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Press - PolyU scholar discovers key mechanism of intraocular pressure regulation suggesting novel treatment approaches for glaucoma

PolyU scholar discovers key mechanism of intraocular pressure regulation suggesting novel treatment approaches for glaucoma   One of our UBSN users, Dr. Samantha SHAN, from School of Optometry, has recently reported her study results researching glaucoma, with part of her study making use of UBSN's Upright Confocal Microscope. Glaucoma is one of the leading causes of visual impairment and blindness. According to statistics from the Hospital Authority, in Hong Kong, three out of every 100 individuals aged over 40 suffer from glaucoma. In its early stages, obvious symptoms may not be present and those less obvious are often overlooked. By the time patients notice changes in their vision, the condition is usually severe. Dr. Samantha SHAN, Research Assistant Professor of the School of Optometry of The Hong Kong Polytechnic University (PolyU) and her team have discovered the mechanism of intraocular pressure (IOP) regulation, paving the way for novel treatment approaches for glaucoma, with the aspiration of preventing vision loss from this disease. In glaucoma patients, the fluid within the eye (known as “aqueous humour”) continuously flows, resulting in higher IOP for which long-term medication is required. However, current drugs have limitations in that they can only slow disease progression rather than halt it completely. Drugs may also have suboptimal tolerability and their efficacy diminish over time. The microRNA(miR)-17-92 cluster is known to play an important role in cell signalling, but its specific functions in the eye are not well understood. In this respect, Dr. Shan and her team’s research focus lies in gaining insights into the mechanisms of miR-17-92 cluster members and their effects on IOP. The team has identified thrombospondin-1 (TSP-1) as a protein that reduces the outflow of aqueous humour and increases IOP. Concurrently, the team mimicked three members of the miR-17-92 cluster in human trabecular meshwork (hTM) cells which are responsible for draining aqueous humour within the eye. It showed that the expression of TSP-1 was repressed, resulting in an approximately 73% increase in the outflow of aqueous humour in mice. Dr. Shan’s team has recently been recognised with a prestigious 2024 Shaffer Research Grant from the Glaucoma Research Foundation to further explore the effects of miR-17-92 members in IOP regulation. Looking forward, the team will investigate the direct interaction between specific miRNAs and TSP-1 by blocking the potential target sites of the three miRNAs in TSP-1 in hTM cells. They will also examine the functional consequences of modulating this pathway on aqueous humour outflow and IOP regulation in vivo. This would be achieved by utilising intravitreal injections of a TSP-1 target-specific blocker or miRNA mimics in mouse eyes. Dr. Shan remarked, “Genomic and proteomic approaches play a crucial role in understanding the genetic and molecular mechanisms underlying diseases such as glaucoma. In the context of glaucoma treatment, these approaches can help identify potential biomarkers, therapeutic targets and personalised treatment options, with far-reaching implications. The Grant also demonstrates PolyU’s excellence as hosting one of the top eye research centres in the world. It encourages me and my team to continue to make significant strides in glaucoma research and contribute to the better care of glaucoma patients.” With over a decade of experience in molecular research, in her work, Dr. Shan has demonstrated proficiency in utilising genomic and proteomic approaches. Her research interests are mechanism of aqueous humour formation, outflow facility and IOP regulation, microRNAs on outflow facility, DNA methylation of potential candidates on outflow facility and IOP regulation. Dr. Shan has also received support from the Hong Kong SAR Government’s Health and Medical Research Fund for two projects as a principal investigator. The projects aim to discover gene editing methods for treating glaucoma and unravel the role of epigenetic regulation in glaucoma respectively. Dr. Shan has also served as a co-investigator on other diverse research topics and has secured notable research funding, including the Research Grants Council’s General Research Fund.   Read more: https://www.polyu.edu.hk/en/media/media-releases/2024/0725_polyu-scholar-discovers-key-mechanism-of-intraocular-pressure-regulation/ https://www.media-outreach.com/news/hong-kong/2024/07/25/315394/polyu-scholar-discovers-key-mechanism-of-intraocular-pressure-regulation-suggesting-novel-treatment-approaches-for-glaucoma/

31 Jul, 2024

Research

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Photo Album of TMS Seminar and Lab Visit

UBSN was grateful to have Dr. Jack Jiaqi ZHANG give a research seminar. A lab visit to UBSN follows afterwards.

30 Jul, 2024

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Photo Album of fNIRS Seminar and Lab Visit

UBSN was honoured to have Dr. Georg KRANZ lead a research seminar with us, followed by a lab visit to UBSN.

26 Jun, 2024

Photos

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Photo Album of Visitors from Changchun University

UBSN warmly received visitors from Changchun University.

18 Jun, 2024

Photos

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UBSN Newsletter Issue 10

We are excited to share with you the 10th issue of our UBSN Newsletter (click here to view online), featuring a newly published high-impact study led by our associate director.   Please enjoy the newsletter. Thank you for your support! 

7 Jun, 2024

Newsletter

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Photo Album of Capacity Building Scheme Seminar by Dr Grace XIE

UBSN warmly introduces Dr. Grace XIE to all participants who joined our seminar titled "Automatic Segmentation of White Matter Hyperintensities from Brain Magnetic Resonance Images-Does AI Model Perform Better"

21 May, 2024

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Photo Album of Visit by Delegates of Guangzhou Medical University

UBSN had the honour to introduce UBSN facilities to visitors from Guangzhou Medical University.

16 May, 2024

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Photo Album of Visit by Prof Peter HAGOORT

UBSN was very enthusiastic about the special visit of Prof. Peter HAGOORT.

9 May, 2024

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UBSN Best Paper Award 2024

UBSN is pleased to announce the results of the UBSN Best Paper Award 2024. This award is to acknowledge and honour UBSN users for their outstanding papers published in academic journals in the past year. The aim is to promote neuroscience research and help advance the quality of research conducted by UBSN PIs.   This year, we received a remarkable number of impressive applications, and we extend our sincere appreciation to all the applicants. After a rigorous evaluation process by our panel of judges from the UBSN Management Committee, we are delighted to announce the winners of Gold, Silver, and Bronze Awards. The winners have showcased outstanding research accomplishments by utilising UBSN equipment.   We would like to congratulate the following winners and their innovative research:   Award Winner Dept. Paper Title Journal Gold Prof. Kenneth FONG RS Priming Intermittent Theta Burst Stimulation for Hemiparetic Upper Limb After Stroke: A Randomized Controlled Trial Stroke Silver Dr. Yvonne HAN RS Effects of multisession cathodal transcranial direct current stimulation with cognitive training on sociocognitive functioning and brain dynamics in autism: A double-blind, sham-controlled, randomized EEG study Brain Stimulation Bronze Prof. Lei SUN BME Modulation of deep neural circuits with sonogenetics PNAS   Each winner will receive funding support for using UBSN equipment to encourage their ongoing pursuit of impactful research. Please join us in congratulating the winners of the UBSN Best Paper Award 2024 for their excellent achievements.

7 May, 2024

Announcement

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Photo Album of HKU Shenzhen Hospital Visitors

UBSN was thrilled to have the privilege of welcoming visitors from Hong Kong University - Shenzhen Hospital.

7 May, 2024

Photos

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