Showing Results for
- Academic Journals (217)
Search Results
- 217
Academic Journals
- 217
- Search Terms:ISSN: 13648535AndISSN: 1466609XAndVolume Number: 13AndIssue Number: 6AndStart Page: R174AndDate: 2009 Revise Search
- 1From: Critical Care. (Vol. 13, Issue Suppl 5) Peer-ReviewedIntroduction We sought to quantify changes in skeletal muscle oxygenation during exercise using near-infrared spectroscopy (NIRS) in healthy volunteers ascending to high altitude. Methods Using NIRS, skeletal...
- 2From: Critical Care. (Vol. 13, Issue Suppl 5) Peer-ReviewedIntroduction To assess potential metabolic and microcirculatory alterations in critically ill patients, near-infrared spectroscopy (NIRS) has been used, in combination with a vascular occlusion test (VOT), for the...
- 3From: Critical Care. (Vol. 13, Issue Suppl 5) Peer-ReviewedIntroduction The tissue hemoglobin index (THI) is a hemoglobin signal strength metric provided on the InSpectra[TM] StO.sub.2 Tissue Oxygenation Monitor, Model 650. There is growing interest regarding the physiologic...
- 4From: Critical Care. (Vol. 13, Issue Suppl 5) Peer-ReviewedIntroduction The aim of this study was to evaluate the effects of red blood cell (RBC) transfusions on muscle tissue oxygenation, oxygen metabolism and microvascular reactivity in critically ill patients using...
- 5From: Critical Care. (Vol. 13, Issue Suppl 5) Peer-ReviewedIntroduction Hypovolemia and hypovolemic shock are life-threatening conditions that occur in numerous clinical scenarios. Near-infrared spectroscopy (NIRS) has been widely explored, successfully and unsuccessfully, in...
- 6From: Critical Care. (Vol. 13, Issue Suppl 5) Peer-ReviewedIntroduction The purpose was to test the hypothesis that muscle perfusion, oxygenation, and microvascular reactivity would improve in patients with severe sepsis or septic shock during treatment with recombinant...
- 7From: Critical Care. (Vol. 13, Issue Suppl 2) Peer-ReviewedIntroduction This report describes the case mix and outcomes of patients with oesophageal cancer admitted to adult critical care units following elective oesophageal surgery in England, Wales and Northern Ireland....
- 8From: Critical Care. (Vol. 13, Issue Suppl 5) Peer-ReviewedIntroduction The prognostic value of continuous monitoring of tissue oxygen saturation (StO.sub.2) during early goal-directed therapy of critically ill patients has not been investigated. We conducted this prospective...
- 9From: Critical Care. (Vol. 13) Peer-ReviewedIntroduction In critically ill patients the relationship between the storage age of red blood cells (RBCs) transfused and outcomes are controversial. To determine if duration of RBC storage is associated with adverse...
- 10From: Critical Care. (Vol. 13, Issue Suppl 5) Peer-ReviewedIntroduction The study objectives were to evaluate septic shock-induced alterations in skeletal muscle hemoglobin oxygenation saturation (StO.sub.2) using near-infrared spectroscopy (NIRS) and forearm skin blood flow...
- 11From: Critical Care. (Vol. 13, Issue Suppl 5) Peer-ReviewedIntroduction Tissue oxygen saturation (StO.sub.2) and the vascular occlusion test (VOT) can identify tissue hypoperfusion in trauma and sepsis. However, the technique is neither standardized nor uses the same...
- 12From: Critical Care. (Vol. 13, Issue Suppl 5) Peer-ReviewedIntroduction Cardiac troponin has been shown to be elevated in one-half of the parturients admitted for post-partum haemorrhage. The purpose of the study was to assess whether increased cardiac troponin was associated...
- 13From: Critical Care. (Vol. 13, Issue Suppl 5) Peer-ReviewedIntroduction Haemodialysis has direct and indirect effects on skin and muscle microcirculatory regulation that are severe enough to worsen tolerance to physical exercise and muscle asthenia in patients undergoing...
- 14From: Critical Care. (Vol. 13) Peer-ReviewedAuthors: Gavin D Perkins (equal contributor) [1,4]; Nazim Nathani (equal contributor) [1]; Alex G Richter [1]; Daniel Park [1,4]; Murali Shyamsundar [5]; Ritva Heljasvaara [2]; Taina Pihlajaniemi [2]; Mav Manji [3]; W...
- 15From: Critical Care. (Vol. 13) Peer-ReviewedAuthors: Yael Paran (equal contributor) [1]; Doron Yablecovitch (equal contributor) [1]; Guy Choshen [1]; Ina Zeitlin [1]; Ori Rogowski [1]; Ronen Ben-Ami [2]; Michal Katzir [2]; Hila Saranga [1]; Tovit Rosenzweig [3];...
- 16From: Critical Care. (Vol. 13) Peer-ReviewedAuthors: Collette C Jonkam (corresponding author) [1]; Kamna Bansal [1]; Daniel L Traber [1]; Atsumori Hamahata [1]; Marc O Maybauer [1]; Dirk M Maybauer [1]; Robert A Cox [2]; Matthias Lange [1]; Rhykka L Connelly [1];...
- 17From: Critical Care. (Vol. 13) Peer-ReviewedAuthors: Raphael Briot (corresponding author) [1]; Sam Bayat [1]; Daniel Anglade [1]; Jean-Louis Martiel [1]; Francis Grimbert [1] Introduction Acute lung injury (ALI) is a major syndrome in patients in the...
- 18From: Critical Care. (Vol. 13) Peer-ReviewedAuthors: Wenfang Li [1]; Jun Qian [2]; Xuefen Liu [1]; Qiang Zhang [1]; Lv Wang [1]; Dechang Chen [1]; Zhaofen Lin (corresponding author) [1] Introduction Disasters such as earthquake, debris flow and landslide...
- 19From: Critical Care. (Vol. 13) Peer-ReviewedAuthors: Wusi Qiu (equal contributor) [1,2,3]; Chenchen Guo [1,2]; Hong Shen (corresponding author) (equal contributor) [2,3]; Keyong Chen [1]; Liang Wen [2]; Hongjie Huang [1]; Min Ding [1]; Li Sun [1]; Qizhou Jiang...
- 20From: Critical Care. (Vol. 13) Peer-ReviewedAuthors: Charles R Phillips (corresponding author) [1]; Kevin Vinecore [1]; Daniel S Hagg [1]; Rebecca S Sawai [2]; Jerome A Differding [2]; Jennifer M Watters [2]; Martin A Schreiber [2] Introduction Pulmonary...