Wiltz W Wagner Jr
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Explore the profile of Wiltz W Wagner Jr including associated specialties, affiliations and a list of published articles.
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10
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76
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Recent Articles
1.
Wagner Jr W, Jaryszak E, Peterson A, Doerschuk C, Bohlen H, King J, et al.
J Appl Physiol (1985)
. 2018 Dec;
126(2):494-501.
PMID: 30571293
Of the 300 billion capillaries in the human lung, a small fraction meet normal oxygen requirements at rest, with the remainder forming a large reserve. The maximum oxygen demands of...
2.
Simmons J, Kahn S, Vickers A, Crockett E, Whitehead J, Krecker A, et al.
J Am Coll Surg
. 2018 Feb;
226(4):687-693.
PMID: 29409904
Background: Diagnosing the extremes of superficial burns and full-thickness burns is straightforward. It is in the middle ground of partial-thickness burns where the diagnostic difficulties emerge; it can take up...
3.
Oshima K, McLendon J, Wagner Jr W, McMurtry I, Oka M
Physiol Rep
. 2016 Jan;
4(2).
PMID: 26811053
Chronic exposure to hypoxia causes pulmonary hypertension and pulmonary arterial remodeling. Although the exact mechanisms of this remodeling are unclear, there is evidence that it is dependent on hemodynamic stress,...
4.
5.
Lamm W, Bernard S, Wagner Jr W, Glenny R
J Appl Physiol (1985)
. 2005 Feb;
98(6):2242-8.
PMID: 15705726
Vascular infusions of 15-microm-diameter microspheres are used to study pulmonary blood flow distribution. The sites of microsphere lodging and their effects on microvascular perfusion are debated but unknown. Using intravital...
6.
Baumgartner Jr W, Peterson A, Presson Jr R, Tanabe N, Jaryszak E, Wagner Jr W
J Appl Physiol (1985)
. 2004 Jul;
97(2):522-6.
PMID: 15247197
Pulmonary capillary perfusion within a single alveolar wall continually switches among segments, even when large-vessel hemodynamics are constant. The mechanism is unknown. We hypothesize that the continually varying size of...
7.
Rodefeld M, Boyd J, Myers C, Presson Jr R, Wagner Jr W, Brown J
J Thorac Cardiovasc Surg
. 2004 Mar;
127(3):705-11.
PMID: 15001898
Background: Cavopulmonary blood flow, rather than a systemic arterial source of pulmonary blood flow, stabilizes Norwood physiology. We hypothesized that pump-assisted cavopulmonary diversion would yield stable pulmonary and systemic hemodynamics...
8.
Baumgartner Jr W, Jaryszak E, Peterson A, Presson Jr R, Wagner Jr W
J Appl Physiol (1985)
. 2003 Jul;
95(2):469-76.
PMID: 12851416
Pulmonary capillaries recruit when microvascular pressure is raised. The details of the relationship between recruitment and pressure, however, are controversial. There are data supporting 1). gradual homogeneous recruitment, 2). sudden...
9.
Nabors L, Baumgartner Jr W, Janke S, Rose J, Wagner Jr W, Capen R
J Appl Physiol (1985)
. 2003 Mar;
94(4):1634-40.
PMID: 12626477
When alveoli are inflated, the stretched alveolar walls draw their capillaries into oval cross sections. This causes the disk-shaped red blood cells to be oriented near alveolar gas, thereby minimizing...
10.
Presson Jr R, Baumgartner Jr W, Peterson A, Glenny R, Wagner Jr W
J Appl Physiol (1985)
. 2002 Feb;
92(3):1183-90.
PMID: 11842057
Capillaries recruit when pulmonary arterial pressure rises. The duration of increased pressure imposed in such experiments is usually on the order of minutes, although recent work shows that the recruitment...