Researchers conclude that acupuncture reduces pain and stiffness while restoring physical functioning for patients with knee osteoarthritis. Using an enzyme-linked immunosorbent assays, the researchers made an important finding. Acupuncture successfully downregulated osteoarthritis related proinflammatory plasma levels of TNFα, IL-6, and apelin.
TNFα plays a central role in cartilage matrix degradation and osteoarthritis bone resorption. Through the use of electroacupuncture, the researchers successfully downregulated TNFα and apelin in patients with osteoarthritis of the knees. Apelin is a newly discovered peptide. Identified in 1998, this peptide occurs at the surface of osteoblasts. Apelin increases osteoblast proliferation, suppresses apoptosis, and is involved in inflammation, pain, and osteoarthritis.
The researchers measured significant downregulation of IL-6, which is associated with radiographically confirmed knee osteoarthritis and cartilage loss. Normally, chondrocytes produce low levels of IL-6. However, when knee osteoarthritis is present, IL-6 levels rise significantly. Acupuncture was successful in downregulating IL-6 for patients with knee osteoarthritis.
Plasma levels of apelin were recorded using an enzyme-linked immunosorbent assay made by Phoenix Peptides (Burlingame, California). Plasma levels of TNFα and IL-6 levels were recorded using enzyme-linked immunosorbent assays made by Yuanye Bio-Tech (Shanghai, China). The measurements were taken by the same person that was blinded to treatment assignments in order to prevent bias.
The single-blinded controlled trial with human subjects was conducted at the Shu Guang Hospital (Shanghai Traditional Medicine University). All participants were diagnosed with knee osteoarthritis according to criteria determined by the American College of Rheumatology.
Kellgren radiological severity needed to rate at least a grade II or III.
The researchers used a protocolized acupuncture point prescription for all participants. Electroacupuncture was applied unilaterally to the affected leg, except for patients whose symptoms occurred bilaterally. In those instances, bilateral needling was applied.
The researchers compared two types of electroacupuncture to determine the most effective protocol. One group received low intensity electroacupuncture and the other group received high intensity electroacupuncture. The results demonstrate that one type of electroacupuncture is the most effective. We’ll review the results in this article. Patients were randomly assigned to either group using randomization generated by the Statistical Package for the Social Sciences (Chicago, Illinois).
Electroacupuncture was applied with single-use, sterile, filiform acupuncture needles that were 30 mm in length and 30 gauge. Deqi was elicited at all acupoints prior to implementation of electroacupuncture. Techniques used to elicit deqi were lifting, thrusting, twirling, and rotating of the needles.
In this way, three pairs comprised of six acupuncture points were stimulated with electroacupuncture. Total electroacupuncture stimulation time per treatment session was 30 minutes. High intensity was set to the patients’ tolerance levels at 5 – 6 mA. Low intensity electroacupuncture was set to the level at which a patient was able to detect electroacupuncture stimulation plus 1 mA. Low intensity electroacupuncture ranged between 2 – 2.5 mA for all patients.
All patients received 16 electroacupuncture treatments at a rate of once per day for 5 days. Next, patients had a two day break from treatments and the process was repeated. For the next two weeks, patients received treatments every 2 – 3 days. Unilateral acupuncture needle insertion and stimulation was applied to the affected side, except for patients with bilateral pain.
A weakness in the study design is that all patients received 30 mg of etoricoxib during the treatment period. Etoricoxib is a COX-2 (cyclooxygenase 2) inhibitor, which reduces production of prostaglandins. Despite the limitations of the study design, high intensity electroacupuncture proved to be more effective than low intensity electroacupuncture. Because two types of electroacupuncture were compared in separate, controlled groups and each acupuncture protocol produced significantly different biochemical and symptomatic improvements, acupuncture was identified as achieving specific positive patient outcomes.
The researchers note that both groups “markedly improved from baseline,” however, improvements in stiffness and physical functioning were significantly greater in the high intensity electroacupuncture group. Also, apelin levels reduced more significantly in the high intensity electroacupuncture group. IL-6 did not reduce in the low intensity group but significantly reduced in the high intensity electroacupuncture group. As a result, the clinical improvements differing between the low and high intensity electroacupuncture groups are not attributable to etoricoxib intake.
The researchers conclude that high intensity electroacupuncture “suppresses proinflammatory cytokines and improves pain and function in patients with symptomatic KOA [knee osteoarthritis].” In addition, high intensity acupuncture “provides better improvement in the disease-specific quality of life of KOA patients and a greater modulation of cytokine section.” We look forward to additional research on this topic.
Excerpt from:
Acupuncture Reduces Pain and Stiffness of Knee Osteoarthritis