Hoiwoun Jeong scite author profile

Hoiwoun Jeong

5Publications

17Citation Statements Received

0Citation Statements Given

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Baekseok Culture University

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Monitoring clinical exposure index and deviation index for dose optimization based on national diagnostic reference level: Focusing on general radiography of extremities

Park

Yoon

Kim

et al. 2022

XST

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BACKGROUND: The International Electrotechnical Commission established the concept of the exposure index (EI), target exposure index (EIT) and deviation index (DI). Some studies have conducted to utilize the EI as a patient dose monitoring tool in the digital radiography (DR) system. OBJECTIVE: To establish the appropriate clinical EIT, this study aims to introduce the diagnostic reference level (DRL) for general radiography and confirm the usefulness of clinical EI and DI. METHODS: The relationship between entrance surface dose (ESD) and clinical EI is obtained by exposure under the national radiography conditions of Korea for 7 extremity examinations. The EI value when the ESD is the DRL is set as the clinical EIT, and the change of DI is then checked. RESULTS: The clinical EI has proportional relationship with ESD and is affected by the beam quality. When the clinical EIT is not adjusted according to the revision of DRLs, there is a difference of up to 2.03 in the DI value and may cause an evaluation error of up to 1.6 time for patient dose. CONCLUSIONS: If the clinical EIT is periodically managed according to the environment of medical institution, the appropriate patient dose and image exposure can be managed based on the clinical EI, EIT, and DI.

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Use of Clinical Exposure Index and Deviation Index Based on National Diagnostic Reference Level as Dose-Optimization Tools for General Radiography in Korea

Park

Yoon

Kim

et al. 2020

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The International Electrotechnical Commission introduced the concepts of exposure index (EI), target exposure index (EIT) and deviation index (DI) to manage and optimize patient dose in real time. In this study, we have proposed an appropriate method for setting the EIT based on the Korean national diagnostic reference levels (DRLs). Furthermore, we evaluated the use of clinical EI, EIT and DI as tools for patient dose optimization in clinical environments by observing the changes in DI with those in EIT. According to the Korean national exposure conditions, we conducted experiments on three representative radiographic examinations (chest posterior–anterior, lateral and abdomen anterior–posterior) of clinical environments. As the exposure conditions and DRLs varied, the clinical EI, EIT and DI also varied. These results reveal that the clinical EI, EIT and DI can be used as tools for optimizing the patient dose if EIT is periodically and properly updated.

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Monte Carlo simulation-based feasibility study of a dose-area product meter built into a collimator for diagnostic X-ray

Yoon

Kim

Park

et al. 2013

Radiation Protection Dosimetry

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According to the International Electro-technical Commission, manufacturers of X-ray equipment should indicate the number of radiation doses to which a patient can be exposed. Dose-area product (DAP) meters are readily available devices that provide dose indices. Collimators are the most commonly employed radiation beam restrictors in X-ray equipment. DAP meters are attached to the lower surface of a collimator. A DAP meter consists of a chamber and electronics. This separation makes it difficult for operators to maintain the accuracy of a DAP meter. Developing a comprehensive system that has a DAP meter in place of a mirror in the collimator would be effective for measuring, recording the dose and maintaining the quality of the DAP meter. This study was conducted through experimental measurements and a simulation. A DAP meter built into a collimator was found to be feasible when its reading was multiplied by a correction factor.

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Evaluation and Comparison of Signal to Noise Ratio According to Histogram Equalization of Heart Shadow on Chest Image

Kim¹,

Lee²,

Jeong³

et al. 2017

J. Radiol. Sci. Technol.

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Evaluation of quantitative on T-spine exhalation technique and T-spine breathing technique of natural breathing

Son¹,

Choi²,

Min³

et al. 2013

Journal of the Korea Academia-Industrial cooperation Society

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요 약 흉추 측면검사에서 기존의 T-spine exhalation technique (TET)과 환자의 자연스런 호흡 상태에서 촬영하는 T-spine breathing technique (TBT)의Abstract Measurements of CNR(Contrast to Noise Ratio) and SNR(Signal to Noise Ratio) of T-spine breathing technique (TBT) using spontaneous breathing and T-spine exhalation technique (TET) with full exhalation were carried out, and with which the more appropriate method was suggested. Both TBT and TET were examined in a sample of fifty-three patients who visit to our hospital for spinal disease from June 2012 to November 2012. All images were evaluated with CNR measured from the differences between the mean pixels and contrast density as setting ROI of spinous process, pedicle, vertebral body, intervertebral foramen, and intervertebral disk using Image J. SNR was measured with the mean pixels and the standard deviation as setting ROI of vertebral body using Image J. In CNR comparison and SNR comparison of TET and TBT, TBT was indicated as excellent in ROI of pedicle, vertebral body, intervertebral foramen and intervertebral disk, and statistical analysis were significant(p<.01). As TBT indicated excellent images compared to the existing T-spine lateral radiography, T-spine lateral radiography would be reestablished and significant as applying to various medical institutions.

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Hoiwoun Jeong

Monitoring clinical exposure index and deviation index for dose optimization based on national diagnostic reference level: Focusing on general radiography of extremities

Use of Clinical Exposure Index and Deviation Index Based on National Diagnostic Reference Level as Dose-Optimization Tools for General Radiography in Korea

Monte Carlo simulation-based feasibility study of a dose-area product meter built into a collimator for diagnostic X-ray

Evaluation and Comparison of Signal to Noise Ratio According to Histogram Equalization of Heart Shadow on Chest Image

Evaluation of quantitative on T-spine exhalation technique and T-spine breathing technique of natural breathing

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