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Ph.d.-forsvar

Remote Functional Adaptations and Intercellular Crosstalk in the Human Vasculature

Ph.d.-forsvar — Nicolai Rytter Mortensen is defending his PhD thesis: Remote Functional Adaptations and Intercellular Crosstalk in the Human Vasculature: Insight from Ischemic Preconditioning and Exercise

Info

Date & Time:

Place:
Festauditoriet 1-01, Bülowsvej 17. 1870 Frederiksberg C

Digital: To attend the PhD defence, follow the link and hereafter the instructions to download the required Zoom-client. If the Zoom-client is incompatible with your pc, smartphone etc. you can attend via an Internet browser. Log-in in due time before 14 o’clock (Danish time) to allow time to install the Zoom-client.
Join Zoom Meeting: https://ucph-ku.zoom.us/j/63403854818?pwd=eno1MExpQVZHZERnNkNXaUhDTzBGZz09

Hosted by:
Department of Nutrition, Exercise and Sports, University of Copenhagen

Cost:
Free

Time
27 August 2020, 14:00

Place
Festauditoriet 1-01, Bülowsvej 17. 1870 Frederiksberg C

Digital: To attend the PhD defence, follow the link and hereafter the instructions to download the required Zoom-client. If the Zoom-client is incompatible with your pc, smartphone etc. you can attend via an Internet browser. Log-in in due time before 14 o’clock (Danish time) to allow time to install the Zoom-client.
Join Zoom Meeting: https://ucph-ku.zoom.us/j/63403854818?pwd=eno1MExpQVZHZERnNkNXaUhDTzBGZz09

Opponents
Associate Professor Anke Ninija Karbanov (chair), Department of Nutrition, Exercise and Sports, University of Copenhagen, Denmark.

Professor Stefan Mortensen, University of Southern Denmark, Denmark.

Professor Mike Tschakovsky, Queens University, Canada.

Supervisor
Professor Ylva Hellsten, Department of Nutrition, Exercise and Sports, University of Copenhagen, Denmark.

Co-supervisors
Associate professor Lasse Gliemann, Department of Nutrition, Exercise and Sports, University of Copenhagen, Denmark.

About the thesis
Impaired function of blood vessels and in particular the endothelium, which line the luminal surface, is intrinsic to cardiovascular events and lifestyle related diseases. Several therapeutic strategies are known to promote cardiovascular health by improving the function of blood vessels.

Here, the innovative procedure of ischemic preconditioning and the proven approach of physical activity was studied, with the objective to examine remote functional adaptations related to endothelial function, formation of blood clots and intercellular crosstalk mediated by platelets in the human vasculature.

The seminal findings from the present thesis provide evidence that ischemic preconditioning potently leads to functional adaptations in remote vascular tissue, in particular the endothelium, and also that it influences the proteome profile of platelets.

Importantly, the findings also imply that the therapeutic strategies which was studied should be prescribed only on the basis of a thorough prior assessment of eligibility.

Read more here

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