Bacteriological Profile of Acute Respiratory Infections in Children: About a Prospective Study at the Albert Royer Hospital in Dakar ()
1. Introduction
Acute Respiratory Infections (ARI) is a public health priority worldwide. It is the leading cause of morbidity and mortality in children under five (05) years of age, especially in developing countries, behind neonatal causes [1]. The World Health Organization (WHO) estimates the number of deaths due to pneumonia among children under five (05) years of age at more than two (02) million each year. The majority of deaths occur in low-income countries [2] [3]. The etiologies are multiples (bacteria, viruses, parasites or fungi). In this context, bacterial caused are very frequent.
The diagnosis of bronchopulmonary infections requires an extremely rigorous semiological, clinical and radiological analysis.
In Senegal, few studies have been focused on the bacteriological profile of acute respiratory infections in children. This one is one of the first studies on the subject.
The main objective of this study is to identify the bacteria responsible for acute respiratory infections in children.
The secondary objective is to describe the epidemiological, diagnostic and evolutionary aspects of ARI in children hospitalized at the Albert Royer Hospital in Dakar.
2. Methodology
It was a prospective descriptive single-center study over a period of one year (from July 1, 2017 to June 30, 2018), conducted at the Albert Royer National Children’s Hospital in Dakar in the department ofpneumopediatric.
An authorization has been requested from each parent before the inclusion of their children.
We included children aged 0 to 15 years old hospitalized for respiratory symptoms associated with fever or a history of fever evolving for less than ten (10) days who were given a nasopharyngeal swab to allow the search for germs using the multiplex PCR technique (viral RNA transcribed into DNA, then the DNA of the different pathogens is simultaneously amplified in the same tube by PCR Fast-tract®, multiplex).
Acute respiratory infection has been defined by the presence of fever associated with respiratory symptoms evolving less than ten (10) days prior to admission.
All incomplete records and non-compliant specimens were excluded from the study.
The parameters studied were epidemiological, clinical, paraclinical, therapeutic and progressive. Data have been collected and analyzed using Epi Info version 7.2 software. A p < 0.05 is considered significant.
3. Results
During the study period 109 patients were included. The hospital prevalence of acute respiratory infections was 3.7%. The sex ratio was 1.8. The mean age of the children was 23.7 months. Of these children, 55.1% were from the urban area. Peaks of consultations were found during the months of August, March and April with 22%, 15.6% and 12.8% respectively. The entire study population was fully vaccinated according to Senegal’s current Expanded Program on Immunization (EPI). The grounds and co-morbidities found were malnutrition in 3 cases, heart disease in 4 cases, sickle cell disease in 1 case and asthma in 5 cases. The reasons for consulting our patients were fever in 94.5% of cases, cough in 94.5% and rhinitis in 52.3% of cases as shown in Figure 1.
The blood test performed in all the children showed hyperleukocytosis predominantly in 73.4% of the population. Thrombocytopenia has been found in 7 children. The C-reactive protein was positive in 97.3% of cases with an average of 96 mg/l.
Bacteriological examination was positive in 82.6% of the samples. Single germ samples were predominant with 47.1%. Figure 2 shows the number of germs per sample.
The bacteria most frequently found in the samples were respectively Streptococcus pneumoniae in 38.5%, Haemophilusinfluenza b in 32.1% and Moraxella catarrhalis in 25.7%. Table 1 presents the prevalence of bacteria found in the different samples. The positive diagnoses are summarized in Table 2.
Antibiotic therapy has been administered to 58.7% of the study population (64 children), corticosteroid therapy to 39.5% and oxygen therapy to 34.9%. The average length of hospitalization was 10 days; the main complications noted were atelectasis in 04 cases, pleurisy in 12 cases, and septic shock in 2 cases. The evolution was favorable in 98.2%. Lethality was 1.8%.
Figure 1. Distribution of study population by reasons for consulting N = 109.
Figure 2. Distribution according to the number of bacteria present per sample.
Table 1. Distribution according to the bacteria found in the samples.
Table 2. Breakdown by positive diagnosis.
4. Discussion
The prevalence found in this study is relatively low. Higher prevalenceis found in other countries in sub-Saharan Africa. In the Democratic Republic of Congo, Ngombé [4] in 2014 found a hospital prevalence of 26.11% of high and low ARI. In the Congo, Moyen [5] reported 19.8%. In the West, in Brazil in 2008, Prietsch et al. [6] reported a community prevalence of 23.9% of low ARI in children under 5 years old. In North America, an incidence of 30 - 45 cases per 1000 in children under 05 years old and 6 - 12 cases per 1000 in children over 5 years of age [7]. The average age of our children was 23.7 months. A stackable mean age has been described by other authors [8].
Acute respiratory infections can occur at any age. Young children, especially those under 5 years, are most vulnerable [7]. This justifies the fact that most of the world’s programs to combat child morbidity and mortality focus on this age group. Vulnerability in this age group is thought to be related to the immaturity of their immune system and the nasopharyngeal carriage of certain germs [9]. In this study, children under 5 years of age represented 88% of the total number of children.
The sex ratio 1.8 has been observed largely in favor of boys. This male predominance is described by most authors both in Senegal and worldwide. Krishnan, in 2012 in India found that the frequency of hospitalization for ARI in boys was 2.4 times higher than in girls [10].
Our study shows an unequal distribution between months of hospitalization with peaks of ARI occurrence during the months of March and April, corresponding to the transition period between cool and hot weather. This climate favors ENT infections, which weakens the respiratory mucosa and facilitates the spread of germs.
In developed countries, a seasonal distribution of ARI is noted, especially in autumn and winter [11] [12].
The majority of our children came from the disadvantaged areas of Dakar characterized by low socioeconomic status, promiscuity and high air pollution, often with poorly ventilated habitats. These different elements are factors in the occurrence of ARIs.
All our patients had benefited from a nasopharyngeal swab studied using the multiplex PCR technique. This technique (viral RNA transcribed into DNA, then the DNA of the different pathogens is simultaneously amplified in the same tube by PCR Fast-tract®, multiplex) allowed us to isolate bacteria.
Streptococcus pneumonia was the first germ responsible for ARI in children in Senegal [13]. But these studies were not based on the use of multiplex PCR.
In our series, Streptococcus pneumoniae was the first bacterium isolated, followed by Haemophilusinfluenza b and Moraxella catarrhalis with 38.5%, 32.1% and 25.7% respectively. Staphylococcus aureus was found in 24.8% of cases.
In Switzerland, Katia Jaton [14] found pneumococcus (Streptococcus pneumoniae) and Haemophilusinfluenzae as germs in her study on the microbiological diagnosis of pneumonia [14].
These cases of Haemophilusinfluenzae could be asymptomatic carriers because all our patients had good vaccination coverage and the technique used did not allow distinguishing a pathogenic germ from a carrier-related germ.
The death has been found in two (2) children, and this can be explained by the fact that these children presented a severe sepsis with multivisceral failure.
In Africa, the death rate is lower than that of Moyen el al in Congo Brazzaville (16.25%) and Bakonde (7.5%) in Togo [15].
This study has limitations. Firstly, the sample is not large enough to allow overall conclusions to be drawn, hence the need to conduct other larger studies with many more patients. On the other hand, the results of nasopharyngeal samples do not always reflect the germ responsible for pneumonia in children, hence the importance of coupling it with central samples in order to make the correlation. Other studies will be made taking into account all its limitations in order to be able to draw definitive conclusions
5. Conclusions
Acute Respiratory Infections (ARI) in children are an important factor in morbidity and mortality in children under five years of age in Senegal and worldwide, despite WHO guidelines for the management of ARI in children.
This study is a first and allowed us to know the germs responsible for ARI in children hospitalized in our structure.