Primary open angle glaucoma(POAG)is the most common type of glaucoma, with common causes including variations in trabecular tissue and increased venous pressure. POAG has a certain genetic tendency, and POAG with an autosomal dominant inheritance pattern is mainly caused by single gene mutations. Studies have found that the pathogenesis of POAG may be related to key pathogenic genes(MYOC, OPTN, WDR 36), as well as mitochondrial dysfunction, oxidative stress, and epigenetic regulation. At present, the clinical treatment options for POAG mainly include enhancing trabecular meshwork function, inhibiting aqueous humor production, neuroprotection and regeneration of retinal ganglion cells, and applying gene editing technology, all of which have achieved certain results. However, there is no unified research on the relationship between the occurrence of POAG and genes, as well as treatment plans. The article explores new targets and treatment strategies for POAG gene therapy by analyzing the role of genes in the pathogenesis of POAG, aiming to provide reference for clinical treatment of this disease.

Juvenile open angle glaucoma(JOAG)is a subtype of primary open angle glaucoma(POAG)that severely affects the quality of life of young patients and has a high disability rate. While JOAG is commonly considered an autosomal dominant disease, it has been found to have a diverse mode of inheritance, including autosomal recessive inheritance in specific populations. The variable genetic predisposition of JOAG may be attributed to the co-regulation of several key disease-causing genes, such as MYOC, CYP1B1, and CPAMD8. Mutations in these genes are closely associated with various biological processes in ocular tissues, including cellular metabolic regulation, oxidative stress response, and abnormal induction of programmed death. Therefore, a comprehensive study of the causative genes associated with JOAG is crucial to understanding the specific genetic background of disease onset, progression, and clinical phenotype. This knowledge will provide a strong foundation for early identification and screening of high-risk populations. The objective of this review is to focus on the genetic characterization and genetic studies of JOAG. Through a systematic review of the relevant literature, we summarize the causative genes and their mutations associated with JOAG and explore their potential applications and value in advancing research in the field, aiming to provide valuable insights for the diagnosis and treatment of JOAG.

Objective To study the anticoagulation therapy of lower molecular weight heparin in the treatment of patients with acute pancreatitis.Methods Seventy-three patients with acute pancreatitis were divided into anticoagulation group(n=38)and control group(n=35).The serological indexes and prognosis of patients were detected.Results Anticoagulation treatment with lower molecular weight heparin significantly decreased the white blood cell count,increased the oxygen partial pressure in arterial blood,shoaened the duration of hospitalization,and reduced the aggravation rate,secondary operation rate and mortality of patients with acute pancreatitis.Conclusions Anticoagulation treatment with lower molecular weight heparin is safe,effective and can improve the prognosis of patients with acute pancreatitis.