Keywordsacupuncture, electroacupuncture, indications, biological mechanisms, common acupuncture points Acupuncture has been used to treat various disease for more than 3,000 years in China and other Asian countries. As a complementary and alternative therapy, it has gained increasing popularity and acceptance among public and healthcare professionals in the West. Over the past few decades, basic and clinical research on acupuncture has made considerable progress. Internationally recognized evidence from clinical studies has been published, a preliminary system to clinically evaluate acupuncture has been created, and some clinical guidelines have been formulated. Moreover, scientists have strived to explore the physiological and biological mechanisms of acupuncture. Some basic studies have indicated that acupuncture has various actions, such as analgesic, muscle relaxing, antiinflammatory, mild anxiolytic, and antidepressant actions, with possible biological mechanisms such as central sensitization, neurotransmitters, the intestinal flora, immune regulation, oxidative stress, and neuroinflammation. The current review describes the common indications for acupuncture recommended by the WHO and the use of acupuncture in China, the United States, Australia, and several other countries. This review then summarized the mechanisms by which acupuncture treats common conditions including lower back pain (LBP), ischemic stroke, depression, and irritable bowel syndrome (IBS) and it also cited specific acupuncture points for treating these conditions. The hope is that this review will provide useful information for both acupuncturists and researchers to better understand the mechanisms of acupuncture and reasons for its usage.
Background. Intervertebral disc degeneration (IVDD) is one of the major causes of low back pain and motor deficiency. Nucleus pulposus (NP) degeneration plays a key role in the process of IVDD. The mechanical and biological interactions involved in NP degeneration have not been elucidated. The present study is aimed at investigating the effect and mechanism of cyclic mechanical stretch in regulating the function and degeneration of NP cells. Methods. NP cells were subjected to cyclic tensile stress (10% deformation) of 0.1 Hz for 8640 cycles. Cell proliferation was conducted through the MTT assay. The cell cycle and apoptosis were detected by flow cytometry. A gene expression profile chip was used to analyze the differentially expressed genes between the tensile stress group and the control group. Enrichment analysis of Gene Ontology (GO) annotation and signaling pathways were analyzed. Western blot and RNA interference were carried out to investigate the role of the ITGA2/PI3K/AKT pathway in the effect of cyclic mechanical stretch on NP cells. Results. NP cells exhibited a greater ( P < 0.05 ) growth rate in the tensile stress group compared to the control group. Cyclic mechanical stress significantly promoted the cell cycle transition of NP cells from the S phase to the G2/M phase. A fewer proportion of apoptotic cells were found in the tensile stress group ( P < 0.05 ), indicating that cyclic mechanical stretch inhibits NP cell apoptosis. Microarray analysis revealed 689 significant differentially expressed genes between the two groups ( P < 0.05 ), of which 333 genes were upregulated and another 356 genes were downregulated. Cyclic mechanical stretch altered the expression of 31 genes involved in the ITGA2/PI3K/AKT pathway and remarkably promoted this pathway in NP cells. Downregulation of ITGA2 and AKT further demonstrated that the PI3K/AKT pathway was responsible for the proliferation and COL2A1 expression of NP cells upon cyclic mechanical stretch. Conclusions. Cyclic mechanical stretch promoted the proliferation and cell cycle and reversely inhibited the apoptosis of NP cells. Cyclic mechanical stretch promoted COL2A1 expression and ameliorated the degeneration of NP cells via regulation of the ITGA2/PI3K/AKT signaling pathway. Our results may provide a potential target and a possibility of IVDD disease treatment by ameliorating the degenerative changes.
Objective. Angiopoietin-like protein 4 (ANGPTL4), encoding a glycosylated secreted protein, has been reported to be closely related to many kinds of diseases, including diabetes, tumor, and some musculoskeletal pathologies, such as rheumatoid arthritis, osteoarthritis, and osteoporosis. The aim of the current study is to investigate the role of ANGPTL4 in intervertebral disc degeneration and analyze the association of ANGPTL4 expression with Pfirrmann grades. Methods. A total of 162 nucleus pulposus tissues were collected from lumbar intervertebral disc herniation patients undergoing interforaminal endoscopic surgery. Real-time quantitative PCR and western blot were performed to determine the mRNA and protein expression of ANGPTL4 in nucleus pulposus samples. Statistical analysis was performed to analyze the association of ANGPTL4 expression with Pfirrmann grades. Results. Based on the clinical data of 162 patients, results showed that Pfirrmann grades were significantly associated with patients’ age ( r = 0.162 , P = 0.047 ) and were not significantly associated with patients’ gender ( P > 0.05 ). RT-qPCR and western blot results showed that the mRNA ( r = 0.287 , P < 0.05 ) and protein ( r = 0.356 , P < 0.05 ) expressions of ANGPTL4 were both closely associated with Pfirrmann grades. The expression of ANGPTL4 was remarkably increased in the groups of high IVDD Pfirrmann grades. Conclusion. The results demonstrated that ANGPTL4 expression was positively associated with the Pfirrmann grades and the severity of intervertebral disc degeneration. ANGPTL4 may be served as a candidate biomarker for intervertebral disc degeneration.
Docetaxel (DTX) has been widely used for treatment of many types of cancer. However, DTX is poor water soluble and commercial DTX is formulated in nonionic surfactant polysorbate 80 and...
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