British Journal of Anaesthesia

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British Journal of Anaesthesia, 2004, Vol. 92, No. 4 464-468
© 2004 The Board of Management and Trustees of the British Journal of Anaesthesia

Editorial III

Tissue oxygen tension (PT_O2) in anaesthesia and perioperative medicine

J. Ragheb and D. J. Buggy

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Tissue oxygen tension (PT_O2) is the directly measured local partial pressure of oxygen in a specific tissue. It may be thought of as the local expression of global oxygen delivery (DO₂) in a particular tissue. Tissue oxygen tension is the balance between oxygen perfusion and oxygen consumption in the tissue at a given time. In tissues with stable oxygen consumption, PT_O2 reflects tissue perfusion more precisely than traditional clinical indices such as mean arterial pressure, cardiac output, urine output, skin temperature, or skin capillary refill.

Tissue oxygen tension may be measured in any tissue of interest, but values in peripheral subcutaneous tissue are the most widely reported. Its vascular bed is susceptible to vasoconstrictive influences, being the first vascular bed compromised when circulatory homeostasis is threatened and the last replenished during recovery.¹ Subcutaneous tissue oxygen consumption is a relatively constant, low amount (approximately 1 . . . [Full Text of this Article]

Measurement techniques

Key role of anaesthesia in PT_O2 and surgical wound healing

Regional anaesthesia

Other possible applications of PT_O2

Summary

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This article has been cited by other articles:

				O. A. Mynbaev and R. Corona Possible mechanisms of peritoneal tissue-oxygen tension changes during CO2-pneumoperitoneum: the role of design, methodology and animal models: Editorial commentary on the articles 'Peritoneal tissue-oxygen tension during a carbon dioxide pneumoperitoneum in a mouse laparoscopic model with controlled respiratory support' by Bourdel et al. (2007) and 'Effects of supplemental perioperative oxygen on post-operative abdominal wound adhesions in a mouse laparotomy model with controlled respiratory support' by Matsuzaki et al. (2007) Hum. Reprod., June 1, 2009; 24(6): 1242 - 1246. [Full Text] [PDF]

Online ISSN 1471-6771 - Print ISSN 0007-0912

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