Volume 49, Issue 5, 2000
MINIREVIEWS:
Physiol.
Res. 49: 485-492, 2000
Changing Concepts of the
Pulmonary Plexiform Lesion
A. P. Fishman
University of Pennsylvania, School of Medicine,
Philadelphia, USA
Physiol.
Res. 49: 493-501, 2000
A Possible Role of the
Oxidant Tissue Injury in the Development of
Hypoxic Pulmonary Hypertension
J. Herget, J. Wilhelm1, J. Novotná1, A. Eckhardt, R. Vytášek, L. Mrázková, M. Ošťádal
Department of Physiology and 1Department
of Medical Chemistry and Biochemistry, Second
Faculty of Medicine, Charles University, Prague,
Czech Republic
Physiol. Res. 49: 503-517,
2000
Hypoxia-Induced
Pulmonary Vascular Remodeling: Contribution of
the Adventitial Fibroblasts
K. R. Stenmark1, D. Bouchey1,
R. Nemenoff2, E. C. Dempsey3,
M. Das1
1Cardiovascular Pulmonary, Developmental
Biology Research Laboratories, Denver, 2Division
of Renal Medicine, University of Colorado Health
Sciences Center, Denver, 3Denver
Veterans Administration Medical Center, Denver,
USA
Physiol. Res. 49: 519-537,
2000
The
Role of Endogenous Lung Neuropeptides in
Regulation of the Pulmonary Circulation
I. M. Keith
Department of Comparative Biosciences, School of
Veterinary Medicine, University of Wisconsin,
Madison, USA
Physiol Res. 49: 539-548,
2000
Nitric
Oxide Synthase in Pulmonary Hypertension: Lessons
from Knockout Mice
K. A. Fagan1,2, I. McMurtry1,2,
D. M. Rodman1,2,3
1Division of Pulmonary Sciences and
Critical Care Medicine, 2Cardiovascular
Pulmonary Research Laboratory, and 3Department
of Physiology, University of Colorado Health
Sciences Center, Denver, USA
Physiol. Res. 49: 549-560,
2000
Altered
Pulmonary Vasoreactivity in the Chronically
Hypoxic Lung
L. A. Shimoda, J. S. K. Sham, J. T. Sylvester
Division of Pulmonary and Critical Care Medicine,
Johns Hopkins University, School of Medicine
Baltimore, Maryland, USA
Physiol. Res. 49: 561-566,
2000
Changes
in Smooth Muscle Cell pH during Hypoxic Pulmonary
Vasoconstriction: A Possible Role for Ion
Transporters
J. A. Madden1,2, P. A. Keller2,
J. G. Kleinman2,3
Departments of Neurology1 and
Medicine3, The Medical College of
Wisconsin, and Research Service2,
Zablocki Veterans Affairs Medical Center,
Milwaukee, Wisconsin, U.S.A.
Physiol. Res. 49: 567-575,
2000
Perinatal
History of Hypoxia Leads to Lower Vascular
Pressures and Hyporeactivity to Angiotensin II in
Isolated Lungs of Adult Rats
V. Hampl, J. Bíbová, J. Herget
Department of Physiology, Second Faculty of
Medicine, Charles University, Prague, Czech
Republic
Physiol. Res. 49: 577-585,
2000
Role
of Proteolysis and Apoptosis in Regression of
Pulmonary Vascular Remodeling
D. J. Riley1, S. Thakker-Varia1,
F. J. Wilson2, G. J. Poiani1,3,
C. A. Tozzi1,3
1Departments of Medicine and 2Neuroscience
and Cell Biology, University of Medicine and
Dentistry of New Jersey - Robert Wood Johnson
Medical School, Piscataway, New Jersey, 3VA
New Jersey Health Care System, Lyons, New Jersey,
USA
Physiol. Res. 49: 587-596,
2000
The
NADPH Oxidase Inhibitors Iodonium Diphenyl and
Cadmium Sulphate Inhibit Hypoxic Pulmonary
Vasoconstriction in Isolated Rat Pulmonary
Arteries
R. D. Jones, J. S. Thompson, A. H. Morice
Section of Respiratory Medicine, Academic
Department of Medicine, The University of Hull,
Castle Hill Hospital, Cottingham, UK
Physiol. Res. 49: 597-606,
2000
Effects
of Adaptation to Intermittent High Altitude
Hypoxia on Ischemic Ventricular Arrhythmias in
Rats
G. Asemu, J. Neckář, O. Szárszoi, F. Papoušek,
B. Ošťádal, F. Kolář
Department of Developmental Cardiology, Institute
of Physiology, Academy of Sciences of the Czech
Republic, Prague, Czech Republic
Physiol.
Res. 49: 607-616, 2000
Susceptibility to
Ischemia-Induced Arrhythmias and the Effect of
Preconditioning in the Diabetic Rat Heart
T. Ravingerová, R. Štetka, D. Pancza, O. Uličná1,
A. Ziegelhöffer, J. Styk
Institute for Heart Research, Slovak Academy of
Sciences, and 1Pharmacobiochemical
Laboratory of Medical Faculty, Comenius
University, Bratislava, Slovak Republic
This number was issued in October 2000
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