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<P>We evaluated the performance of the lately developed electrical impedance tomography (EIT) system KHU Mark1 through time-difference imaging experiments of canine and human lungs. We derived a multi-frequency time-difference EIT (mftdEIT) imag...
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RISS 인기검색어
국가R&D연구논문
Multi-frequency time-difference complex conductivity imaging of canine and human lungs using the KHU Mark1 EIT system
한글로보기https://www.riss.kr/link?id=A107628879
- 저자
- 발행기관
- 학술지명
- 권호사항
-
발행연도
2009
-
작성언어
-
-
등재정보
SCI,SCIE,SCOPUS
-
자료형태
학술저널
-
수록면
149-164(16쪽)
- 제공처
- 소장기관
-
0
상세조회 -
0
다운로드
부가정보
다국어 초록 (Multilingual Abstract)
<P>We evaluated the performance of the lately developed electrical impedance tomography (EIT) system KHU Mark1 through time-difference imaging experiments of canine and human lungs. We derived a multi-frequency time-difference EIT (mftdEIT) image reconstruction algorithm based on the concept of the equivalent homogeneous complex conductivity. Imaging experiments were carried out at three different frequencies of 10, 50 and 100 kHz with three different postures of right lateral, sitting (or prone) and left lateral positions. For three normal canine subjects, we controlled the ventilation using a ventilator at three tidal volumes of 100, 150 and 200 ml. Three human subjects were asked to breath spontaneously at a normal tidal volume. Real- and imaginary-part images of the canine and human lungs were reconstructed at three frequencies and three postures. Images showed different stages of breathing cycles and we could interpret them based on the understanding of the proposed mftdEIT image reconstruction algorithm. Time series of images were further analyzed by using the functional EIT (fEIT) method. Images of human subjects showed the gravity effect on air distribution in two lungs. In the canine subjects, the morphological change seems to dominate the gravity effect. We could also observe that two different types of ventilation should have affected the results. The KHU Mark1 EIT system is expected to provide reliable mftdEIT images of the human lungs. In terms of the image reconstruction algorithm, it would be worthwhile including the effects of three-dimensional current flows inside the human thorax. We suggest clinical trials of the KHU Mark1 for pulmonary applications.</P>
<P>We evaluated the performance of the lately developed electrical impedance tomography (EIT) system KHU Mark1 through time-difference imaging experiments of canine and human lungs. We derived a multi-frequency time-difference EIT (mftdEIT) image reconstruction algorithm based on the concept of the equivalent homogeneous complex conductivity. Imaging experiments were carried out at three different frequencies of 10, 50 and 100 kHz with three different postures of right lateral, sitting (or prone) and left lateral positions. For three normal canine subjects, we controlled the ventilation using a ventilator at three tidal volumes of 100, 150 and 200 ml. Three human subjects were asked to breath spontaneously at a normal tidal volume. Real- and imaginary-part images of the canine and human lungs were reconstructed at three frequencies and three postures. Images showed different stages of breathing cycles and we could interpret them based on the understanding of the proposed mftdEIT image reconstruction algorithm. Time series of images were further analyzed by using the functional EIT (fEIT) method. Images of human subjects showed the gravity effect on air distribution in two lungs. In the canine subjects, the morphological change seems to dominate the gravity effect. We could also observe that two different types of ventilation should have affected the results. The KHU Mark1 EIT system is expected to provide reliable mftdEIT images of the human lungs. In terms of the image reconstruction algorithm, it would be worthwhile including the effects of three-dimensional current flows inside the human thorax. We suggest clinical trials of the KHU Mark1 for pulmonary applications.</P>
동일학술지(권/호) 다른 논문
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A comparison of two EIT systems suitable for imaging impedance changes in epilepsy
- IOP Pub
- Fabrizi, L
- 2009
- SCI,SCIE,SCOPUS
-
- IOP Pub
- Fabrizi, L
- 2009
- SCI,SCIE,SCOPUS
국가 R&D 연구 과제 정보
계산과학공학 (1345086715) / 2008 / 세계수준의연구중심대학육성(일반) / 서진근 / 연세대학교 / 교육과학기술부 / 1,746,000,000
의료 영상 신기술 전문 인력 양성 사업 (1345097566) / 2009 / 2단계 연구중심대학 육성(0.5) / 조민형 / 경희대학교 / 교육과학기술부 / 183,000,000
임피던스 영상 역문제의 수학적 해석 (1355051136) / 2007 / 우수연구센터육성사업 / 서진근 / 연세대학교 / 과학기술부 / 150,000,000
임피던스 영상 역문제의 수학적 해석 (1345102122) / 2009 / 선도연구센터 지원 / 서진근 / 연세대학교 / 교육과학기술부 / 135,000,000
저주파 전류 단층촬영 시스템 : EIT 및 MREIT (1345102118) / 2009 / 선도연구센터 지원 / 우응제 / 경희대학교 / 교육과학기술부 / 274,000,000
계산과학공학 (1345086715) / 2008 / 세계수준의연구중심대학육성(일반) / 서진근 / 연세대학교 / 교육과학기술부 / 1,746,000,000
의료 영상 신기술 전문 인력 양성 사업 (1345097566) / 2009 / 2단계 연구중심대학 육성(0.5) / 조민형 / 경희대학교 / 교육과학기술부 / 183,000,000
임피던스 영상 역문제의 수학적 해석 (1355051136) / 2007 / 우수연구센터육성사업 / 서진근 / 연세대학교 / 과학기술부 / 150,000,000
임피던스 영상 역문제의 수학적 해석 (1345102122) / 2009 / 선도연구센터 지원 / 서진근 / 연세대학교 / 교육과학기술부 / 135,000,000
저주파 전류 단층촬영 시스템 : EIT 및 MREIT (1345102118) / 2009 / 선도연구센터 지원 / 우응제 / 경희대학교 / 교육과학기술부 / 274,000,000
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