QUALISYS

 

moorLDI2-HIR | 高解像度血流画像化装置

レーザードップラー血流画像化装置 高解像度モデル

Shevchenko , E . K., Makarevich , P . I., Tsokolaeva , Z . I., Boldyreva , M., Sysoeva , V . Y., Tkachuk , V., and Parfyonova , Y . V, 2013. Transplantation of modified human adipose derived stromal cells expressing VEGF165 results in more efficient angiogenic response in ischemic skeletal muscle. Journal of translational medicine, 11(1), p.138.


Sönmez , T . T., Vinogradov , A., Zor , F., Kweider , N., Lippross , S., Liehn , E . A., Naziroglu , M., Hölzle , F., Wruck , C., Pufe , T., and Tohidnezhad , M., 2013. The effect of platelet rich plasma on angiogenesis in ischemic flaps in VEGFR2-luc mice. Biomaterials, 34(11), pp.2674-82.


Makarevich , P., Tsokolaeva , Z., Shevelev , A., Rybalkin , I., Shevchenko , E., Beloglazova , I., Vlasik , T., Tkachuk , V., and Parfyonova , Y., 2012. Combined transfer of human VEGF165 and HGF genes renders potent angiogenic effect in ischemic skeletal muscle. PloS one, 7(6), p.e38776.


Ruvinov , E., Leor , J., and Cohen , S., 2010. The effects of controlled HGF delivery from an affinity-binding alginate biomaterial on angiogenesis and blood perfusion in a hindlimb ischemia model. Biomaterials, 31(16), pp.4573-82.


Suzuki , H., Shibata , R., Kito , T., Ishii , M., Li , P., Yoshikai , T., Nishio , N., Ito , S., Numaguchi , Y., Yamashita , J . K., Murohara , T., and Isobe , K., 2010. Therapeutic angiogenesis by transplantation of induced pluripotent stem cell-derived Flk-1 positive cells. BMC cell biology, 11, p.72.


Chalothorn , D., Clayton , J., Zhang , H., Pomp , D., and Faber , J . E., 2007. Collateral density, remodeling, and VEGF-A expression differ widely between mouse strains. Physiological genomics, 30(2), pp.179-91.


Chalothorn , D., Zhang , H., Clayton , J., Thomas , S., and Faber , J . E., 2005. Catecholaminesaugment collateral vessel growth and angiogenesis in hindlimb ischemia. American journal of physiology. Heart and circulatory physiology, 289(2), pp.947-959.