Related references
Note: Only part of the references are listed.Defocused low-energy shock wave activates adipose tissue-derived stem cells in vitro via multiple signaling pathways
Lina Xu et al.
CYTOTHERAPY (2016)
Repetitive shock wave therapy improves muscular microcirculation
Tobias Kisch et al.
JOURNAL OF SURGICAL RESEARCH (2016)
Combined therapy with shock wave and autologous bone marrow-derived mesenchymal stem cells alleviates left ventricular dysfunction and remodeling through inhibiting inflammatory stimuli, oxidative stress & enhancing angiogenesis in a swine myocardial infarction model
Jiunn-Jye Sheu et al.
INTERNATIONAL JOURNAL OF CARDIOLOGY (2015)
Enhanced angiogenesis in ischemic skeletal muscle after transplantation of cell sheets from baculovirus-transduced adipose-derived stromal cells expressing VEGF165
Pavel I. Makarevich et al.
STEM CELL RESEARCH & THERAPY (2015)
Activation of bone marrow-derived mesenchymal stromal cells a new mechanism of defocused low-energy shock wave in regenerative medicine
Yong Zhao et al.
CYTOTHERAPY (2013)
Effects of Low-Energy Shockwave Therapy on the Erectile Function and Tissue of a Diabetic Rat Model
Xuefeng Qiu et al.
JOURNAL OF SEXUAL MEDICINE (2013)
Liver steatosis assessment: Correlations among pathology, radiology, clinical data and automated image analysis software
Michael J. Lee et al.
PATHOLOGY RESEARCH AND PRACTICE (2013)
Cell biological effects of mechanical stimulations generated by focused extracorporeal shock wave applications on cultured human bone marrow stromal cells
Frank Suhr et al.
STEM CELL RESEARCH (2013)
Improved rate of peripheral nerve regeneration induced by extracorporeal shock wave treatment in the rat
Thomas Hausner et al.
EXPERIMENTAL NEUROLOGY (2012)
Adipose Tissue-Derived Stem Cells Ameliorate Diabetic Bladder Dysfunction in a Type II Diabetic Rat Model
Haiyang Zhang et al.
STEM CELLS AND DEVELOPMENT (2012)
Low-energy extracorporeal shock wave therapy enhances skin wound healing in diabetic mice: A critical role of endothelial nitric oxide synthase
Denso Hayashi et al.
WOUND REPAIR AND REGENERATION (2012)
Extracorporeal Shock Wave Therapy (ESWT) Minimizes Ischemic Tissue Necrosis Irrespective of Application Time and Promotes Tissue Revascularization by Stimulating Angiogenesis
Rainer Mittermayr et al.
ANNALS OF SURGERY (2011)
Shock Wave Therapy Compared with Intramedullary Screw Fixation for Nonunion of Proximal Fifth Metatarsal Metaphyseal-Diaphyseal Fractures
John P. Furia et al.
JOURNAL OF BONE AND JOINT SURGERY-AMERICAN VOLUME (2010)
Adipose Derived Stem Cells Ameliorate Hyperlipidemia Associated Detrusor Overactivity in a Rat Model
Yun-Ching Huang et al.
JOURNAL OF UROLOGY (2010)
Labeling and tracking of mesenchymal stromal cells with EdU
Guiting Lin et al.
CYTOTHERAPY (2009)
Extracorporeal shock wave enhanced extended skin flap tissue survival via increase of topical blood perfusion and associated with suppression of tissue pro-inflammation
Yur-Ren Kuo et al.
JOURNAL OF SURGICAL RESEARCH (2007)
Mesenchymal stromal cells - Biology of adult mesenchymal stem cells: regulation of niche, self-renewal and differentiation
Catherine M. Kolf et al.
ARTHRITIS RESEARCH & THERAPY (2007)
Low-energy shock wave for enhancing recruitment of endothelial progenitor cells - A new modality to increase efficacy of cell therapy in chronic hind limb ischemia
Alexandra Aicher et al.
CIRCULATION (2006)
Recent advances in understanding the biology of diabetes-associated bladder complications and novel therapy
N Yoshimura et al.
BJU INTERNATIONAL (2005)
Recruitment of mesenchymal stem cells and expression of TGF-β1 and VEGF in the early stage of shock wave-promoted bone regeneration of segmental defect in rats
YJ Chen et al.
JOURNAL OF ORTHOPAEDIC RESEARCH (2004)
RP59, a marker for osteoblast recruitment, is also detected in primitive mesenchymal cells, erythroid cells, and megakaryocytes
A Kruger et al.
DEVELOPMENTAL DYNAMICS (2002)
Share Paper
