In-hospital mortality associated factors in elderly patients with invasive mechanical ventilation in the emergency department

Ruiz, V.R.; Grande-Ratti, M.F.; Martínez, B.; Midley, A.; Sylvestre, V.; Mayer, G.F.

doi:10.1016/j.enfie.2020.08.002

Article information

Abstract

Full Text

Bibliography

Download PDF

Statistics

Figures (1)

Tables (3)

Table 1. Baseline population characteristics.

Table 2. Characteristics according to subgroup (survivors and deceased).

Table 3. Univariate and multivariate analysis of factors associated with death.

Show moreShow less

Abstract

Aims

To identify factors associated with in-hospital mortality, to estimate the intubation rate and to describe in-hospital mortality in patients over 65 years old with invasive mechanical ventilation (IMV) in the emergency department (ED).

Methods

Retrospective cohort study of patients over 65 years old, who were intubated in an ED of a high complexity hospital between 2016 and 2018. Demographic data, comorbidities, and severity scores on admission were described. Bivariate and multivariate analyses were performed with logistic regression according to mortality and possible confounders.

Results

A total of 285 patients with a mean age of 80 years required IMV in the emergency department, for a median of 3 days, and with a mean APACHE II score of 20 points of severity. The IMV rate was .48% (95% CI .43–.54), and 55.44% (158) died. Mortality-associated factors after age and sex adjustment were stroke (OR 2.13; 95% CI 1.21–3.76), chronic kidney failure, (OR 4.,38; 95% CI 1.91–10.04), Charlson index (OR 1.19; 95% CI 1.02−1.38), APACHE II score (OR 1.07; 95% CI 1.02−1.12), and SOFA score (OR 1.14; 95% CI 1.03−1.27).

Discussion

Our IMV rate was lower than that stated by Johnson et al. in the United States in 2018 (.59%). In-hospital mortality in our study exceeded that predicted by the APACHE II score (40%) and SOFA (33%). However it was consistent with that reported by Lieberman et al. in Israel and Esteban et al. in the United States.

Conclusions

Although the IMV rate was low in the ED, more than half the patients died during hospitalization. Pre-existing cerebrovascular and renal diseases and high results in the comorbidities index and severity scores on admission were independent factors associated with in-hospital mortality.

Keywords:

Emergency medicine

Older adult

Airway management

Hospital mortality

Artificial respiration

Resumen

Objetivos

Identificar los factores asociados a mortalidad intrahospitalaria, estimar la tasa de intubación y describir la mortalidad intrahospitalaria de mayores de 65 años que requirieron ventilación mecánica invasiva (VMI) en el servicio de urgencias.

Métodos

Estudio de cohorte retrospectiva con pacientes mayores de 65 años, intubados en la central de emergencias del adulto entre 2016 y 2018 en un hospital de alta complejidad. Se consignaron datos demográficos, comorbilidades y scores de severidad al ingreso. Se realizaron análisis bivariado y multivariado con regresión logística en relación a mortalidad hospitalaria y posibles confundidores.

Resultados

Un total de 285 pacientes con media de 80 años requirieron VMI en urgencias durante una mediana de 3 días, y con media de 20 puntos de severidad según APACHE II. La tasa de VMI resultó 0,48% (IC95% 0,43−0,54), y 55,44% (158) fallecieron. Los factores asociados a mortalidad tras el ajuste por edad y sexo fueron: accidente cerebrovascular (OR 2,13; IC95%1,21−3,76), insuficiencia renal crónica (OR 4,38; IC95%1,91−10,04), índice de Charlson (OR 1,19; IC95%1,02−1,38), APACHE II (OR 1,07; IC95%1,02−1,12) y SOFA (OR 1,14; IC95%1,03−1,27).

Discusión

Nuestra tasa de VMI fue inferior a la declarada por Johnson et al. en Estados Unidos en 2018 (0,59%). La mortalidad intrahospitalaria de nuestro estudio superó la predicha por el score de APACHE II (40%) y de SOFA (33%), sin embargo fue consistente con la reportada por Lieberman et al. en Israel y Esteban et al. en Estados Unidos.

Conclusiones

Si bien la tasa de requerimiento de VMI en el servicio de emergencias fue baja, más de la mitad fallecieron durante su hospitalización. Las enfermedades cerebrovasculares y renales preexistentes y los altos puntajes en el índice de comorbilidades y en los scores de gravedad al ingreso fueron predictores independientes para mortalidad intrahospitalaria.

Palabras clave:

Medicina de urgencias

Anciano

Manejo de la vía aérea

Mortalidad hospitalaria

Respiración artificial

Full Text

What is known/what does this paper contribute?

Population ageing has resulted in increased emergency department consultations by the elderly. In a critical illness setting they may require advanced airway management as a frequent and quick decision procedure. Although invasive mechanical ventilation may enable survival in the acute period, mortality in this age group is high. Some authors suggest providing restricted care in the frail elderly to avoid futility, but there are no local predictive models for this decision in the emergency setting.

A high burden of comorbidity and severity on admission, represented by high Charlson, APACHE II and SOFA scores, regardless of age and sex, have been identified as factors associated with in-hospital mortality. Although the rate of invasive mechanical ventilation requirement in the emergency department was low, more than half the elderly patients died during their hospital stay.

What are the implications of the study?

Our findings are novel in the emergency department setting and may drive future studies on predictors of mortality in the elderly in the ED, with important practical implications for healthcare decision-making that is so essential these overcrowded settings.

Introduction

In recent decades, increased life expectancy has placed the elderly as the fastest growing age group in most developed and developing countries.1,2 The Republic of Argentina has experienced the greatest population ageing in Latin America, people aged over 65 years have increased from 7% to 10.20% between 1970 and 2010.3 This demographic change is coupled with increased demand for health services, including emergency services.4,5 A study by Pines et al. reported a 26.6% increase in emergency department visits by patients over 65 years of age from 2001 to 2009 and a 131.3% increase in admissions to intensive care units (ICU).6 In addition, people from this age group are not only admitted in a more severe and complex condition than younger patients, but they also require hospitalisation more frequently and have an increased risk of adverse events.2,7,8

Advanced airway management is a common procedure in critically ill patients in the emergency department.9 However, several authors have highlighted that this setting is not designed to meet the needs of older adults.2,4,5,10,11 Although invasive mechanical ventilation (IMV) may enable survival in the acute period, in-hospital and out-of-hospital mortality is high in elderly patients.9,12 IMV can be prolonged in survivors, as can hospital stay, with poor quality of life when discharged and consequent high health care costs.9 Therefore some authors suggest establishing limited care for the frail elderly to avoid futility.1,13 However, the arguments for therapeutic adjustment are based on age, quality of life on discharge or likelihood of survival, the latter two being difficult to predict in the emergency department.1,14 Furthermore, two systematic reviews suggest that instruments available in the ED should not be used as valid predictors of adverse events on discharge in older adults.15,16 Some use predictive tools in the ED for in-hospital mortality, not used in our setting.17–22 In addition, most studies on factors associated with mortality in older adults were conducted in developed countries or in patients admitted to ICU.10,23–28

Therefore, we consider it an important hospital management goal to explore the frequency of this problem at the local level in the emergency department, and to describe the characteristics and outcomes of these critical patients and identify factors associated with death.

Justification for the research study

The current situation of elderly patients requiring airway invasion in our setting is unknown. Determining the factors associated with in-hospital mortality in patients over 65 years of age will allow us to develop a predictive tool for future health decision-making, so necessary in scenarios of overcrowding in the emergency department.

The aim of this study was to identify factors associated with in-hospital mortality in adults over 65 years of age requiring IMV in the emergency department and to estimate the rate of this procedure in this setting.

Material and methods

Study design and scope: observational, single-centre, retrospective, cohort study in the Central de Emergencias del Adulto (CEA) of a high complexity hospital in the city of Buenos Aires, with 173,912 patients, 33% of whom are over 65 years of age. The CEA comprises three areas for the care of patients over the age of 18, classified in decreasing order of complexity as “A”, “B” and “C”. Complexity is defined as the condition of the patient on admission through triage, which consists of a clinical assessment and a brief interview. Triage receives approximately 500 consultations a day. Orotracheal intubation (OTI) is performed in area A following the rapid intubation sequence and the drug kit includes succinylcholine as a neuromuscular blocking agent in all cases.29

Population: all consecutive consultations between 1 June 2016 and 31 May 2018 in the emergency department of high-complexity hospital, of patients aged 65 years and older, members of the prepaid medical care plan. All cases of OTI in the CEA were included, which were extracted from high quality secondary administrative databases (debits of succinylcholine from the pharmacy administrative database) and reviewed manually by the investigators. Patients with advance directives, those requiring OTI for a procedure (e.g., emergency upper gastrointestinal video- endoscopy), those with a previous tracheostomy cannula and those referred intubated and with IMV from another hospital were excluded.

Variables: the independent variables were divided into three domains: 1) sociodemographic aspects: age and sex; 2) aspects related to previous functional status and comorbidities: functional capacity using the Katz30 and Barthel indices of activities of daily living (ADL), previous home hospitalisation, on-call consultations and hospitalisations in the last year, history and comorbidity burden using the Charlson index on admission31; 3) aspects related to acute state: main diagnosis, Acute Physiology and Chronic Health Evaluation (APACHE) II score,32 Sequential Organ Failure Assessment (SOFA) score33 and days of IMV since intubation in the emergency department. To estimate the OTI rate, the denominator was defined as all patients aged 65 years and older consulting the CEA during the study period, and the numerator as cases of emergency OTI during care in the CEA, defined earlier. Follow-up was from admission to the CEA until discharge or in-hospital death. Mortality was the dependent variable.

Statistical analysis: the continuous variables are reported as mean and standard deviation (SD) or median and interquartile range (IQR) according to their distribution. The categorical variables are shown as absolute and relative frequencies with their respective confidence intervals (95% CI). The t-test was used in the bivariate analysis (for means), the Mann–Whitney test (for medians) and χ2 test for categorical variables. Logistic regression was used to explore factors associated with death. Crude and adjusted odds ratios (OR) are reported with their respective 95% CI. Statistical significance was considered when the p-value of a test was less than .05.

Ethical considerations: the study was approved by the hospital’s ethical committee (CEPI#3782), and conducted in accordance with the considerations on the care of clinical research participants under the Declaration of Helsinki and all its amendments. Informed consent was not required due to the study’s characteristics (observational, anonymous, and non-interventional). All the information was obtained from electronic medical records and was used by the investigators with the strictest confidentiality in accordance with current legislation: Ley Nacional de Protección de Datos Personales 25.326/00 (Ley de Habeas data) and Ley 26. 529 /09.

Results

A total of 58,403 patients over the age of 65 attended the CEA during the study period, and 285 required IMV, which gives a rate of .48% (95% CI .43–.54). In a sensitivity analysis that included the denominator restricted to higher complexity CEA care areas (termed A and B in our institution), the rate increased to 1.97% (285/14421, 95% CI 1.76–2.21), Fig. 1.

Figure 1.

Study flowchart.

(0.16MB).

Table 1 shows the baseline characteristics of the 285 patients who required IMV in the CEA, with a mean age of 80 years. The most common reasons for IMV were neurological disorders (26.30%), sepsis/multiorgan failure (22.80%) and cardiological disorders (13.70%).

Table 1.

Baseline population characteristics.

	n: 285
Age in years, mean and SD	80.27 (7.63)
Female sex, n (%)	162 (56.84)
Previous hospitalisation at home, n (%)	98 (34.39)
Hospitalisation in the past year, n (%)	104 (36.49)
Number of hospitalisations in the past year, median and IQR	0 (0−1)
On-call consultations in the past year, n (%)	192 (67.37)
Number of on-call consultations in the past year, median and IQR	1 (0−3)
ADLa, median and IQR	6 (3−6)
ADLa<6, n (%)	45 (15.79)
Comorbidities
History
Obesity (BMI ≥ 30)b, n (%)	47 (16.49)
Chronic obstructive pulmonary disease, n (%)	78 (27.37)
Diabetes, n (%)	69 (24.21)
Stroke, n (%)	74 (25.96)
Heart failure, n (%)	76 (26.67)
Dementia, n (%)	42 (14.74)
Coronary heart disease, n (%)	61 (21.40)
Chronic kidney failure, n (%)	45 (15.79)
Asthma, n (%)	23 (8.07)
Peripheral heart disease, n (%)	15 (5.26)
Gastric ulcer, n (%)	18 (6.32)
Oncological disease, n (%)	84 (29.47)
Charlson indexc, median and IQR	6 (5−8)
Main diagnoses
COPD flare up, n (%)	20 (7.00)
Heart disease, n (%)	39 (13.70)
Neurological disease, n (%)	75 (26.30)
Multi-organ sepsis/failure, n (%)	65 (22.80)
Acute gastrointestinal disturbance, n (%)	37 (13.00)
Acute respiratory disturbance, n (%)	25 (8.80)
Trauma, n (%)	12 (4.20)
Other, n (%)	12 (4.20)
Severity scores on admission
APACHE IIc, mean and SD	20.71 (7.05)
SOFAd, mean and SD	6.04 (3.37)
INV in days, median and IQR	3 (1−7)

ADL: activities of daily living; APACHE II: Acute Physiology and Chronic Health Evaluation; BMI: Body Mass Index; COPD: Chronic Obstructive Pulmonary Disease; IQR: Interquartile Range; SD: Standard Deviation; SOFA: Sequential Organ Failure Assessment.

a

Only available in 126 subjects.

b

Only available in 148 subjects.

c

Only available in 160 subjects.

d

Only available in 158 subjects.

One hundred and fifty-eight patients died, giving an overall in-hospital mortality rate of 55.44%. Only one death occurred during on-call care, while the remaining cases (157) occurred during subsequent unscheduled hospitalisation, which triggered the same acute episode as the reason for consultation or admission.

The patients were classified according to in-hospital mortality to explore associated factors, as shown in Table 2. In terms of the main diagnosis relating to the requirement for IMV, the deceased patients had a higher rate of acute respiratory illness compared to the survivors (11.39% vs. 5.51% respectively; p = .042).

Table 2.

Characteristics according to subgroup (survivors and deceased).

	Survivors	Deceased	p-Value
	127	158
Age in years, mean and SD	79.62 (7.43)	80.78 (7.78)	.205
65−74, n (%)	31 (24.41)	39 (24.68)	.227
75−84, n (%)	62 (48.82)	63 (39.87)
>85, n (%)	34 (26.77)	56 (35.44)
Female sex, n (%)	76 (59.84)	86 (54.43)	.359
Previous home hospitalisation, n (%)	36 (28.35)	62 (39.24)	.054
Hospitalisation in the past year, n (%)	43 (33.86)	61 (38.61)	.408
Number of hospitalisations in the past year, median and IQR	0 (0−1)	0 (0−1)	.239
On-call consultations in the past year, n (%)	84 (66.14)	108 (68.35)	.692
Number of on-call consultations in the past year, median and IQR	1 (0−3)	1 (0−3)	.667
ADLa <6 (n = 126), n (%)	17 (13.39)	28 (17.72)	.532
Comorbidities
History
Obesity (BMI ≥ 30)b, n (%)	25 (19.69.31)	22 (13.92)	.189
COPD, n (%)	28 (22.05)	50 (31.65)	.071
Diabetes, n (%)	28 (22.05)	41 (25.95)	.445
Stroke, n (%)	23 (18.11)	51 (32.28)	<.01**
Heart failure, n (%)	26 (20.47)	50 (31.65)	.034*
Dementia, n (%)	19 (14.96)	23 (14.56)	.924
Coronary heart disease, n (%)	21 (16.54)	40 (25.32)	.072
Chronic kidney disease, n (%)	8 (6.30)	37 (23.42)	<.01**
Asthma, n (%)	12 (9.45)	11 (6.96)	.444
Peripheral vascular disease, n (%)	3 (2.36)	12 (7.59)	.049*
Gastric ulcer, n (%)	10 (7.87)	8 (5.06)	.332
Oncological disease, n (%)	31 (24.41)	53 (33.54)	.093
Charlson indexc, median and IQR	6 (5−7)	7 (5−9)	.015*
Main diagnoses
COPD flare up, n (%)	6 (4.72)	14 (8.86)	.357
Heart disease, n (%)	21 (16.54)	18 (11.39)	.362
Neurological disease, n (%)	35 (27.56)	40 (25.32)	.819
Multi-organ sepsis/failure, n (%)	27 (21.26)	38 (24.05)	.513
Acute gastrointestinal disturbance, n (%)	20 (15.75)	17 (10.76)	.222
Acute respiratory disturbance, n (%)	7 (5.51)	18 (11.39)	.042*
Trauma, n (%)	6 (4.72)	6 (3.87)	.699
Other, n (%)	5 (3.94)	7 (4.43)	.671
Severity scores on admission
APACHE IIc, mean and SD	19.16 (6.29)	22.56 (7.49)	<.01**
SOFAd, mean and SD	5.36 (3.31)	6.86 (3.27)	<.01**
IMV in days, median and IQR	3 (1−6)	2 (0−7)	.291

ADL: Activities of daily living; APACHE II: Acute Physiology and Chronic Health Evaluation; BMI: Body Mass Index; COPD: Chronic Obstructive Pulmonary Disease; SOFA: Sequential Organ Failure Assessment.

a

Only available in 126 subjects.

b

Only available in 148 subjects.

c

Only available in 160 subjects.

d

Only available in 158 subjects.

*

p-Value <.05.

**

p-Value <.01.

The patients who died, compared to the survivors, had greater comorbidities or pre-existing disease burden on admission, such as stroke and chronic kidney failure (CKF) (p < .01), heart failure (p = .034) and peripheral vascular disease (p = .049), and higher severity scores on admission (p < .01).

Table 3 shows the corresponding crude and adjusted OR with their respective 95% CI. The factors associated with death in the univariate analysis were stroke, heart failure, CKF, Charlson Index, APACHE II, and SOFA. After adjustment for sex and age, all remained statistically significant risk factors, except for heart failure.

Table 3.

Univariate and multivariate analysis of factors associated with death.

	Crude OR	95% CI	p-Value	Adjusted OR	95% CI	p-Value
Stroke	2.15	1.23−3.76	<.01**	2.13	1.21−3.76	<.01**
Heart failure	1.79	1.04−3.10	.035*	1.68	.96−2.93	.067
CKF	4.54	2.03−10.17	<.01**	4.38	1.91−10.04	<.01**
Peripheral vascular disease	3.39	.93−12.31	.063	3.24	.89−11.82	.074
Charlson index	1.19	1.04−1.36	.010**	1.19	1.02−1.38	.020*
Acute respiratory disturbance	1.39	.49−3.87	.527	1.21	.42−3.47	.722
APACHE II	1.07	1.02−1.12	<.01**	1.07	1.02−1.12	<.01**
SOFA	1.15	1.03−1.27	<.01**	1.14	1.03−1.27	<.01**

Crude and age- and sex-adjusted odds ratios (OR) were reported.

APACHE II: Acute Physiology and Chronic Health Evaluation; CKF: Chronic Kidney Failure; SOFA: Sequential Organ Failure Assessment.

*

p-Value <.05.

**

p-Value <.01.

Discussion

Our results show that more than half the consultations in the CEA were by patients over 65 years of age, but with a IMV rate of five per thousand consultations, which quadruples in the sensitivity analysis when considering a denominator restricted to the most critical areas. However, in terms of prognosis, more than half the patients died during hospitalisation, which is not insignificant in terms of health costs.34,35 This study aims to identify variables included in the comprehensive geriatric assessment and other clinical variables on admission that are associated with an increased risk of death after emergency OTI. The factors associated with death after adjustment for age and sex were stroke, CKD, Charlson Index, APACHE II and SOFA.

Our rate of emergency OTI in the over-65 s was similar (.48% with 95% CI .43–.54) to that reported by Johnson in the United States (.59%), and the same paper reports a relative decrease of 29% (95% CI 17%, 38%) between 1999 and 2014.36 However, the similarity between the populations is worth noting: age 80.27 (SD 7.63) years and 56.84% female in our study, and 80 (SD 8) years and 54% female in the American study. However, in-hospital mortality in our study exceeded that predicted by the APACHE II (40%) and SOFA (33%) scores, although the age difference in this other cohort is worth noting, the patients were younger (59 years) and therefore there were probably other reasons for admission.37 Survival was consistent with that reported by Lieberman et al. and Esteban et al.12,38 However, Ouchi et al. report 33% mortality in older adults after OTI in the ED, with differences between age groups.9 Because previous studies found no differences in mortality with respect to age,7,23,26 we decided not to explore this again. The elderly cannot be defined as frail by age alone, but rather through a complex combination of comorbidities, quality of life and functional capacity.7 Our study population had a high burden of comorbidity as represented by the high Charlson Index, yet functional capacity reported through ADL was high and a very few had an ADL score of less than 6, which is considered a predictor of mortality in other publications.15,23 Decisions about the extent of resuscitation effort (or in this case requirement for OTI in an acute setting) should perhaps consider these assessments, in addition to patient and family preferences (e.g., advance directives).13

Concern about the increasing elderly population in ICUs is longstanding.35,39,40 The magnitude of the problem lies in its impact on the health system, in terms of healthcare costs. In our hospital, every day on IMV costs approximately 680 US dollars. This is an economic and ethical problem that healthcare providers must analyse and anticipate carefully, i.e., old age is associated with a high prevalence of chronic diseases and functional impairment, with limited life expectancy, occasionally poor quality of life, and a priori they are considered patients with a poor prognosis in ICU.34 This clearly implies greater demand for health services, and therefore, ICU beds, which will make it increasingly necessary to streamline the available resources.

However, we should mention some limitations that are inherent to the study design. Firstly, it is a retrospective study design, with some variables of interest that could not be obtained due to missing or unavailable data due to feasibility, such as the Barthel index, with only 16 records, and therefore we did not include it in the results. We would probably have gained additional information if we had considered other variables such as out-of-hospital mortality, quality of life after discharge or whether the patients who were not intubated in the ED were intubated during their hospital stay; however, although interesting, this information is not within the objectives of this paper. On the other hand, the magnitude of the problem to be addressed (in terms of overall in-hospital mortality), which reflects the uncertain prognosis in the elderly and the importance of these local data from a management perspective are a strength of the study. In addition, our novel approach with this paper focussed on the scope of the work, centred on the central ED rather than closed units (like most published works), which represents the gateway to hospital in many acute clinical scenarios. Secondly, the cut-off point of 65 years to categorise older adults could be questioned, but we use it routinely in our country because of the retirement age and the mean age was 83 years.23 In addition, therapeutic adjustment after OTI could have contributed to an increase in the mortality rate. Finally, the fact that this was a single-centre study, and the small sample could make it difficult to generalise the results.

In conclusion, after adjusting for sex and age, some pre-existing comorbidities and the severity scales used on admission are considered risk factors for death. This information could perhaps be a starting point for creating a tool to predict poor prognosis. Given the forecasts on changing the population pyramid and this current problem, further studies are required to assess the use of hospital resources (in terms of health costs), and survival and quality of life after hospital discharge in this population, to respond to the anticipated demand for resources in critical care units in years to come.

Conclusions

Although the rate of airway instrumentation in the emergency department was low, more than half the elderly patients died during hospitalisation. Pre-existing cerebrovascular and renal comorbidities, as well as severity on admission, reflected in the high APACHE II and SOFA scores, were associated with greater in-hospital mortality, regardless of age and sex.

Conflict of interests

The authors have no conflict of interests to declare.

References

[1]

E.T. Lewis, E. Dent, H. Alkhouri, J Kellett, M Williamson, S Asha, et al.

Which frailty scale for patients admitted via Emergency Department? A cohort study.

Arch Gerontol Geriatr, 80 (2019), pp. 104-114

http://dx.doi.org/10.1016/j.archger.2018.11.002 | Medline

[2]

B. Ellis, C.R. Carpenter, J.A Lowthian, SP Mooijaart, CH Nickel, D Melady.

Statement on Minimum standards for the care of older people in emergency departments by the geriatric emergency medicine special interest group of the International Federation for Emergency Medicine.

CJEM, 20 (2018), pp. 368-369

http://dx.doi.org/10.1017/cem.2017.426 | Medline

[3]

INDEC, Instituto Nacional de Estadistica y Censos de la REPUBLICA ARGENTINA. INDEC: Instituto Nacional de Estadística y Censos de la República Argentina. https://www.indec.gob.ar/indec/web/Nivel4-CensoNacional-3-6-Censo-2010. [Accessed 24 January 2020].

[4]

F. Aminzadeh, W.B. Dalziel.

Older adults in the emergency department: a systematic review of patterns of use, adverse outcomes, and effectiveness of interventions.

Ann Emerg Med, 39 (2002), pp. 238-247

http://dx.doi.org/10.1067/mem.2002.121523 | Medline

[5]

J.G. Adams.

A new model for emergency care of geriatric patients.

Acad Emerg Med, 10 (2003), pp. 271-274

http://dx.doi.org/10.1111/j.1553-2712.2003.tb02002.x | Medline

[6]

J.M. Pines, P.M. Mullins, J.K. Cooper, LB Feng, KE Roth.

National trends in emergency department use, care patterns, and quality of care of older adults in the United States.

J Am Geriatr Soc, 61 (2013), pp. 12-17

http://dx.doi.org/10.1111/jgs.12072 | Medline

[7]

D. Khoujah, A.N. Martinelli, M.E. Winters.

Resuscitating the critically ill geriatric emergency department patient.

Emerg Med Clin North Am, 37 (2019), pp. 569-581

http://dx.doi.org/10.1016/j.emc.2019.04.002 | Medline

[8]

L.P. Latham, S. Ackroyd-Stolarz.

Emergency department utilization by older adults: a descriptive study.

Can Geriatr J, 17 (2014),

http://dx.doi.org/10.5770/cgj.17.108

[9]

K. Ouchi, G.D. Jambaulikar, S. Hohmann, NR George, EL Aaronson, R Sudore, et al.

Prognosis after emergency department intubation to inform shared decision-making.

J Am Geriatr Soc, 66 (2018), pp. 1377-1381

http://dx.doi.org/10.1111/jgs.15361 | Medline

[10]

C. García-Peña, M.U. Pérez-Zepeda, L.V. Robles-Jiménez, S Sánchez-García, R Ramírez-Aldana, P. Tella-Vega, et al.

Mortality and associated risk factors for older adults admitted to the emergency department: a hospital cohort.

BMC Geriatr, 18 (2018), pp. 144

http://dx.doi.org/10.1186/s12877-018-0833-0 | Medline

[11]

P. Skar, A. Bruce, D. Sheets.

The organizational culture of emergency departments and the effect on care of older adults: a modified scoping study.

Int Emerg Nurs, 23 (2015), pp. 174-178

http://dx.doi.org/10.1016/j.ienj.2014.11.002 | Medline

[12]

D. Lieberman, L. Nachshon, O. Miloslavsky, V Dvorkin, A Shimoni, D Lieberman.

How do older ventilated patients fare? A survival/functional analysis of 641 ventilations.

J Crit Care, 24 (2009), pp. 340-346

http://dx.doi.org/10.1016/j.jcrc.2009.01.015 | Medline

[13]

N. Vargas, L. Tibullo, E. Landi, G Carifi, A Pirone, A Pippo, et al.

Caring for critically ill oldest old patients: a clinical review.

Aging Clin Exp Res, 29 (2017), pp. 833-845

http://dx.doi.org/10.1007/s40520-016-0638-y | Medline

[14]

J.P. Burns, R.D. Truog.

Futility: a concept in evolution.

Chest, 132 (2007), pp. 1987-1993

http://dx.doi.org/10.1378/chest.07-1441 | Medline

[15]

C.R. Carpenter, E. Shelton, S. Fowler, B Suffoletto, TF Platts-Mills, RE Rothman, et al.

Risk factors and screening instruments to predict adverse outcomes for undifferentiated older emergency department patients: a systematic review and meta-analysis.

Acad Emerg Med, 22 (2015), pp. 1-21

http://dx.doi.org/10.1111/acem.12569 | Medline

[16]

G. Cousins, Z. Bennett, G. Dillon, SM Smith, R Galvin.

Adverse outcomes in older adults attending emergency department: systematic review and meta-analysis of the Triage Risk Stratification Tool.

Eur J Emerg Med, 20 (2013), pp. 230-239

http://dx.doi.org/10.1097/MEJ.0b013e3283606ba6 | Medline

[17]

G.N. Cattermole, S.K. Mak, C.H. Liow, MF Ho, KY Hung, KM Keung, et al.

Derivation of a prognostic score for identifying critically ill patients in an emergency department resuscitation room.

Resuscitation, 80 (2009), pp. 1000-1005

[18]

N.I. Shapiro, R.E. Wolfe, R.B. Moore, E Smith, E Burdick, DW Bates.

Mortality in Emergency Department Sepsis (MEDS) score: a prospectively derived and validated clinical prediction rule*.

Crit Care Med, 31 (2003), pp. 670-675

http://dx.doi.org/10.1097/01.CCM.0000054867.01688.D1 | Medline

[19]

K.J. Rhee, C.J. Fisher Jr, N.H. Willitis.

The rapid acute physiology score.

Am J Emerg Med, 5 (1987), pp. 278-282

http://dx.doi.org/10.1016/0735-6757(87)90350-0 | Medline

[20]

T. Olsson, A. Terent, L. Lind.

Rapid Emergency Medicine score: a new prognostic tool for in-hospital mortality in nonsurgical emergency department patients.

J Intern Med, 255 (2004), pp. 579-587

http://dx.doi.org/10.1111/j.1365-2796.2004.01321.x | Medline

[21]

C.-C. Chen.

Risk stratification of severe sepsis patients in the emergency department.

Emerg Med J, 23 (2006), pp. 281-285

http://dx.doi.org/10.1136/emj.2004.020933 | Medline

[22]

V.C. Burch, G. Tarr, C. Morroni.

Modified early warning score predicts the need for hospital admission and in hospital mortality.

Emerg Med J, 25 (2008), pp. 674-678

http://dx.doi.org/10.1136/emj.2007.057661 | Medline

[23]

S.E. Giannasi, M.S. Venuti, A.D. Midley, N Roux, C Kecskes, E San Román.

Factores de riesgo de mortalidad de los pacientes ancianos en cuidados intensivos sin limitación del esfuerzo de tratamiento.

Med Intensiva, (2017),

http://dx.doi.org/10.1016/j.medin.2017.10.014

[24]

L. Fuchs, V. Novack, S. McLennan, LA Celi, Y Baumfeld, S Park, et al.

Trends in severity of illness on ICU admission and mortality among the elderly.

PLoS One, 9 (2014),

http://dx.doi.org/10.1371/journal.pone.0115697 | Medline

[25]

P Le Maguet, A Roquilly, S Lasocki, K Asehnoune, E Carise, M Saint Martin, et al.

Treatment intensity and outcome ofpatients aged 80 and older in intensive care units: a multicentermatched-cohort study.

J Am Geriatr Soc, 53 (2005), pp. 88-93

http://dx.doi.org/10.1111/j.1532-5415.2005.53016.x | Medline

[26]

P. Le Maguet, A. Roquilly, S. Lasocki, K Asehnoune, E Carise, M Saint Martin, et al.

Prevalence and impact of frailty on mortality in elderly ICU patients: a prospective, multicenter, observational study.

Intensive Care Med, 40 (2014), pp. 674-682

http://dx.doi.org/10.1007/s00134-014-3253-4 | Medline

[27]

L. Minne, J. Ludikhuize, E. de Jonge, S de Rooij, A Abu-Hanna.

Prognostic models for predicting mortality in elderly ICU patients: a systematic review.

Intensive Care Med, 37 (2011), pp. 1258-1268

http://dx.doi.org/10.1007/s00134-011-2265-6 | Medline

[28]

D.M. Nierman, C.B. Schechter, L.M. Cannon, DE Meier.

Outcome prediction model for very elderly critically ill patients.

Crit Care Med, 29 (2001), pp. 1853-1859

http://dx.doi.org/10.1097/00003246-200110000-00001 | Medline

[29]

D.T. Tran, E.K. Newton, V.A. Mount, JS Lee, GA Wells, et al.

Rocuronium versus succinylcholine for rapid sequence induction intubation.

Cochrane Database Syst Rev, (2015),

[30]

S. Katz, A.B. Ford, R.W. Moskowitz, et al.

Studies of illness in the aged. The index of ADL: a standardized measure of biological and psychosocial function.

JAMA, 185 (1963), pp. 914-919

http://dx.doi.org/10.1001/jama.1963.03060120024016 | Medline

[31]

M.E. Charlson, P. Pompei, K.L. Ales, CR MacKenzie.

A new method of classifying prognostic comorbidity in longitudinal studies: development and validation.

J Chronic Dis, 40 (1987), pp. 373-383

http://dx.doi.org/10.1016/0021-9681(87)90171-8 | Medline

[32]

W.A. Knaus, E.A. Draper, D.P. Wagner, JE Zimmerman.

APACHE II-a severity of disease classification system.

Crit Care Med, 14 (1986), pp. 755

http://dx.doi.org/10.1097/00003246-198608000-00029 | Medline

[33]

D.G.T. Arts, N.F. de Keizer, M.B. Vroom, E de Jonge.

Reliability and accuracy of Sequential Organ Failure Assessment (SOFA) scoring.

Crit Care Med, 33 (2005), pp. 1988-1993

http://dx.doi.org/10.1097/01.ccm.0000178178.02574.ab | Medline

[34]

J.M. Añon, V. Gómez-Tello, E. González-Higueras, V Córcoles, M Quintana, A García de Lorenzo, et al.

Prognosis of elderly patients subjected to mechanical ventilation in the ICU.

Med Intensiva, 37 (2013), pp. 149-155

http://dx.doi.org/10.1016/j.medin.2012.03.014 | Medline

[35]

R. Kvåle, H. Flaatten.

Changes in intensive care from 1987 to 1997 - has outcome improved? A single centre study.

Intensive Care Med, 28 (2002), pp. 1110-1116

http://dx.doi.org/10.1007/s00134-002-1378-3 | Medline

[36]

T. Johnson, P. Richman, J.R. Allegra, B Eskin, J Seger.

Intubations in elderly patients have decreased from 1999 through 2014-results of a multi-center cohort study.

Am J Emerg Med, 36 (2018), pp. 1964-1966

http://dx.doi.org/10.1016/j.ajem.2018.02.022 | Medline

[37]

F.L. Ferreira, D.P. Bota, A. Bross, C Mélot, JL Vincent.

Serial evaluation of the SOFA score to predict outcome in critically ill patients.

JAMA, 286 (2001), pp. 1754-1758

http://dx.doi.org/10.1001/jama.286.14.1754 | Medline

[38]

A. Esteban, A. Anzueto, F. Frutos-Vivar, I Alía, EW Ely, L Brochard, et al.

Outcome of older patients receiving mechanical ventilation.

Intensive Care Med, 30 (2004), pp. 639-646

http://dx.doi.org/10.1007/s00134-004-2160-5 | Medline

[39]

SM Jakob, HU Rothen.

Intensive care 1980-1995: change in patient characteristics, nursing workload and outcome.

Intensive Care Med, 23 (1997), pp. 1165-1170

http://dx.doi.org/10.1007/s001340050474 | Medline

[40]

S.M. Bagshaw, S.A. Webb, A. Delaney, C George, D Pilcher, GK Hart, et al.

Very old patients admitted to intensive care in Australia and New Zealand: a multi-centre cohort analysis.

Crit Care, 13 (2009), pp. R45

http://dx.doi.org/10.1186/cc7768 | Medline

☆

Please cite this article as: Ruiz VR, Grande-Ratti MF, Martínez B, Midley A, Sylvestre V, Mayer GF. Factores asociados a mortalidad intrahospitalaria en pacientes adultos mayores con asistencia ventilatoria mecánica invasiva en el servicio de urgencias. Enferm Intensiva. 2021;32:145–152.

Indexed in:

Follow us:

Subscribe:

Indexed in:

Follow us:

Subscribe:

Subscribe to our newsletter