Jinoh Bak scite author profile

Barrett's esophagus (BE) is associated with an intestinal metaplasia that replaces normal squamous epithelium by columnar epithelium. The aim of the current study was to evaluate the feasible endoscopic treatment on esophageal tissue with circumferential laser irradiation. A 532-nm laser was used to deliver 10 W in a continuous manner through a balloon catheter-integrated diffuser. Ex vivo leporine esophagus was tested to identify thermal responses at various irradiation times. In vivo testing in a porcine model was performed to evaluate the feasibility of endoscopic application with the integrated device for BE treatment. Goniometric measurements confirmed that the proposed device yielded uniform radial irradiation (i.e., 0.9 ± 0.1 in arbitrary unit). Emission profiles were well correlated with temperature distribution along the device. Ex vivo leporine testing demonstrated that the temperature rise increased with irradiation time. The maximum temperature increase was around 38°C after 60-s irradiation (transient increase rate = 0.62°C/s), and the corresponding thermal coagulation reached esophageal submucosa (1.5 ± 0.2 mm). In vivo porcine testing evidently presented circumferential thermal denaturation around the lumen along with mild inflammatory reaction and the degenerated squamous epithelium. The overall thickness of the irreversible thermal coagulation was 3.1 ± 0.2 mm. The proposed photothermal therapy can be a feasible endoscopic method to treat BE with the aid of circumferential irradiation and mechanical expansion. Further chronic in vivo testing will be pursued to understand chronic tissue response in terms of wound healing and complication.

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Temperature-monitored optical treatment for radial tissue expansion

Bak

Kang

2017

Lasers Med Sci

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Esophageal stricture occurs in 7-23% of patients with gastroesophageal reflux disease. However, the current treatments including stent therapy, balloon dilation, and bougienage involve limitations such as stent migration, formation of the new strictures, and snowplow effect. The purpose of the current study was to investigate the feasibility of structural expansion in tubular tissue ex vivo during temperature-monitored photothermal treatment with a diffusing applicator for esophageal stricture. Porcine liver was used as an ex vivo tissue sample for the current study. A glass tube was used to maintain a constant distance between the diffuser and tissue surface and to evaluate any variations in the luminal area after 10-W 1470-nm laser irradiation for potential stricture treatment. The 3D goniometer measurements confirmed roughly isotropic distribution with less than 10% deviation from the average angular intensity over 2π (i.e., 0.86 ± 0.09 in arbitrary unit) from the diffusing applicator. The 30-s irradiation increased the tissue temperature up to 72.5 °C, but due to temperature feedback, the interstitial tissue temperature became saturated at 70 °C (i.e., steady-state error = ±0.4 °C). The irradiation times longer than 5 s presented area expansion index of 1.00 ± 0.04, signifying that irreversible tissue denaturation permanently deformed the lumen in a circular shape and secured the equivalent luminal area to that of the glass tube. Application of a temperature feedback controller for photothermal treatment with the diffusing applicator can regulate the degree of thermal denaturation to feasibly treat esophageal stricture in a tubular tissue.

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Dependence of Photothermal Responses on Wavelengths

Bak

Pyo

Choi³

et al. 2019

J. Korean Phys. Soc.

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Feasibility Study of Cylindrically Diffusing 532 nm Wavelength for Treatment of Pancreatic Cancer

Park

Jeong

Lee

et al. 2018

J. Korean Phys. Soc.

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Jinoh Bak

Integration of optical applicator with balloon catheter for photothermal treatment of biliary stricture

Feasibility study of endoscopic thermal coagulation with circumferential laser irradiation for treating esophageal tissue

Temperature-monitored optical treatment for radial tissue expansion

Dependence of Photothermal Responses on Wavelengths

Feasibility Study of Cylindrically Diffusing 532 nm Wavelength for Treatment of Pancreatic Cancer

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