Jiajia Ge scite author profile

Hand-held based optical imaging systems are a recent development towards diagnostic imaging of breast cancer. To date, all the hand-held based optical imagers are used to perform only surface mapping and target localization, but are not capable of demonstrating tomographic imaging. Herein, a novel hand-held probe based optical imager is developed towards three-dimensional (3-D) optical tomography studies. The unique features of this optical imager, which primarily consists of a hand-held probe and an intensified charge coupled device detector, are its ability to; (i) image large tissue areas (5 x 10 sq. cm) in a single scan, (ii) perform simultaneous multiple point illumination and collection, thus reducing the overall imaging time; and (iii) adapt to varying tissue curvatures, from a flexible probe head design. Experimental studies are performed in the frequency domain on large slab phantoms (approximately 650 ml) using fluorescence target(s) under perfect uptake (1:0) contrast ratios, and varying target depths (1-2 cm) and X-Y locations. The effect of implementing simultaneous over sequential multiple point illumination towards 3-D tomography is experimentally demonstrated. The feasibility of 3-D optical tomography studies has been demonstrated for the first time using a hand-held based optical imager. Preliminary fluorescence-enhanced optical tomography studies are able to reconstruct 0.45 ml target(s) located at different target depths (1-2 cm). However, the depth recovery was limited as the actual target depth increased, since only reflectance measurements were acquired. Extensive tomography studies are currently carried out to determine the resolution and performance limits of the imager on flat and curved phantoms.

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Controllable atomic defect engineering in layered Ni_xFe_1−x(OH)₂ nanosheets for electrochemical overall water splitting

Zheng

Zhang

et al. 2021

J. Mater. Chem. A

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Accuracy and Consistency of Respiratory Gating in Abdominal Cancer Patients

Santanam

Yang

et al. 2013

International Journal of Radiation Oncology*Biology*Physics

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Design and development of a hand-held optical probe toward fluorescence diagnostic imaging

Jayachandran

Regalado

et al. 2007

J. Biomed. Opt.

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Near-infrared optical imaging is an emerging noninvasive technology toward breast cancer diagnosis. The optical imaging systems available to date are limited either by flexibility to image any given breast volume, patient comfort, or instrument portability. Here, a hand-held optical probe is designed and developed, 1. employing a unique measurement scheme of simultaneous multiple point illumination and collection for rapid data acquisition and minimal patient discomfort, and 2. employing a curved probe head such that it allows flexible imaging of tissue curvatures. Simulation studies are carried out on homogeneous slab phantoms (5x10x8 cc) to determine an appropriate source-detector configuration for the probe head. These design features are implemented in the development of the probe, which consisted of six simultaneous illuminating and 165 simultaneous collecting fibers, spaced 0.5 cm apart on a 5x10 sq-cm probe head. Simulation studies on 3-D slab and curved phantoms demonstrate an increase in the total area of predicted fluorescence amplitude and overall signal strength on using simultaneous multiple point sources over a single point source. The probe is designed and developed such that on coupling with a detection system in the future, the hand-held probe based imager can be clinically assessed toward cancer diagnostic imaging.

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Jiajia Ge

Planning 4-Dimensional Computed Tomography (4DCT) Cannot Adequately Represent Daily Intrafractional Motion of Abdominal Tumors

Three-dimensional fluorescence-enhanced optical tomography using a hand-held probe based imaging system

Controllable atomic defect engineering in layered Ni_xFe_1−x(OH)₂ nanosheets for electrochemical overall water splitting

Accuracy and Consistency of Respiratory Gating in Abdominal Cancer Patients

Design and development of a hand-held optical probe toward fluorescence diagnostic imaging

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Jiajia Ge

Planning 4-Dimensional Computed Tomography (4DCT) Cannot Adequately Represent Daily Intrafractional Motion of Abdominal Tumors

Three-dimensional fluorescence-enhanced optical tomography using a hand-held probe based imaging system

Controllable atomic defect engineering in layered NixFe1−x(OH)2 nanosheets for electrochemical overall water splitting

Accuracy and Consistency of Respiratory Gating in Abdominal Cancer Patients

Design and development of a hand-held optical probe toward fluorescence diagnostic imaging

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Product

Resources

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Controllable atomic defect engineering in layered Ni_xFe_1−x(OH)₂ nanosheets for electrochemical overall water splitting