The initial success rate of cardiopulmonary resuscitation and its associated factors in patients with cardiac arrest within 24 hours after anesthesia for an emergency surgery

Cardiac arrest in the perioperative period: a consensus guideline for identification, treatment, and prevention from the European Society of Anaesthesiology and Intensive Care and the European Society for Trauma and Emergency Surgery

INTRODUCTION

Cardiac arrest in the operating room is a rare but potentially life-threatening event with mortality rates of more than 50%. Contributing factors are often known, and the event is recognised rapidly as patients are usually under full monitoring. This guideline covers the perioperative period and is complementary to the European Resuscitation Council guidelines.

MATERIAL AND METHODS

The European Society of Anaesthesiology and Intensive Care and the European Society for Trauma and Emergency Surgery jointly nominated a panel of experts to develop guidelines for the recognition, treatment, and prevention of cardiac arrest in the perioperative period. A literature search was conducted in MEDLINE, EMBASE, CINAHL and the Cochrane Central Register of Controlled Trials. All searches were restricted to publications from 1980 to 2019 inclusive and to the English, French, Italian and Spanish languages. The authors also contributed individual, independent literature searches.

RESULTS

This guideline contains background information and recommendation for the treatment of cardiac arrest in the operating room environment, and addresses controversial topics such as open chest cardiac massage, resuscitative endovascular balloon occlusion and resuscitative thoracotomy, pericardiocentesis, needle decompression, and thoracostomy.

CONCLUSIONS

Successful prevention and management of cardiac arrest during anaesthesia and surgery requires anticipation, early recognition, and a clear treatment plan. The ready availability of expert staff and equipment must also be taken into consideration. Success not only depends on medical knowledge, technical skills and a well-organised team using crew resource management, but also on an institutional safety culture embedded in everyday practice through continuous education, training, and multidisciplinary co-operation.

[Current treatment concepts for trauma-related cardiac arrest : Focal points, differences and similarities]

Trauma-related deaths are not only a relevant medical problem but also a socioeconomic one. The care of a polytraumatized patient is one of the less commonly occurring missions in the rescue and emergency medical services. The aim of this article is to compare the similarities and differences between different course concepts and guidelines in the treatment of trauma-related cardiac arrests (TCA) and to filter out the main focus of each concept. Because of the various approaches in the treatment of polytraumatized patients, there are decisive differences between trauma-related cardiac arrests and cardiac arrests from other causes.

Incidences and factors associated with perioperative cardiac arrest in trauma patients receiving anesthesia

Purpose

The aim of this study was to determine the incidences and factors associated with perioperative cardiac arrest in trauma patients who received anesthesia for emergency surgery.

Patients and methods

This retrospective cohort study was approved by the medical ethical committee, Faculty of Medicine, Maharaj Nakorn Chiang Mai Hospital, Thailand. Data of 19,683 trauma patients who received anesthesia between January 2007 and December 2016, such as patient characteristics, surgery procedures, anesthesia information, anesthetic drugs, and cardiac arrest outcomes, were analyzed. Data of patients receiving local anesthesia by surgeons or monitoring anesthesia care (MAC) and those with much information missing were excluded. Factors associated with perioperative cardiac arrest were identified using univariate analysis and the multiple regression model. A stepwise algorithm was chosen at a P-value of <0.20 which was selected for multivariate analysis. A P-value of <0.05 was concluded as statistically significant.

Results

The perioperative cardiac arrest in trauma patients receiving anesthesia for emergency surgery was 170.04 per 10,000 cases. Factors associated with perioperative cardiac arrest in trauma patients were as follows: age >65 years (risk ratio [RR] =1.41, CI =1.02–1.96, P=0.039), American Society of Anesthesiologist (ASA) physical status 3 or higher (ASA physical status 3–4, RR =4.19, CI =2.09–8.38, P<0.001; ASA physical status 5–6, RR =21.58, CI =10.36–44.94, P<0.001), sites of surgery (intracranial, intrathoracic, upper intra-abdominal, and major vascular, each P<0.001), cardiopulmonary comorbidities (RR =1.55, CI =1.10–2.17, P=0.012), hemodynamic instability with shock prior to receiving anesthesia (RR =1.60, CI =1.21–2.11, P<0.001), and having a history of alcoholism (RR =5.27, CI =4.09–6.79, P<0.001).

Conclusion

The incidence of perioperative cardiac arrest in trauma patients receiving anesthesia for emergency surgery was very high and correlated with patient’s factors, especially old age and cardiopulmonary comorbidities, a history of drinking alcohol, increased ASA physical status, hemodynamic instability with shock prior to surgery, and sites of surgery such as brain, thorax, abdomen, and the major vascular region. Anesthesiologists and surgeons should be aware of a warning system and a well-equipped track to manage the surgical trauma patients.

Prognostic factors for death and survival with or without complications in cardiac arrest patients receiving CPR within 24 hours of anesthesia for emergency surgery

Purpose

To determine prognostic factors for death and survival with or without complications in cardiac arrest patients who received cardiopulmonary resuscitation (CPR) within 24 hours of receiving anesthesia for emergency surgery.

Patients and methods

A retrospective cohort study approved by the Maharaj Nakorn Chiang Mai University Hospital Ethical Committee. Data used were taken from records of 751 cardiac arrest patients who received their first CPR within 24 hours of anesthesia for emergency surgery between January 1, 2003 and October 31, 2011. The reviewed data included patient characteristics, surgical procedures, American Society of Anesthesiologist (ASA) physical status classification, anesthesia information, the timing of cardiac arrest, CPR details, and outcomes at 24 hours after CPR. Univariate and polytomous logistic regression analyses were used to determine prognostic factors associated with the outcome variable. P-values of less than 0.05 were considered statistically significant.

Results

The outcomes at 24 hours were death (638/751, 85.0%), survival with complications (73/751, 9.7%), and survival without complications (40/751, 5.3%). The prognostic factors associated with death were: age between 13–34 years (OR =3.08, 95% CI =1.03–9.19); ASA physical status three and higher (OR =6.60, 95% CI =2.17–20.13); precardiopulmonary comorbidity (OR =3.28, 95% CI =1.09–9.90); the condition of patients who were on mechanical ventilation prior to receiving anesthesia (OR =4.11, 95% CI =1.17–14.38); surgery in the upper abdominal site (OR =14.64, 95% CI =2.83–75.82); shock prior to cardiac arrest (OR =6.24, 95% CI =2.53–15.36); nonshockable electrocardiography (EKG) rhythm (OR =5.67, 95% CI =1.93–16.62); cardiac arrest occurring in postoperative period (OR =7.35, 95% CI =2.89–18.74); and duration of CPR more than 30 minutes (OR =4.32, 95% CI =1.39–13.45). The prognostic factors associated with survival with complications were being greater than or equal to 65 years of age (OR =4.30, 95% CI =1.13–16.42), upper abdominal site of surgery (OR =10.86, 95% CI =1.99–59.13), shock prior to cardiac arrest (OR =3.62, 95% CI =1.30–10.12), arrhythmia prior to cardiac arrest (OR =4.61, 95% CI =1.01–21.13), and cardiac arrest occurring in the postoperative period (OR =3.63, 95% CI =1.31–10.02).

Conclusion

The mortality and morbidity in patients who received anesthesia for emergency surgery within 24 hours of their first CPR were high, and were associated with identifiable patient comorbidity, age, shock, anatomic site of operation, the timing of cardiac arrest, EKG rhythm, and the duration of CPR. EKG monitoring helps to identify cardiac arrest quickly and diagnose the EKG rhythm as a shockable or nonshockable rhythm, with CPR being performed as per the American Heart Association (AHA) CPR Guidelines 2010. The use of the fast track system in combination with an interdisciplinary team for surgery, CPR, and postoperative care helps to rescue patients in a short time.

Incidence of and factors associated with perioperative cardiac arrest within 24 hours of anesthesia for emergency surgery

Purpose

To determine the incidence of and factors associated with perioperative cardiac arrest within 24 hours of receiving anesthesia for emergency surgery.

Patients and methods

This retrospective cohort study was approved by the ethical committee of Maharaj Nakorn Chiang Mai Hospital, Thailand. We reviewed the data of 44,339 patients receiving anesthesia for emergency surgery during the period from January 1, 2003 to March 31, 2011. The data included patient characteristics, surgical procedures, American Society of Anesthesiologists (ASA) physical status classification, anesthesia information, location of anesthesia performed, and outcomes. Data of patients who had received topical anesthesia or monitoring anesthesia care were excluded. Factors associated with cardiac arrest were identified by univariate analyses. Multiple regressions for the risk ratio (RR) and 95% confidence intervals (CI) were used to determine the strength of factors associated with cardiac arrest. A forward stepwise algorithm was chosen at a P-value <0.05.

Results

The incidence (within 24 hours) of perioperative cardiac arrest in patients receiving anesthesia for emergency surgery was 163 per 10,000. Factors associated with 24-hour perioperative cardiac arrest in emergency surgery were age of 2 years or younger (RR =1.46, CI =1.03–2.08, P=0.036), ASA physical status classification of 3–4 (RR =5.84, CI =4.20–8.12, P<0.001) and 5–6 (RR =33.98, CI =23.09–49.98, P<0.001), the anatomic site of surgery (upper intra-abdominal, RR =2.67, CI =2.14–3.33, P<0.001; intracranial, RR =1.74, CI =1.35–2.25, P<0.001; intrathoracic, RR =2.35, CI =1.70–3.24, P<0.001; cardiac, RR =3.61, CI =2.60–4.99, P<0.001; and major vascular; RR =3.05, CI =2.22–4.18, P<0.001), respiratory or cardiovascular comorbidities (RR =1.95, CI =1.60–2.38, P<0.001 and RR =1.38, CI =1.11–1.72, P=0.004, respectively), and patients in shock prior to receiving anesthesia (RR =2.62, CI =2.07–3.33, P<0.001).

Conclusion

The perioperative incidence of cardiac arrest within 24 hours of anesthesia for emergency surgery was high and associated with multiple factors such as young age (≤2 years old), cardiovascular and respiratory comorbidities, increasing ASA physical status classification, preoperative shock, and surgery site. Perioperative care providers, including surgeons, anesthesiologists, and nurses, should be prepared to manage promptly this high risk group of surgical patients.