肿瘤患者代谢综合征及其组分异常的患病现况研究

2017年12月至2018年12月,在天津医科大学总医院健康管理中心定期健康体检的3 509名研究对象中,曾罹患肿瘤、罹患慢病和健康对照三组分别有399、1 555、1 555名。年龄为(55.87±11.98)岁,男性占31.38%。慢病组MS患病率(42.44%)高于曾罹患肿瘤组(34.59%)和健康对照组(18.65%)( P<0.001)。与健康对照组相比,曾罹患肿瘤组和慢病组MS患病风险 OR(95% CI)值分别为2.13(1.61~2.83)和2.85(2.23~3.66);曾罹患乳腺癌和甲状腺癌MS患病风险 OR(95% CI)值分别为3.56(2.04~6.21)和2.77(1.46~5.25)。     

Epigenetics explained: a topic “primer” for the epilepsy community by the ILAE Genetics/Epigenetics Task Force

Epigenetics refers broadly to processes that influence medium to long‐term gene expression by changing the readability and accessibility of the genetic code. The Neurobiology Commission of the International League Against Epilepsy (ILAE) recently convened a Task Force to explore and disseminate advances in epigenetics to better understand their role and intersection with genetics and the neurobiology of epilepsies and their co‐morbidities, and to accelerate translation of these findings into the development of better therapies. Here, we provide a topic primer on epigenetics, explaining the key processes and findings to date in experimental and human epilepsy. We review the growing list of genes with epigenetic functions that have been linked with epilepsy in humans. We consider potential practical applications, including using epigenetic signals as biomarkers for tissue‐ and biofluid‐based diagnostics and the prospects for developing epigenetic‐based treatments for epilepsy. We include a glossary of terms, FAQs and other supports to facilitate a broad understanding of the topic for the non‐expert. Last, we review the limitations, research gaps and the next challenges. In summary, epigenetic processes represent important mechanisms controlling the activity of genes, providing opportunities for insight into disease mechanisms, biomarkers and novel therapies for epilepsy.