Background
Respiratory compromise is the leading cause of death worldwide, especially in children below the age of 5 years [
1,
2]. Most of these deaths occur in low-income countries (LICs). Respiratory compromise is more common in children than in adults because of anatomical and physiological differences like small airway, immature immune system and under developed compensatory mechanisms.
Respiratory compromise is a continuum of respiratory distress, respiratory failure and respiratory arrest. Respiratory failure refers to failure of oxygenation or ventilation or both and respiratory distress refers to increased work of breathing [
3]. Early identification, early intervention and close monitoring can mitigate against poor outcomes [
4‐
6]. Such interventions are best provided in an emergency department where practitioners are trained in the management of such patients [
7].
Tanzania health system consists of dispensaries at village level, health centres at ward level, district hospital, regional hospital, zonal hospital and national hospital. Patients including children are referred from low-level facility to higher-level facility. In Tanzania there is no children hospital, so Muhimbili National Hospital receives both adult and children from all regional hospitals and some directly from home and from private hospitals [
8].
Tanzania opened its first full capacity emergency department in 2010 and began a residency-training program at that time. Current emergency medicine practice in LICs is based on research primarily conducted in high-income countries, where the aetiology, severity and resources available to treat patients with respiratory compromise are very different from LICs. Despite the ongoing advancement in the development of the emergency care infrastructure in Tanzania [
9], there is insufficient data to guide development of specific clinical guidelines for training, management and resources required to treat paediatric patients with respiratory compromise in acute care settings in limited income settings [
10].
To address the paucity of data, we aimed to describe the clinical epidemiology, management and outcomes of paediatric patients with respiratory compromise presenting to the first full capacity emergency medicine department in Tanzania.
Methods
Study design
This was a prospective cohort study of paediatric patients aged from 1 month to less than 18 years with respiratory compromise, presenting to the Emergency Medicine Department of Muhimbili National Hospital (EMD-MNH) from July 2017 to November 2017.
Study setting
Muhimbili National Hospital is a tertiary hospital located in Dar es Salaam, Tanzania. It has a bed capacity of 1500 with around 1000 to 1200 inpatient admissions per week. The EMD is part of the MNH and it is the point of entry to the hospital for most patients [
11].
EMD-MNH opened in 2010, making it the first public full capacity emergency department in the country. It operates 24 h a day and sees 150–200 patients per day; approximately one quarter of them are children under 18 years. As MNH is a tertiary referral hospital, many of the patients attending the EMD are transferred from regional or district hospitals where they may have received some previous treatment.
The EMD is staffed with emergency physicians, residents in an emergency medicine program, medical officers and critical care nurses. Acutely ill children at MNH-EMD receive resuscitation and diagnostic workup before being disposed to the appropriate ward, which may include Acute Paediatric Care Unit (APCU) or the adult ICU. A paediatric specialist on call reviews paediatric patients with respiratory compromise who may need ICU, APCU admission or major surgical interventions before the patients leave the EMD.
Study protocol
Patients were enrolled 12 h a day during the day shift (7,30 am to 7:30 pm) Monday through Saturday. Paediatric patients presenting to the EMD with respiratory distress, respiratory failure or respiratory arrest as defined by American Heart Association were eligible for the study [
3]. Paediatric Early Warning Sign parameters were used as a reference for tachypnoea, bradypnoea, tachycardia and bradycardia in different age groups [
12]. For the children who met inclusion criteria, the parent/guardian provided signed informed consent. Demographics, clinical presentation, EMD management, EMD diagnosis, and EMD outcomes of all enrolled children were collected from the EMD physician caring for the patient and review of the patients’ electronic file. All children admitted to the hospital were followed up until discharge or death. Outcomes were recorded at time of disposition from the EMD, at 24-h post EMD disposition, and on the day of discharge from hospital (or death).
Primary outcomes were hospital mortality and secondary outcomes were EMD mortality, 24-h mortality, and incidence of cardiac arrest in the EMD, length of stay, ICU admission and risk factors for mortality.
Data analysis
Data from REDCap (Version 7.2.2, Vanderbilt, Nashville, TN, USA) were exported to Statistical Package for Social Science (SPSS version 22.0, IBM Corp., Armonk, NY, USA) for analysis. For the primary outcomes, descriptive statistics; median, proportion, interquartile range [IQR] and counts, are displayed. For the secondary outcome of risk factors for mortality, we used relative risk.
Discussion
Globally, respiratory compromise in the paediatric population is the leading cause of emergency visits, cardiac arrest, ICU admission and prolonged hospital stay [
5,
10,
12]. In Tanzania the burden, clinical epidemiology, management and outcomes of acute respiratory compromise among paediatric population attending acute care settings has not been previously documented.
In our study, the majority of children with respiratory compromise were below age 5 years, more than half had respiratory failure on arrival and one third died before hospital discharge. The median age of children who died was 8 months, suggesting that those under one year are a particularly vulnerable group. Nearly half of the children enrolled had comorbidities, the most common being congenital heart disease. Pneumonia was the most frequent diagnosis. Notably, the majority of children presented in respiratory failure, and only 12% received ICU care. Risk of death was higher among children who presented in emergency department with hypoxia, decreased level of consciousness, bradypnoea and those who received cardiopulmonary resuscitation, intubation, and airway adjunct insertion in EMD. The risk of death among intubated children was high, because most children were intubated after developing cardiac arrest, and thus there was a delay in EMD in initiating assisted ventilation.
Similar findings regarding the young age of paediatric patients presenting with respiratory compromise have been reported in India, China, Zambia, and Nigeria [
5,
13‐
15]. Children under five years are more likely to develop respiratory compromise than other age groups because of their small airway, underdeveloped central nervous system, less energy store and other anatomical differences compared with older children [
16]. They also have higher risk of Respiratory Syncytial Virus infection and this is particularly true of those below one year of age [
17].
In our study, the proportion of children arriving with respiratory failure was higher than reported in studies in India and Canada [
14,
18]. This finding is likely a result of delayed presentation or delayed transfer to our hospital, which has been documented for other illnesses in LICs.
The leading cause of respiratory compromise was pneumonia, then congenital heart disease and sepsis but the leading causes of death were pneumonia followed by sepsis and congenital heart disease. This is consistent with previous studies in LICs; in Nigeria, Zambia and Malawi, pneumonia was the leading cause of death [
6,
14,
19]. A study from India also reported pneumonia as the leading cause of death [
14].
In this study, we found that the use of investigations varied. For example, while almost all children had random blood glucose and malaria testing, blood gas analysis was performed in only about half of paediatric patients with respiratory compromise. In a study conducted in India among children with acute respiratory failure, blood gas analysis was performed in all paediatric patients [
14]. Blood gases were not performed in our department either due to the cost to the patient or intermittent availability of reagent; a previous study in Ghana described similar barriers to testing [
6]. Sawe et al. in 2011 reported unavailability of blood gas analyzer machines in all main referral hospital ICUs in Tanzania [
20]. The lower frequency of blood gas analysis seen in this study demonstrates that relying on such investigations is not always practical in low income countries and thus emergency care providers must depend on clinical features to diagnose respiratory failure.
Perhaps surprisingly, chest radiography was performed in only one third of the children. Clinicians in our department may not order chest radiography probably because of the poor quality of portable chest radiography in our hospital, and children were too sick (87% were on oxygen therapy) to go to the radiology department for imaging. There is also an increasing use of point of care lung ultrasound in our department.
Most children received oxygen therapy
; however, only 11% received mechanical ventilation. In a study in India with a comparable group of patients, mechanical ventilation was required in 33.9% of children with respiratory failure in the emergency department [
14]. This suggests that there are insufficient resources in our setting. At the time of this study, MNH had no paediatric ICU, children who require intensive care are admitted to the adult medical ICU which had only 13 bed capacity and no ventilators which can support children of young ages [
18]. In Canada and India all paediatric patients with respiratory failure were admitted to ICU from emergency department [
14,
18]. Notably, the overall mortality was two times higher in this study than in the study in India.
The high mortality rate of our population can be attributed to several potential reasons. The majority of children arrived in EMD after developing respiratory failure and thus had less reserve despite attempts at lifesaving intervention. The risk factors for mortality reflect this end-stage disease; decreased consciousness, hypoxia and bradypnoea, cardiac arrest, and the need for ventilation. A second reason may be failure of EMD physicians to initiate invasive measures sooner; the median length of stay for children who developed cardiac arrest in our department was 6 h, suggesting that there may have been opportunity to intervene sooner if respiratory failure had been recognised. However, another reason for delayed intervention may be the lack of ventilators in the EMD and in hospital main ICU. Finally, the high mortality is likely attributable to the low ICU admission rate resulting from a lack of a paediatric ICU and less ICU bed capacity in the adult ICU [
18,
20]. Another possibility could be poor adherence to respiratory management guidelines or poor quality of interventions.
Limitations
This was a single site descriptive study with a small sample conducted over a relatively short duration, limiting our ability to account for seasonal variation. Patient enrolment was only performed for 12 h a day and it is possible that the types of patients arriving at night are different. Hence our results may not necessarily be fully representative of our population, or generalizable to other emergency departments with different patient populations in different seasons. However, as noted above, our findings regarding demographics, and etiologies are consistent with prior studies and our higher mortality rate can be explained by the differences in our health care system and setting.