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10 articles in GJC
Rao Harsha L, Srinivasan Thanemozhi, Pradhan Zia S, Sreenivasaiah Shruthi, Rao Dhanaraj A S, Puttaiah Narendra K et al.
Rao Harsha L, Srinivasan Thanemozhi, Pradhan Zia S, Sreenivasaiah Shruthi, Rao Dhanaraj A S, Puttaiah Narendra K et al.
In PACG, lower retinal vessel density measured by OCTA is linked to faster visual field decline, suggesting OCTA can help identify patients at higher risk of progression.
Rao Harsha L, Pradhan Zia S, Weinreb Robert N, Dasari Srilakshmi, Riyazuddin Mohammed, Venugopal Jayasree P et al.
OCTA vessel density and diagnostic ability were similar in glaucoma eyes with and without disc hemorrhage. This suggests DH in glaucoma isn't primarily due to vascular issues.
Rao Harsha L, Pradhan Zia S, Weinreb Robert N, Dasari Srilakshmi, Riyazuddin Mohammed, Raveendran Sharanya et al.
This study found that inferotemporal peripapillary vessel density best correlates with optic nerve damage and vision loss in glaucoma, with fractional polynomial models providing superior accuracy over linear models.
Pradhan Zia S, Rao Harsha L, Puttaiah Narendra K, Kadambi Sujatha V, Dasari Srilakshmi, Reddy Hemanth B et al.
Automated pupillography's constriction latency parameters (onset, maximal) best predicted the magnitude of functional and structural glaucoma damage, suggesting its potential as a non-invasive assessment tool.
Rao Harsha L, Raveendran Sharanya, James Varsha, Dasari Srilakshmi, Palakurthy Meena, Reddy Hemanth B et al.
This study found Compass perimetry had more unreliable tests and wide disagreement with HFA in glaucoma patients, meaning these visual field tests are not interchangeable for clinical use.
Rao Harsha L, Pradhan Zia S, Weinreb Robert N, Riyazuddin Mohammed, Dasari Srilakshmi, Venugopal Jayasree P et al.
This study compared OCT angiography vessel density to structural OCT in primary angle closure glaucoma. It found structural changes occur earlier than retinal vessel density reduction, suggesting structural OCT is more sensitive for early detection.
Rao Harsha L, Kadambi Sujatha V, Weinreb Robert N, Puttaiah Narendra K, Pradhan Zia S, Rao Dhanaraj A S et al.
OCTA peripapillary vessel density showed good diagnostic ability for POAG and PACG, comparable to RNFL thickness. This suggests OCTA could be a valuable tool for glaucoma diagnosis.
Rao Harsha L, Kadambi Sujatha V, Dasari Srilakshmi, Reddy Hemanth B, Palakurthy Meena, Riyazuddin Mohammed et al.
Automated pupillography's intereye amplitude change difference best predicted intereye asymmetry in glaucoma damage (visual field, RNFL, GCC), especially in angle-closure glaucoma, offering a potential diagnostic tool.
Rao Harsha L, Pradhan Zia S, Weinreb Robert N, Reddy Hemanth B, Riyazuddin Mohammed, Dasari Srilakshmi et al.
This study found peripapillary OCTA vessel density is best for diagnosing glaucoma, outperforming ONH and macular regions. Diagnostic ability improved with glaucoma severity and higher pretreatment IOP.
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