (LT) groups with the hemisection (6.89+/-0.96 mm) and contusion (7.04+/-0.76 mm) injuries was significantly longer than the comparable untreated control groups (3.66+/-0.26 mm, hemisection; 2.89+/-0.84 mm, contusion). The total axon number in the LT groups was significantly higher compared to the untreated groups for both injury models (P<0.05). For the hemisection model, the LT group had a statistically significant lower angle of rotation (P<0.05) compared to the controls. For contusion model, there was a statistically significant functional recovery (P<0.05) in the LT group compared to untreated control. CONCLUSIONS: Light therapy applied non-invasively promotes axonal regeneration and functional recovery in acute SCI caused by different types of trauma. These results suggest that light is a promising therapy for human SCI. PMID: 19143019 [PubMed - indexed for MEDLINE] http://www.ncbi.nlm.nih.gov/pubmed/1...m&ordinalpos=2 The rest of them are here: http://www.ncbi.nlm.nih.gov/pubmed?t...med_RVAbstract |
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