KreitzerN, RathK, KurowskiBG, BakasT, HartK, LindsellCJ, et al. Rehabilitation practices in patients with moderate and severe traumatic brain injury. J Head Trauma Rehabil, 2019; 34(5):E66-E72.
2.
SottilePD, Nordon-CraftA, MaloneD, LubyDM, SchenkmanM, MossM. Physical therapist treatment of patients in the neurological intensive care unit: description of practice. Phys Ther, 2015; 95(7):1006-1014.
3.
BernhardtJ, BorschmannK, CollierJM, ThriftAG, LanghorneP, MiddletonS, et al. AVERT Trialists Collaboration Group. Fatal and non-fatal events within 14 days after early, intensive mobilization post stroke. Neurology, 2020; 96(8):e1156-e1166.
4.
HawrylukGWJ, CiterioG, HutchinsonP, KoliasA, MeyfroidtG, RobbaC, et al. Intracranial pressure: current perspectives on physiology and monitoring. Intensive Care Med, 2022; 48(10):1471-1481.
5.
SchizodimosT, SoulountsiV, IasonidouC, KapravelosN. An overview of management of intracranial hypertension in the intensive care unit. J Anesth, 2020; 34(5):741-757.
6.
BattagliniD, CiaravoloE, CaiffaS, DelpianoL, BallL, VenaA, et al. Systemic and cerebral effects of physiotherapy in mechanically ventilated subjects. Respir Care, 2023; 68(3).
7.
AndersonA, AlexandersJ, SinaniC, HayesS, FogartyM. Effects of ventilator vs manual hyperinflation in adults receiving mechanical ventilation: a systematic review of randomized clinical trials. Physiotherapy, 2015; 101(2):103-110.
8.
StillerK. Physiotherapy in intensive care: an updated systematic review. Chest, 2013; 144(3):825-847.
9.
VolpeMS, GuimaraesFS, MoraisCC. Airway clearance techniques for mechanically ventilated patients: insights for optimization. Respir Care, 2020; 65(8):1174-1188.
10.
KonradF, SchreiberT, Brecht-KrausD, GeorgieffM. Mucociliary transport in ICU patients. Chest, 1994; 105(1):237-241.
11.
Li BassiG, SaucedoL, MartiJD, RigolM, EsperattiM, LuqueN, et al. Effects of duty cycle and positive end-expiratory pressure on mucus clearance during mechanical ventilation. Crit Care Med, 2012; 40(3):895-902.
12.
HarroisA, AnsteyJR, DeaneAM, CraigS, UdyAA, McNamaraR, et al. Effects of routine position changes and tracheal suctioning on intracranial pressure in traumatic brain injury patients. J Neurotrauma, 2020; 37(20):2227-2233.
13.
FerreiraLL, ValentiVE, VanderleiLC. Chest physiotherapy on intracranial pressure of critically ill patients admitted to the intensive care unit: a systematic review. Rev Bras Ter Intensiva, 2013; 25(4):327-333.
14.
Cerqueira NetoML, MouraAV, CerqueiraTC, AquimEE, Rea-NetoA, OliveiraMC, et al. Acute effects of physiotherapeutic respiratory maneuvers in critically ill patients with craniocerebral trauma. Clinics (Sao Paulo), 2013; 68(9):1210-1214.
15.
Rodrigues-GomesRM, MartiJD, RolanRM, Gelabert-GonzalezM. Rapid chest compression effects on intracranial pressure in patients with acute cerebral injury. Trials, 2022; 23(1):312.
16.
WuM, YinX, ChenM, LiuY, ZhangX, LiT, et al. Effects of propofol on intracranial pressure and prognosis in patients with severe brain diseases undergoing endotracheal suctioning. BMC Neurol, 2020; 20(1):394.
17.
SinghS, ChouhanRS, BindraA, RadhakrishnaN. Comparison of effect of dexmedetomidine and lidocaine on intracranial and systemic hemodynamic response to chest physiotherapy and tracheal suctioning in patients with severe traumatic brain injury. J Anesth, 2018; 32(4):518-523.
18.
DeanE, RossJ. Discordance between cardiopulmonary physiology and physical therapy. Toward a rational basis for practice. Chest, 1992; 101(6):1694-1698.
19.
RichardJC, MaggioreSM, ManceboJ, LemaireF, JonsonB, BrochardL. Effects of vertical positioning on gas exchange and lung volumes in acute respiratory distress syndrome. Intensive Care Med, 2006; 32(10):1623-1626.
20.
HosteEA, RoosensCD, BrackeS, DecruyenaereJM, BenoitDD, VandewoudeKH, et al. Acute effects of upright position on gas exchange in patients with acute respiratory distress syndrome. J Intensive Care Med, 2005; 20(1):43-49.
21.
PatmanS, JenkinsS, StillerK. Physiotherapy does not prevent, or hasten recovery from, ventilator-associated pneumonia in patients with acquired brain injury. Intensive Care Med, 2009; 35(2):258-265.
22.
BeyerSE, SalgadoC, GarcaoI, CeliLA, VieiraS. Circadian rhythm in critically ill patients: insights from the eICU database. Cardiovasc Digit Health J, 2021; 2(2):118-125.
23.
HoriuchiK, JordanD, CohenD, KemperMC, WeissmanC. Insights into the increased oxygen demand during chest physiotherapy. Crit Care Med, 1997; 25(8):1347-1351.
24.
WeissmanC, KemperM, HardingJ. Response of critically ill patients to increased oxygen demand: hemodynamic subsets. Crit Care Med, 1994; 22(11):1809-1816.
25.
LepelletierD, RoquillyA, Demeure dit LatteD, MahePJ, LoutrelO, ChampinP, et al. Retrospective analysis of the risk factors and pathogens associated with early-onset ventilator-associated pneumonia in surgical-ICU head-trauma patients. J Neurosurg Anesthesiol, 2010; 22(1):32-37.
26.
LiY, LiuC, XiaoW, SongT, WangS. Incidence, risk factors, and outcomes of ventilator-associated pneumonia in traumatic brain injury: a meta-analysis. Neurocrit Care, 2020; 32(1):272-285.
27.
HwangJ, ChoiSJ. Early sedation depth and clinical outcomes in mechanically ventilated patients: a single-center, retrospective cohort study. Asian Nurs Res (Korean Soc Nurs Sci), 2022.
28.
StephensRJ, EvansEM, PajorMJ, PappalRD, EganHM, WeiM, et al. A dual-center cohort study on the association between early deep sedation and clinical outcomes in mechanically ventilated patients during the COVID-19 pandemic: the COVID-SED study. Crit Care, 2022; 26(1):179.
29.
AragonRE, ProanoA, MongilardiN, de FerrariA, HerreraP, RoldanR, et al. Sedation practices and clinical outcomes in mechanically ventilated patients in a prospective multi-center cohort. Crit Care, 2019; 23(1):130.
30.
ShehabiY, BellomoR, KadimanS, TiLK, HoweB, ReadeMC, et al. Sedation Practice in Intensive Care Evaluation (SPICE) Study Investigators and the Australian and New Zealand Intensive Care Society Clinical Trials Group. Sedation intensity in the first 48 hours of mechanical ventilation and 180-day mortality: a multinational prospective longitudinal cohort study. Crit Care Med, 2018; 46(6):850-859.
31.
TanakaLM, AzevedoLC, ParkM, SchettinoG, NassarAP, Rea-NetoA, et al. ERICC study investigators. Early sedation and clinical outcomes of mechanically ventilated patients: a prospective multi-center cohort study. Crit Care, 2014; 18(4):R156.
32.
O’PhelanKH, MerendaA, DennyKG, ZailaKE, GonzalezC. Therapeutic temperature modulation is associated with pulmonary complications in patients with severe traumatic brain injury. World J Crit Care Med, 2015; 4(4):296-301.
33.
HuiX, HaiderAH, HashmiZG, RushingAP, DhimanN, ScottVK, et al. Increased risk of pneumonia among ventilated patients with traumatic brain injury: every day counts!. J Surg Res, 2013; 184(1):438-443.
34.
ZinkEK, KumbleS, BeierM, GeorgeP, StevensRD, BahouthMN. Physiological responses to in-bed cycle ergometry treatment in intensive care unit patients with external ventricular drainage. Neurocrit Care, 2021; 35(3):707-713.
35.
RothC, StitzH, KleffmannJ, KaestnerS, DeinsbergerW, FerbertA, et al. Early physiotherapy by passive range of motion does not affect partial brain tissue oxygenation in neurocritical care patients. J Neurol Surg A Cent Eur Neurosurg, 2017; 78(1):42-45.
36.
ThelanderssonA, NellgardB, RickstenSE, CiderA. Effects of early bedside cycle exercise on intracranial pressure and systemic hemodynamics in critically ill patients in a neurointensive care unit. Neurocrit Care, 2016; 25(3):434-439.
37.
RothC, StitzH, KalhoutA, KleffmannJ, DeinsbergerW, FerbertA. Effect of early physiotherapy on intracranial pressure and cerebral perfusion pressure. Neurocrit Care, 2013; 18(1):33-38.
38.
ToledoC, GarridoC, TroncosoE, LoboSM. Effects of respiratory physiotherapy on intracranial pressure and cerebral perfusion pressure in severe traumatic brain injury patients. Revista brasileira de terapia intensiva, 20008; 20(4):339-343.
