Thoracic skeletal muscle quantification using computed tomography and prognosis of elderly ICU patients

In elderly ICU patients, the prevalence of skeletal muscle loss is high. Longitudinal effect of thoracic muscles, especially in elderly ICU patients, are unclear although skeletal muscle loss is related with the short- and long-term outcomes. This study aimed to evaluate whether pectoralis muscle mass loss could be a predictor of prognosis in elderly ICU patients. We retrospectively evaluated 190 elderly (age > 70 years) patients admitted to the ICU. We measured the cross-sectional area (CSA) of the pectoralis muscle (PMCSA) at the fourth vertebral region. CT scans within two days before ICU admission were used for analysis. Mortality, prolonged mechanical ventilation, and longitudinal changes in Sequential Organ Failure Assessment (SOFA) scores were examined. PMCSA below median was significantly related with prolonged ventilation (odds ratio 2.92) and a higher SOFA scores during the ICU stay (estimated mean = 0.94). PMCSA below median was a significant risk for hospital mortality (hazards ratio 2.06). In elderly ICU patients, a low ICU admission PMCSA was associated with prolonged ventilation, higher SOFA score during the ICU stay, and higher mortality. Adding thoracic skeletal muscle CSA at the time of ICU admission into consideration in deciding the therapeutic intensity in elderly ICU patients may help in making medical decisions.

Risk factors of prolonged ventilation after thymectomy in thymoma myasthenia gravis patients

Background To explore the risk factors for prolonged ventilation after thymectomy in patients with thymoma associated with myasthenia gravis (TAMG). Methods We reviewed the records of 112 patients with TAMG after thymectomy between January 2010 and December 2019 in Peking University People’s Hospital. Demographic, pathological, preoperative data and the Anesthesia, surgery details were assessed with multivariable logistic regression analysis to predict the risk of prolonged ventilation after thymectomy. A nomogram to predict the probability of post-thymectomy ventilation was constructed with R software. Discrimination and calibration were employed to evaluate the performance of the nomogram. Results By multivariate analysis, male, low vital capacity (VC), Osserman classification (IIb, III, IV), total intravenous anesthesia, and long operation time were identified as the risk factors and entered into the nomogram. The nomogram showed a robust discrimination, with an area under the receiver operating characteristic curve (AUC) of 0. 835 (95% confidence interval [CI], 0.757–0.913). The calibration plot indicated that the nomogram-predicted probabilities compared very well with the actual probabilities (Hosmer–Lemeshow test: P = 0.921). Conclusion The nomogram is a valuable predictive tool for prolonged ventilation after thymectomy in patients with TAMG.

Risk factors for prolonged ventilation after the modified Fontan procedure

Objective: To investigate the risk factors associated with prolonged ventilation after Fontan surgery. Design: Retrospective case series. Setting: Tertiary childrens hospital. Patients: We included 123 children who underwent Fontan surgery without delayed sternal closure or extracorporeal membrane oxygenation between 2011 and 2017. Intervention: Fontan surgery. Measurements and main results: Prolonged ventilation was defined as intubation for more than 24 hours after surgery. Preoperative, intraoperative, and perioperative data were collected retrospectively from medical records. Multivariate logistic regression analysis was used to identify risk factors for prolonged ventilation. The median age and weight of patients were 2.2 years and 10.0 kg, respectively. Seventeen per cent of the patients (n = 21) received prolonged mechanical ventilation, and the median intubation period was 2.9 days. There were no 90-day or in-hospital deaths. The independent predictors of prolonged ventilation identified were fenestration (p < 0.01), low pulmonary artery index (p = 0.02), and advanced atrioventricular regurgitation (p < 0.01). The duration of ICU stay was significantly longer in the prolonged ventilation group than in the early extubation group (10 days versus 6 days, p < 0.01). Conclusion: Fenestration, low pulmonary artery index, and significant atrioventricular regurgitation are risk factors for prolonged ventilation after Fontan surgery. Careful preoperative and perioperative management that considers the risk factors for prolonged ventilation in each individual is important.

Impact of body mass index on early and mid-term outcomes after surgery for acute Stanford type A aortic dissection

Background Obesity is dramatically increasing worldwide, and more obese patients may develop aortic dissection and present for surgical repair. The study aims to analyse the impact of body mass index (BMI) on surgical outcomes in patients with acute Stanford type A aortic dissection (ATAAD). Methods From January 2017 to June 2019, the clinical data of 268 ATAAD patients in a single centre were retrospectively reviewed. They were divided into three groups based on the BMI: normal weight (BMI 18.5 to < 25 kg/m2, n = 110), overweight (BMI 25 to < 30 kg/m2, n = 114) and obese (BMI ≥30 kg/m2, n = 44). Results There was no statistical difference among the three groups in terms of the composite adverse events including 30-day mortality, stroke, paraplegia, renal failure, hepatic failure, reintubation or tracheotomy and low cardiac output syndrome (20.9% vs 21.9% vs 18.2% for normal, overweight and obese, respectively; P = 0.882). No significant difference was found in the mid-term survival among the three groups. The proportion of prolonged ventilation was highest in the obese group followed by the overweight and normal groups (59.1% vs 45.6% vs 34.5%, respectively; P = 0.017). Multivariable logistic regression analysis suggested that BMI was not associated with the composite adverse events, while BMI ≥30 kg/m2 was an independent risk factor for prolonged ventilation (OR 2.261; 95% CI 1.056–4.838; P = 0.036). Conclusions BMI had no effect on the early major adverse outcomes and mid-term survival after surgery for ATAAD. Satisfactory surgical outcomes can be obtained in patients with ATAAD at all weights.

Level of serum soluble lumican and risks of perioperative complications in patients receiving aortic surgery

Objective Several serum biomarkers have been investigated for their potential as diagnostic tools in aortic disease; however, no study has investigated the association between serum biomarkers and outcomes after aortic surgery. This study explored the predictive ability of serum soluble lumican in postoperative outcomes after aortic surgery. Methods In total, 58 patients receiving aortic surgery for aortic dissection or aneurysm at Linkou Chang Gung Memorial Hospital in Taiwan in December 2011–September 2018 were enrolled. Blood samples were collected immediately upon patients’ arrival in the intensive care unit after aortic surgery. The diagnostic properties of soluble lumican levels were assessed by performing receiver operating characteristic (ROC) curve analysis. The confidence interval (CI) of the area under the ROC curve (AUC) was measured using DeLong’s nonparametric method and the optimal cutoff was determined using the Youden index. Results The serum soluble lumican level distinguished prolonged ventilation (AUC, 73.5%; 95% CI, 57.7%–89.3%) and hospital stay for >30 days (AUC, 78.2%; 95% CI, 61.6%–94.7%). The optimal cutoffs of prolonged ventilation and hospital stay for >30 days were 1.547 and 5.992 ng/mL, respectively. The sensitivity and specificity were respectively 100% (95% CI, 71.5%–100%) and 40.4% (95% CI, 26.4%–55.7%) for prolonged ventilation and 58% (95% 27.7%–84.8%) and 91.3% (95% CI, 79.2%–97.6%) for hospital stay for >30 days. Conclusions The serum soluble lumican level can be a potential prognostic factor for predicting poor postoperative outcomes after aortic surgery. However, more studies are warranted in the future.

Pediatric tracheostomy in COVID-19 pandemic: a review

Coronavirus disease 2019 (COVID-19) is a highly contagious infection caused by a novel strain of coronavirus called severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2). The severity of the COVID-19 infection of the pediatric patient varies broadly between a mild cough and fever to severe form of diseases such as acute respiratory distress syndrome (ARDS) for which some may need intubation and followed by mechanical ventilation through tracheostomy in case of prolonged ventilation. Performing tracheostomy in pediatric patient pose a challenge for health care professional as there is high chance of spread of the disease in COVID-19 pandemic. Surgical tracheostomy is an aerosol generating procedure which causes high chance of spread of infections. There is increasing concern for high transmissibility of the virus to the operating surgeon with their assisting staff and other nearby patients. Pediatric tracheostomy should be performed with close association with pediatric otolaryngologists, anesthesiologists and pediatric intensive care physicians along with adequate personal protective equipment (PPE) for smooth and safe execution of the procedure.

Use of Either Non-invasive Ventilation Immediately Post-extubation or Controlled Mechanical Ventilation for One Hour after Fulfilling Weaning Criteria Decreases Re-intubation of Patients with Post-traumatic ARDS

Introduction: Re-intubation and re-ventilation after complete weaning of patients with prolonged ventilation are considered a major problem in ICU. The re-intubation in such patients associated with higher mortalities prolongs the duration of ICU stay. The mortality rate in those patients may exceed 40% in some studies. Aims: The study aimed to compare and evaluate the effect of use of two new maneuvers with control after fulfilling criteria of weaning from prolonged ventilation, either immediate use of NIV post-extubation and every 12 hours for 24 hours or MV for one hour on both re-intubation and ICU discharge of traumatic ARDS patients who ventilated for one week or more. Materials and Methods: It is a prospective double-blind study done on total 300 patients, admitted with respiratory failure ARDS due to severe lung contusion. All of them were selected to be ventilated for > one week. All of them fulfilled the criteria of weaning at the end of the studied period. Patients were randomly allocated in three groups; each group contained 100 patients. Group A was considered the control group. They extubated and followed our routine protocol; patients of group B used our first new maneuver and reconnected to mechanical ventilation before extubation for one hour, while patients of group C used our second new maneuver; patients of this group extubated and immediately connected to NIV with BIPAP mode for 1 hour every 12 hours for 24 hours. Results: There was a significant reduction in the number of patients who experienced deterioration in conscious level throughout the study in patients of both groups B and C compared to group A. Also, a significant reduction was seen in the number of patients who experienced deterioration in clinical parameters of respiration, of both groups B and C compared to group A with regard to high respiratory rate, desaturation and development of hyperdynamic circulation (tachycardia and hypertension). Also, a significant reduction was seen in the number of patients who had multiple quadrant parenchymatous infiltration throughout the study in patients of both groups B and C compared to group A. significant reduction in the number of patients marked limitation to FEV1, FVC and MVV in patients of both groups B and C compared to group A. Conclusion: Use of either immediate NIV every 12 hours for 24 hours or MV for one hour after fulfillment of weaning criteria reduced reintubation, re-ventilation and post-extubation respiratory failure and decreased the ICU stay in prolonged ventilated patients due to ARDS from severe lung trauma with no significant difference between them.

Tracheostomy and Improvement in Utilization of Hospital Resources During SARS-CoV-2 Pandemic Surge

The SARS-CoV-2 pandemic has affected millions across the world. Significant patient surges have caused severe resource allocation challenges in personal protective equipment, medications, and staffing. The virus produces bilateral lung infiltrates causing significant oxygen depletion and respiratory failure thus increasing the need for ventilators. The patients who require ventilation are often requiring prolonged ventilation and depleting hospital resources. Tracheostomy is often utilized in patients requiring prolonged ventilation, and early tracheostomy in critical care patients has been shown in some studies to improve a variety of factors including intensive care unit (ICU) length of stay, ventilation weaning, and decreased sedation medication utilization. In a patient surge setting, as long as adequate personal protective equipment (PPE) is available to minimize spread to healthcare workers, early tracheostomy may be a beneficial management of these patients. Decreasing sedative medication utilization may help prevent shortages in future waves of infection and improve patient-provider communication as patients are more alert. Tracheostomy care is easier than endotracheal intubation and may have decreased viral aerosolization risk, particularly if repeat intubation is necessary after a weaning trial. Additionally, tracheostomy patients can be monitored with less staff, decreasing total healthcare worker exposure to infection. To manage risk of exposure, coordination of ventilation controlled by an anesthesiologist or a critical care physician with a surgeon during the procedure can minimize aerosolization to the team. Risk management and resource allocation is of the utmost importance in any global crisis and procedures must be appropriately planned and benefits to patients, as well as minimized exposure to healthcare providers, must be considered. Early tracheostomy could be a beneficial procedure for severe SARS-CoV-2 patients to minimize long-term virus aerosolization and exposure for healthcare workers while decreasing sedation, allowing for earlier transfer out of the ICU, and improving hospital resource utilization.

Thoracic Skeletal Muscle Quantification Using Computed Tomography And Prognosis Of Elderly ICU Patients

Background: In elderly ICU patients, the prevalence of skeletal muscle loss is high. And the consequences of skeletal muscle loss can be severe in elderly. Correlations have been found between the muscle cross-sectional area (CSA) at a single thoracic level on chest computed tomography (CT). Correlation between thoracic muscle mass and mortality has been found in ICU patients. But longitudinal effect of thoracic muscles especially in elderly ICU patients are unclear although skeletal muscle loss is related with the short- and long-term outcomes. Objective: This study aimed to evaluate whether pectoralis muscle mass could be a predictor of prognosis in elderly ICU patients.Methods: We retrospectively evaluated 190 elderly patients admitted in the ICU between January 2010 and December 2015 in one tertiary care hospital in South Korea. We measured the CSA of the pectoralis muscle area (PMCSA) at the fourth vertebral region. CT scans within two days before ICU admission were used for analysis. Mortality, prolonged mechanical ventilation, and longitudinal change in Sequential Organ Failure Assessment (SOFA) scores were examined. Multivariate logistic regression, linear mixed, and multivariate Cox proportional hazards models were used.Results: PMCSA below median was significantly related with prolonged ventilation. (odds ratio 2.92, 95% CI: 1.02-1.42, P=0.06) and a higher SOFA score during the ICU stay (estimated mean = 0.94, P = 0.03). PMCSA below median was a significant risk for all-cause mortality (HR: 2.06, 95% CI: 1.23-3.47, P=0.01)Conclusions: In elderly ICU patients, low ICU admission PMCSA was associated with prolonged ventilation, a higher SOFA score during the ICU stay and higher mortality. Adding thoracic skeletal muscle CSA at the time of ICU admission into consideration in deciding therapeutic intensity in elderly ICU patients may help in making medical decisions.