Daniel D. Swartz
State University of New York System
52 Papers
444 Citations
Daniel D. Swartz is an academic researcher from State University of New York System. The author has contributed to research in topics: Fibrin & Medicine. The author has an hindex of 27, co-authored 52 publications. Previous affiliations of Daniel D. Swartz include Women & Children's Hospital of Buffalo & University at Buffalo.
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Papers
Complex Hemodynamics at the Apex of an Arterial Bifurcation Induces Vascular Remodeling Resembling Cerebral Aneurysm Initiation
TL;DR: Strong localization of aneurysm-type remodeling to the region of accelerating flow suggests that a combination of high wallShear stress and a high gradient in wall shear stress represents a “dangerous” hemodynamic condition that predisposes the apical vessel wall to aneurYSm formation.
600
Oxygen Concentration and Pulmonary Hemodynamics in Newborn Lambs with Pulmonary Hypertension
Satyanarayana Lakshminrusimha,Daniel D. Swartz,Sylvia F. Gugino,Chang-Xing Ma,Karen A. Wynn,Rita M. Ryan,James A. Russell,Robin H. Steinhorn +7 more
TL;DR: It is concluded that resuscitation with 100% O2 does not enhance pulmonary vasodilation compared with 21% and 50% O 2, but impairs the subsequent response to iNO in PPHN lambs.
Successful endothelialization and remodeling of a cell-free small-diameter arterial graft in a large animal model.
Maxwell T. Koobatian,Sindhu Row,Randall J. Smith,Carmon Koenigsknecht,Stelios T. Andreadis,Daniel D. Swartz +5 more
TL;DR: This is the first demonstration of successful endothelialization, remodeling, and development of vascular function of a cell-free vascular graft that was implanted in the arterial circulation of a pre-clinical animal model.
147
Nascent Aneurysm Formation at the Basilar Terminus Induced by Hemodynamics
TL;DR: Without other known predisposition, flow increase alone at the basilar bifurcation can lead to a nascent aneurysm formation that is dose-dependent on basilar artery flow increase.
123
Functional tissue-engineered blood vessels from bone marrow progenitor cells
Jin Yu Liu,Daniel D. Swartz,Haofan Peng,Sylvia F. Gugino,James A. Russell,Stelios T. Andreadis +5 more
TL;DR: The results suggest that BM-SMPC may be useful in studying SMC differentiation and have high potential for development of cell therapies for the treatment of cardiovascular disease.