A call for research on soft tissue manipulation (STM) as a bone anabolic therapy

Aric Anloague, Devanshi Patel, Stephanie K Henderson, H. Rolfs, Mackenzie Powell, Sunny B. Patel, Nicole M LaFave, Vincent R Marshall, Bryan G Wacker, Collin M Young, J. Hum, Kevin J. Gries, J. Lowery
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Abstract

Individuals with osteoporosis, i.e., low bone mass, are at enhanced risk for fracture, disability, and death. Hospitalizations for osteoporotic fractures exceed those for heart attack, stroke, and breast cancer. Osteoporosis rates are predicted to increase due to an aging global population yet there are limited pharmacological treatment options for osteoporosis, particularly for long-term management of this chronic condition. Moreover, the drug development pipeline is relatively bereft of new strategies and drug candidates, creating an urgent need for developing new therapeutic strategies for treating osteoporosis. In this mini-review, we speculate about the potential for non-invasive soft tissue manipulation (STM) to exert anabolic effects on the skeleton that may provide therapeutic benefit for individuals with low bone mass. Our rationale is premised on work by us and others showing that STM leads to decreased levels of chemokines and pro-inflammatory cytokines (such as Interleukin (IL)-3, IL-6, and IL-8) known to restrict the differentiation and/or activity of bone-forming osteoblasts. However, there are no published studies examining whether STM impacts bone mass, potentially limiting the widespread use of this non-invasive and non-pharmacological intervention in the worldwide treatment of patients with osteoporosis, individuals with low bone mass due to being bed-ridden or otherwise mobility-limited, and persons subjected to spaceflight-related bone loss.
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呼吁研究软组织手法(STM)作为骨合成代谢疗法
骨质疏松症患者,即低骨量患者,骨折、残疾和死亡的风险增加。骨质疏松性骨折的住院人数超过心脏病发作、中风和乳腺癌症。据预测,由于全球人口老龄化,骨质疏松症发病率将增加,但骨质疏松症的药物治疗选择有限,尤其是对这种慢性疾病的长期治疗。此外,药物开发渠道相对缺乏新的策略和候选药物,迫切需要开发治疗骨质疏松症的新治疗策略。在这篇小型综述中,我们推测了非侵入性软组织操作(STM)对骨骼产生合成代谢作用的潜力,这可能为低骨量个体提供治疗益处。我们的理论基础是我们和其他人的研究表明,STM会导致趋化因子和促炎细胞因子(如白细胞介素(IL)-3、IL-6,和IL-8)来限制成骨细胞的分化和/或活性。然而,目前还没有发表研究来检验STM是否会影响骨量,这可能会限制这种非侵入性和非药物干预在全球范围内广泛应用于骨质疏松症患者、因卧床不起或行动受限而导致骨量低的患者以及与太空飞行相关的骨质流失患者的治疗。
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