Characteristics and short-term outcomes of patients with esophageal cancer with unplanned intensive care unit admissions: a retrospective cohort study

Freitas, Isabel Cristina Lima de; Assis, Dryelen Moreira de; Amendola, Cristina Prata; Russo, Diana da Silva; Moraes, Ana Paula Pierre de; Caruso, Pedro; Nassar Júnior, Antonio Paulo

doi:10.5935/0103-507X.20200041

ABSTRACT

Objective:

To depict the clinical presentation and outcomes of a cohort of critically ill patients with esophageal cancer.

Methods:

We carried out a multicenter retrospective study that included patients with esophageal cancer admitted to intensive care units with acute illness between September 2009 and December 2017. We collected the demographic and clinical characteristics of all included patients, as well as organ-support measures and hospital outcomes. We performed logistic regression analysis to identify independent factors associated with in-hospital mortality.

Results:

Of 226 patients included in the study, 131 (58.0%) patients died before hospital discharge. Squamous cell carcinoma was more frequent than adenocarcinoma, and 124 (54.9%) patients had metastatic cancer. The main reasons for admission were sepsis/septic shock and acute respiratory failure. Mechanical ventilation (OR = 6.18; 95%CI 2.86 - 13.35) and metastatic disease (OR = 7.10; 95%CI 3.35 - 15.05) were independently associated with in-hospital mortality.

Conclusion:

In this cohort of patients with esophageal cancer admitted to intensive care units with acute illness, the in-hospital mortality rate was very high. The requirement for invasive mechanical ventilation and metastatic disease were independent prognostic factors and should be considered in discussions about the short-term outcomes of these patients.

Keywords:
Critical care; Critical care outcomes; Esophageal neoplasms; Respiration, artificial; Mortality; Prognosis; Epidemiology

RESUMO

Objetivo:

Mostrar o quadro clínico e os desfechos de uma coorte de pacientes críticos com câncer esofágico.

Métodos:

Conduzimos um estudo multicêntrico retrospectivo que incluiu pacientes com câncer esofágico admitidos a unidades de terapia intensiva em razão de doença aguda entre setembro de 2009 e dezembro de 2017. Colhemos os dados demográficos e as características clínicas de todos os pacientes incluídos, assim como as medidas de suporte a órgãos e os desfechos no hospital. Realizamos uma análise de regressão logística para identificar os fatores associados de forma independente com mortalidade hospitalar.

Resultados:

Dentre os 226 pacientes incluídos no estudo, 131 (58,0%) faleceram antes de receber alta hospitalar. O carcinoma espinocelular foi mais frequente do que o adenocarcinoma, e 124 (54,9%) pacientes tinham câncer metastático. As principais razões para admissão foram sepse/choque séptico e insuficiência respiratória aguda. Uso de ventilação mecânica (RC = 6,18; IC95% 2,86 - 13,35) e doença metastática (RC = 7,10; IC95% 3,35 - 15,05) tiveram associação independente com mortalidade hospitalar.

Conclusão:

Nesta coorte de pacientes com câncer esofágico admitidos à unidades de terapia intensiva em razão de doença aguda, a taxa de mortalidade hospitalar foi muito elevada. A necessidade de utilizar ventilação mecânica invasiva e a presença de doença metastática foram fatores independentes de prognóstico e devem ser levados em conta nas discussões a respeito dos desfechos destes pacientes em curto prazo.

Descritores:
Cuidados críticos; Resultados de cuidados críticos; Neoplasias esofágicas; Respiração artificial; Mortalidade; Prognóstico; Epidemiologia

INTRODUCTION

Esophageal cancer is among the most common cancers worldwide. Its 5-year survival rate, although still poor, has improved considerably in recent years.⁽¹1 Allemani C, Matsuda T, Di Carlo V, Harewood R, Matz M, Niksic M, Bonaventure A, Valkov M, Johnson CJ, Estève J, Ogunbiyi OJ, Azevedo E Silva G, Chen WQ, Eser S, Engholm G, Stiller CA, Monnereau A, Woods RR, Visser O, Lim GH, Aitken J, Weir HK, Coleman MP; CONCORD Working Group. Global surveillance of trends in cancer survival 2000-14 (CONCORD-3): analysis of individual records for 37 513 025 patients diagnosed with one of 18 cancers from 322 population-based registries in 71 countries. Lancet. 2018;391(10125):1023-75.^,²2 DeSantis CE, Lin CC, Mariotto AB, Siegel RL, Stein KD, Kramer JL, et al. Cancer treatment and survivorship statistics, 2014. CA Cancer J Clin. 2014;64(4):252-71.⁾ Treatment typically involves chemotherapy, radiotherapy, and extensive surgery, all of which are associated with severe complications. Postoperative and clinical complications are associated with increased mortality in patients with esophageal cancer.⁽³3 Rutegard M, Lagergren P, Rouvelas I, Mason R, Lagergren J. Surgical complications and long-term survival after esophagectomy for cancer in a nationwide Swedish cohort study. Eur J Surg Oncol. 2012;38(7):555-61.

4 Raymond DP, Seder CW, Wright CD, Magee MJ, Kosinski AS, Cassivi SD, et al. Predictors of Major Morbidity or Mortality After Resection for Esophageal Cancer: A Society of Thoracic Surgeons General Thoracic Surgery Database Risk Adjustment Model. Ann Thorac Surg. 2016;102(1):207-14.^-⁵5 Chin JH, Moon YJ, Jo JY, Han YA, Kim HR, Lee EH, et al. Association between Postoperatively Developed Atrial Fibrillation and Long-Term Mortality after Esophagectomy in Esophageal Cancer Patients: An Observational Study. PLoS One. 2016;11(5):e0154931.⁾

Intensive care unit (ICU) admission is common among patients with cancer. Although many studies have examined epidemiological patterns and outcomes among critically ill patients with cancer,⁽⁶6 Soares M, Caruso P, Silva E, Teles JM, Lobo SM, Friedman G, Dal Pizzol F, Mello PV, Bozza FA, Silva UV, Torelly AP, Knibel MF, Rezende E, Netto JJ, Piras C, Castro A, Ferreira BS, Réa-Neto A, Olmedo PB, Salluh JI; Brazilian Research in Intensive Care Network (BRICNet). Characteristics and outcomes of patients with cancer requiring admission to intensive care units: a prospective multicenter study. Crit Care Med. 2010;38(1):9-15.

7 Puxty K, McLoone P, Quasim T, Kinsella J, Morrison D. Survival in solid cancer patients following intensive care unit admission. Intensive Care Med. 2014;40(10):1409-28.^-⁸8 Ostermann M, Ferrando-Vivas P, Gore C, Power S, Harrison D. Characteristics and Outcome of Cancer Patients Admitted to the ICU in England, Wales, and Northern Ireland and National Trends Between 1997 and 2013. Crit Care Med. 2017;45(10):1668-76.⁾ few studies have addressed whether specific types of cancer have different presentations and outcomes. For example, although cancer status and complications have not been associated with short-term mortality in the majority of studies of critically ill patients,⁽⁷7 Puxty K, McLoone P, Quasim T, Kinsella J, Morrison D. Survival in solid cancer patients following intensive care unit admission. Intensive Care Med. 2014;40(10):1409-28.⁾ disease stage has been identified as a prognostic factor in patients with advanced lung cancer⁽⁹9 Barth C, Soares M, Toffart AC, Timsit JF, Burghi G, Irrazabal C, Pattison N, Tobar E, Almeida BF, Silva UV, Azevedo LC, Rabbat A, Lamer C, Parrot A, Souza-Dantas VC, Wallet F, Blot F, Bourdin G, Piras C, Delemazure J, Durand M, Salluh J, Azoulay E, Lemiale V; Lung Cancer in Critical Care (LUCCA) Study Investigators. Characteristics and outcome of patients with newly diagnosed advanced or metastatic lung cancer admitted to intensive care units (ICUs). Ann Intensive Care. 2018;8(1):80.⁾ and head and neck cancer.⁽¹⁰10 Soares M, Salluh JI, Toscano L, Dias FL. Outcomes and prognostic factors in patients with head and neck cancer and severe acute illnesses. Intensive Care Med. 2007;33(11):2009-13.⁾

More than one-quarter of all patients with esophageal cancer are admitted to the ICU during the first 2 years after diagnosis.⁽¹¹11 Bos MM, Verburg IW, Dumaij I, Stouthard J, Nortier JW, Richel D, et al. Intensive care admission of cancer patients: a comparative analysis. Cancer Med. 2015;4(7):966-76.⁾ However, most studies of these patients have examined only postoperative outcomes following esophagectomy.⁽³3 Rutegard M, Lagergren P, Rouvelas I, Mason R, Lagergren J. Surgical complications and long-term survival after esophagectomy for cancer in a nationwide Swedish cohort study. Eur J Surg Oncol. 2012;38(7):555-61.^,⁴4 Raymond DP, Seder CW, Wright CD, Magee MJ, Kosinski AS, Cassivi SD, et al. Predictors of Major Morbidity or Mortality After Resection for Esophageal Cancer: A Society of Thoracic Surgeons General Thoracic Surgery Database Risk Adjustment Model. Ann Thorac Surg. 2016;102(1):207-14.⁾ Therefore, little is known about the characteristics and outcomes of patients with esophageal cancer who have unplanned ICU admissions due to acute illness.

The aims of this study were to depict the clinical presentation and outcomes of a cohort of critically ill patients with esophageal cancer and to identify the risk factors associated with in-hospital mortality in these patients.

METHODS

In this retrospective cohort study, the medical records of patients with esophageal cancer who were admitted to four ICUs in Brazil between September 2009 and December 2017 were examined. Three hospitals were dedicated cancer centers (A.C. Camargo Cancer Center, Hospital de Câncer de Barretos and Hospital de Câncer do Maranhão “Dr. Tarquinio Lopes Filho”), and one was a general hospital with a high volume of cancer patients (Hospital Moinhos de Vento). The study was approved by the ethics committees of all participating centers. Due to the observational and retrospective nature of the study, the requirement for informed patient consent was waived. We followed the STROBE (STrengthening the Reporting of OBservational studies in Epidemiology) guidelines for the reporting of observational studies.⁽¹²12 von Elm E, Altman DG, Egger M, Pocock SJ, Gotzsche PC, Vandenbroucke JP; STROBE Initiative. The Strengthening the Reporting of Observational Studies in Epidemiology (STROBE) statement: guidelines for reporting observational studies. J Clin Epidemiol. 2008;61(4):344-9.⁾

The inclusion criteria for this study were a confirmed diagnosis of esophageal cancer, age ≥ 18 years, and admission for medical or urgent surgical reasons. Only the first ICU admission was taken into account. We excluded patients admitted for elective surgery and those transferred to other hospitals before discharge.

We collected clinical data obtained at admission and data on clinical outcomes at the time of hospital discharge from patients’ electronic medical records. We collected the following data obtained at admission: age, sex, Simplified Acute Physiology Score (SAPS) 3, Sequential Organ Failure Assessment (SOFA) score, Charlson Comorbidity Index (CCI), Eastern Cooperative Oncology Group (ECOG) performance status, histological type (adenocarcinoma or squamous cell carcinoma), cancer stage, and source of and reason for admission. We also collected the following data regarding ICU and hospital stays and complications: cancer-related complications (tumor mass, bleeding, stenosis, and fistulae), delirium, organ support during ICU stay (vasopressors, mechanical ventilation, and renal replacement therapy), and lengths of ICU and hospital stays. Since points originating from tumor characteristics impact the CCI calculation, we reported a modified version of the CCI that did not take into account points from cancer characteristics. The primary outcome was in-hospital mortality.

Statistical analysis

Continuous variables are presented as medians and interquartile ranges, and categorical variables are presented as absolute numbers and percentages. Univariate analysis was performed to compare data from patients who survived and those who died during hospitalization using the Mann-Whitney or chi-squared test, as appropriate. We did not adjust for multiple comparisons in the univariate analyses.

We performed logistic regression analysis to identify independent prognostic variables among seven clinical variables defined a priori (modified CCI, performance status [categorized as ECOG 0 - 1 versus ECOG 2 - 4], metastatic disease [cancer stage IV], occurrence of delirium, need for mechanical ventilation, vasopressor use, and renal replacement therapy during ICU stay). First, we evaluated collinearity by measuring the variation inflation factor (VIF). We considered a VIF > 2 as diagnostic of multicollinearity. In the case of multicollinearity, we included only the more clinically relevant variable. There were no missing values for outcomes, but there were missing values for cancer status (and, consequently, CCI) in four patients and for performance status in two. We did not impute missing values and proceeded to a complete-case analysis. The odds ratio (OR) and 95% confidence interval (95%CI) were calculated for each variable included in the model. Model calibration was assessed by the Hosmer-Lemeshow (H-L) goodness-of-fit test. A p value > 0.05 for this test was indication of good calibration. All data were analyzed with Statistical Package for Social Science (SPSS, IBM Corporation, Armonk, NY, USA) version 21.

RESULTS

This study included 226 patients with esophageal cancer admitted to the ICU between September 2009 and December 2017 (Figure 1). Table 1 shows the patients’ characteristics. Squamous cell carcinoma was more frequent than adenocarcinoma, and most patients had advanced cancer. The patients were admitted predominantly from emergency rooms and wards, and the main reasons for admission were sepsis/septic shock and acute respiratory failure. Cancer-related complications were common.

Figure 1
Study flowchart. ICU - intensive care unit.

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Table 1
Characteristics of patients with esophageal cancer admitted to intensive care units due to acute illness according to vital status at hospital discharge

In total, 131 (58.0%) patients died before hospital discharge. Patients who died had higher SAPS 3 and SOFA scores at admission, higher comorbidity burdens, more metastatic disease, and increased needs for mechanical ventilation and vasopressors.

There was no multicollinearity among the chosen variables (Table 2). Mechanical ventilation (OR = 6.18; 95%CI, 2.86 - 13.35) and metastatic disease (OR = 7.10; 95%CI, 3.35 - 15.05) were independently associated with in-hospital mortality (Table 3). The model was well calibrated (H-L = 7.33, p = 0.50).

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Table 2
Variation inflation index of the selected variables to be included in the logistic regression model

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Table 3
Logistic regression results for risk factors independently associated with in-hospital mortality

DISCUSSION

This study showed that patients with esophageal cancer admitted to the ICU for acute illness were severely ill and had a high in-hospital mortality rate. Mechanical ventilation and metastatic disease were independently associated with in-hospital mortality.

Although many studies have addressed the characteristics and outcomes of critically ill patients with solid cancers⁽⁷7 Puxty K, McLoone P, Quasim T, Kinsella J, Morrison D. Survival in solid cancer patients following intensive care unit admission. Intensive Care Med. 2014;40(10):1409-28.⁾ as well as patients with esophageal cancer admitted to the ICU after elective esophagectomy,⁽³3 Rutegard M, Lagergren P, Rouvelas I, Mason R, Lagergren J. Surgical complications and long-term survival after esophagectomy for cancer in a nationwide Swedish cohort study. Eur J Surg Oncol. 2012;38(7):555-61.^,⁴4 Raymond DP, Seder CW, Wright CD, Magee MJ, Kosinski AS, Cassivi SD, et al. Predictors of Major Morbidity or Mortality After Resection for Esophageal Cancer: A Society of Thoracic Surgeons General Thoracic Surgery Database Risk Adjustment Model. Ann Thorac Surg. 2016;102(1):207-14.⁾ to our knowledge, no study has focused on patients with esophageal cancer admitted with acute illness. In our cohort, such patients had a higher mortality rate than critically ill patients with solid cancers in general.⁽⁷7 Puxty K, McLoone P, Quasim T, Kinsella J, Morrison D. Survival in solid cancer patients following intensive care unit admission. Intensive Care Med. 2014;40(10):1409-28.⁾ Our results are comparable to those reported for patients with advanced lung cancer⁽⁹9 Barth C, Soares M, Toffart AC, Timsit JF, Burghi G, Irrazabal C, Pattison N, Tobar E, Almeida BF, Silva UV, Azevedo LC, Rabbat A, Lamer C, Parrot A, Souza-Dantas VC, Wallet F, Blot F, Bourdin G, Piras C, Delemazure J, Durand M, Salluh J, Azoulay E, Lemiale V; Lung Cancer in Critical Care (LUCCA) Study Investigators. Characteristics and outcome of patients with newly diagnosed advanced or metastatic lung cancer admitted to intensive care units (ICUs). Ann Intensive Care. 2018;8(1):80.⁾ and head and neck cancer⁽¹⁰10 Soares M, Salluh JI, Toscano L, Dias FL. Outcomes and prognostic factors in patients with head and neck cancer and severe acute illnesses. Intensive Care Med. 2007;33(11):2009-13.⁾ admitted to ICUs due to acute illness. In a Dutch study of short- and long-term outcomes of patients admitted to the ICU with different types of cancer, esophageal cancer was associated with a 30-day survival rate of 93%.⁽¹¹11 Bos MM, Verburg IW, Dumaij I, Stouthard J, Nortier JW, Richel D, et al. Intensive care admission of cancer patients: a comparative analysis. Cancer Med. 2015;4(7):966-76.⁾ However, the authors did not differentiate between patients admitted for elective and nonelective reasons. More than one-quarter of patients with esophageal cancer in this cohort were admitted to the ICU during follow-up, and many may have been selected patients with favorable therapeutic prospects.⁽¹¹11 Bos MM, Verburg IW, Dumaij I, Stouthard J, Nortier JW, Richel D, et al. Intensive care admission of cancer patients: a comparative analysis. Cancer Med. 2015;4(7):966-76.⁾ In another study of the same cohort, upper gastrointestinal cancer was independently associated with in-hospital mortality among patients with unplanned admissions.⁽¹³13 Bos MM, de Keizer NF, Meynaar IA, Bakhshi-Raiez F, de Jonge E. Outcomes of cancer patients after unplanned admission to general intensive care units. Acta Oncol. 2012;51(7):897-905.⁾ These results are in accordance with those of other studies suggesting that ICU admission for acute illness is associated with 50% - 70% greater mortality than is admission for elective surgery among patients with cancer.⁽⁸8 Ostermann M, Ferrando-Vivas P, Gore C, Power S, Harrison D. Characteristics and Outcome of Cancer Patients Admitted to the ICU in England, Wales, and Northern Ireland and National Trends Between 1997 and 2013. Crit Care Med. 2017;45(10):1668-76.^,¹⁴14 Soares M, Toffart AC, Timsit JF, Burghi G, Irrazábal C, Pattison N, Tobar E, Almeida BFC, Silva UVA, Azevedo LCP, Rabbat A, Lamer C, Parrot A, Souza-Dantas VC, Wallet F, Blot F, Bourdin G, Piras C, Delemazure J, Durand M, Tejera D, Salluh JIF, Azoulay E; Lung Cancer in Critical Care (LUCCA) Study Investigators. Intensive care in patients with lung cancer: a multinational study. Ann Oncol. 2014;25(9):1829-35.⁾

Mechanical ventilation is a well-known risk factor for mortality in patients with cancer. The majority of the studies included in a systematic review examining the prognosis of ICU-admitted patients with solid cancer showed that the need for mechanical ventilation was associated with higher mortality rates.⁽⁷7 Puxty K, McLoone P, Quasim T, Kinsella J, Morrison D. Survival in solid cancer patients following intensive care unit admission. Intensive Care Med. 2014;40(10):1409-28.⁾ In a Brazilian study, 25% of all patients with cancer admitted to ICUs required invasive mechanical ventilation, and their in-hospital mortality rate was 73%.⁽¹⁵15 Azevedo LC, Caruso P, Silva UV, Torelly AP, Silva E, Rezende E, Netto JJ, Piras C, Lobo SMA, Knibel MF, Teles JM, Lima RA, Ferreira BS, Friedman G, Rea-Neto A, Dal-Pizzol F, Bozza FA, Salluh JIF, Soares M; Brazilian Research in Intensive Care Network (BRICNet). Outcomes for patients with cancer admitted to the ICU requiring ventilatory support: results from a prospective multicenter study. Chest. 2014;146(2):257-66.⁾ In our study, 44% of patients required mechanical ventilation during their ICU stay, and their in-hospital mortality rate was 76%. Therefore, as in patients with other types of cancer, the requirement for mechanical ventilation is a marker of dismal prognosis in patients with esophageal cancer.

On the other hand, cancer characteristics per se are not consistently associated with worse short-term prognoses. In the systematic review conducted by Puxty et al.,⁽⁷7 Puxty K, McLoone P, Quasim T, Kinsella J, Morrison D. Survival in solid cancer patients following intensive care unit admission. Intensive Care Med. 2014;40(10):1409-28.⁾ findings from a minority of studies suggested that advanced or metastatic cancer was associated with higher ICU, in-hospital, and 30-day mortality. However, metastatic disease has been independently associated with short-term mortality in patients with advanced lung cancer⁽⁹9 Barth C, Soares M, Toffart AC, Timsit JF, Burghi G, Irrazabal C, Pattison N, Tobar E, Almeida BF, Silva UV, Azevedo LC, Rabbat A, Lamer C, Parrot A, Souza-Dantas VC, Wallet F, Blot F, Bourdin G, Piras C, Delemazure J, Durand M, Salluh J, Azoulay E, Lemiale V; Lung Cancer in Critical Care (LUCCA) Study Investigators. Characteristics and outcome of patients with newly diagnosed advanced or metastatic lung cancer admitted to intensive care units (ICUs). Ann Intensive Care. 2018;8(1):80.⁾ and those with head and neck cancer.⁽¹⁰10 Soares M, Salluh JI, Toscano L, Dias FL. Outcomes and prognostic factors in patients with head and neck cancer and severe acute illnesses. Intensive Care Med. 2007;33(11):2009-13.⁾ It also seems to be a marker of severity in ICU-admitted patients with esophageal cancer.

Our study has some important limitations. First, as it was a retrospective cohort study, so no causal inference could be drawn. Additionally, it was prone to bias due to data collection. Second, although it involved multiple centers, the study included only Brazilian hospitals with high volumes of patients with cancer. Thus, our results may not be widely generalizable. Third, we did not have access to data on decisions to limit support, which could have influenced the mortality rate of these severely ill patients. Importantly, since deceased patients had a median ICU and hospital stay of only three days, it is possible that withholding life-sustaining therapies was decided early during the ICU stay, taking into consideration some specific patient characteristics, such as metastatic disease, and, therefore, this may have created a self-fulfilling prophecy bias.

CONCLUSION

In this cohort of patients with esophageal cancer admitted to intensive care units with acute illness, the in-hospital mortality rate was very high. The requirement for invasive mechanical ventilation and metastatic disease were independent prognostic factors and should be taken into account in discussions about the short-term outcomes of patients with esophageal cancer who are admitted to intensive care units due to acute illness.

REFERÊNCIAS

¹
Allemani C, Matsuda T, Di Carlo V, Harewood R, Matz M, Niksic M, Bonaventure A, Valkov M, Johnson CJ, Estève J, Ogunbiyi OJ, Azevedo E Silva G, Chen WQ, Eser S, Engholm G, Stiller CA, Monnereau A, Woods RR, Visser O, Lim GH, Aitken J, Weir HK, Coleman MP; CONCORD Working Group. Global surveillance of trends in cancer survival 2000-14 (CONCORD-3): analysis of individual records for 37 513 025 patients diagnosed with one of 18 cancers from 322 population-based registries in 71 countries. Lancet. 2018;391(10125):1023-75.
²
DeSantis CE, Lin CC, Mariotto AB, Siegel RL, Stein KD, Kramer JL, et al. Cancer treatment and survivorship statistics, 2014. CA Cancer J Clin. 2014;64(4):252-71.
³
Rutegard M, Lagergren P, Rouvelas I, Mason R, Lagergren J. Surgical complications and long-term survival after esophagectomy for cancer in a nationwide Swedish cohort study. Eur J Surg Oncol. 2012;38(7):555-61.
⁴
Raymond DP, Seder CW, Wright CD, Magee MJ, Kosinski AS, Cassivi SD, et al. Predictors of Major Morbidity or Mortality After Resection for Esophageal Cancer: A Society of Thoracic Surgeons General Thoracic Surgery Database Risk Adjustment Model. Ann Thorac Surg. 2016;102(1):207-14.
⁵
Chin JH, Moon YJ, Jo JY, Han YA, Kim HR, Lee EH, et al. Association between Postoperatively Developed Atrial Fibrillation and Long-Term Mortality after Esophagectomy in Esophageal Cancer Patients: An Observational Study. PLoS One. 2016;11(5):e0154931.
⁶
Soares M, Caruso P, Silva E, Teles JM, Lobo SM, Friedman G, Dal Pizzol F, Mello PV, Bozza FA, Silva UV, Torelly AP, Knibel MF, Rezende E, Netto JJ, Piras C, Castro A, Ferreira BS, Réa-Neto A, Olmedo PB, Salluh JI; Brazilian Research in Intensive Care Network (BRICNet). Characteristics and outcomes of patients with cancer requiring admission to intensive care units: a prospective multicenter study. Crit Care Med. 2010;38(1):9-15.
⁷
Puxty K, McLoone P, Quasim T, Kinsella J, Morrison D. Survival in solid cancer patients following intensive care unit admission. Intensive Care Med. 2014;40(10):1409-28.
⁸
Ostermann M, Ferrando-Vivas P, Gore C, Power S, Harrison D. Characteristics and Outcome of Cancer Patients Admitted to the ICU in England, Wales, and Northern Ireland and National Trends Between 1997 and 2013. Crit Care Med. 2017;45(10):1668-76.
⁹
Barth C, Soares M, Toffart AC, Timsit JF, Burghi G, Irrazabal C, Pattison N, Tobar E, Almeida BF, Silva UV, Azevedo LC, Rabbat A, Lamer C, Parrot A, Souza-Dantas VC, Wallet F, Blot F, Bourdin G, Piras C, Delemazure J, Durand M, Salluh J, Azoulay E, Lemiale V; Lung Cancer in Critical Care (LUCCA) Study Investigators. Characteristics and outcome of patients with newly diagnosed advanced or metastatic lung cancer admitted to intensive care units (ICUs). Ann Intensive Care. 2018;8(1):80.
¹⁰
Soares M, Salluh JI, Toscano L, Dias FL. Outcomes and prognostic factors in patients with head and neck cancer and severe acute illnesses. Intensive Care Med. 2007;33(11):2009-13.
¹¹
Bos MM, Verburg IW, Dumaij I, Stouthard J, Nortier JW, Richel D, et al. Intensive care admission of cancer patients: a comparative analysis. Cancer Med. 2015;4(7):966-76.
¹²
von Elm E, Altman DG, Egger M, Pocock SJ, Gotzsche PC, Vandenbroucke JP; STROBE Initiative. The Strengthening the Reporting of Observational Studies in Epidemiology (STROBE) statement: guidelines for reporting observational studies. J Clin Epidemiol. 2008;61(4):344-9.
¹³
Bos MM, de Keizer NF, Meynaar IA, Bakhshi-Raiez F, de Jonge E. Outcomes of cancer patients after unplanned admission to general intensive care units. Acta Oncol. 2012;51(7):897-905.
¹⁴
Soares M, Toffart AC, Timsit JF, Burghi G, Irrazábal C, Pattison N, Tobar E, Almeida BFC, Silva UVA, Azevedo LCP, Rabbat A, Lamer C, Parrot A, Souza-Dantas VC, Wallet F, Blot F, Bourdin G, Piras C, Delemazure J, Durand M, Tejera D, Salluh JIF, Azoulay E; Lung Cancer in Critical Care (LUCCA) Study Investigators. Intensive care in patients with lung cancer: a multinational study. Ann Oncol. 2014;25(9):1829-35.
¹⁵
Azevedo LC, Caruso P, Silva UV, Torelly AP, Silva E, Rezende E, Netto JJ, Piras C, Lobo SMA, Knibel MF, Teles JM, Lima RA, Ferreira BS, Friedman G, Rea-Neto A, Dal-Pizzol F, Bozza FA, Salluh JIF, Soares M; Brazilian Research in Intensive Care Network (BRICNet). Outcomes for patients with cancer admitted to the ICU requiring ventilatory support: results from a prospective multicenter study. Chest. 2014;146(2):257-66.

Edited by

Responsible editor: Márcio Soares

Publication Dates

Publication in this collection
13 July 2020
Date of issue
Apr-Jun 2020

History

Received
07 Oct 2019
Accepted
09 Dec 2019

Este é um artigo publicado em acesso aberto (Open Access) sob a licença Creative Commons Attribution, que permite uso, distribuição e reprodução em qualquer meio, sem restrições desde que o trabalho original seja corretamente citado.

[1] ¹
Allemani C, Matsuda T, Di Carlo V, Harewood R, Matz M, Niksic M, Bonaventure A, Valkov M, Johnson CJ, Estève J, Ogunbiyi OJ, Azevedo E Silva G, Chen WQ, Eser S, Engholm G, Stiller CA, Monnereau A, Woods RR, Visser O, Lim GH, Aitken J, Weir HK, Coleman MP; CONCORD Working Group. Global surveillance of trends in cancer survival 2000-14 (CONCORD-3): analysis of individual records for 37 513 025 patients diagnosed with one of 18 cancers from 322 population-based registries in 71 countries. Lancet. 2018;391(10125):1023-75.

[2] ²
DeSantis CE, Lin CC, Mariotto AB, Siegel RL, Stein KD, Kramer JL, et al. Cancer treatment and survivorship statistics, 2014. CA Cancer J Clin. 2014;64(4):252-71.

[3] ³
Rutegard M, Lagergren P, Rouvelas I, Mason R, Lagergren J. Surgical complications and long-term survival after esophagectomy for cancer in a nationwide Swedish cohort study. Eur J Surg Oncol. 2012;38(7):555-61.

[4] ⁴
Raymond DP, Seder CW, Wright CD, Magee MJ, Kosinski AS, Cassivi SD, et al. Predictors of Major Morbidity or Mortality After Resection for Esophageal Cancer: A Society of Thoracic Surgeons General Thoracic Surgery Database Risk Adjustment Model. Ann Thorac Surg. 2016;102(1):207-14.

[5] ⁵
Chin JH, Moon YJ, Jo JY, Han YA, Kim HR, Lee EH, et al. Association between Postoperatively Developed Atrial Fibrillation and Long-Term Mortality after Esophagectomy in Esophageal Cancer Patients: An Observational Study. PLoS One. 2016;11(5):e0154931.

[6] ⁶
Soares M, Caruso P, Silva E, Teles JM, Lobo SM, Friedman G, Dal Pizzol F, Mello PV, Bozza FA, Silva UV, Torelly AP, Knibel MF, Rezende E, Netto JJ, Piras C, Castro A, Ferreira BS, Réa-Neto A, Olmedo PB, Salluh JI; Brazilian Research in Intensive Care Network (BRICNet). Characteristics and outcomes of patients with cancer requiring admission to intensive care units: a prospective multicenter study. Crit Care Med. 2010;38(1):9-15.

[7] ⁷
Puxty K, McLoone P, Quasim T, Kinsella J, Morrison D. Survival in solid cancer patients following intensive care unit admission. Intensive Care Med. 2014;40(10):1409-28.

[8] ⁸
Ostermann M, Ferrando-Vivas P, Gore C, Power S, Harrison D. Characteristics and Outcome of Cancer Patients Admitted to the ICU in England, Wales, and Northern Ireland and National Trends Between 1997 and 2013. Crit Care Med. 2017;45(10):1668-76.

[9] ⁹
Barth C, Soares M, Toffart AC, Timsit JF, Burghi G, Irrazabal C, Pattison N, Tobar E, Almeida BF, Silva UV, Azevedo LC, Rabbat A, Lamer C, Parrot A, Souza-Dantas VC, Wallet F, Blot F, Bourdin G, Piras C, Delemazure J, Durand M, Salluh J, Azoulay E, Lemiale V; Lung Cancer in Critical Care (LUCCA) Study Investigators. Characteristics and outcome of patients with newly diagnosed advanced or metastatic lung cancer admitted to intensive care units (ICUs). Ann Intensive Care. 2018;8(1):80.

[10] ¹⁰
Soares M, Salluh JI, Toscano L, Dias FL. Outcomes and prognostic factors in patients with head and neck cancer and severe acute illnesses. Intensive Care Med. 2007;33(11):2009-13.

[11] ¹¹
Bos MM, Verburg IW, Dumaij I, Stouthard J, Nortier JW, Richel D, et al. Intensive care admission of cancer patients: a comparative analysis. Cancer Med. 2015;4(7):966-76.

[12] ¹²
von Elm E, Altman DG, Egger M, Pocock SJ, Gotzsche PC, Vandenbroucke JP; STROBE Initiative. The Strengthening the Reporting of Observational Studies in Epidemiology (STROBE) statement: guidelines for reporting observational studies. J Clin Epidemiol. 2008;61(4):344-9.

[13] ¹³
Bos MM, de Keizer NF, Meynaar IA, Bakhshi-Raiez F, de Jonge E. Outcomes of cancer patients after unplanned admission to general intensive care units. Acta Oncol. 2012;51(7):897-905.

[14] ¹⁴
Soares M, Toffart AC, Timsit JF, Burghi G, Irrazábal C, Pattison N, Tobar E, Almeida BFC, Silva UVA, Azevedo LCP, Rabbat A, Lamer C, Parrot A, Souza-Dantas VC, Wallet F, Blot F, Bourdin G, Piras C, Delemazure J, Durand M, Tejera D, Salluh JIF, Azoulay E; Lung Cancer in Critical Care (LUCCA) Study Investigators. Intensive care in patients with lung cancer: a multinational study. Ann Oncol. 2014;25(9):1829-35.

[15] ¹⁵
Azevedo LC, Caruso P, Silva UV, Torelly AP, Silva E, Rezende E, Netto JJ, Piras C, Lobo SMA, Knibel MF, Teles JM, Lima RA, Ferreira BS, Friedman G, Rea-Neto A, Dal-Pizzol F, Bozza FA, Salluh JIF, Soares M; Brazilian Research in Intensive Care Network (BRICNet). Outcomes for patients with cancer admitted to the ICU requiring ventilatory support: results from a prospective multicenter study. Chest. 2014;146(2):257-66.

Variable	Alive (n = 95)	Dead (n = 131)	p value
Age (years)	61 (55 - 68)	64 (56 - 72)	0.01
Male	81 (85.3)	97 (74.0)	0.04
Histological type^* * Two missing values. Results expressed as median (interquartile range) or n (%).			0.83
Squamous cell carcinoma	70 (73.7)	101 (77.1)
Adenocarcinoma	24 (25.3)	29 (22.1)
Cancer stage			< 0.01
II or III	60 (63.1)	42 (32.1)
IV	35 (36.8)	89 (67.9)
Modified CCI	2 (0 - 4)	2 (0 - 3)	0.52
ECOG status			0.07
0 - 1	47 (49.5)	49 (37.4)
SAPS 3	60.5 (55 - 71.25)	69.5 (61.75 - 79.25)	< 0.01
SOFA score	2 (1 - 5)	4 (2 - 7)	< 0.01
Source of admission			0.03
Emergency room	38 (40.0)	48 (36.6)
Ward	42 (44.2)	76 (58.0)
Surgical room	11 (11.6)	6 (4.6)
Another hospital	4 (4.2)	1 (0.8)
Reason for admission			0.12
Sepsis/septic shock	28 (39.4)	44 (33.6)
Acute respiratory failure	20 (21.1)	46 (35.1)
Neurological disorders	7 (7.4)	7 (7.4)
Cardiovascular disorders	12 (12.6)	6 (4.6)
Hemorrhage	5 (5.3)	3 (2.3)
Cancer-related complications
Stenosis	9 (9.5)	12 (9.2)	0.94
Fistulae	17 (17.9)	28 (21.4)	0.52
Tumor mass	11 (11.6)	34 (26.0)	< 0.01
Bleeding	10 (10.5)	12 (9.1)	0.73
Clinical complications
Pneumonia	33 (34.7)	50 (38.2)	0.64
Atrial fibrillation	13 (13.7)	31 (23.7)	0.06
Delirium	12 (12.6)	30 (22.9)	0.05
Organ support
Mechanical ventilation	22 (23.2)	75 (57.3)	< 0.01
Vasopressors	32 (33.7)	63 (48.1)	0.02
Renal replacement therapy	4 (4.2)	10 (7.6)	0.29
Length of ICU stay (days)	3 (2 - 6)	3 (1 - 6)	0.72
Length of hospital stay (days)	13 (8 - 26)	3 (1 - 12)	< 0.01

Variable	VIF
ECOG	1.07
Metastastic disease	1.15
Modified CCI	1.26
Delirium	1.05
Mechanical ventilation	1.26
Vasopressors	1.26
Renal replacement therapy	1.14

Variable	OR	95%CI
ECOG 2 - 4	1.34	0.94 - 1.92
Metastatic disease	7.10	3.35 - 15.05
Modified CCI	0.88	0.74 - 1.05
Delirium	1.65	0.71 - 3.82
Vasopressor use	1.34	0.65 - 2.76
Mechanical ventilation	6.18	2.86 - 13.35
Renal replacement therapy	1.25	0.32 - 4.86

Brasil

Brasil

Characteristics and short-term outcomes of patients with esophageal cancer with unplanned intensive care unit admissions: a retrospective cohort study

ABSTRACT

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RESUMO

Objetivo:

Métodos:

Resultados:

Conclusão:

INTRODUCTION

METHODS

Statistical analysis

RESULTS

DISCUSSION

CONCLUSION

REFERÊNCIAS

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