Ischemia‐reperfusion injury in chronic pressure ulcer formation: a skin model in the rat SM Peirce, TC Skalak, GT Rodeheaver Wound repair and regeneration 8 (1), 68-76, 2000 | 446 | 2000 |
Macrophages: an inflammatory link between angiogenesis and lymphangiogenesis BA Corliss, MS Azimi, JM Munson, SM Peirce, WL Murfee Microcirculation 23 (2), 95-121, 2016 | 333 | 2016 |
Multiscale computational models of complex biological systems J Walpole, JA Papin, SM Peirce Annual review of biomedical engineering 15, 137-154, 2013 | 250 | 2013 |
Human adipose-derived stromal cells accelerate diabetic wound healing: impact of cell formulation and delivery PJ Amos, SK Kapur, PC Stapor, H Shang, S Bekiranov, M Khurgel, ... Tissue Engineering Part A 16 (5), 1595-1606, 2010 | 232 | 2010 |
Non-classical monocytes are biased progenitors of wound healing macrophages during soft tissue injury CE Olingy, CL San Emeterio, ME Ogle, JR Krieger, AC Bruce, DD Pfau, ... Scientific reports 7 (1), 447, 2017 | 231 | 2017 |
IFATS collection: The role of human adipose-derived stromal cells in inflammatory microvascular remodeling and evidence of a perivascular phenotype PJ Amos, H Shang, AM Bailey, A Taylor, AJ Katz, SM Peirce Stem cells 26 (10), 2682-2690, 2008 | 192 | 2008 |
Tube, stent and collar insertion device S Cottler, B Kesser US Patent App. 11/903,007, 2008 | 191 | 2008 |
Computational and mathematical modeling of angiogenesis SM Peirce Microcirculation 15 (8), 739-751, 2008 | 182 | 2008 |
Multicellular simulation predicts microvascular patterning and in silico tissue assembly SM Peirce, EJ Van Gieson, TC Skalak The FASEB journal 18 (6), 731-733, 2004 | 181 | 2004 |
Combining experiments with multi-cell agent-based modeling to study biological tissue patterning BC Thorne, AM Bailey, SM Peirce Briefings in bioinformatics 8 (4), 245-257, 2007 | 180 | 2007 |
Pericytes derived from adipose-derived stem cells protect against retinal vasculopathy TA Mendel, EBD Clabough, DS Kao, TN Demidova-Rice, JT Durham, ... PLOS one 8 (5), e65691, 2013 | 177 | 2013 |
Differential arterial/venous expression of NG2 proteoglycan in perivascular cells along microvessels: identifying a venule-specific phenotype WL Murfee, TC Skalak, SM Peirce Microcirculation 12 (2), 151-160, 2005 | 175 | 2005 |
Sphingosine 1-phosphate receptor 3 regulates recruitment of anti-inflammatory monocytes to microvessels during implant arteriogenesis AO Awojoodu, ME Ogle, LS Sefcik, DT Bowers, K Martin, KL Brayman, ... Proceedings of the National Academy of Sciences 110 (34), 13785-13790, 2013 | 171 | 2013 |
Microvascular remodeling: a complex continuum spanning angiogenesis to arteriogenesis SM Peirce, TC Skalak Microcirculation 10 (1), 99-111, 2003 | 155 | 2003 |
Vascular assembly in natural and engineered tissues KK Hirschi, TC Skalak, SM Peirce, CD Little Annals of the New York Academy of Sciences 961 (1), 223-242, 2002 | 148 | 2002 |
Multi-cell agent-based simulation of the microvasculature to study the dynamics of circulating inflammatory cell trafficking AM Bailey, BC Thorne, SM Peirce Annals of biomedical engineering 35, 916-936, 2007 | 135 | 2007 |
Oxygen sensing difluoroboron β-diketonate polylactide materials with tunable dynamic ranges for wound imaging CA DeRosa, SA Seaman, AS Mathew, CM Gorick, Z Fan, JN Demas, ... ACS sensors 1 (11), 1366-1373, 2016 | 117 | 2016 |
Targeting pericytes for angiogenic therapies MR Kelly‐Goss, RS Sweat, PC Stapor, SM Peirce, WL Murfee Microcirculation 21 (4), 345-357, 2014 | 114 | 2014 |
Collateral capillary arterialization following arteriolar ligation in murine skeletal muscle FM Gabhann, SM Peirce Microcirculation 17 (5), 333-347, 2010 | 112 | 2010 |
Characterizing emergent properties of immunological systems with multi-cellular rule-based computational modeling AK Chavali, EP Gianchandani, KS Tung, MB Lawrence, SM Peirce, ... Trends in immunology 29 (12), 589-599, 2008 | 112 | 2008 |