What is he best known for?
The fields of study he is best known for:
- Internal medicine
- Glaucoma
- Ophthalmology
Joseph Caprioli mainly focuses on Glaucoma, Ophthalmology, Visual field, Optic nerve and Intraocular pressure.
His studies deal with areas such as Eye disease, Surgery, Visual acuity and Optical coherence tomography as well as Glaucoma.
His Ophthalmology study combines topics from a wide range of disciplines, such as Optometry, Logistic regression and Confidence interval.
Joseph Caprioli combines subjects such as Normal values, Linear regression, Percentile, Multivariate analysis and Pointwise with his study of Visual field.
The Optic nerve study combines topics in areas such as Blood flow and Optic papilla, Optic disc.
His Intraocular pressure research includes elements of Prospective cohort study, Internal medicine and Endocrinology.
His most cited work include:
- Predictive factors for glaucomatous visual field progression in the Advanced Glaucoma Intervention Study. (503 citations)
- Optical coherence tomography to detect and manage retinal disease and glaucoma. (370 citations)
- Comparison of optic nerve imaging methods to distinguish normal eyes from those with glaucoma. (362 citations)
What are the main themes of his work throughout his whole career to date?
His primary areas of study are Glaucoma, Ophthalmology, Visual field, Intraocular pressure and Optic nerve.
His Glaucoma study combines topics in areas such as Eye disease, Surgery, Visual acuity and Optometry.
His Visual field study integrates concerns from other disciplines, such as Statistics, Linear regression, Receiver operating characteristic and Pointwise.
His work on Glaucoma surgery, Ocular hypertension and Normal tension glaucoma as part of general Intraocular pressure study is frequently linked to In patient, therefore connecting diverse disciplines of science.
The concepts of his Optic nerve study are interwoven with issues in Retina and Retinal ganglion.
His work deals with themes such as Molecular biology and Retinal ganglion cell, which intersect with Retinal ganglion.
He most often published in these fields:
- Glaucoma (58.37%)
- Ophthalmology (53.42%)
- Visual field (24.14%)
What were the highlights of his more recent work (between 2015-2021)?
- Glaucoma (58.37%)
- Ophthalmology (53.42%)
- Intraocular pressure (23.95%)
In recent papers he was focusing on the following fields of study:
Joseph Caprioli focuses on Glaucoma, Ophthalmology, Intraocular pressure, Visual field and Optic nerve.
His work on Optic disc as part of general Glaucoma research is frequently linked to In patient, bridging the gap between disciplines.
His work on Open angle glaucoma, Retinal and Inner plexiform layer as part of general Ophthalmology research is often related to Structure function, thus linking different fields of science.
His Intraocular pressure study incorporates themes from Phacoemulsification and Cataract surgery.
He has included themes like Optometry, Regression analysis, Correlation and Linear regression in his Visual field study.
His research integrates issues of Sclera and Retinal ganglion in his study of Optic nerve.
Between 2015 and 2021, his most popular works were:
- Trabeculectomy Can Improve Long-Term Visual Function in Glaucoma. (54 citations)
- Heat shock proteins in the retina: Focus on HSP70 and alpha crystallins in ganglion cell survival (35 citations)
- Intraocular Pressure Fluctuation: Is It Important? (30 citations)
In his most recent research, the most cited papers focused on:
- Internal medicine
- Ophthalmology
- Glaucoma
His primary areas of investigation include Glaucoma, Ophthalmology, Intraocular pressure, Optical coherence tomography and Optic nerve.
His studies in Glaucoma integrate themes in fields like Interquartile range, Sclera and Inner plexiform layer.
His biological study spans a wide range of topics, including Optometry and Retrospective cohort study.
His Intraocular pressure research is classified as research in Surgery.
His Optical coherence tomography study combines topics in areas such as Angiography, Axial length and Nuclear medicine.
His work on Retinal ganglion cell as part of his general Optic nerve study is frequently connected to Chemistry, thereby bridging the divide between different branches of science.
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