Factors Associated with Children’s Death Due to Congenital Heart Disease in Two National Hospitals of Niamey ()
1. Introduction
Congenital heart disease (CC) is malformations of the heart and/or large vessels occurring during intrauterine life. They are responsible for 3% of infant deaths worldwide and 46% of deaths by malformation and thus constitute a major cause of death in childhood among full-term new-borns [1]. In developed countries, the overall mortality rate from critical congenital heart disease varies from 15% to 25% and varies according to the type of cardiac malformation and the time of diagnosis [2]. The children heart diseases determine in Africa is the major public health that is difficult to manage, due to the density of the population young, the low socio-economic level and the lack of adapted technical platforms [3]. In Niger, despite the frequency of these pathologies, very few studies have been conducted specifically in a paediatric environment and no study has been carried out on the lethality of the CC. That is why we choose to examine the issue to contribute to the reduction of these risk factors for death of children.
2. Patients and Methods
2.1. Type and Period of Study
It was a transversal study for descriptive and analytical purposes in children aged from 0 to 15 years with Congenital cardio pathologies followed from January 2016 to July 2021 in two national hospitals in Niamey.
2.2. Study Population
The study concerned children aged 0 to 15 years with confirmed congenital heart disease by cardiac ultrasound and hospitalized or followed on an outpatient basis in Paediatrics Ward of the National Hospital of Niamey (HNN) and the National Hospital Amirou Boubacar Diallo (HNABD).
2.3. Inclusion Criteria
All children whose medical record was exploitable with the presence of cardiac Doppler ultrasound results were included.
2.4. Non-Inclusion Criteria
Children whose records were incomplete were not considered in the study.
2.5. Study Material
We had carried out a comprehensive sampling of all patients with congenital heart disease diagnosed during the study period and meeting the inclusion criteria.
2.6. The Variables Used
The data Socio-demographic, personal history and family, clinical parameters and paraclinical, etiological and therapeutic data as well as associated comorbidities.
2.7. Data Collection and Analysis
The data were collected on a survey sheet collecting based on the variables to be studied. The records as well as the strains of death reports of the various paediatric services were used. The entries were made using Word and Excel 2013 software. The data analysis was carried out using the Epi-Info7.2.5.0 software. The results were expressed in frequency with regard to socio-demographic data. The explanatory variables were related to the characteristics of the patients, the type of heart disease and management among others. Chi’s tests2 Pearson’s or Fischer’s exact test were used (P ≤ 0.05).
2.8. Ethical Considerations
The study obtained the authorization of the Faculty of Health Sciences (FSS) of Abdou Moumouni University in Niamey by issuing a research authorization and the agreement of the two hospitals’ administration. Anonymity and medical secrecy were respected. The consent of the parents was a prerequisite for the inclusion of patients in the study.
3. Results
3.1. Socio-Demographic Data
The male sex accounted for 52% (N = 267) patients with a sex ratio of 1.08. Sixty-one decimal forty percent (N = 367) of our patients were less than 12 months old with an average age of 14.64 months and extremes ranging from 0.33 months to 180 months. Ninety-three comma ninety-two percent (N = 483) of our patients were infants with an average age of 5.56 months and extremes ranging from 0.10 months to 84 Month. 514 cases of congenital heart disease were recorded, among which we recorded 132 deaths, a case fatality rate of 25.68%. The patients lived in Urban environment in 70.98% (N = 365). Mothers of patients aged between 20 and 29 were the most represented with 43.58% (N = 224). The average age of mothers was 30.17 years ± 7.34 with extremes ranging from 17 to 50 years. The socio-economic level of the patients’ parents was average in 65.53% of Case. Patients lived in urban areas in 70.98 %. Inbreeding between parents was found in 44% (n = 226) of cases.
3.2. Clinical Data
3.2.1. Reasons for Consultation/Hospitalization
The most frequent reason for consultation/hospitalization was distress breathing with 74.9% of cases (385) (Table 1).
Table 1. Distribution of patients according to the reasons for consultation/hospitalization.
Reasons for consultation/Hospitalization |
Frequency |
Percentage |
Respiratory distress |
385 |
74.90 |
Fever |
160 |
31.13 |
Cough |
92 |
17.90 |
DAS |
50 |
9.73 |
Cyanosis |
34 |
6.61 |
Oedema |
15 |
2.92 |
Other |
74 |
14.40 |
SAR = severe acute deshydration.
3.2.2. Main Signs at the Physical Examination
The main signs were systolic murmurs and pulmonary rangles with 85.21% and 42.05% respectively (Figure 1).
Figure 1. Distribution of patients according to signs on physical examination.
3.3. Echocardiographic Data
The CIV was the most found congenital heart disease in 36.53% (N = 183) of cases (Table 2).
Table 2. Overall distribution of congenital heart disease.
Cc |
Frequency |
Percentage |
IVC |
183 |
36.53 |
IAC |
102 |
20.44 |
Tetralogy of de Fallot |
102 |
20.48 |
AVC |
82 |
16.53 |
PDA |
46 |
9.33 |
POF |
30 |
6.01 |
PHA Primitive |
18 |
3.63 |
CC. Complex |
16 |
3.42 |
PS |
16 |
3.23 |
TLV |
15 |
3.03 |
Coarctation of the aorta |
4 |
0.81 |
Ebstein’s disease |
4 |
0.80 |
CAT |
3 |
0.60 |
Synd Laubry Pezzi |
3 |
0.60 |
Dextrocardia |
2 |
0.40 |
OSPA |
2 |
0.40 |
SV |
2 |
0.40 |
TA |
1 |
0,20 |
Mitral atresia |
1 |
0.20 |
FT |
1 |
0.20 |
PAIS |
1 |
0.20 |
Aortic Bicuspidy |
1 |
0.20 |
CIV = inter-ventricular communication, CIA = interatrial communication, AVC = atrio-ventricular communication, PDA = Persistence of the ductus arteriosus, POF = permeable oval foramen, PAH = pulmonary arterial hypertension, Cc = congenital heart disease, PS = Pulmonary stenosis, TLV = transposition of large vessels, CAT = common arterial trunk, APSO = open septum pulmonary atresis, SV = Single Ventricle, T A = tricuspid atresia, FT = Fallot trilogy, APSI = pulmonary atresis with intact septum.
3.4. Lethality Rate of Congenital Heart Disease
514 cases of congenital heart disease were recorded, among which we recorded 132 deaths, a case fatality rate of 25.68%.
3.5. Comorbidities
Pulmonary disease was the most found comorbidity in 44.55% of cases followed by acute malnutrition about 34.82% and malaria in 13.81% (Table 3).
Table 3. Distribution of patients according to the associated comorbidities.
Comorbidity |
Frequency |
Percentage |
Bronchopneumopathy |
229 |
44.55 |
Severe acute malnutrition |
179 |
34.82 |
Malaria |
71 |
13.81 |
Trisomy 21 |
67 |
13,04 |
Severe anemia |
21 |
4.09 |
Polycythemia |
12 |
2.33 |
Sickly cell |
7 |
1.36 |
Septicemia |
6 |
1.17 |
3.6. Distribution According to the Operative Indication, Surgical Treatment and Place of the Surgical PEC
Heart disease had an indication of surgery in 73.76%. Nine decimal fifty-four percent (9.54%) of patients had benefited from surgical management. Fifty percent (50%) of patients were operated on in France.
3.7. Factors Associated with Death
Bronchopulopneumopathy is a factor associated with the death of statistically significantly (P = 0.001). Mortality was more observed in the case of PAH with a statistically significant association (P = 0.001). The lack of follow-up of patients is a statistically significant factor of association of death (P = 0.001). Deaths from heart disease were more observed in children with anemia with a statistically significant link (P = 0.002). The operative indication would be a risk factor associated with statistically significant death (P = 0.001) (Table 4).
Table 4. Association between death and comorbidities, surgical indication and lack of follow-up.
Variables |
Death |
P value |
Yes |
No |
Bronchopneumopathies |
|
|
|
Yes |
96 (74.42%) |
110 (36.07%) |
0.001 |
No |
33 (25.58%) |
195 (63.93%) |
Total |
129 (100%) |
305 (100%) |
|
Pulmonary arterial hypertension |
|
|
|
Yes |
26 (54.17%) |
22 (45.83%) |
0.001 |
No |
90 (25.21%) |
267 (74.79%) |
Total |
116 (100%) |
289 (100) |
|
Lack of follow-up |
|
|
|
Yes |
42(37.50%) |
70(62.50%) |
0.001 |
No |
67(62.62%) |
40(37.38%) |
Total |
109(49.77%) |
110(50.23%) |
|
Anaemia |
|
|
|
Yes |
72 (63.16%) |
182 (77.78%) |
0.002 |
No |
42(36.84%) |
52 (22.22%) |
Total |
114 (100%) |
234 (100%) |
|
Surgical indication |
|
|
|
Yes |
113 (86.26%) |
244 (69.12%) |
0.001 |
No |
18 (13.74%) |
109 (30.88%) |
Total |
131 (100%) |
00%) |
|
4. Discussion
Socio-Demographic Characteristics
Patient characteristics: The male sex accounted for 52% (n = 267) of patients with a sex ratio of 1.08 slightly in favor of boys. This joins the results of Tougouma et al., Kinda et al. [3] [4] who noted a slight preponderance of the male sex with a sex ratio of 1.1 respectively 1.4.
The average age of these children was 14.64 months with extremes ranging from 0.33 months to 180 months. Patients who were less than 12 months old were the most represented with 71.40%, Kinda et al. [4] in Ouagadougou had reported almost the same results: the age extremes were identical but on the other hand, the average age was lower than that of our study which is 5 months with extremes 01 day to 15 years and the most representative age group is 0 to 30 months. This high rate case of congenital heart disease in the age group of less than 12 months in our study could be explained by the fact that some congenital heart diseases such as IVD, ACI and PCA representing 66.33% (n = 341) of congenital heart disease had a spontaneous evolution towards closure but also congenital heart diseases of late discovery are most often benign and compatible with an almost normal life. Early diagnosis is one of the factors widely studied affects the results of congenital heart disease, and many studies have shown that early diagnosis was associated with good results [2] [5] [6].
Clinically, the most found reason for hospitalization was respiratory distress in 74.90% (n = 385) of cases. The most represented functional sign was dyspnea in 71.01% (n = 365). The most represented physical sign was heart murmur in 85.21% (438). Our results are close to those of Kinda et al. [4] and Diby et al. [7], who found dyspnea in 75% and 84.9% respectively. Our result is superior to that of Banou N et al. [8], which had recovered 58% of the cases of breath. Breath is an almost constant sign in congenital heart disease in children [7].
From echocardiographic exploration, IVD was the most found congenital heart disease corresponding to 36.53% (n = 183) of cases. Our result is consistent with the many African studies conducted by Diby et al. [7] and Kandem F et al. [1] which found 31% and 31.1% respectively. However, our result was lower than that of Boussalah et al. [9] which had found 49.71%. On the other hand, Kinda et al. [4] had reported a lower frequency than ours which was 23.1%. This is related to the absence of cardiac surgery in our context.
Prognostically, 514 children were diagnosed with congenital heart disease in which 132 deaths were recorded, i.e. a case fatality rate of 25.68% (n = 132). This result is close to that of Ngouala et al. [10] which found a mortality rate of 24.4%. On the other hand, authors like Boussalah et al. [9], Lopez et al. [11], Diby et al. [7] and Knowles RL et al. [12] had found a mortality rate of 7.05%, 12%, 20.4% and 20% respectively. On the other hand, Rocha LA et al. [13] in Brazil and Mat Bah MN et al. [2] found a higher mortality rate than ours of the order of 42% and 34.8% respectively. This could be explained by the fact that in Rocha’s study, there is a high rate of prenatal diagnosis of congenital heart disease and complex heart disease, which were 84.8% and 60.5% respectively. Despite the progress and major steps in the diagnosis and management of congenital heart disease, these conditions are still responsible for high mortality.
Pulmonary disease (74.42%) was the comorbidity most associated with congenital heart disease at the time of death. This would promote death by heart disease with a statically significant link with P value ≤ 0.05. Rakotondrajaona O et al. [14] and Agus C et al. [15] had also reported that this comorbidity was the most common during congenital heart disease but with a lower frequency of 42%. The mortality was also more observed in the case of PAH which was present in 54.17% of the deceased children. PAH is a significant contributing factor of death from heart disease with P ≤ 0.05. Prevention of PAH consists of performing surgery extremely early in life before the development of irreversible pulmonary vascular lesions. In addition, the lack of patient follow-up is a statistically significant factor in the association of death (P = 0.001). This lack of follow-up will lead to not only the non-screening of possible complications and adapted care but also it will reduce the chance for these children to benefit from curative surgical treatment, hence the risk of death. Congenital heart diseases evolve more often towards the picture of global heart failure in the absence of early and appropriate treatment. Anemia is one of the most frequently associated comorbidities with this heart failure. It induces an increase in mortality course of the evolution of heart failure [16]. Our work reinforces this observation in the literature by showing an increase in death in children with congenital heart disease in case of anemia. The indication surgical is placed to avoid complications, some of which are fatal, that occurs during the evolution of congenital heart disease. In the absence of a surgical cure, this can logically increase the lethality of congenital heart disease. This corroborates the result of our series.
Limitations of the study. As in any retrospective study, the difficulties encountered were related to the exploitation of children’s records that were incomplete and patient data insufficient (in both hospitals).
5. Conclusion
Congenital heart disease remains an important cause of death among children in Niger. The pulmonary arterial hypertension and the associated comorbidities such as bronchopulmonary diseases were the main associated factors. The study suggests that an optimal technical platform for the management of these factors will help reduce this mortality.