Your search keyword '"James Bradley Randleman"' showing total 6 results

1. In-vivo corneal biomechanics measurement by 3D trackable Brillouin microscopy

Author

Giuliano Scarcelli, Hongyuan Zhang, and James Bradley Randleman

Subjects

Keratoconus, Materials science, genetic structures, business.industry, Biomechanics, Frequency domain optical coherence tomography, medicine.disease, eye diseases, Acquisition rate, Brillouin zone, Optics, Image tracking, Microscopy, medicine, sense organs, business, Image resolution

Abstract

Brillouin microscopy has been applied successfully to in-vivo corneal imaging to understand stiffness variation along different phases of keratoconus. However, the in-vivo spatial resolution is restricted due to a conflict between a slow Brillouin acquisition rate of hundreds of milliseconds and human movement during acquisition. In this research, frequency domain optical coherence tomography and image tracking are proved to be effective methods to locate points measured by Brillouin microscopy in axial and radial directions, respectively. Results show that OCT has an accuracy of better than 2 μm while image tracking has an accuracy better than 3 μm.

Published

2021

2. Detecting Mechanical Anisotropy of the Cornea Using Brillouin Microscopy

Author

Hongyuan Zhang, Abhijit Sinha Roy, James Bradley Randleman, Joshua N. Webb, and Giuliano Scarcelli

Subjects

0301 basic medicine, Keratoconus, Materials science, keratoconus, Biomedical Engineering, Corneal collagen cross-linking, Young's modulus, Brillouin microscopy, Article, law.invention, corneal cross-linking, Cornea, 03 medical and health sciences, symbols.namesake, 0302 clinical medicine, Optics, law, Microscopy, medicine, Anisotropy, business.industry, medicine.disease, Laser, Elasticity, Brillouin zone, Ophthalmology, 030104 developmental biology, medicine.anatomical_structure, 030221 ophthalmology & optometry, symbols, sense organs, business, corneal anisotropy

Abstract

Purpose The purpose of this study was to detect the mechanical anisotropy of the cornea using Brillouin microscopy along different perturbation directions. Methods Brillouin frequency shift of both whole globes (n = 10) and cornea punches (n = 10) were measured at different angles to the incident laser, thereby probing corneal longitudinal modulus of elasticity along different directions. Frequency shift of virgin (n = 26) versus cross-linked corneas (n = 15) over a large range of hydration conditions were compared in order to differentiate the contributions to Brillouin shift due to hydration from those due to stromal tissue. Results We detected mechanical anisotropy of corneas, with an average frequency shift increase of 53 MHz and 96 MHz when the instrument probed from 0° to 15° and 30° along the direction of the stromal fibers. Brillouin microscopy did not lose sensitivity to mechanical anisotropy up to 96% water content. We experimentally measured and theoretically modeled how mechanical changes independent of hydration affect frequency shift as a result of corneal cross-linking by isolating an approximately 100 MHz increase in frequency shift following a cross-linking procedure purely due to changes of stromal tissue mechanics. Conclusions Brillouin microscopy is sensitive to mechanical anisotropy of the stroma even in highly hydrated corneas. The agreement between model and experimental data suggested a quantitative relationship between Brillouin frequency shift, hydration state of the cornea, and stromal tissue stiffness. Translational relevance The protocol and model validated throughout this study offer a path for comprehensive measurements of corneal mechanics within the clinic; allowing for improved evaluation of the long-term mechanical efficacy of cross-linking procedures.

Published

2020

3. Comparative Functional Outcomes After Corneal Crosslinking Using Standard, Accelerated, and Accelerated With Higher Total Fluence Protocols

Author

Emilio A. Torres-Netto, Farhad Hafezi, Sumitra S. Khandelwal, James Bradley Randleman, Paul Lang, and Nikki L Hafezi

Subjects

Adult, Male, medicine.medical_specialty, Corneal Pachymetry, Ultraviolet Rays, Corneal Stroma, Riboflavin, Visual Acuity, Keratoconus, Refraction, Ocular, Young Adult, 03 medical and health sciences, Ocular physiology, 0302 clinical medicine, Ophthalmology, medicine, Humans, In patient, Corneal pachymetry, Retrospective Studies, Photosensitizing Agents, medicine.diagnostic_test, business.industry, Corneal Topography, Middle Aged, Corneal topography, Refraction, Cross-Linking Reagents, Photochemotherapy, Collagen metabolism, 030221 ophthalmology & optometry, Standard protocol, Female, Collagen, business, 030217 neurology & neurosurgery

Abstract

To compare the relative 12-month corneal crosslinking (CXL) functional outcomes using standard protocol and accelerated protocols in patients with progressive keratoconus.CXL was performed using 3 epithelium-off protocols: standard [3 mW/cm for 30 minutes, 5.4 J/cm (S3/30-CXL)], accelerated with equivalent total irradiance [9 mW/cm for 10 minutes, 5.4 J/cm (A9/10-CXL)], and accelerated with increased total irradiance [30 mW/cm for 4 minutes, 7.2 J/cm (A30/4-CXL)]. Efficacy measurements were evaluated 12 months after treatment with Scheimpflug imaging (Pentacam HR) and included change in maximum keratometry (K Max), corrected distance visual acuity (CDVA), other keratometric variables, pachymetry, keratoconus indices, astigmatism, asphericity, manifest refraction, and higher order aberrations.Ninety-three eyes (67 patients) were evaluated: 35 eyes (26 patients) with S3/30-CXL, 29 eyes (19 patients) with A9/10-CXL, and 29 eyes (22 patients) with A30/4-CXL. Mean [INCREMENT]K Max was -1.53 ± 2.1 diopter (D) for S3/30-CXL, -0.71 ± 1.3 D for A9/10-CXL, and -0.70 ± 2.3 D for A30/4-CXL (P = 0.37). Mean [INCREMENT]CDVA(logMAR) was -0.18 ± 0.2 for S3/30-CXL, -0.13 ± 0.2 for A9/10-CXL, and -0.18 ± 0.2 for A30/4-CXL (P = 0.79). [INCREMENT]K Mean (r = -0.29 to -0.46), anterior asphericity (r = -0.34 to -0.40), and central keratoconus index (r = -0.18 to -0.38) best correlated with [INCREMENT]CDVA. S3/30-CXL had greater changes in index of surface variance, index of vertical asymmetry, keratoconus index, and regularization index compared to A9/10-CXL and A30/4-CXL. There were no other differences between protocols.All 3 protocols showed improvements in K Max, CDVA, and other variables, with similar functional outcomes for each despite greater change in keratoconus indices after S3/30-CXL. Correlations between change in measured variables and CDVA were poor overall; however, K Mean, central keratoconus index, and anterior asphericity were better correlated with CDVA than K Max.

Published

2019

4. Pain management after photorefractive keratectomy

Author

James Bradley Randleman and Oren Golan

Subjects

medicine.medical_specialty, Pain, Postoperative, business.industry, Postoperative pain, medicine.medical_treatment, Anti-Inflammatory Agents, Non-Steroidal, MEDLINE, General Medicine, Pain management, Photorefractive Keratectomy, Photorefractive keratectomy, Analgesics, Opioid, 03 medical and health sciences, Ophthalmology, 0302 clinical medicine, 030202 anesthesiology, 030221 ophthalmology & optometry, medicine, Physical therapy, Myopia, Eye Pain, Humans, Pain Management, Anesthetics, Local, business

Abstract

To review current concepts regarding the mechanisms of postoperative pain after photorefractive keratectomy (PRK) and review available treatment options.Many clinical studies have established the safety and efficacy of different topical and systematic therapeutic agents and techniques for the treatment of postoperative pain after PRK, especially topical nonsteroidal anti inflammatory agents and oral nonsteroidal and narcotic medications. New therapeutic agents and techniques are continuously studied, introducing new agents and comparing teh efficacy of different regimens. Postoperative pain severity varies widely between patients, and no single strategy has been proven best for acute pain management.To date, the literature supports the use of topical agents such as nonsteroidal anti-inflammatory medications (NSAIDs) and diluted topical anesthetics in combination with oral agents such as opiates and NSAIDs for acute pain management. The use of local agents and techniques is preferred due to their less significant side effect profile. The use of systemic opiate agents is reserved for breakthrough pain.

Published

2018

5. Intraocular lens power calculations after laser in situ keratomileusis

Author

Waring Go rd, R.D. Stulting, Donna Loupe, James Bradley Randleman, and C.D. Song

Subjects

Adult, Male, medicine.medical_specialty, Optics and Photonics, Materials science, genetic structures, medicine.medical_treatment, Keratomileusis, Laser In Situ, Visual Acuity, Intraocular lens, Keratomileusis, Cataract Extraction, Refraction, Ocular, law.invention, Cornea, Lens Implantation, Intraocular, law, Ophthalmology, medicine, Humans, Aged, Retrospective Studies, Lenses, Intraocular, Postoperative Care, Keratometer, medicine.diagnostic_test, LASIK, Corneal Topography, Reproducibility of Results, Phacoemulsification, Middle Aged, Laser, Corneal topography, eye diseases, medicine.anatomical_structure, Female, sense organs

Abstract

To compare the accuracy of several techniques for calculating intraocular lens (IOL) power after laser in situ keratomileusis (LASIK).Retrospective review of 10 eyes from nine patients undergoing phacoemulsification after LASIK. Corneal power (K) was measured by manual keratometry (MK), refractive history (RH), contact lens overrefraction (CTL), videokeratography (VK), and an average of the refractive history and contact lens methods (AVG 2). Results were compared with the back-calculated K value generated by the Holladay IOL Consultant program. Age-matched patients undergoing phacoemulsification without previous refractive surgery served as controls.Mean spherical equivalent postoperative refraction was +0.21 diopter (D) (SD, 1.54; range, -2.25 to +2.25 D) for patients undergoing cataract extraction after LASIK versus -0.56 D (SD, 0.66; range, -2.375 to +0.5 D; p= 0.16) for controls. Thirty percent of cases versus 90% of controls were within 1 D ( p= 0.002) of emmetropia. Forty percent of cases versus no controls were more than 1 D hyperopic ( p= 0.08). The mean differences for each method compared with the back-calculated K values were MK, +0.82 D; VK, +1.24 D; RH, -0.76 D; CTL, +0.91 D; AVG 2, +0.08 D. The mean absolute deviations from the back-calculated K values were MK, 1.91 D; VK, 2.01 D; RH, 1.68 D; CTL, 1.62 D; AVG 2, 1.42 D.Significant refractive errors occurred with each of the methods investigated for determining IOL power after LASIK. RH, CL, or AVG 2 provided the most accurate results.

Published

2002

6. Corneal Biomechanical Analysis Using Brillouin Microscopy

Author

University of Maryland and James Bradley Randleman, Staff Physician

Published

2024