Background
Lower respiratory tract infections (LRTIs) remain a significant concern in pediatrics due to their substantial burden among childhood diseases. Romania has recently attained the status of a high-income country. Even though the mortality rate from respiratory diseases has significantly declined from 24.1 per 100,000 individuals in 2000 to 5.3 per 100,000 in 2022, the rate remains notably higher than the European average. Diagnosing LRTI is challenging due to its clinical similarity to noninfectious respiratory illness and frequent false-positive results or incidental findings on microbiologic tests. This often leads to antimicrobial overuse and adverse outcomes. Additionally, antibiotic resistance poses a significant global public health threat.
Patients and method
We conducted a retrospective analysis of pediatric LRTI cases at a tertiary pediatric center in Romania to evaluate diagnostic testing, imaging use, etiology identification, and treatment approaches. Children under 18, admitted to the Emergency Clinical Hospital for Children in Cluj-Napoca during an eight-month peak respiratory season, were included. Data from electronic medical records were analyzed for demographics, symptoms, physical exams, laboratory data, presence of fever, etiology, treatment, and outcomes.
Results
In total, 222 children were included in this study, with a median age of 29 months. Among the participants, 58% were male. The average hospital stay was 11 days. The total number of cases was almost equally split between bronchiolitis and pneumonia, with lobar pneumonia accounting for 12% of the included patients. We found two statistically significant correlations between the presence of fever, intercostal retracting, and the subtype of LRTI. An inflammatory response defined as an elevated leucocyte count and elevated C-reactive protein (CRP) was more likely to appear in pneumonia cases than bronchiolitis. From a therapeutic point of view, the prescription of hydrocortisone was statistically linked to bronchiolitis, but its use did not shorten hospitalization time.
Conclusion
Policy interventions and targeted treatments can reduce LRTI incidence and improve outcomes. Based on our correlations between specific clinical traits and subtypes of LRTIs, the use of assessment scores in children helps predict severe illness and the need for hospitalization. Promoting hygiene, social distancing, and addressing socioeconomic factors are crucial. Larger sample sizes and advanced diagnostics are needed to refine treatment strategies further. Early antibiotic use in children has long-term health implications, including a higher risk of respiratory-caused premature death in adulthood. This emphasizes the need for improved diagnostic processes and specific etiological identification, with metagenomics showing promise in this area.