Chenjia Xu
Tianjin Medical University
6 Papers
18 Citations
Chenjia Xu is an academic researcher from Tianjin Medical University. The author has contributed to research in topics: Trabecular meshwork & Cost effectiveness. The author has an hindex of 2, co-authored 6 publications.
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Papers
Anterior lens capsule: biomechanical properties and biomedical engineering perspectives.
TL;DR: An overview of biomechanical properties and biomedical engineering perspectives of anterior lens capsule is provided in this paper, where the authors also provide an overview of the biomedical engineering aspects of anterior lenses.
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Daily Costs and Cost Effectiveness of Glaucoma Fixed Combinations in China
TL;DR: In this article, the authors compared the daily costs and cost effectiveness of fixed combination glaucoma drugs in China and found that Ganfort was the most economical choice with lower daily cost and per mmHg reduction cost.
Identification and functional analysis of a novel missense mutation in GJA8, p.Ala69Thr.
TL;DR: A novel heterozygous mutation was identified within GJA8, which cosegregated with congenital cataract phenotype in this family, and bioinformatics analysis showed it was located in a highly conserved region, and the mutation was predicted to be pathogenic.
Transscleral cyclophotocoagulation followed by cataract surgery: a novel protocol to treat refractory acute primary angle closure.
TL;DR: TCP effectively lowers IOP and modifies the anterior chamber morphology in APAC; TCP followed by cataract surgery can be considered an alternative to treat refractory APAC but needs further evaluation.
Transcriptome-wide study of the response of human trabecular meshwork cells to the substrate stiffness increase
Jinjun Tie,Dong Chen,Junhong Guo,Junhong Guo,Shengjie Liao,Xiaotian Luo,Yu Zhang,Ruru Guo,Chenjia Xu,Dandan Huang,Yi Zhang,Jiantao Wang,Jiantao Wang +12 more
TL;DR: The in vitro HTM cell model could efficiently capture the main pathogenetic process in glaucoma patients, and provide a powerful method to investigate the underlying molecular mechanisms.