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To establish the experts consensus on the management of delirium in critically ill patients.A special committee was set up by 15 experts from the Chinese Critical Hypothermia-Sedation Therapy Study Group.Each statement was assessed based on the GRADE (Grading of Recommendations Assessment,Development,and Evaluation) principle.Then the Delphi method was adopted by 36 experts to reassess all the statements.(1) Delirium is not only a mental change,but also a clinical syndrome with multiple pathophysiological changes.(2) Delirium is a form of disturbance of consciousness and a manifestation of abnormal brain function.(3) Pain is a common cause of delirium in critically ill patients.Analgesia can reduce the occurrence and development of delirium.(4) Anxiety or depression are important factors for delirium in critically ill patients.(5) The correlation between sedative and analgesic drugs and delirium is uncertain.(6) Pay attention to the relationship between delirium and withdrawal reactions.(7) Pay attention to the relationship between delirium and drug dependence/ withdrawal reactions.(8) Sleep disruption can induce delirium.(9) We should be vigilant against potential risk factors for persistent or recurrent delirium.(10) Critically illness related delirium can affect the diagnosis and treatment of primary diseases,and can also be alleviated with the improvement of primary diseases.(11) Acute change of consciousness and attention deficit are necessary for delirium diagnosis.(12) The combined assessment of confusion assessment method for the intensive care unit and intensive care delirium screening checklist can improve the sensitivity of delirium,especially subclinical delirium.(13) Early identification and intervention of subclinical delirium can reduce its risk of clinical delirium.(14) Daily assessment is helpful for early detection of delirium.(15) Hopoactive delirium and mixed delirium are common and should be emphasized.(16) Delirium may be accompanied by changes in electroencephalogram.Bedside electroencephalogram monitoring should be used in the ICU if conditions warrant.(17) Pay attention to differential diagnosis of delirium and dementia/depression.(18) Pay attention to the role of rapid delirium screening method in delirium management.(19) Assessment of the severity of delirium is an essential part of the diagnosis of delirium.(20) The key to the management of delirium is etiological treatment.(21) Improving environmental factors and making patient comfort can help reduce delirium.(22) Early exercise can reduce the incidence of delirium and shorten the duration of delirium.(23) Communication with patients should be emphasized and strengthened.Family members participation can help reduce the incidence of delirium and promote the recovery of delirium.(24) Pay attention to the role of sleep management in the prevention and treatment of delirium.(25) Dexmedetomidine can shorten the duration of hyperactive delirium or prevent delirium.(26) When using antipsychotics to treat delirium,we should be alert to its effect on the heart rhythm.(27) Delirium management should pay attention to brain functional exercise.(28) Compared with non-critically illness related delirium,the relief of critically illness related delirium will not accomplished at one stroke.(29) Multiple management strategies such as ABCDEF,eCASH and ESCAPE are helpful to prevent and treat delirium and improve the prognosis of critically ill patients.(30) Shortening the duration of delirium can reduce the occurrence of long-term cognitive impairment.(31) Multidisciplinary cooperation and continuous quality improvement can improve delirium management.Consensus can promote delirium management in critically ill patients,optimize analgesia and sedation therapy,and even affect prognosis.
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Objective To compare the clinical application of Da Vinci robot surgical system (RSS) with traditional open surgery (TOS).Methods From Feb 2015 to Jul 2016,48 cases of upper abdominal surgical disease patients were divided into RSS group (23 cases) and TOS group (25 patients) randomly.Results The anesthesia time [(194 ±16)min vs.(181 ±11)min,t=3.262,P=0.002] and operation time [(167 ± 14) min vs.(158 ± 14) min,t =2.292,P =0.027] were much longer in the RSS,while the blood loss during operation significantly less than the TOS [(128 ± 62) ml vs.(190 ± 86) ml,t =-2.886,P =0.006].The RSS has obvious advantages in 24 h-drainage [(69 ± 27) ml vs.(114 ± 54) ml.t =-3.680,P =0.001],time to out-of-bed activity [(27.7 ± 8.0) h vs.(35.7 ± 9.9) h,t =-3.067,P =0.004],BPS,postoperative exhausting time[(27.2 ±5.9)h vs.(32.8 ±8.3)h,t =-2.690,P =0.01] and length of hospital stay [(10.4 ± 1.8) d vs.(11.8 ± 1.9) d,t =-2.600,P =0.013].But the total hospital cost was higher in RSS [(117 000 ± 10 000) yuan vs.(77 000 ± 8 000) yuan,t =15.087,P =0.000)].Conclusions The RSS is a much minimally invasive surgery,reducing blood loss and postoperative pain,promoting rapid recovery,shortening hospital stay.
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@#Objective To observe the efficacy of early pulmonary rehabilitation training on respiratory function of patients with hypox-emia after coronary artery bypass grafting. Methods From February, 2013 to September, 2016, 53 patients with hypoxemia after coronary ar-tery bypass grafting were randomly divided into control group (n=25) and observation group (n=28). Both of them received routine therapy, while the observation group received pulmonary rehabilitation training in addition. Results Three days after extubation, the forced expirato-ry volume in one second (FEV1) (measured) and FEV1/forced vital capacity (FVC) were higher in the observation group than in the control group (t>3.590, P<0.01), while the level of PaO2 was higher (t=5.824, P<0.001); the FEV1 (measured), FEV1(measured/ predicted) and FEV1/FVC decreased in both groups (F>1.044, P<0.05). The hospital stay was shorter (t=―2.138, P=0.037). The level of PaO2 was the high-est one day after extubation among three time points in both groups (P<0.001). No significantly difference was observed in mechanical ven-tilation time and ICU stay between two groups (P>0.05). Conclusion Early respiratory exerciser training could improve the respiratory func-tion of patients with hypoxemia after coronary artery bypass grafting, shorten hospital stay.