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Comparative Introduction of IR, Biophoton, and GDV on the Application of Korean Medicine Based on Their Recent Progress  

Yi, Seung-Ho (Acupuncture and Meridian Science Research Center(AMSRC), Kyung Hee University)
Lee, Hye-Jung (Acupuncture and Meridian Science Research Center(AMSRC), Kyung Hee University)
Publication Information
Korean Journal of Acupuncture / v.27, no.2, 2010 , pp. 159-181 More about this Journal
Abstract
Objectives : The purpose of this study is to introduce and examine the possibilities of infrared (IR) imaging, biophoton detection and gas discharge visualization(GDV) as diagnostic tools in Korean Medicine. Methods : To review the basic mechanism and measurement methods of three modalities, concepts in physics were introduced. Physical backgrounds of IR, biophoton and GDV were briefly explained based on recent research papers. Simple electronics was employed for relevant detectors. In order to find the relation between Korean Medicine and these methods, papers on their applications were reviewed. Opinions from the experts on each modality were obtained from their papers and private communications. Results and Conclusions : IR imaging has been used as an auxiliary diagnostic tool but there are some rooms for the improvement for clinical applications. Experimental confirmation of the meridian activation by a moxa cigar is necessary for its verification. Biophoton is not correlated with human skin temperature but it has a circadian rhythm. Biophoton and GDV have a negligible relation if any. Therefore there are no correlations among three modalities in terms of basic mechanisms. But their clinical relations are yet to be scrutinized. Biophoton and GDV need more rigorous clinical tests before they can be used as diagnostic tools.
Keywords
IR; biophoton; GDV; comparative introduction; Korean Medicine;
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1 Hossu M, Rupert R. Quantum events of biophoton emission associated with complementary and alternative medicine therapies: a descriptive pilot study. J Altern Complement Med. 2006 ; 12(2) : 119-24.   DOI   ScienceOn
2 Korotkov KG, Matravers P, Orlov DV, Williams BO. Application of electrophoton capture (EPC) analysis based on gas discharge visualization (GDV) technique in medicine: a systematic review. J Altern Complement Med. 2010 ; 16(1) : 13-25.   DOI   ScienceOn
3 Lee ES, Foust CM. Sparking process studied with Lichtenberg figures. General Electric Review. 1927 ; 30(3) : 135.
4 Korotkov Constantin, Aura and Consciousness: New Stage of Scientific Understanding, Saint-Petersburg, 2nd revised edition, St. Petersburg division of Russian Minstry of Culture, State Editing & Publishing Unit " Kultura". 1998.
5 Creath K, Schwartz GE. Biophoton images of plants: revealing the light within. J Altern Complement Med. 2004 ; 10(1) : 23-6.   DOI   ScienceOn
6 Takeda M, Kobayashi M, Takayama M, Suzuki S, Ishida T, Ohnuki K, Moriya T, Ohuchi N. Biophoton detection as a novel technique for cancer imaging. Cancer Sci. 2004 ; 95(8) : 656-61.   DOI   ScienceOn
7 Wijk RV, Wijk EP. An introduction to human biophoton emission. Forsch Komplementarmed Klass Naturheilkd. 2005 ; 12(2) : 77-83.   DOI   ScienceOn
8 Private communication with Van Wijk. Seoul Korea : SAMS 2009.
9 Inaba H, Shimizu Y, Tsuji Y, Yamagishi A. Photon counting spectral analyzing system of extraweak chemi- and bioluminescence for biochemical applications. Photochem. Photobiol. 1979 ; 30 : 169-75.   DOI
10 Bagchi D, Hassoun EA, Bagchi M, Stohs SJ. Chromium-induced excretion of urinary lipid metabolites, DNA damage, nitric oxide production, and generation of reactive oxygen species in Sprague- Dawley rats. Comparative Biochemistry and Physiology. 1995 ; 110C(2) : 177-87.
11 Popp FA. Properties of biophotons and their theoretical implications. Indian J Exp Biol. 2003 ; 41(5) : 391-402.
12 Devaraj B, Usa M, Inaba H. Biophoton: ultraweak light emission from living systems. Current Opinion in Solid State and materials Science. 1997 ; 2 : 188-93.   DOI   ScienceOn
13 Popp, FA, Ruth B, Bahr W, Bohm J, Grass, P, Grolig G, Rattemeyer M, Schmidt HG, Wulle P. Emission of visible and ultraviolet radiation by active biological systems. Collective Phenomena. 1981 ; 3 : 187-214.
14 Popp, FA, Chang JJ, Herzog A, Yan Z, Yan Y. Evidence of non-classical (squeezed) light in biological systems. Physics Letters A. 2002 ; 293 : 98-102.   DOI   ScienceOn
15 Inaba, H. Ultraweak biophoton imaging and information characterization. In: T. Sueta and T. Okoshi(eds.) Ultrafast and Ultra-parallel Optoelectronics. Tokyo, Japan : John Wiley and Sons. 1995.
16 Gore, J, Xu L.Thermal Imaging for Biological and Medical Diagnostics. In: Tuan VD (ed )Biomedical Photonics Handbook. Bellingham, USA : CRC Press. 2005.
17 Kochevar I, Pathak MA, Parrish JA. Photophysics, photochemistry, and photobiology. New York: McGraw-Hill. 1999.
18 권기록, 고형균. 적외선 체열 측정 형상의 한방 임상 응용을 위한 표준화 연구. 대한침구학회지. 1996 ; 13(2) : 1-22.
19 김종문. 적외선 체열촬영의 실제적 임상 활용. 대한한의진단학회지. 2000 ; 4(1) ; 32-42.
20 Popp FA. Biophotons. Background, experimental results, theoretical approach and applications. Res. Adv. Photochem. & Photobiol. 2000 ; 1 : 31-41.
21 Cameron J, Skofronick J. Medical Physics. New York, USA : John Wiley & Sons. 1978.
22 McLean, R. Thermography: technology brief. Montreal: Conseil d'Evaluation des Technologies de la Sante. 1999.
23 박영재, 박영배. Thermography의 연구현황과 전망. 대한한의진단학회. 1999 ; 3(2) : 18-26.
24 Popp FA. Biophotons. Background, experimental results, theoretical approach and applications. Res. Adv. Photochem. & Photobiol. 2000 ; 1 : 31-41.
25 Bundzen PV, Korotkov KG, Unestahl LE. Altered states of consciousness: review of experimental data obtained with a multiple techniques approach. J Altern Complement Med. 2002 ; 8(2) : 153-65.   DOI   ScienceOn
26 Bell IR, Lewis DA 2nd, Brooks AJ, Lewis SE, Schwartz GE.Gas discharge visualization evaluation of ultramolecular doses of homeopathic medicines under blinded, controlled conditions. J Altern Complement Med. 2003 ; 9(1) : 25-38.   DOI   ScienceOn
27 Kimio Otsuka and Tatsuo Togawa. Hipocratic Thermography. Physiol. Meas. 1997 ; 18(3) : 227-232.   DOI   ScienceOn
28 LAWSON R. Implications of surface temperatures in the diagnosis of breast cancer. Can Med Assoc J. 1956 ; 75(4) : 309-11.
29 Korotkov K. 킬리안 효과를 이용한 새로운 도구 GDV 출현. 서울 : 제5회 취산국제신과학심포지엄 2001.
30 송미장, 김현. NCCAM 분류기준에 따른 수기 및 신체기반 영역 요법 (주열요법과 발반사요법의 GDV를 이용한 효과 검토. 서울 : 한국정신과학학회 제31회 추계학술대회. 2009.
31 홍원식 편집. 황제내경소문. 서울 : 동양의학연구원 출판부. 1981.
32 Fowles, Grant. Introduction to Modern Optics 2nd ed. NY, USA : Dover Publications. 1989.
33 Keaveny TM. Biomechanical computed tomography-noninvasive bone strength analysis using clinical computed tomography scans. Ann N Y Acad Sci. 2010 ; 1192(1) : 57-65.   DOI   ScienceOn
34 김이화, 박동석, 안병철. 적외선 체열 촬영법의 기전과 (機轉) 진단적 가치에 대한 문헌적 고찰. 대한침학회지. 1995 ; 12(1) : 188-203.
35 Gurwitsch AA. A historical review of the problem ofmitogenetic radiation. Experientia. 1988 ; 44 : 545-50.   DOI   ScienceOn
36 Cifra M, Van Wijk EP. Koch H, Bosman S, Van Wijk R. Spontaneous Ultra-Weak Photon Emission from Human Hands Is Time Dependent. Radioengineering. 2007 ; 16(2) : 15-9.
37 Kobayashi M, Kikuchi D, Okamura H. Imaging of ultraweak spontaneous photon emission from human body displaying diurnal rhythm. PLoS One. 2009 Jul 16 ; 4(7) : e6256.   DOI   ScienceOn
38 Tafur J, Van Wijk EP, Van Wijk R, Mills PJ. Biophoton detection and low-intensity light therapy: a potential clinical partnership. Photomed Laser Surg. 2010 ; 28(1) : 23-30.   DOI   ScienceOn
39 Mandel P. Energy Emission Analysis; New Application of Kirlian Photography for Holistic Medicine. W. Germany : Synthesis Publishing Co.. 1986.
40 Seung-Ho Yi. Daily variation of human biophoton Proc. of Measuring Energy Fields. Kamnik, Slovenia. 2007 ; Oct : 13-4.
41 Yang JM, Jung HH, Woo WM, Yi SH, Yang JS, Soh KS, et al. Correlation of biophoton emission between left and right hands, and palm and back of hands. Hankook Kwanghak Hoeji, Optical Society of Korea. 2004 ; 15(4) : 355-60.   과학기술학회마을   DOI   ScienceOn
42 Jung HH, Woo WM, Yang JM, Choi C, Lee J, Yoon G, et al. Left-right asymmetry of biophoton emission from hemiparesis patients. Indian Journal of Experimental Biology. 2003 ; 41 : 452-6.
43 Lee C, Yang JM, Yi SH, Cho HJ, Kang MJ, Yang JS, et al. Biophoton emission from patients with a cold, J. International Society of Life Information Science. 2004 ; 22(2) : 362-5.
44 이승호, 김진수, 박히준, 양준모, 소광섭, 임사비나. 인체에서 방사되는 생물광자 (生物光子)에 대한 소고. 대한한의학회지. 2006 ; 27(1) : 57-77.   과학기술학회마을
45 Litscher G.. "Meridian-like channels" in dead human subjects?: A negative result. The Internet Journal of Alternative Medicine. 2007 : 4(1).
46 Kim TJ, Nam KW, Shin HS ,Lee SM, Yang JS, Soh KS. Biophoton Emission from Fingernails and Fingerprints of Living Human Subjects. Acupuncture and Electrotherapeutics Research, Cognizant Communication Corp. 2002 ; 27 : 85-94.
47 Jung HH, Yang JM ,Woo WM, Choi CH, Yang JS, Soh KS. Year-long biophoton measurements, J. photochem. photobiol. B: Biology. 2005 ; 78 : 149-54.   DOI   ScienceOn
48 진경선, 임태형. 김종욱, 최성용, 황우준, 도금록 등. 체침과 동씨침을 시행한 요각통 환자 38례의 임상고찰 (적외선체열 촬영으로 치료효과 비교). 대한침구학회지. 2003 ; 20(2) : 204-14.
49 박영철, 채진석, 엄재용, 손성세, 최익선. 적외선 체열 촬영을 이용한 중풍 편마비 환자의 합곡혈 일반 자침시와 심자시 피부온도변화 관찰. 대한침구학회지. 2003 ; 20(4) : 134-44.
50 Schlebusch KP, Maric-Oehler W, Popp FA: Biophotonics in the infrared spectral range reveal acupuncture meridian structure of the body. J Altern Complement Med 2005 ; 11(1) : 171-3.   DOI   ScienceOn
51 Litscher G. Infrared thermography fails to visualize stimulation-induced meridianlike structures. Biomed Eng Online, 2005 ; 4 : 38.   DOI   ScienceOn
52 김완희 한의학적 한열 발생기전. 대한한의진단학회지. 2000 ; 4(1) : 19-31.
53 이상훈, 이재동, 이윤호. 적외선 체열 촬영을 이용한 정상인의 합곡혈 (合谷穴) 자침시 피부온도변화관찰. 대한침구학회지. 1996 ; 12(2) : 49-54.
54 조남근, 김경식. 요추 추간판탈출증의 (椎間板脫出症) 전침치료와 단순 자침치료 시 적외선체열촬영상의 임상비교연구. 대한침구학회지. 1997 ; 14(1) : 21-30
55 김회권 김동민, 하선윤 , 고형균, 남상수, 김용석. Bell's Palsy 환자에서 두면부 경혈의 적외선 체열촬영의 활용. 대한침구학회지. 2007 ; 24(6) : 105-11.   과학기술학회마을
56 류재관, 이순걸, 임성수, 이재동, 민병일, 류운영. 적외선 영상 처리를 통한 Formalin Test 통증 모델에서의 염전 침자극 효과에 대한 연구. 대한침구학회지. 2004 ; 21(2) : 223-33.
57 Saxena, A.K., Willital, G.H. Infrared thermography: experience from a decade of pediatric imaging. Eur. J. Pediatr. 2008 ; 167 : 757-64.   DOI   ScienceOn
58 Yang, H., Xie, S., Lu, Q., Lu, Z. Human infrared thermal imaging technology and its clinical applications. Chinese Optics Letters. 2005 ; 3(S1) ; S170-S2.
59 Ng, E.Y., Fok, S.C., Peh, Y.C., Ng, F.C., Sim, L.S. Computerized detection of breast cancer with artificial intelligence and thermograms. Journal of Medical Engineering & Technology. 2002 ; 26 : 152-7.   DOI   ScienceOn
60 허준, 최승훈, 안규석, 문용전. 체간 전면의 적외선체열영상에 관한 연구. 대한한의학회지 1993 ; 14(2) : 180-204.
61 Seung-Ho Yi. Relation between human biophoton and other biosignals Proc. of Measuring Energy Fields. Kamnik, Slovenia. 2007 ; Oct : 13-4.
62 Dumitrescu I. Electrographic Imaging in Medicine and Biology, United Kingdom : Neville Spearman. 1983.
63 Private communication between Seung-Ho Yi and Katja Vrhovnik, Tunjice, Slovenia : Natural Healing Resort.
64 Merla, A., Romani, G.L. Functional infrared imaging in medicine: a quantitative diagnostic approach. Conf. Proc. IEEE Eng. Med. Biol. Soc. 2006 ; 1 : 224-7.
65 Jung HH, Woo WM, Yang JM, Choi C, Lee J, Yoon G, Yang JS, Soh KS. Photon counting statistics analysis of biophotons from hands, Indian Journal of Experimental Biology. 2003 ; 41 : 446-51.