Recent
Presentations at National and International Meetings
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Symposium on The
Evolution of Vascular Regulation from the Neonate to the Aging Adult
"Absence
of Calcium-Independent Release of Endothelial Nitric Oxide in Young
Rats" - Part Deux
(T.R.
Nurkiewicz and M.A. Boegehold)
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"Absence
of Calcium-Independent Release of Endothelial Nitric Oxide in Young
Rats"
(T.R.
Nurkiewicz and M.A. Boegehold)
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- 2002: Experimental Annual Biology
Meeting, New Orleans, LA
Symposium
on Apoptosis and Organ Injury Mechanisms in Hypertension - "Microvascular
Oxidative Stress Induced by Dietary Salt Independent of Hypertension"
(M.A. Boegehold)
- 2000: Biomedical Engineering
Society, Seattle, WA
"Sympathetic Control of
Arteriolar Tone: Modulation by the Endothelium"
(M.A. Boegehold)
- 2000: Twenty-First European
Conference on Microcirculation, Stockholm, Sweden
- "Contribution of reactive
oxygen species to blunted endothelium-dependent dilation in rats fed high
salt"
(D. M. Lenda and M.A. Boegehold)
- "Local PO2 reduction
and adenosine release preserve arteriolar nitric oxide synthesis during
sympathetic constriction in the rat intestine"
(B.A. Sauls and M.A. Boegehold)
- 2000: Experimental Biology Annual
Meeting, San Diego, CA
"Arteriolar-venular differences
in the nitric oxide pathway in cultured rat mesenteric endothelial cells"
(L. Wagner, C. Baylis and M.A.
Boegehold)
- 2000: American Microcirculatory
Society, Annual Meeting, San Diego, CA
- "Increased microvascular
oxidative stress may be responsible for reduced arteriolar nitric oxide
activity in rats fed high salt"
(D.M. Lenda and M.A. Boegehold)
- "Attenuated myogenic
behavior in rats fed high salt: roles of reduced angiotensin II and
increased bradykinin activity"
(T.R. Nurkiewicz and M.A. Boegehold)
- "Local adenosine
production may stimulate arteriolar nitric oxide synthesis during
sympathetic constriction in the rat intestine"
(B.A. Sauls and M.A. Boegehold)
- 1999: American Microcirculatory
Society, Annual Meeting, Washington, DC
- "Isolation and culture of
endothelial cells from arterial or venous microvessels"
(M.A. Boegehold, M.Howton and K. Wix)
- "Reduced angiotensin
II activity may contribute to attenuated myogenic behavior in rats fed high
salt"
(T.R. Nurkiewicz and M.A.
Boegehold)
- "Local production of superoxide
anion may contribute to reduced arteriolar nitric oxide in rats fed high
salt"
(D. Lenda, B. Sauls and M.A.
Boegehold)
- "A reduction in
arteriolar wall PO2 may stimulate nitric oxide release during
sympathetic vasoconstriction in the rat intestine"
(B.A. Sauls and M.A. Boegehold)
- 1998: American Physiological
Society, Conference on Endothelial Regulation of Vascular Tone, Augusta, GA
"Growth-related onset of local
nitric oxide activity modulates the sympathetic control of arteriolar
tone."
(M.A. Boegehold and J.R. Linderman)
- 1998: Twentieth European
Conference on Microcirculation, Paris, France
- "Effect of dietary salt on
myogenic responsiveness of proximal arterioles and local nitric oxide in
normotensive and hypertensive rats."
(T.R. Nurkiewicz and M.A. Boegehold)
- "Isolation and
culture of endothelial cells from specific precapillary microvessels."
(M. Boegehold, M. Howton and K. Wix)
- 1998: Sixth International
Symposium on Resistance Arteries, Mol, Belgium
"Arteriolar Myogenic Activity in
Hypertensive and Salt-Fed Rats: Modulation by Nitric Oxide."
(M.A. Boegehold and T. R. Nurkiewicz)
- 1998: American Microcirculatory
Society, Annual Meeting, San Francisco, CA
"Arteriolar myogenic
constriction is not modulated by shear or flow in normotensive or hypertensive
rats."
(T.R. Nurkiewicz and M.A. Boegehold)
Recent
Seminars
Matthew A. Boegehold
- Department of Physiology and
Biophysics, University of Louisville School of Medicine.
"Shear Stress, Nitric Oxide and Arteriolar Tone: A Changing
Relationship during Juvenile Growth", March, 1999.
- Department of Medicine, Cardiology
Section, West Virginia University School of Medicine.
"Dietary Salt and Microvascular Function", August, 1999.
- Departments of Biological Sciences
and Biomedical Sciences, Ohio University College of Osteopathic Medicine.
"Suppression of Microvascular Nitric Oxide Activity by Dietary Salt:
Mechanisms and Functional Consequences", September, 1999.
- Department of Medical Physiology,
Texas A&M University School of Medicine.
"Nitric Oxide-Dependent Regulation of Arteriolar Tone: Suppression by
Dietary Salt", December, 1999.
- Department of Physiology, Wayne
State University School of Medicine.
"Suppression of Microvascular Nitric Oxide Activity by Dietary Salt: A
Role for Reactive Oxygen Species?", May, 2000.
- Department
of Physiology, Marshall University School of Medicine. “Nitric Oxide and
Reactive Oxygen Species in Microvascular Control”, March, 2002.
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