Jin Hoon Cho scite author profile

Jin Hoon Cho

5Publications

94Citation Statements Received

54Citation Statements Given

How they've been cited

114

How they cite others

Affiliations

University of Illinois Urbana-Champaign, Pusan National University, Ajou University

Publications

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An experimental burn wound-healing study of non-thermal atmospheric pressure microplasma jet arrays

Lee

Khang

et al. 2015

J Tissue Eng Regen Med

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In contrast with a thermal plasma surgical instrument based on coagulative and ablative properties, low-temperature (non-thermal) non-equilibrium plasmas are known for novel medicinal effects on exposed tissue while minimizing undesirable tissue damage. In this study we demonstrated that arrays of non-thermal microplasma jet devices fabricated from a transparent polymer can efficiently inactivate fungi (Candida albicans) as well as bacteria (Escherichia coli), both in vitro and in vivo, and that this leads to a significant wound-healing effect. Microplasma jet arrays offer several advantages over conventional single-jet devices, including superior packing density, inherent scalability for larger treatment areas, unprecedented material flexibility in a plasma jet device, and the selective generation of medically relevant reactive species at higher plasma densities. The therapeutic effects of our multi-jet device were verified on second-degree burns in animal rat models. Reduction of the wound area and the histology of the wound after treatment have been investigated, and expression of interleukin (IL)-1α, -6 and -10 was verified to evaluate the healing effects. The consistent effectiveness of non-thermal plasma treatment has been observed especially in decreasing wound size and promoting re-epithelialization through collagen arrangement and the regulation of expression of inflammatory genes.

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Wound healing with nonthermal microplasma jets generated in arrays of hourglass microcavity devices

Park

Lee

Kim

et al. 2014

J. Phys. D: Appl. Phys.

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Microdischarge in Porous Ceramics with Atmospheric Pressure High Temperature H₂O/SO₂ Gas Mixture and its Application for Hydrogen Production

Koo

Choi

Kim

et al. 2008

jjap

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Microdischarges in atmospheric pressure H2O/SO2 gas mixture at high temperature are studied to evaluate their plasma-chemical reactivity to produce hydrogen gas. The microplasma is generated inside a porous ceramic (MIPC) covered with two steel meshes as the gas mixture at atmospheric pressure flows through the medium. Voltage–current characteristics and optical emissions are measured to determine the electrical properties of the DC discharge and the degree of non-equilibrium. The discharge current at a given voltage substantially increases as the gas temperature is increased, thus posing a possibility to reduce the electrical power needed to sustain the discharge. The study also showed the possibility of facilitating the reaction between H2O and SO2 not by electrocatalyst like platinum but by non-thermal electrons.

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Application of Noninvasive Positive Pressure Ventilation in Patients with Respiratory Failure

et al. 2006

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Background: Noninvasive positive pressure ventilation(NPPV) has been increasingly used over the past decade in the management of acute or chronic respiratory failure and weaning of mechanical ventilation. We performed this clinical study to evaluate the usefulness of NPPV in patients who developed acute respiratory failure or post-extubation respiratory failure. Methods: We analysed thirty four patients(sixteen males and eighteen females, mean ages 58 years) who applied NPPV(BIPAP S/T, Respironics co., USA) for respiratory failure or weaning difficulty at medical intensive care unit(MICU), emergency room and general ward of a tertiary hospital. We evaluated the underlying causes of respiratory failure, duration of treatment, the degree of adaptation, complication and predictive parameters of successful outcome. Results:The overall success rate of NPPV was seventy-one percent. The duration of NPPV applying time, baseline blood pressure, pulse rate, respiration rate, PaO2, PaCO2, SaO2 were not different between success group and failure group. But, the baseline pH was higher in the success group. Predictors of success were higher baseline pH, patients with underlying disease of COPD, improvement of vital sign and arterial blood gas value after NPPV application. The success rate in patients with post-extubation respiratory failure was eighty percent. There were no serious complication on applying NPPV except minor complications such as facial skin erythema, abdominal distension & dry mouth. Conclusion: NPPV may be effective treatment in patients with acute respiratory failure or post-extubation respiratory failure in selected cases. (Tuberc Respir Dis 2006; 61: 26-33)

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Two Cases of Benign Solitary Schwannoma with Pleural Effusion

et al. 2007

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Schwannoma represents approximately 40% of neurogenic tumors arising in the mediastinum, and develops along the sympathetic or parasympathetic chain, intercostals nerve, and spinal ganglia. It is usually asymptomatic, and is confronted accidentally but can produce chest pain, cough and dyspnea. However, dyspnea with pleural effusion is rare in patients with benign schwannoma. We encountered two cases of benign schwannoma with pleural effusion. Both cases had similar initial symptoms and the characteristics of a mass but the characteristics of pleural effusion analysis were different. The benign schwannoma was confirmed in two cases using VATS (video-assisted tharawswpic surgery). (Tuberc Respir Dis 2007; 63: 78-82)

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Jin Hoon Cho

An experimental burn wound-healing study of non-thermal atmospheric pressure microplasma jet arrays

Wound healing with nonthermal microplasma jets generated in arrays of hourglass microcavity devices

Microdischarge in Porous Ceramics with Atmospheric Pressure High Temperature H₂O/SO₂ Gas Mixture and its Application for Hydrogen Production

Application of Noninvasive Positive Pressure Ventilation in Patients with Respiratory Failure

Two Cases of Benign Solitary Schwannoma with Pleural Effusion

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About

Jin Hoon Cho

An experimental burn wound-healing study of non-thermal atmospheric pressure microplasma jet arrays

Wound healing with nonthermal microplasma jets generated in arrays of hourglass microcavity devices

Microdischarge in Porous Ceramics with Atmospheric Pressure High Temperature H2O/SO2 Gas Mixture and its Application for Hydrogen Production

Application of Noninvasive Positive Pressure Ventilation in Patients with Respiratory Failure

Two Cases of Benign Solitary Schwannoma with Pleural Effusion

Contact Info

Product

Resources

About

Microdischarge in Porous Ceramics with Atmospheric Pressure High Temperature H₂O/SO₂ Gas Mixture and its Application for Hydrogen Production