Odin Joensen
Associated Specialist physician at Department of Medical Sciences; Neurosurgery
- E-mail:
- odin.joensen@uu.se
- Visiting address:
- Akademiska sjukhuset, ingång 85 2 tr
- Postal address:
- Akademiska sjukhuset, ing 85 2 tr
751 85 UPPSALA
Download contact information for Odin Joensen at Department of Medical Sciences; Neurosurgery
Researcher at Department of Surgical Sciences; Anaesthesiology and Intensive Care
- E-mail:
- odin.joensen@uu.se
- Visiting address:
- Akademiska sjukhuset, ingång 70, 1tr
751 85 Uppsala - Postal address:
- Akademiska sjukhuset, ingång 70, 1tr
751 85 UPPSALA
Publications
Recent publications
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Part of Journal of Neurotrauma, 2025
- DOI for The Effects of Hyper- and Hypoventilation on Cerebral Physiology in a Healthy and Compromised Brain State: An Experimental Pig Model with State-of-the-Art Neuromonitoring
- Download full text (pdf) of The Effects of Hyper- and Hypoventilation on Cerebral Physiology in a Healthy and Compromised Brain State: An Experimental Pig Model with State-of-the-Art Neuromonitoring
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Part of Intensive Care Medicine Experimental, 2025
- DOI for Intracranial response to positive end-expiratory pressure is influenced by lung recruitability and gas distribution during mechanical ventilation in acute brain injury patients: a proof-of-concept physiological study
- Download full text (pdf) of Intracranial response to positive end-expiratory pressure is influenced by lung recruitability and gas distribution during mechanical ventilation in acute brain injury patients: a proof-of-concept physiological study
-
Comparison of different methods for lung immobilization in an animal model
Part of Radiotherapy and Oncology, p. 151-158, 2020
All publications
Articles in journal
-
Part of Journal of Neurotrauma, 2025
- DOI for The Effects of Hyper- and Hypoventilation on Cerebral Physiology in a Healthy and Compromised Brain State: An Experimental Pig Model with State-of-the-Art Neuromonitoring
- Download full text (pdf) of The Effects of Hyper- and Hypoventilation on Cerebral Physiology in a Healthy and Compromised Brain State: An Experimental Pig Model with State-of-the-Art Neuromonitoring
-
Part of Intensive Care Medicine Experimental, 2025
- DOI for Intracranial response to positive end-expiratory pressure is influenced by lung recruitability and gas distribution during mechanical ventilation in acute brain injury patients: a proof-of-concept physiological study
- Download full text (pdf) of Intracranial response to positive end-expiratory pressure is influenced by lung recruitability and gas distribution during mechanical ventilation in acute brain injury patients: a proof-of-concept physiological study
-
Comparison of different methods for lung immobilization in an animal model
Part of Radiotherapy and Oncology, p. 151-158, 2020