Fahrul Nurkolis, Trianna Wahyu Utami, Aiman Idrus Alatas, Danar Wicaksono, Rudy Kurniawan, Satria Rafi Ratmandhika, Kartika Taufani Sukarno, Yehezkiel Gian Pradipta Pahu, Bonglee Kim, Trina Ekawati Tallei, Raymond Rubianto Tjandrawinata, Ananto Ali Alhasyimi, Reggie Surya, Helen Helen, Princella Halim, Adi Muradi Muhar, Rony Abdi Syahputra
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引用次数: 0
摘要
生长和衰老是人类发展的基本要素。衰老的定义是生理活动减少和更容易生病。受生活方式、环境和遗传因素的影响,衰老会导致包括心血管、肌肉骨骼和神经系统疾病在内的各种疾病,2019 年全球死亡人数达 1610 万。由 DNA 损伤引起的压力诱导的细胞衰老会减少组织再生和修复,从而促进衰老。许多与衰老有关的疾病的根本原因是炎症,而炎症又受到衰老相关分泌表型(SASP)的鼓励。衰老导致的新陈代谢变化和免疫系统衰退会通过促进微生物群的多样性来提高患病风险。由于菌群失调与牙周炎和湿疹有关,因此稳定的、针对个体的皮肤和口腔微生物群对健康和疾病都至关重要。从出生到死亡,人类的微生物组在饮食和生活方式的影响下与人体共生互动。由于口腔微生物与全身性疾病有着重要的相互作用,因此牙齿健康状况不佳与阿尔茨海默氏症和帕金森氏症有关。本研究强调了微生物组健康在人一生中的重要性,回顾了微生物组在与衰老有关的疾病中的作用,这些作用可以指导新的诊断和治疗方法。
Can salivary and skin microbiome become a biodetector for aging-associated diseases? Current insights and future perspectives.
Growth and aging are fundamental elements of human development. Aging is defined by a decrease in physiological activities and higher illness vulnerability. Affected by lifestyle, environmental, and hereditary elements, aging results in disorders including cardiovascular, musculoskeletal, and neurological diseases, which accounted for 16.1 million worldwide deaths in 2019. Stress-induced cellular senescence, caused by DNA damage, can reduce tissue regeneration and repair, promoting aging. The root cause of many age-related disorders is inflammation, encouraged by the senescence-associated secretory phenotype (SASP). Aging's metabolic changes and declining immune systems raise illness risk via promoting microbiome diversity. Stable, individual-specific skin and oral microbiomes are essential for both health and disease since dysbiosis is linked with periodontitis and eczema. Present from birth to death, the human microbiome, under the influence of diet and lifestyle, interacts symbiotically with the body. Poor dental health has been linked to Alzheimer's and Parkinson's diseases since oral microorganisms and systemic diseases have important interactions. Emphasizing the importance of microbiome health across the lifetime, this study reviews the understanding of the microbiome's role in aging-related diseases that can direct novel diagnosis and treatment approaches.
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