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Mark L Kahn

Showing results (81-90 of 127) with videos related to

Pageof 13
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The Journal of Clinical Investigation|May 10, 2016
Proteolytic activation defines distinct lymphangiogenic mechanisms for VEGFC and VEGFDHung M Bui, David Enis, Marius R Robciuc, et al.
Stroke|March 27, 2019
Familial Cerebral Cavernous MalformationsAtif Zafar, Syed A Quadri, Mudassir Farooqui, et al.
Blood|August 6, 2011
Occlusive thrombi arise in mammals but not birds in response to arterial injury: evolutionary insight into human cardiovascular diseaseAlec A Schmaier, Timothy J Stalker, Jeffrey J Runge, et al.
The Journal of Experimental Medicine|April 16, 2014
Lymphatic function is required prenatally for lung inflation at birthZoltán Jakus, Jason P Gleghorn, David R Enis, et al.
Nature Medicine|January 20, 2009
Regulation of cardiovascular development and integrity by the heart of glass-cerebral cavernous malformation protein pathwayBenjamin Kleaveland, Xiangjian Zheng, Jian J Liu, et al.
The Journal of Clinical Investigation|August 17, 2021
Genetic blockade of lymphangiogenesis does not impair cardiac function after myocardial infarctionT C Stevenson Keller, Lillian Lim, Swapnil V Shewale, et al.
Developmental Cell|December 5, 2006
Klf2 is an essential regulator of vascular hemodynamic forces in vivoJohn S Lee, Qing Yu, Jordan T Shin, et al.
Developmental Cell|August 18, 2012
Dynamic regulation of the cerebral cavernous malformation pathway controls vascular stability and growthXiangjian Zheng, Chong Xu, Annie O Smith, et al.
Development (Cambridge, England)|April 29, 2024
GPR124 regulates murine brain embryonic angiogenesis and BBB formation by an intracellular domain-independent mechanismKanako Yuki, Mario Vallon, Jie Ding, et al.
American Journal of Human Genetics|June 25, 2024
GNA14 and GNAQ somatic mutations cause spinal and intracranial extra-axial cavernous hemangiomasJian Ren, Ziwei Cui, Chendan Jiang, et al.
Pageof 13

Showing results (81-90 of 127) with videos related to

Sort By:
Pageof 13
The Journal of Clinical Investigation|May 10, 2016
Proteolytic activation defines distinct lymphangiogenic mechanisms for VEGFC and VEGFDHung M Bui, David Enis, Marius R Robciuc, et al.
Stroke|March 27, 2019
Familial Cerebral Cavernous MalformationsAtif Zafar, Syed A Quadri, Mudassir Farooqui, et al.
Blood|August 6, 2011
Occlusive thrombi arise in mammals but not birds in response to arterial injury: evolutionary insight into human cardiovascular diseaseAlec A Schmaier, Timothy J Stalker, Jeffrey J Runge, et al.
The Journal of Experimental Medicine|April 16, 2014
Lymphatic function is required prenatally for lung inflation at birthZoltán Jakus, Jason P Gleghorn, David R Enis, et al.
Nature Medicine|January 20, 2009
Regulation of cardiovascular development and integrity by the heart of glass-cerebral cavernous malformation protein pathwayBenjamin Kleaveland, Xiangjian Zheng, Jian J Liu, et al.
The Journal of Clinical Investigation|August 17, 2021
Genetic blockade of lymphangiogenesis does not impair cardiac function after myocardial infarctionT C Stevenson Keller, Lillian Lim, Swapnil V Shewale, et al.
Developmental Cell|December 5, 2006
Klf2 is an essential regulator of vascular hemodynamic forces in vivoJohn S Lee, Qing Yu, Jordan T Shin, et al.
Developmental Cell|August 18, 2012
Dynamic regulation of the cerebral cavernous malformation pathway controls vascular stability and growthXiangjian Zheng, Chong Xu, Annie O Smith, et al.
Development (Cambridge, England)|April 29, 2024
GPR124 regulates murine brain embryonic angiogenesis and BBB formation by an intracellular domain-independent mechanismKanako Yuki, Mario Vallon, Jie Ding, et al.
American Journal of Human Genetics|June 25, 2024
GNA14 and GNAQ somatic mutations cause spinal and intracranial extra-axial cavernous hemangiomasJian Ren, Ziwei Cui, Chendan Jiang, et al.
Pageof 13