about
Positive end-expiratory pressure (PEEP) during anaesthesia for prevention of mortality and postoperative pulmonary complicationsAddressing the Global Burden of Trauma in Major Surgery[Does intraoperative lung-protective ventilation reduce postoperative pulmonary complications?].Epidemiology, practice of ventilation and outcome for patients at increased risk of postoperative pulmonary complications: An observational study in 29 countries.A ventilation strategy during general anaesthesia to reduce postoperative atelectasisPure oxygen ventilation during general anaesthesia does not result in increased postoperative respiratory morbidity but decreases surgical site infection. An observational clinical study.Influence of perioperative oxygen fraction on pulmonary function after abdominal surgery: a randomized controlled trialLow Tidal Volume Ventilation in Patients without Acute Respiratory Distress Syndrome: A Paradigm Shift in Mechanical Ventilation.Manual hyperinflation partly prevents reductions of functional residual capacity in cardiac surgical patients--a randomized controlled trial.The LIPPSMAck POP (Lung Infection Prevention Post Surgery - Major Abdominal - with Pre-Operative Physiotherapy) trial: study protocol for a multi-centre randomised controlled trial.Oxygen and anesthesia: what lung do we deliver to the post-operative ward?Postoperative apnea, respiratory strategies, and pathogenesis mechanisms: a review.Lung protective ventilation in patients undergoing major surgery: a systematic review protocol.Current challenges in the recognition, prevention and treatment of perioperative pulmonary atelectasis.The oxygen reserve index (ORI): a new tool to monitor oxygen therapy.Predictive Factors of Atelectasis Following Endoscopic Resection.Postural lung recruitment assessed by lung ultrasound in mechanically ventilated children.Higher fraction of inspired oxygen in anesthesia induction does not affect functional residual capacity reduction after intubation: a comparative study of higher and lower oxygen concentration.Arterial oxygen tension and pulmonary ventilation in horses placed in the Anderson Sling suspension system after a period of lateral recumbency and anaesthetised with constant rate infusions of romifidine and ketamine.Maintenance of equine anaesthesia over the last 50 years: Controlled inhalation of volatile anaesthetics and pulmonary ventilation.Effects of an alveolar recruitment manoeuvre guided by lung ultrasound on anaesthesia-induced atelectasis in infants: a randomised, controlled trial.Effects of positive end-expiratory pressure and 30% inspired oxygen on pulmonary mechanics and atelectasis in cats undergoing non-bronchoscopic bronchoalveolar lavage.Pre-oxygenation before extubation.Minimal impairment in pulmonary function following laparoscopic surgery.Difficult Airway Society Guidelines for the management of tracheal extubation.Survey about the Extubation Practice among Anaesthesiologists in Kosovo.Lung ultrasound compared with chest X-ray in diagnosing postoperative pulmonary complications following cardiothoracic surgery: a prospective observational study.Water in the human body: An anesthesiologist's perspective on the connection between physicochemical properties of water and physiologic relevance.Supplemental oxygen or something else?
P2860
Q24194031-80E0A154-0995-4C75-94A8-CE1238CBCA66Q26782817-08D4C2A2-D530-4F64-A876-82FB2361ED31Q30249106-3A139163-3C97-4175-B389-E0F86A7C6674Q30492049-A1DA9EE4-259E-44B1-B2B4-120B9AE6B2B3Q33978509-5FD5F6A1-8085-4260-851D-762A24C90844Q34326160-B44BCA72-12EF-450D-A784-56E3720670CFQ34354849-D4EC4EE2-5BFA-47F0-95EF-B95A31FCCF1FQ35868568-3B565323-14BE-4FF9-BCE1-3A0A9931868DQ36070485-EA741883-452E-488F-A450-92B6452830D8Q36370536-F78E53DB-4D13-441B-B9EE-7FFBF127B0EAQ37999436-899E8FEE-9EC2-41D4-A357-E30A7606958EQ38062407-02AE2231-1D06-4A11-87EC-6B948D58D1BAQ38196325-9A5E044F-2631-4D6E-A10A-DFA8EA0C87A2Q38300872-12901EEC-44CC-4766-AFD2-4C43E76A0335Q38632811-CBFA9087-26A9-4AC1-A73E-7E507A8A782DQ40142561-8F16E7AF-450E-42E7-A71F-F767682F6C19Q42701388-C1CD5F4D-9FA7-415E-A203-CFB1FB889D92Q43567448-A1A3473B-5B7B-40C0-8FDB-918838045246Q45859730-CD6A21AF-0369-4672-A8D1-B654D259A05CQ47221174-20EE9FDC-CE91-4423-B660-4AC8079DFA09Q47369730-AFA65AB5-B1F7-4A16-AEA5-963634AB92AAQ47424659-7FDBFD62-BD0D-46A9-A023-FA8573DA021DQ47679431-6029A3FE-3C0B-4EA8-B45C-1097939F7597Q47929945-7C38158A-2A35-4D59-B62C-1C5727DCA7E5Q48188325-DD903A02-584F-4D67-B9F4-FA442BEBD081Q53838055-6618074F-FA10-4245-9614-FEF96B5846FFQ54257808-24CD858E-8F41-4B2A-B4C4-55B4C7EAF95CQ55435571-6C5B0700-7380-417F-A1CA-48EA51F136E5Q58128657-B6B28E27-8097-4CE6-B4E1-3EDF54491180
P2860
description
article científic
@ca
article scientifique
@fr
articolo scientifico
@it
artigo científico
@pt
bilimsel makale
@tr
scientific article published on June 2010
@en
vedecký článok
@sk
vetenskaplig artikel
@sv
videnskabelig artikel
@da
vědecký článek
@cs
name
Mechanisms of atelectasis in the perioperative period.
@en
Mechanisms of atelectasis in the perioperative period.
@nl
type
label
Mechanisms of atelectasis in the perioperative period.
@en
Mechanisms of atelectasis in the perioperative period.
@nl
prefLabel
Mechanisms of atelectasis in the perioperative period.
@en
Mechanisms of atelectasis in the perioperative period.
@nl
P1476
Mechanisms of atelectasis in the perioperative period
@en
P2093
Göran Hedenstierna
Lennart Edmark
P304
P356
10.1016/J.BPA.2009.12.002
P577
2010-06-01T00:00:00Z