Intratumour temperature distributions during hyperthermia
J Thermal Biology. 1980;5:127-130
Thinning and Rupture of Aqueous Surfactant Films on Silica
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Correspondence: Recognition of tumor blood vessel normalization as a new antiangiogenic concept.
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A Nanocrystal-based Ratiometric pH Sensor for Natural pH Ranges.
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Thinning and rupture of ring-shaped films
J Chemical Society, Faraday Transactions II. 1980;76:250-266
Tumor blood flow: characterization, modifications and role in hyperthermia
IEEE Transactions in Sonics and Ultrasonics; Special Issue on Hyperthermia. 1984;31:504-526
Stability of thin viscoelastic films with applications to biological membrane deformation.
Annals of New York Academy of Sciences. 1983;404:89-102
Effect of inhomogeneities and finite boundaries on temperature distribution in a perfused medium with application to tumors
Trans. ASME J. Biomechanical Engineering. 1978;100:235-241
Transient temperature distributions in an infinite perfused medium due to a time-dependent, spherical heat source
Trans. ASME J. Biomechanical Engineering. 1979;101:82-86
Data do not support benefits of anti-VEGFR3 therapy
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Tumor Microcirculation: Role in Delivery of Molecular and Cellular Medicine
In: The Biology of Tumors, Proceedings of the Ninth Annual Pezcoller Symposium on the Biology of Tumors, Rovereto, Italy. 1997;:319-345
Onset of microvilli in normal and neoplastic cells.
AIChE Symposium Series, Biorheology. 1978;74:120-124
Formation and thinning of thin liquid films
Dynamics and Instability of Fluid Interfaces, edited by T.S. Sorensen, Springer-Verlag, New York. 1979;:120-139
Instability and rupture of thin liquid films
Dynamics and Instability of Fluid Interfaces, edited by T.S. Sorensen, Springer-Verlag, New York. 1979;:140-167
The role of surfactants on the coalescences of emulsion droplets
Solution Chemistry of Surfactants, edited by K.A. Mittal, Plenum Press, New York. 1979;2:817-840
Heat transfer in tumors: characterization and applications to thermography and hyperthermia.
Advances in Biomedical Engineering, edited by D.O. Cooney, Marcel Dekker, Inc., New York, Part I. 1980;Chapter 2:59-91
Effects of hyperthermia and hyperglycemia on the metastases formation and on survival of rats bearing W256 carcinosarcoma
Hyperthermia, H.I. Bicher and D.F. Bruley, eds., Plenum Publishing Corporation, New York. 1982;:23-42
Interstitial diffusion of macromolecules in normal and tumor capillary beds
AIChE Symposium Series 227. 1983;79:1-10
Mathematical models for microcirculatory changes during hyperthermia in normal and neoplastic tissues
AIChE Symposium Series 227. 1983;79:153-162
Bioheat transfer: mathematical models of thermal systems.
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Mass and heat transfer in tumors: applications in detection and treatment
Advances in Transport Processes. 1984;3:205-339
Analysis of heat transfer and temperature distributions in tissues during local and whole body hyperthermia
Heat Transfer in Medicine and Biology, A. Shitzer and R. Eberhart, Eds., Plenum Press, New York, Volume 2. 1985;Chapter 16:3-54
Tumor blood flow response to hyperthermia and pharmacological agents.
Radiation Research, E.M. Fieldman et al (eds.), Taylor and Francis, London. 1987;Volume 2:813-818
Transvascular and interstitial transport in tumors
Vascular Endothelium in Health and Disease, S. Chien (Ed.), Elsevier, Amsterdam . 1988;:215-220
Stability of thin films: characterization and applications in industrial and biological systems.
Thin Liquid Films, I.B. Ivanov, Ed., M. Dekker, New York. 1988;:497-568
Approaches to immunotherapy with defined populations of IL-2 cultured NK cells, immune T Cells or tumor infiltrating lymphocytes.
In: Biology and Clinical Applications of IL-2, R.C. Rees, Ed., Oxford University Press, London. 1990;Chapter 12:111-119
Parameters Governing Tumor Blood Flow
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Vascular and Interstitial Transport in Tumors
In: Tumor Blood Supply and Metabolic Microenvironment: Characterization and Therapeutic Implications, P. Vaupel and R.K. Jain, Eds., Fischer Publications, Stuttgart. 1991;:ePub
Viscous Resistance to Blood Flow in the Tumor Microcirculation: Clinical Implications.
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Blood Flow Response to Hyperglycemia.
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Extravasation and Interstitial Transport in Tumors
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Physiological Resistance to the Treatment of Solid Tumors
In: Drug Resistance in Oncology, B. Teicher, Ed., M. Dekker, New York. 1993;Chapter 4:87-105
Delivery of Effector Cells to Tumors
In: '93 Recent Advances in Cancer Research, J.G. Park, Ed., Seoul National University, Seoul. 1993;:202-217
Transport Phenomena in Tumors
Advances in Chemical Engineering. 1994;20:129-200
Tumor Microcirculation: Role in Cancer Diagnosis and Treatment
In: Progress in Microcirculation Research, H. Niimi, et al, Eds., Pergamon Press, Tarrytown. 1994;:29-36
Vascular and Interstitial Physiology of Tumours: Role in Cancer Detection and Treatment
In: Tumor Angiogenesis, R. Bicknell, C. Lewis and N. Ferrara, Eds, Oxford University Press, Oxford. 1997;:45-59
Delivery of Molecular Medicine to Solid Tumors
In: Microcirculation Annual 1997, M. Tsuchiya, M. Asano and N. Sato, Eds, Nihon-Igakukan, Tokyo. 1997;13:1-5
Tumor Microcirculation: Role in Drug and Nutrient Delivery
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Microcirculation and Transport Phenomena in Tumours
In: Connective Tissue Biology: Integration and Reductionism. Eds. R.K. Reed and K. Rubin, Portland Press Ltd, London. 1998;71:269-293
In Vitro and In Vivo Quantification of Adhesion Between Leukocytes and Vascular Endothelium.
In: Methods in Molecular Medicine - Methods in Tissue Engineering, J.R. Morgan and M.L. Yarmush, Eds., Humana Press, Totowa. 1998;:553-575
Delivery of Monoclonal Antibodies to the Tumor Cell
In: Monoclonal Antibody-Based Therapy of Cancer, M.L. Grossbard, Ed., Marcel Dekker, Inc., New York. 1998;:23-52
Delivery of Biologic Molecules and Cells to Tumors
In: Biologic Therapy of Cancer: Principles and Practice, S. Rosenberg, Ed., Lippincott, Williams and Watkins, Philadelphia. 2000;:865-874
Transparent Window Models and Intravital Microscopy: Imaging Gene Expression
Physiological Function and Drug Delivery in Tumors, In: Tumor Models in Cancer Research, B. Teicher, Ed., Humana Press, Inc., Totowa, NJ. 2001;Chapter 34:647-671
Interstitial Transport in Solid Tumors
In: Cancer Modeling and Simulation (Editor: L Preziosi), Chapman & Hall, Boca Raton, FL. 2003;Chapter 3:51-74
Molecular Pathophysiology of Tumors
In: Principles and Practice of Radiation Oncology, 4th Edition (Editors: C. A. Parez, L. W. Brady, E. C. Halperin, and R. Schmidt-Ullrich), Lippincott, Williams & Wilkins, New York. 2003;Chapter 4:163-179
Intravital microscopy of normal and diseased tissues in the mouse.
In: Live Cell Imaging: A Laboratory Manual (Editors: R. D. Goldman and D. L. Spector). Cold Spring Harbor Laboratory Press, Cold Spring Harbor, New York. 2004;Chapter 24:435-466
Vascular and Interstitial Biology of Tumors.
In: Clinical Oncology, 3rd Edition (Editors: M. Abeleff, J. Armitage, J. Niederhuber, M. Kastan and G. McKenna), Elsevier, Philadelphia, PA. 2004;Chapter 9:153-172
FRAP and Multiphoton FRAP.
In: Imaging in Neuroscience and Development: A Laboratory Manual (Editors: R. Yuste and A. Konnerth), Cold Spring Harbor Press, Cold Spring Harbor, New York. 2005;Chapter 56:429-438
A Practical Guide to in vivo Imaging of Tumors.
In: Imaging in Neuroscience and Development: A Laboratory Manual (Editors: R. Yuste and A. Konnerth), Cold Spring Harbor Press, Cold Spring Harbor, New York. 2005;Chapter 92:695-700
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