• The Korean Journal of Pain
• /
• 제32권4호
• /
• pp.271-279
• /
• 2019

Background: We utilized diffusion tensor imaging (DTI) to evaluate the cerebral white matter changes that are associated with phantom limb pain in patients with unilateral arm amputation. It was anticipated that this would complement previous research in which we had shown that changes in cerebral blood volume were associated with the cerebral pain network. Methods: Ten patients with phantom limb pain due to unilateral arm amputation and sixteen healthy age-matched controls were enrolled. The intensity of phantom limb pain was measured by the visual analogue scale (VAS) and depressive mood was assessed by the Hamilton depression rating scale. Diffusion tensor-derived parameters, including fractional anisotropy, mean diffusivity, axial diffusivity (AD), and radial diffusivity (RD), were computed from the DTI. Results: Compared with controls, the cases had alterations in the cerebral white matter as a consequence of phantom limb pain, manifesting a higher AD of white matter in both hemispheres symmetrically after adjusting for individual depressive moods. In addition, there were associations between the RD of white matter and VAS scores primarily in the hemispheres related to the missing hand and in the corpus callosum. Conclusions: The phantom limb pain after unilateral arm amputation induced plasticity in the white matter. We conclude that loss of white matter integrity, particularly in the hemisphere connected with the missing hand, is significantly correlated with phantom limb pain.

• 대한디지털의료영상학회논문지
• /
• 제16권2호
• /
• pp.15-24
• /
• 2014

Currently commercially available phantom can reproduce and evaluate only a static situation, the study is incomplete research on phantom and system which is can confirmed functional situation in the kidney by time through dynamic phantom and blood flow velocity, various difference according to the amount of radioactive. Therefore, through this study, it has produced the dynamic kidney phantom to reproduce images through the dynamic flow of the kidney, it desires to evaluate the usefulness of nuclear medicine imaging. The production of the kidney phantom was fabricated based on the normal adult kidney, in order to reproduce the dynamic situation based on the fabricated kidney phantom, in this study it was applied the volume pump that can adjust the speed of blood flow, so it can be integrated continuously radioactive isotopes in the kidney by using 99mTc-pertechnate. Used the radioactive isotope was supplied through the two pump. It was confirmed the changes according to the infusion rate, radioactive isotopes and the different injection speeds on the left and right, analysis of the acquired images was done by drawn five times ROI in order to check the reproducibility of each on the front and rear of the kidney and bladder. Depending on the speed of injection, radioisotope was a lot of integrated and emissions up when adjusting the pressure of the pump as 30 stroke, it was the least integrated and emissions up when adjusting as 40 stroke. The integration of the left & right kidney was not reached in the amount of the highest when adjusting as 10 stroke. In the changes according to the amount of the radioactive isotope, 0.6 mCi(22.2 MBq), 0.8 mCi (29.6 MBq)was showed up similar tendency but, in the result of the injection 0.8 mCi, it was showed up counts close to double of 0.6 mCi. In the result of the differently injection speed of the left & right kidney, as a result of different conditions that injection speed was 20 stroke through left kidney phantom, the injection speed was 30 stroke through right kidney phantom, it was enough difference in the resulting image can be easily distinguished with the naked eye. Through this study, the results showed that the dynamic kidney phantom system is able to similarly reproduce renogram in the actual clinical. Especially, the depicted over time for the flow to be excreted through the kidney into the bladder was adequately reproduce, it is expected to be utilized as basic data to check the quality of the dynamic images. In addition, it is considered to help in the field of functional imaging and quality control.

• 마이크로전자및패키징학회지
• /
• 제23권1호
• /
• pp.29-34
• /
• 2016

본 연구에서는 생체 영상 이미징을 위한 다채널 필터 모듈 개발 및 특성 평가 연구를 수행하였다. 필터 모듈은 700 nm 및 800 nm 파장대의 근적외선 형광 이미징을 동시에 구현할 수 있도록 제작되었으며, 모듈의 특성 평가를 위해 magnification, exposure, gain의 변수에 따른 signal to back ground ratio (SBR)을 통한 대조영상 평가를 진행하였다. 또한 생체 영상 분석을 위해 신장 및 간의 광학적 특성이 동일한 생체 모사 조직인 phantom을 제작하여 두께에 따른 필터 모듈의 특성 및 광원의 주입량에 따른 특성 연구를 진행하였다. 제작된 필터 모듈은 magnification, exposure, gain의 변화에도 4이상의 SBR 차이를 보이며, kidney phantom 및 liver phantom의 경우 각각 50 mA, 60 mA의 광원 주입량에서 4이상의 SBR 대조 영상을 확인하였다.

• 전기학회논문지
• /
• 제61권6호
• /
• pp.879-884
• /
• 2012

Photoacoustic Tomography (PAT) is a promising medical imaging modality by reason of its particularity. It combines optical imaging contrast of optical imaging with the spatial resolution of ultrasound imaging and can demonstrate change of biological feature in an image. For that reason, many studies are in progress to apply this technic for diagnosis. But, real-time PAT system is necessary to confirm a biological reaction induced by external stimulation immediately. Thus, we developed a real-time PAT system using linear array transducer and self-developed Data acquisition board (DAQ) resources, To evaluate the feasibility and performance of our proposed system, two type of phantom test were also performed. As a result of those experiments, the proposed system shows enough performance and confirm its usefulness.

• 대한방사선기술학회지:방사선기술과학
• /
• 제45권1호
• /
• pp.11-17
• /
• 2022

This study was purpose to quantitative assessment of the resolution characteristics by using American college of radiology(ACR) phantom for magnetic resonance imaging (MRI). The MRI equipment was used (Achiva 3.0T MRI, Philips system, Netherlands) and the head/neck matrix shim SENSE head coil were 32 channels(elements) receive MR coil. And the MRI equipment was used (Discovery MR 750, 3.0T MRI, GE medical system, America) and the head/neck matrix shim MC 3003G-32R 32-CH head coil were receive MR coil. As for the modulation transfer function(MTF) comparison result by using ACR magnetic resonance imaging phantom, the MTF value of the ACR standard T2 image in GE equipment is 0.199 when the frequency is 1.0 mm^-1 and the MTF value of the hospital T2 image in Philips equipment is 0.528. It was used efficiently by using a general sequence more than the standard sequence method using the ACR phantom. In addition it is significant that the quantitative quality assurance evaluation method for resolution characteristics was applied mutatis mutandis, and the result values of the physical image characteristics of the 3.0T MRI device were presented.

• 대한방사선기술학회지:방사선기술과학
• /
• 제47권1호
• /
• pp.21-28
• /
• 2024

This study was purpose to quantitative evaluation of comparison of the image intensity uniformity and noise power spectrum (NPS) by using American college of radiology (ACR) phantom for magnetic resonance imaging (MRI). The MRI was used achiva 3.0T MRI and discovery MR 750, 3.0T, the head and neck matrix shim SENSE head coil were 32 channels receive MR coil. The MRI was used parameters of image sequence for ACR standard and general hospital. NPS value of the ACR standard T2 vertical image in GE equipment was 7.65E-06 when the frequency was 1.0 mm^-1. And the NPS value of the ACR hospital T1 region of interest (ROI) 9 over all vertical image in Philips equipment was 9E-08 when the frequency was 1.0 mm^-1 and the NPS value of the hospital T2 ROI 9 over all vertical image in Philips equipment was 1.06E-07 when the frequency was 1.0 mm^-1. NPS was used efficiently by using a general hospital vertical sequence more than the standard vertical sequence method by using the ACR phantom. Furthermore NPS was the quantitative quality assurance (QA) assessment method for noise and image intensity uniformity characteristics was applied mutatis mutandis, and the results values of the physical imaging NPS of the 3.0T MRI and ACR phantom were presented.

• Nuclear Engineering and Technology
• /
• 제53권6호
• /
• pp.1947-1954
• /
• 2021

In the nuclear medicine imaging, quality control (QC) process using quadrant bar phantom is fundamental aspect of evaluating the spatial resolution. In addition, QC process of gamma camera is performed by daily or weekly. Recently, Monte Carlo simulation using the Geant4 application for tomographic emission (GATE) is widely applied in the pre-clinical nuclear medicine field for modeling gamma cameras with pixelated cadmium telluride (CdTe) semiconductor detector. In this study, we modeled a pixelated CdTe semiconductor detector and quadrant bar phantom (0.5, 1.0, 1.5, and 2.0 mm bar thicknesses) using the GATE tool. Similarity analysis based on correlation coefficients and peak signal-to-noise ratios was performed to compare image qualities for various source to collimator distances (0, 2, 4, 6, and 8 cm) and collimator lengths (0.2, 0.4, 0.6, 0.8, and 1.0 cm). To this end, we selected reference images based on collimator length and source to collimator distance settings. The results demonstrate that as the collimator length increases and the source to collimator distance decreases, the similarity to reference images improves. Therefore, our simulation results represent valuable information for the modeling of CdTe-based semiconductor gamma imaging systems and QC phantoms in the field of nuclear medicine.

• Investigative Magnetic Resonance Imaging
• /
• 제4권1호
• /
• pp.7-13
• /
• 2000

목적: 모형실험을 통하여 자기공명영상의 공간왜곡의 정도를 영상획득방향과 펄스연쇄별로 알아보고 실험 조건에서 공간왜곡이 가장 적은 영상 획득 방향과 펄스 연쇄를 찾고자 하였다. 실험 상 얻어진 가장 공간적 왜곡이 적은 영상법은 뇌정위 방서선수술의 적용시에도 실험한 조건중 가장 공간적 왜곡이 적은 영상법으로 인체적용에 도움이 될 것으로 가정하였다. 대상 및 방법: 아클리로 만든 직육면체에 일정한 간격 (2cm)의 아크릴 원형 막대 지름 4mm)를 배치하여 자기공명영상을 위한 모형을 제작하였다. 모형의 내부를 증류수로 채운 후 Leksell 상업용 감마나이프 G-프레임을 씌우고 모형을 자기공명 영상의 중심에 놓고 축상과 관상면의 T1 SE, T2 SE, T2 FSE, MPRAGE영상을 얻은 뒤 영상분석 프로그램(Lleksell Gamma Plan, Version = 5.10)을 이용하여 공간적 왜곡의 거의 없을 것이라고 가정한 CT 영상에서 측정된 막대간의 거리의 차이를 구하고 이것이 각 영상획득 방법과 펄스 연쇄별로 차이가 나는지 또 영상의 가장자리와 중심부에서 차이가 나는지 paired student t-test를 통하여 분석하였다. MR의 각 단면 영상을 영상분석 프로그램에 인식시키는 과정에서도 프로그램에 내장되어 있는 외부 표식자의 좌표의 위치를 통해서 외부표식자의 좌표의 위치를 통해서 외부표식자를 기준으로한 영상의 공간적 왜곡의 정도가 자동으로 측정된다. 결과: 자기공명영상의 공간적 왜곡은 횡단면 영상에서는 감마나이트의 G-프레임의 외부표식자에 의하여 측정된 결과와 모형실험을 통하여 얻어진 결과에서 모두 뇌정위방서선수술에 이용하기에 허용할 만한 1.5mm 이하의 적은 수준의 왜곡 값을 지니고 있었다. 관상면의 자기공명영상은 외부표식자에 의해 왜곡을 측정했을 때, 감마나이프에 적용하기에는 1.5mm 이상의 공간 왜곡값을 보였으나 왜부표식자에 의한 좌표를 통해 구해진 모형실험의 결과에서는 1.5mm 이하로 공간적 왜곡이 오히려 보정되는 결과를 보였다. 결론: 이 실험을 통하여 임상적으로 주로 사용되는 펄스연쇄와 영상획득방향에서 축상 3D MPRAGE기법이 가장 공간적 왜곡이 적은 영상법 임을 알 수 있었다. 현재 사용되는 MR기기의 공간왜곡의 정도는 모형실험의 결과, 1.5mm 이하 수준으로 매우 적어서 다른 영상법에 비해 매우 우수한 MR의 공간 해상력을 고려하면, 실제 인체에 적용하여 뇌정위 방사선수술시 사용항기에도 타영상기법에 비해 손색없는 영상법이 될 것으로 판단된다.

• 비파괴검사학회지
• /
• 제29권4호
• /
• pp.368-373
• /
• 2009

초음파 의료용 탄성 영상 시스템의 성능을 평가하기 위한 인체 조직 모사 팬텀을 제작하였다. 인체에서 종양이나 암 조직은 주위의 정상조직보다 단단한 특성을 가진다. 이러한 조직의 단단함을 영상화하는 기법이 탄성 영상 기법이다. 인체의 병변 조직의 기계적인 특성을 모사하기 위하여 플라스틱 경화제와 연화제를 이용하여 탄성도가 다른 균일 탄성 팬텀을 제작하였다. 제작된 균일 탄성 팬텀은 시료의 비율에 따라 $11.1{\sim}79.6$ kPa 범위의 탄성계수 값을 얻었다. 이를 바탕으로 외부 매질과 내부 매질의 탄성계수 차이가 5배와 7배 정도인 초음파 병변 모사 팬텀을 제작하여 탄성 영상을 획득하였다. 본 논문에서는 제작된 플라스틱 기반의 탄성 팬텀이 인체의 탄성 특성을 모사하는 탄성 팬텀으로서 유용함을 확인하였다.

• Imaging Science in Dentistry
• /
• 제48권2호
• /
• pp.111-119
• /
• 2018

Purpose: This study was conducted to evaluate the accuracy of linear measurements of 3-dimensional (3D) images generated by cone-beam computed tomography (CBCT) and facial scanning systems, and to assess the effect of scanning parameters, such as CBCT exposure settings, on image quality. Materials and Methods: CBCT and facial scanning images of an anthropomorphic phantom showing 13 soft-tissue anatomical landmarks were used in the study. The distances between the anatomical landmarks on the phantom were measured to obtain a reference for evaluating the accuracy of the 3D facial soft-tissue images. The distances between the 3D image landmarks were measured using a 3D distance measurement tool. The effect of scanning parameters on CBCT image quality was evaluated by visually comparing images acquired under different exposure conditions, but at a constant threshold. Results: Comparison of the repeated direct phantom and image-based measurements revealed good reproducibility. There were no significant differences between the direct phantom and image-based measurements of the CBCT surface volume-rendered images. Five of the 15 measurements of the 3D facial scans were found to be significantly different from their corresponding direct phantom measurements(P<.05). The quality of the CBCT surface volume-rendered images acquired at a constant threshold varied across different exposure conditions. Conclusion: These results proved that existing 3D imaging techniques were satisfactorily accurate for clinical applications, and that optimizing the variables that affected image quality, such as the exposure parameters, was critical for image acquisition.