Optics: Diagnostics Optics Biomedical in Health

Transcription

Optics: Diagnostics Optics Biomedical in Health
PROGRESS IN BIOMEDICAL OPTICS AND IMAGING
Vol. 3, No. 27
Optics in Health Care and Biomedical
Optics: Diagnostics and Treatment
Britton Chance
Mingzhe Chen
Gilwon Yoon
Chairs/Editors
15-18 October 2002
Shanghai, China
Sponsored by
SPIE—The International
COS—Chinese
Society
Optical Society
for
Optical Engineering
Cooperating Organizations
Shanghai Jiaotong University (China)* Beijing
of Japan
(Japan Society
Institute of
Technology (China)*
Optical Society
OSK—Optical Society
of
India
OSI—Optical Society
Applied Physics)
AOS—Australian Optical Society
of
of Korea
•
•
•
•
OITDA—Optoelectronic Industry
Technology Development Association (Japan)
KAPID—Korea
OIDA—Optoelectronic Industry Development Association (USA)
and
•
•
PIDA—Photonics Industry &
Association for Photonics Industry Development
of
Astronautics
SPIE Asia-Pacific Chapters
Association
Chinese
Development
Society
•
•
•
Supported by
National Natural Science Foundation of China
Science and
Technology
•
Shanghai
•
China Association for
Committee for Science and Technology
Shanghai Association for Science and Technology (China)
Chinese-Americans (USA)
of
Optronics Magazine (Japan)
Society
(China)
•
•
Electronic Chamber of Commerce
•
Professional Committee
•
•
Photonics
China
on
Optoelectronic Technology, Chinese Optical Society
Published
by
SPIE—The International Society for Optical Engineering
Proceedings
of SPIE
Volume 4916
SPIE is
an
international technical
applications
of
society dedicated to advancing engineering and scientific
optical, photonic, imaging, electronic, and optoelectronic technologies.
Contents
xi
xiii
SESSION 1
1
Symposium Committees
Conference Committee
NIR SPECTROSCOPY AND IMAGING I
Hemodynamic
measurements in rat brain combining diffuse near-infrared
absorption
and
correlation spectroscopies [4916-30]
G. Yu, T. Durduran, D. Furuya, J. H. Greenberg, A. G. Yodh, Univ. of Pennsylvania (USA)
SESSION 2
9
NIR SPECTROSCOPY AND IMAGING II
Application of integral transform algorithms to high-resolution reconstruction
inhomogeneities in medical diffuse optical tomography [4916-41]
of tissue
A. B.
Konovalov, Russian Federal Nuclear Ctr.; V. V. Lyubimov, Research Institute for Laser
Physics (Russia); I. I. Kutuzov, Russian Federal Nuclear Ctr.; 0. V. Kravtsenyuk, A. G. Murzin,
Research Institute for Laser Physics (Russia); G. B. Mordvinov, Russian Federal Nuclear Ctr.;
L. N. Soms, Research Institute for Laser Physics (Russia); L. M. Yavorskaya, Russian Federal
Nuclear Ctr.
22
Phase cancellation system for tumor imaging using targeted fluorescent contrast
[4916-115]
agents
Y. Chen, L. Zhou, C. Mu, X. Intes, Univ. of
Univ. School of Medicine
30
Application
of LED
Pennsylvania (USA); S. I. Achilefu, Washington
(USA); B. Chance, Univ. of Pennsylvania (USA)
imager
for breast cancer diagnosis [4916-113]
J. Zhang, Y. Lin, S. Nioka, Univ. of Pennsylvania (USA); N. O'Connor, B. Czerniecki,
E. F. Conant, Univ. of Pennsylvania Hospital (USA); B. Chance, Univ. of Pennsylvania (USA)
SESSION 3
37
TUMOR DIAGNOSIS AND TREATMENT I
Selective
photothermal laser-tissue
interaction with
augmentation
of
immunoadjuvants
in
treatment of DMBA-4 metastatic mammary tumors in rats (Invited Paper) [4916-10]
W. R. Chen, Univ. of Central Oklahoma (USA) and Univ. of Oklahoma (USA); H. Liu, Univ.
of Oklahoma
(USA); R. F. Wolf, Univ. of Oklahoma
Oklahoma State Univ. College of
of Oklahoma, Inc. (USA)
Veterinary
Health Sciences Ctr.
Medicine (USA); R. E.
(USA); M. D. Lucroy,
Nordquist,
Wound Healing
43
Improvement of tumor
53
Effect of anti-cancer medicament on the validity of fluorescence-based technique for cancer
diagnosis [4916-42]
R. Zheng, Ocean Univ. of Qingdao (China); X. Z. Guo, Jilin Univ. (China); J. Wang, Ocean Univ.
of Qingdao (China); W. N. Man, Jilin Univ. (China); R. Wang, J. W. Meng, Ocean Univ. of
response to photodynamic therapy by manipulation of tumor
oxygenation in an in-vivo model system [4916-45]
Q. Chen, Z. Huang, H. Chen, H. Shapiro, J. Beckers, F. W. Hetzel, HealthONE Alliance (USA)
Qingdao (China)
iii
SESSION 4
58
LIGHT-TISSUE INTERACTION 1
Tissue structure
at
analysis
optical
immersion (Invited
Paper) [4916-116]
V. V. Tuchin, Saratov State Univ. (Russia)
68
Reflective angular spectrum of biological-tissue-embedded slab focus [4916-07]
J. C. Lai, Z. H. Li, A. Z. He, Nanjing Univ. of Science and Technology (China)
75
Optical properties of porcine nasopharynx tissue in vitro [4916-08]
B. H. Li, Zhejiang Univ. (China) and Fujian Teachers Univ.
(China);
81
S. S.
Two-photon
Xie,
W. J.
Su, Fujian Teachers
excitation of
hypocrellin
(China);
Z. K. Lu, Zhejiang Univ.
(China)
Univ.
A [4916-09]
J. Liu, Y. W. Zhao, Institute of Chemistry (China) and Chinese Academy of Sciences;
J. Q. Zhao, A. D. Xia, L. J. Jiang, Institute of Chemistry (China)
88
Detecting photoacoustic signals with a probing ultrasound
Yao, D. Xing, Y. G. Zeng, South China Normal Univ.
beam [4916-11]
Y.
95
Optical
fiber fluorescent
thermometry
for electromagnetically induced heating in medicine
treatment [4916-12]
D. P.
SESSION 5
98
INSTRUMENTATION AND APPLICATION
Design of
Y.
103
Jia, L. M. Zhao, S. P. Cui, Y. W. Lin, Shenyang Univ. of Technology (China)
Liu,
new
type
of reflectance
pulse oximetry
sensor [4916-13]
J. G. Zhu, Y. H. Luo, Tianjin Univ. (China)
Simplified
laser fluorescence
scanner
for proteomics studies and early
cancer
diagnosis
[4916-14]
B. C. Kim, J. H. Jeong, Biomed Photonics Inc. (Korea); D. S. Jeong, BodiTech Inc. (Korea);
E. Y. Choi, BodiTech Inc. (Korea) and Hallym Univ. (Korea); J. H. Kim, K. B. Nahm, Biomed
Photonics Inc. (Korea) and
Hallym
Univ. (Korea)
109
In-vivo usable chemiluminescence probe carried by nanoparticles [4916-16]
M. Hao, D. Xing, J. Wang, Y. H. He, South China Normal Univ.
115
Rugged hollow fiber for the infrared and its use in laser lithotripsy [4916-17]
K. Iwai, Y.-W. Shi, Y. Matsuura, M. Miyagi, Tohoku Univ.
(Japan)
120
Analysis and designs of a
S. F. Dong, Xi'an Institute
SESSION 6
128
3- and 2-fjm cascade Ho3+: ZBLAN fiber laser [4916-18]
Optics and Precision Mechanics (China) and Air Force Engineering
Univ. (China); G. F. Chen, X. H. Wang, W. Zhao, Y. S.
Wang, Air Force Engineering Univ.
(China)
cw
of
CLINICAL DIAGNOSIS AND TREATMENT
Highly sensitive chemiluminescence analysis system for medical radiation dose evaluation
[4916-21]
X. Li, Y. D. Wei, D. Xing, Y. H. He, South China Normal Univ.
iv
134
Rapid and sensitive immunomagnetic-electrochemiluminescent detection of
human lung cancer cell [4916-22]
G. H.
140
Yan,
D. B. Zhu, D.
Xing,
Military
on
erythrocyte
membranes [4916-23]
Medical Univ. (China) and Nanjing Univ. of Science and Technology
Duan, L. G. Li, Second Military Medical Univ. (China); S.
Univ. of Science and Technology (China); J. Y. Xu, H. Liu, Y. L. Yan,
J. Shen, Second Military Medical Univ. (China)
(China);
143
protein from
S. C. Tan, South China Normal Univ.
Influence of low-level laser radiation
X. S. Luo, Second
P53
P.
M. Gao, X. W. Ni,
J. G.
Liu,
Nanjing
J. H. Ma,
Active noncontact tonometer for glaucoma detection [4916-24]
Y. Han, P. J. Bryanston-Cross, W. K. Lee, Univ. of Warwick (UK); M. Hero, Coventry and
Warwick Hospital (UK)
SESSION 7
151
LIGHT-TISSUE INTERACTION II
Depolarization
of
N. Ghosh, P. K.
157
light in turbid medium: effect of collection geometry [4916-02]
Gupta, H. S. Patel, B. Jain, B. N. Singh, Ctr. for Advanced Technology
Theoretical study
on
light distribution in biological
Y. Liu, Y. H. Luo, Y. Ni, J. G. Zhu, K. X.
165
Experimental
research
Z. H. Li, J. C. Lai, C. Y.
172
Xu, Tianjin
strong absorption [4916-03]
(China)
tissue with
Univ.
depolarization property of layered biological tissues [4916-04]
Wang, A. Z. He, Nanjing Univ. of Science and Technology (China)
on
Measurement of the refractive index of biotissue at four laser
S. Y.
(India)
wavelengths [4916-05]
(China) and Fuzhou Univ.
(China); H. Y. Shen, G. Zhang, C. H. Huang, X. J. Huang, Fujian Institute of Research on the
Cheng, Fujian
Institute of Research on the Structure of Matter
Structure of Matter (China)
177
SESSION 8
185
Angular spectrum distribution in biological tissues [4916-06]
J. C. Lai, Z. H. Li, A. Z. He, Nanjing Univ. of Science and Technology (China)
OPTICAL DIAGNOSIS AND SPECTROSCOPY 1
Multiple diagnosis based on photoplethysmography: hematocrit, Sp02l pulse, and respiration
(Invited Paper) [4916-26]
G. W. Yoon, J. Y. Lee, K. J. Jeon, K. K. Park, H. S. Yeo, H. T. Hwang, H. S. Kim, 1. D. Hwang,
Samsung
189
Advanced Institute of
Technology (Korea)
Near-infrared spectroscopy to measure milk constituents and its reliability design [4916-27]
L. J. Wang, Harbin Univ. of Science and Technology (China); D. W. Zhou, K. X. Xu, Tianjin
Univ. (China); J. Y. Guo, Harbin Univ. of Science and
194
Emissive
spectral analysis applied
Technology
(China)
in 15N excretion test of Helicobacter pylori [4916-28]
Y. Y. Zhu, Suzhou Univ. (China); J. C. Wu, Z. H. Zhang, Shanghai Second Medical Univ.
(China)
SESSION 9
197
OPTICAL IMAGING
Whole-body fluorescent imaging of tumor cells transfected with EGFP [4916-36]
Y. Jin, D. Xing, South China Normal Univ.
V
202
Polarization-gated optical imaging:
N. Ghosh, P. K.
210
Shen, Fujian Teachers
SESSION 10
Singh,
parameter of scatterer [4916-37]
Technology (India)
Ctr. for Advanced
Univ. (China)
Optical image quality improvement based
tissues [4916-39]
C.-W. Sun, C. C. Yang, Y.-W.
221
B. N.
Novel optical imaging system for localization of early nasopharyngeal carcinoma [4916-38]
S. S. Xie, B. H. Li, Fujian Teachers Univ. (China); Q. Ye, Fujian Provincial Hospital (China);
G. P.
217
effect of size
Gupta, H. S. Patet,
Kiang,
on
time-resolved Stokes
vectors in filamentous
National Taiwan Univ.
Signal compensation of photoacoustic tomography [4916-40]
Y. G. Zeng, D. Xing, Y. Yao, South China Normal Univ.
OPTICAL DIAGNOSIS AND SPECTROSCOPY II
___
227
Autofluoresence spectroscopy for in-vivo diagnosis of human oral carcinogenesis [4916-31]
C.-Y. Wang, l-Shou Univ. (Taiwan China); T. M. Tsai, Taipei Medical Univ. (Taiwan China);
H.-M. Chen, National Taiwan Univ. College of Medicine; Y.-S. Kuo, National Taiwan Univ.
School of Dentistry; C.-T. Chen, C.-P. Chiang, National Taiwan Univ. College of Medicine
234
Medical
noncontact
blood-sampling
laser instrument [4916-34]
Z. Ren, G. B. Ning, G. Y. Jin, G. C. Song, X. Y. Yan, Z. Liang,
Changchun
Univ. of Science and
Technology (China)
SESSION 11
OCT
241
Tissue clearing of biotissues for optical coherence tomography (Invited
R. K. K. Wang, Cranfield Univ. (UK) and Tianjin Univ. (China)
245
Analysis of speckle in optical coherence tomography [4916-49]
Y. An, J. Q. Yao,; R. K. K. Wang, Tianjin Univ. (China) and Huazhong Univ. of Science and
Technology (China)
251
Image quality improvement with dispersion compensation and retrieval algorithms
coherence tomography [4916-50]
l-J. Hsu, C.-W. Sun, C.-W. Lu, C. C.
255
Biomedical
application
Yang,
C.-P.
Chiang,
in
optical
C.-W. Lin, National Taiwan Univ.
of OCT technology [4916-51]
G. Kou, Nanjing Univ. of Science and
259
Paper) [4916-48]
Technology
(China)
High-speed scanning optical coherence tomography [4916-52]
Song, S. L. Jacques, Oregon Health and Science Univ. (USA)
G.
SSION 12
266
TUMOR DIAGNOSIS AND TREATMENT II
and photobleaching properties of hematoporphyrin
monomethyl ether [4916-43]
Li, Zhejiang Univ. (China) and Fujian Teachers Univ. (China); Z. K. Lu, Zhejiang Univ.
(China); S. S. Xie, Fujian Teachers Univ. (China)
Spectral
B. H.
m\
271
Rapid imaging of oxygen free radicals produced in PDT using FCLA chemiluminescence probe
[4916-44]
D.
280
Xing, J. Wang, Y. H, He, South China Normal Univ.
Chemiluminescence from human
Xing, X.
J. Wang, D.
286
New
serum
albumin oxidation
by singlet
oxygen [4916-46]
J. Hu, South China Normal Univ.
photoacoustic technique for detection of
Xing, Y. Yao, South China Normal
breast
H. B. Fu, D.
cancer
[4916-47]
Univ.
POSTER SESSION
293
Formulation of beam propagating through the organized tissues with
polarization-sensitive
OCT [4916-53]
Y.
Jiang,
J.
Science and
299
Q. Yao, R. K. K. Wang, P. Wang, Tianjin Univ. (China) and Huazhong Univ. of
Technology (China)
Optical properties
of skin [4916-54]
Y. X. Su, W. B. Wang, K. X. Xu, C. Z. Jiang,
305
Influence of medium
parameters
on
Univ. (China)
Tianjin
the transmitted
intensity
and
shape
of ultrashort laser
pulses [4916-55]
K. H. Wu, G. L. Yang, Z. J. He, South China Normal Univ.
310
Propagation
characteristics of autofluorescence in tissue [4916-56]
H. B. Xie, X. D. Chen, Z. Xu, D. Y. Yu,
315
Development and application of
Tianjin
Univ. (China)
new diode laser
a
therapy apparatus [4916-58]
R. Chen, G. N. Chen, Fujian Teachers Univ. (China); M. Y. Ye, People's Hospital of Xianyou
(China); L. G. Pan, First Affiliated Hospital of Fujian Medical Univ. (China); E. Cai, Affiliated
People's Hospital
of
Fujian
Herbal Univ. (China); L. Q. Xu, S. S. Xie,
Fujian
Teachers Univ.
(China)
320
Application of
D. F.
the laser instrument in biomedicine [4916-59]
Huang,
Changchun Univ. of Science and Technology (China); T. Zhang,
Changchun Institute of Optics, Fine Mechanics, and Physics (China); J. F. Zhou, Z. Y. Tang,
Changchun Univ. of Science and Technology (China)
323
Y. Che,
Optical manipulation of microscopic particles and biological
cells
by laser
microbeams
[4916-60]
Y. Li, J. H. Liu, X. W.
Meng,
S. L.
Zhang,
Z. C.
Zhang, Tsinghua
Univ. (China)
329
Stereoscopic imaging technology for medical video endoscope [4916-61 ]
D. Lu, Changchun Univ. of Science and Technology (China); P. Xiang, Changchun Industry
Univ. (China); Y. Du, Changchun Univ. of Science and Technology (China)
335
Application
of
logarithmic analog operator
with high-accuracy ratio in biochemical analyzer
[4916-62]
J. F.
Wang,
Z. H. Liu, J. X.
Xiong, Changchun Univ, of Science
Industry Co., Ltd. (China)
and Technology (China);
Y. S. Tan, Dalian 3280 Electronics
339
Novel
W. K.
microarray scanner [4916-63]
Wang, M. Liu, Q. Q. Hu, Shanghai
Institute of
Optics and Fine Mechanics (China)
Semiconductor laser
cure
instrument for brain blood oxygen [4916-64]
Changchun Institute of Optics, Fine Mechanics,
W. S. Wang, H. Y. Song, Y. Zhang, Y. X. Guo,
and Physics (China); X, Dong, Harbin Neural Special Hospital (China)
Monte Carlo simulation of measuring
[4916-65]
X. Q. Zhang, L. J. Xu, Nanyang
capillary
blood flow with diffused
Univ.
Technological
(Singapore);
Y. Liu,
light
correlation
Univ. (China);
Tianjin
Y. J. Hock, Nanyang Technological Univ. (Singapore)
Double-wavelength laser equipment for cosmetic skin resurfacing and treatment [4916-66]
Zhang, Y. L. Li, G. H. Wang, Changchun Univ. of Science and Technology
Y. L. Zhang, Z. Z.
(China)
Design
of touchscreen control unit for medical Q-switched ruby laser
X. Q. Wen, Z. S. Ye, Z. J. Jin,
Experimental study
Tianjin
skin surface character
on
utilizing laser Doppler effect [4916-68]
Zhang, Beijing Institute of Technology (China);
Y. Ni, K. X. Xu, Tianjin Univ. (China); X. F.
C. Z. Jiang, Tianjin Univ. (China)
Design of a high-power semiconductor medical laser based
[4916-69]
W. D. Zou, M.
Reflectivity
for
Chen,
Y. Q.
control
selection of
suitable light
a
source
tonometer [4916-71]
Y. Han, P. J.
Warwick
microprocessor
on
Gao, Nanchang Institute of Aeronautical Technology (China)
of the human cornea and its influence on the
a low-cost
system [4916-67]
Univ. (China)
Bryanston-Cross,
Hospital (UK)
K.
Shaw, Univ. of Warwick (UK); M. Hero, Coventry
Low-cost multibeam optical tweezers with
of cells [4916-72]
Laguerre-Gaussian
and
mode and its manipulation
X. Z. Feng, T. C. Zhu, Suzhou Univ. (China)
Application of DWDM-OADM employed in a railway-area communication network [4916-73]
Y. T. Huang, Xiamen Univ. (China); M. Chen, Fujian Normal Univ.
(China); C. Chen, Xiamen
Univ. (China)
Clinical study on the treatment of anal eczema by semiconductor laser with traditional
Chinese medicine steam washing [4916-74]
E. W. Cai,
Fujian
Provincial
People's Hospital (China);
R. Chen,
Fujian
Normal Univ. (China)
Diode laser irradiation treatment of thromboangitis obliterans [4916-75]
R. Chen, Fujian Teachers Univ. (China); M. Y. Ye,
People's Hospital of Xianyou (China);
H. Y. Lin, L. Q. Xu, Fujian Teachers Univ. (China)
Feasibility of laser and electromagnetism combined therapy in prostatitis [4916-76]
R. Chen, L. Q. Xu, Y. P. Zheng, Fujian Teachers Univ.
(China); A. Z. Lin, Second Hospital
Fuzhou City (China); S. S. Xie, Fujian Teachers Univ. (China)
of
Mechanism study of intravascular low-level laser irradiation
therapy [4916-77]
Y. Q. Jiang, C. Y. Li, X. B. Wang, S.
T. Jia, Shanxi Univ. (China)
Chinese medicine photosensitizer stimulated
[4916-78]
Y. W. Ma, J. P. Li, D.
Liang,
by
violet ray for
L. N. Li, Zhejiang Univ. (China)
early-stage
cancer
diagnosis
415
Q-switched Er:YAG radiation transmission through
applications [4916-79]
D. N.
Papadopoulos,
an
oxide
glass
fiber for medical
E. Papagiakoumou, A. A. Serafetinides, National Technical Univ. of
Athens (Greece)
423
emission from the right and left hands [4916-80]
Choi, H.-H. Jung, W. M. Woo, K.-S. Soh, Seoul National
Samsung Advanced Institute of Technology (Korea)
Biophoton
C. H.
429
[Ca2+]i
Univ. (Korea); G. W. Yoon,
and MCLA-enhanced ultraweak chemiluminescence of macrophages irradiated with
low-intensity He-Ne laser [4916-81]
C. Y. Xu, D. Xing, S. C. Tan, X. Li, South China Normal Univ.
437
Construction of tissue autofluorescence spectra by Monte Carlo simulation [4916-82]
X. D. Chen, H. B. Xie, Z. Xu, D. Y. Yu, Tianjin Univ. (China)
441
Correction of tissue autofluorescence
by
reflectance spectrum [4916-83]
X. D. Chen, H. B. Xie, Z. Xu, D. Y. Yu, Tianjin Univ. (China)
445
Experimental investigation of the fluorescent spectra of human blood and its components
[4916-85]
Y. Q.
Jiang, Shanxi Univ. (China) and Datong Medical College (China); C. Y. Li, X. B. Wang,
S. T. Jia, Shanxi Univ. (China)
450
Noninvasive intracranial pressure measurement using near-infrared light [4916-87]
L. Lin, G. Li, S. X. Xiang, J. F. Sun, Tianjin Univ. (China)
457
New advancement of noninvasive measurement of blood
glucose by
near-infrared
spectroscopy [4916-88]
Q. B. Li, Y. Wang, K. X. Xu, Tianjin Univ. (China)
465
Determination of instrumental precision requirement for
expected glucose prediction
accuracy
[4916-89]
Q. B. Li, X. T. Hu, K. X. Xu,
Tianjin
Univ. (China)
473
In-vivo determination of the absorbance spectra of human skin [4916-90]
Q. Y. Li, Y. Wang, Y. L. Zhang, Jinan Univ. (China)
480
Laser-induced fluorescence detection system for microfluidic chip [4916-91]
Y. Li, Z. F. Cen, X. T. Li, Z. K. Bao, Zhejiang Univ. (China)
484
Conditions and methods of
high-precision
measurement of blood
mid-IR ATR spectroscopy [4916-94]
J. W. Qin, D. W. Zhou, L. Zhang, Tianjin Univ. (China); Z. L. Lei,
glucose
concentration
Shenyang
using
Scientific
Instrument Development Ctr. (China); K. X. Xu, Tianjin Univ. (China)
490
Preliminary investigation of simultaneous
by near-infrared spectroscopy [4916-95]
measurement of
multicomponents
in human
plasma
X. L. Zhao, L. Zhang, Y. Wang, K. X. Xu, Tianjin Univ. (China); Y. Wang, K. Zhang, X. Q. Wang,
Tianjin Hospital (China)
498
Noninvasive
hemoglobin-measurement-based pulse oximetry [4916-97]
Chewpraditkul, King Mongkut's Univ. of Technology/Thonburi (Thailand);
W. Pothisarn, W.
P. P. Yupapin, King Mongkut's Institute of Technology/Ladkrabang (Thailand)
ix
image capture and display system based
endoscope [4916-99]
Z. Sun, D. Y. Yu, J. Jiang, Tianjin Univ. (China)
PCI bus for medical electronic
505
Real-time
510
Computer analysis method for determining protein relative molecular weight
electrophoresis images [4916-100]
on
S. X. Zhang, W. L. Liu, D. G. Ran, J. C. Wang, X. X. Li, Hebei Univ.
515
Conformation and structure of extrusion
polymer by
the
of
in
gel
Technology (China)
computed digital tomography image
[4916-101]
L. F.
522
Li,
South China Univ. of Science and
Real-time
imaging spectrometry
Technology
for microscope [4916-103]
L. Li, Chitose Institute of Science and Technology (Japan); K. Aizawa,
(Japan); F. Ichikawa, Kawasaki Steel Techno-research Corp. (Japan)
528
Tokyo
Medical Univ.
Novel computer-based processing techniques for quantitative measurement of skin structures
[4916-104]
C. H.
536
Hu,
Y. H.
Xia,
DSP-based data
W. D. Liu, Yanshan Univ.
acquisition
and
processing
(China)
system for OCT [4916-105]
G. Li, W. Shao, K. J. Wu, L. Lin, Tianjin Univ. (China)
543
High-speed optical
coherence
tomography based on line scanning [4916-107]
Tianjin Univ. (China)
X. Jin, T. G. Liu, K. J. Wu, G. Li,
548
Author Index

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