Systematic Review of High-Dimensional Omics in Mind-Body Medicine

Poppy L A Schoenberg, Katlyn M. Gonzalez
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引用次数: 1

Abstract

The multi-dimensional measurement of complex biological systems and sub-systems is made possible by high-dimensional omics technologies. This frontier of research is promising for elucidating disease processes, physiological parameters, and therapeutic action mechanisms. Omics have potential merit for the integrative medicine field that is relatively early in terms of mechanistic research towards understanding the underlining therapeutic processes of mind-body interventions that show to affect multiple systems simultaneously. An inflammatory theory of disease has brought to light molecular and epidemiological evidence proposing that inflammation could be considered a unitary predictor across most disease typologies which may be treated as a central clinical entity. Relatively recent theorizations of disease have built upon epigenetic data showing that complex “interactomes”, or disease networks where genetic factors that have downward chain effects on transcriptional, proteomic domains, dynamically modulate in response to environmental, microbial, and immunological domains. Thus, complex conditions underlined by interactive disease networks and dynamics essentially require complex multi-levelled interventions. This is particularly germane for complex patient cases often seen in the integrative medicine clinic. Mind-body medicine may be part of such care programs that can be made accessible for all. To shed further light on the possibility of building the evidence base in integrative health towards this direction, we reviewed the current use of omics technologies in mind-body medicine within the last 5-years. Use of omics approaches within the field is still developing. Early findings appear to show beneficial impact upon genomic, transcriptional, and proteomic biomarkers across varied chronic inflammatory conditions, including disorders of the cardiovascular, central nervous, endocrine, immune, musculoskeletal, and respiratory, systems.
心身医学中高维奥密克戎的系统综述
高维组学技术使复杂生物系统和子系统的多维测量成为可能。这一前沿研究有望阐明疾病过程、生理参数和治疗作用机制。奥密克戎在综合医学领域具有潜在的优势,该领域在理解身心干预的主要治疗过程方面的机制研究相对较早,这些干预显示出同时影响多个系统。一种炎症性疾病理论揭示了分子和流行病学证据,表明炎症可以被认为是大多数疾病类型的单一预测因子,这些疾病类型可以被视为一个中心临床实体。相对较新的疾病理论建立在表观遗传学数据的基础上,这些数据表明,复杂的“相互作用体”,即对转录、蛋白质组结构域具有向下链效应的遗传因子对环境、微生物和免疫结构域进行动态调节的疾病网络。因此,相互作用的疾病网络和动态所强调的复杂条件基本上需要复杂的多层次干预措施。这与综合医学诊所常见的复杂病例尤其密切相关。身心医学可能是所有人都可以获得的护理计划的一部分。为了进一步阐明朝着这个方向建立综合健康证据库的可能性,我们回顾了过去5年来组学技术在身心医学中的应用。组学方法在该领域的应用仍在发展中。早期发现似乎对各种慢性炎症条件下的基因组、转录和蛋白质组生物标志物产生了有益影响,包括心血管、中枢神经、内分泌、免疫、肌肉骨骼和呼吸系统疾病。
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