The role of muscle in the susceptibility and progression of axial Spondyloarthritis: The MyoSpA Study Protocol.

IF 1 4区 医学 Q4 RHEUMATOLOGY
Acta reumatologica portuguesa Pub Date : 2021-10-01
Atlas Mashayekhi Sardoo, Agna Neto, Rita Pinheiro Torres, Santiago Rodrigues-Manica, Lúcia Domingues, Carolina Lage Crespo, João Lagoas-Gomes, Vasco Mascarenhas, César S Mendes, Antonio Galzerano, Sérgio Fernandes de Almeida, Alexandre Sepriano, Sofia Ramiro, Alfonse T Masi, Kalyani Nair, Julia Costa, Bruno Miguel Alexandre, Tatiana Vassilevskaia, Celso Vladimiro Cunha, Daniel Sobral, Jaime Cunha Branco, Patrícia Gomes-Alves, Fernando M Pimentel-Santos
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引用次数: 0

Abstract

Background: Axial Spondyloarthritis (axSpA) is a chronic, inflammatory rheumatic disease that affects the axial skeleton, causing pain, stiffness, and fatigue. Genetics and environmental factors such as microbiota and microtrauma are known causes of disease susceptibility and progression. Murine models of axSpA found a decisive role for biomechanical stress as an inducer of enthesitis and new bone formation. Here, we hypothesize that muscle properties in axSpA patients are compromised and influenced by genetic background.

Objectives: To improve our current knowledge of axSpA physiopathology, we aim to characterize axial and peripheral muscle properties and identify genetic and protein biomarker that might explain such properties.

Methods: A cross-sectional study will be conducted on 48 participants aged 18-50 years old, involving patients with axSpA (according to ASAS classification criteria, symptoms duration < 10 years) and healthy controls matched by gender, age, and levels of physical activity. We will collect epidemiological and clinical data and perform a detailed, whole body and segmental, myofascial characterization (focusing on multifidus, brachioradialis and the gastrocnemius lateralis) concerning: a) Physical Properties (stiffness, tone and elasticity), assessed by MyotonPRO®; b) Strength, by a dynamometer; c) Mass, by bioimpedance; d) Performance through gait speed and 60-second sit-to-stand test; e) Histological and cellular/ molecular characterization through ultrasound-guided biopsies of multifidus muscle; f) Magnetic Resonance Imaging (MRI) characterization of paravertebral muscles. Furthermore, we will perform an integrated transcriptomics and proteomics analysis of peripheral blood samples.

Discussion: The innovative and multidisciplinary approaches of this project rely on the elucidation of myofascial physical properties in axSpA and also on the establishment of a biological signature that relates to specific muscle properties. This hitherto unstudied link between gene/protein signatures and muscle properties may enhance our understanding of axSpA physiopathology and reveal new and useful diagnostic and therapeutic targets.

肌肉在轴性脊柱炎的易感性和进展中的作用:MyoSpA研究方案。
背景:轴向脊椎关节炎(axSpA)是一种慢性炎症性风湿病,影响轴向骨骼,引起疼痛、僵硬和疲劳。遗传和环境因素,如微生物群和微创伤是已知的疾病易感性和进展的原因。小鼠axSpA模型发现生物力学应力作为诱导炎症和新骨形成的决定性作用。在这里,我们假设axSpA患者的肌肉特性受到遗传背景的损害和影响。目的:为了提高我们目前对axSpA生理病理的了解,我们的目标是表征轴向和外周肌肉的特性,并确定可能解释这些特性的遗传和蛋白质生物标志物。方法:将对48名年龄在18-50岁之间的参与者进行横断面研究,包括axSpA患者(根据ASAS分类标准,症状持续时间< 10年)和按性别、年龄和体力活动水平匹配的健康对照。我们将收集流行病学和临床数据,并进行详细的全身和节段性肌筋膜特征(重点是多裂肌、肱桡肌和腓肠肌外侧肌),涉及:a)物理特性(刚度、张力和弹性),由MyotonPRO®评估;b)强度,用测功机测量;c)质量,用生物阻抗表示;d)通过步态速度和60秒坐立测试表现;e)超声引导下多裂肌活检的组织学和细胞/分子特征;f)椎旁肌肉的磁共振成像(MRI)特征。此外,我们将对外周血样本进行综合转录组学和蛋白质组学分析。讨论:该项目的创新和多学科方法依赖于axSpA肌筋膜物理特性的阐明,也依赖于与特定肌肉特性相关的生物特征的建立。这种迄今为止尚未研究的基因/蛋白质特征与肌肉特性之间的联系可能会增强我们对axSpA生理病理的理解,并揭示新的有用的诊断和治疗靶点。
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来源期刊
Acta reumatologica portuguesa
Acta reumatologica portuguesa 医学-风湿病学
自引率
0.00%
发文量
0
审稿时长
>12 weeks
期刊介绍: Acta Reumatólogica Portuguesa is a scientific peer reviewed journal covering all aspects of rheumatic diseases and related to Rheumatology. The journal publishes original articles, reviews, clinical cases, images in rheumatology, letters to the editor and clinical teaching (e.g. guidelines and clinical protocols). Published since 1973, Acta Reumatológica Portuguesa is the official scientific publication of the Portuguese Society of Rheumatology, a non-profit organization that promotes the knowledge and investigation of rheumatic diseases and the development of Rheumatology.
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