87) ecting "opening a bottle" was explored in human subjects by electromyographic (EMG) |
88) nce and absence of a medical condition in human subjects is often modelled as an out |
89) Here, we assessed in healthy human subjects whether PFC subareas have d |
90) us controlled testing of interventions on human subjects. |
91) re analyzed in postmortem tissues from 20 human subjects. |
92) s of topical sildenafil on PrU healing in human subjects. |
93) gh recidivism and poor study retention in human subjects. |
94) Human umbilical cord blood (hUCB) has been |
95) Human umbilical vessels have been recogniz |
96) MSCs were isolated from human umbilical cord or adipose tissue. |
97) lial nitric oxide (NO) synthase (eNOS) in human umbilical vein endothelial cells (HU |
98) vestigated the role of CIT in adhesion of human umbilical vein endothelial cells (HU |
99) s in stem cell mono- and co-cultures with human umbilical vein endothelial cells (HU |
100) Whereas endothelium-denuded human umbilical veins (HUVs) have been suc |
101) ssed their in vitro antitumor activity in human cancer cell lines (HTLA-230 neurobla |
102) lso showed potential cytotoxicity against human cancer cell lines with IC50 ranging |
103) ; it is known to inhibit proliferation of human cancer cells. |
104) Lastly, in a murine and human cancer model, the SPIIF was able to |
105) pHO) is known to occur in both canine and human cancer patients. |
106) itive and specific biomarkers for several human cancer types. |
107) Human hepatocytes that were cocultured dir |
108) Primary human hepatocytes represent an important c |
109) em for pharmacological studies on primary human hepatocytes under defined serum-free |
110) tabolic activity and stability of primary human hepatocytes was studied in this bior |
111) Thus, coculture of human hepatocytes with MSCs demonstrates b |
112) es, but few studies currently use primary human hepatocytes. |
113) s oxidative injury of lung in animals and human. |
114) and have a high genetic proximity to the human. |
115) tal origin may differ between rodents and human. |
116) rvention for high ulnar nerve injuries in human. |
117) ation with vitamin D3, in differentiating human MSCs (hMSCs) in vitro along the oste |
118) ability and osteogenic differentiation of human MSCs and on the viability of osteobl |
119) yogenesis and in vitro differentiation of human MSCs might provide insights into how |
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