Jeremy D Rogers

Overview

Explore the profile of Jeremy D Rogers including associated specialties, affiliations and a list of published articles.

Snapshot

Articles 47

Citations 777

Followers 0

Related Specialties

Ophthalmology

Radiology

Biomedical Engineering

Top 10 Co-Authors

Vadim Backman

Hemant K Roy

Andrew J Radosevich

Nikhil N Mutyal

Vladimir Turzhitsky

Allen Taflove

Ilker R Capoglu

Kevin W Eliceiri

Prabhakar Pradhan

Valentina Stoyneva

Published In

Opt Lett

Biomed Opt Express

Opt Express

J Biomed Opt

Appl Opt

Affiliations

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Recent Articles

31.

Depth-resolved measurement of mucosal microvascular blood content using  low-coherence enhanced backscattering spectroscopy

Radosevich A, Turzhitsky V, Mutyal N, Rogers J, Stoyneva V, Tiwari A, et al.

Biomed Opt Express . 2011 Jan; 1(4):1196-1208. PMID: 21258541

Low-coherence enhanced backscattering (LEBS) spectroscopy is a light scattering technique which uses partial spatial coherence broadband illumination to interrogate the optical properties at sub-diffusion length scales. In this work, we...

32.

A predictive model of backscattering at subdiffusion length scales

Turzhitsky V, Radosevich A, Rogers J, Taflove A, Backman V

Biomed Opt Express . 2011 Jan; 1(3):1034-1046. PMID: 21258528

We provide a methodology for accurately predicting elastic backscattering radial distributions from random media with two simple empirical models. We apply these models to predict the backscattering based on two...

33.

Analysis of pressure, angle and temporal effects on tissue optical properties from  polarization-gated spectroscopic probe measurements

Ruderman S, Gomes A, Stoyneva V, Rogers J, Fought A, Jovanovic B, et al.

Biomed Opt Express . 2011 Jan; 1(2):489-499. PMID: 21258484

Noninvasive optical techniques for tissue characterization, in particular, light scattering properties and blood supply quantification of mucosa, is useful in a wide variety of applications. However, fiber-optic probes that require...

34.

Characterization of light transport in scattering media at sub-diffusion length scales with Low-coherence Enhanced Backscattering

Turzhitsky V, Rogers J, Mutyal N, Roy H, Backman V

IEEE J Sel Top Quantum Electron . 2010 Nov; 16(3):619-626. PMID: 21037980

Low-coherence enhanced backscattering (LEBS) is a technique that has recently shown promise for tissue characterization and the detection of early pre-cancer. Although several Monte Carlo models of LEBS have been...

35.

Optical detection of buccal epithelial nanoarchitectural alterations in patients harboring lung cancer: implications for screening

Roy H, Subramanian H, Damania D, Hensing T, Rom W, Pass H, et al.

Cancer Res . 2010 Oct; 70(20):7748-54. PMID: 20924114

We have recently developed a novel optical technology, partial wave spectroscopic (PWS) microscopy, which is exquisitely sensitive to the nanoarchitectural manifestation of the genetic/epigenetic alterations of field carcinogenesis. Our approach...

36.

Optical measurement of rectal microvasculature as an adjunct to flexible sigmoidosocopy: gender-specific implications

Roy H, Gomes A, Ruderman S, Bianchi L, Goldberg M, Stoyneva V, et al.

Cancer Prev Res (Phila) . 2010 Jun; 3(7):844-51. PMID: 20570881

Flexible sigmoidoscopy is a robust, clinically validated, and widely available colorectal cancer screening technique that is currently sanctioned by major guideline organizations. Given that endoscopic visualization is generally limited to...

37.

Detecting alterations in cell ultrastructure with optical imaging

Backman V, Subramanian H, Pradhan P, Liu Y, Capoglu I, Rogers J, et al.

Annu Int Conf IEEE Eng Med Biol Soc . 2009 Dec; 2009:6325-6. PMID: 19964153

Understanding cell functioning at the nanoscale has been hampered in part by the diffraction limited resolution of optical microscopy. We developed partial wave spectroscopic (PWS) microscopy that is capable of...

38.

Accuracy of the Born approximation in calculating the scattering coefficient of biological continuous random media

Capoglu I, Rogers J, Taflove A, Backman V

Opt Lett . 2009 Sep; 34(17):2679-81. PMID: 19724530

A rigorous error analysis is presented for the scattering coefficient of biological random continuous media in the Born (or single-scattering) approximation. The analysis is done in two dimensions (2-D) for...

39.

Nonscalar elastic light scattering from continuous random media in the Born approximation

Rogers J, Capoglu I, Backman V

Opt Lett . 2009 Jun; 34(12):1891-3. PMID: 19529738

A three-parameter model based on the Whittle-Matérn correlation family is used to describe continuous random refractive-index fluctuations. The differential scattering cross section is derived from the index correlation function using...

40.

Association between rectal optical signatures and colonic neoplasia: potential applications for screening

Roy H, Turzhitsky V, Kim Y, Goldberg M, Watson P, Rogers J, et al.

Cancer Res . 2009 May; 69(10):4476-83. PMID: 19417131

Field carcinogenesis detection represents a promising means for colorectal cancer (CRC) screening, although current techniques (e.g., flexible sigmoidoscopy) lack the requisite sensitivity. The novel optical technology low-coherence enhanced backscattering (LEBS)...