Purpose
Information on the clinical features of lung abscess, which is uncommon in children, at hospitalizationis helpful to anticipate the disease course and management. There is no report concerning lung abscess in Korean children. We aimed to identify the clinical characteristics of pediatric lung abscess and compare the difference between primary and secondary abscess groups.
Methods
The medical records of 11 lung abscess patients (7 males and 4 females) from March 1998 to August 2011 at two university hospitals were retrospectively reviewed. The clinical characteristics, symptoms, underlying disease, laboratory and radiologic findings, microbiological results, and treatments were examined.
Results
Six patients had underlying structural-related problems (e.g., skeletal anomalies). No immunologic or hematologic problem was recorded. The mean ages of the primary and secondary groups were 2.4 and 5.3 years, respectively, but the difference was not statistically significant. The mean length of hospital stay was similar in both groups (22.8 days vs. 21.4 days). Immunologic studies were performed in 3 patients; the results were within the normal range. Most patients had prominent leukocytosis. Seven and 4 patients had right and left lung abscess, respectively. Staphylococcus aureus, Streptococcus pneumoniae, and antimycoplasma antibodies were detected in both groups. Two patients with primary lung abscess were administered antibiotics in the absence of other procedures, while 8 underwent interventional procedures, including 5 with secondary abscess.
Conclusion
The most common symptoms were fever and cough. All patients in the primary group were younger than 3 years. Structural problems were dominant. Most patients required interventional procedures and antibiotics.
Introduction
Lung abscess is a thick-walled cavity in the pulmonary parenchyma that contains purulent material and is initiated or complicated by infectious organisms
The introduction of antimicrobials into clinical practice has improved the prognosis of lung abscess, but the literature from 1969 to 2005 reported mortality rates ranging from 2.0%-38.2%
Materials and methods
1. Patients
In this study, the diagnosis of lung abscess satisfied the following criteria: (1) air-fluid level on chest radiographs; (2) thick-walled cavities containing suppurative material and destruction of lung parenchyma on chest computed tomography (CT); (3) radiologist readings that confirmed lung abscess at the time of hospitalization if no radiographs or CT images were available in the record. We excluded cases of pneumonia, necrotizing pneumonia, and empyema without definite abscess formation on radiologic images. We retrospectively reviewed medical records from March 1997 to August 2011. Patients who were discharged from the Pediatric Department, Kyung Hee University Hospital at Gangdong, and Kyung Hee University Medical Center with an International Classification of Disease-9 diagnosis code for lung abscess were selected. After reviewing the medical records, we identified a total of 11 patients under 16 years of age whose radiologic findings were consistent with lung abscess. The patients were categorized into primary and secondary abscess groups in accordance with the presence of underlying disease.
2. Methods
Patient characteristics, clinical symptoms and signs, time to defervescence and recovery, length of hospital stay, and the presence of underlying disease were investigated. Laboratory findings were examined for inflammatory responses and microbiological tests, including blood, sputum, urine, or thoracic fluid cultures and specific antigen or antibody reaction in serum and urine were examined for causative organisms. We reviewed treatment regimens including antibiotic therapy and interventional invasive procedures, designated as percutaneous drainage and surgical procedures including chest tube insertion (thoracostomy), thoracotomy, or lobectomy. Recovery from disease was defined as one of the following: radiologic resolution, clinical symptom improvement, or defervescence (maintenance of body temperature below 38℃ for at least 24 hours)
3. Statistical analysis
The patients were classified into primary and secondary abscess groups depending on the presence of underlying disease. Differences between 2 groups were examined using the Mann-Whitney U test for continuous variables and Fisher chi-square test for dichotomous outcomes (SPSS ver. 15, SPSS Inc., Chicago, IL, USA). Continuous variables were expressed as mean±standard deviation and dichotomous outcomes were described as number of patients or percentages (%). P values of <0.05 were considered statistically significant.
Results
1. Patient data, underlying diseases, and radiologic and laboratory findings (
A total of 11 patients with lung abscess were recruited (male: female=7:4). Male patients tended to have primary lung abscess (male:female=4:1 vs. 3:3, primary and secondary, respectively). The age of the patients ranged from 1 to 16 years. The mean age of the primary abscess group was younger than that of the secondary abscess group (2.4±0.5 years vs. 5.3±6.0 years, P=0.976), although this was not statistically significant. All patients in the primary abscess group were younger than 36 months.
Five patients with primary lung abscess had no history of choking or aspiration and 6 patients in the secondary group had underlying disease without aspiration. The underlying conditions in patients with secondary abscess were neonatal respiratory distress syndrome (1 patient), congenital cystic adenomatoid malformation (CCAM, 2 patients), pectus excavatum (2 patients), and Tetralogy of Fallot (1 patient). The abscess was located in cysts in patient with CCAM (
On chest radiographs, pneumonia was the most common finding associated with lung abscess (10 patients), followed by atelectasis, pneumatocele, pleural effusion, thoracic mass or cyst (3 patients), and pneumothorax (2 patients). The locations of the lung abscesses were varied on chest CT. In patients with primary abscess, 2 were located in the right lung and 3 were in the left lung. Two patients exhibited involvement of more than two pulmonary lobes, one with abscess in left upper and lower lobes and the other with lung abscess in the right upper and middle lobes. The lung abscesses were >20 mm in diameter, and the size was not significantly different between primary and secondary groups (38±15.7 mm vs. 42±19.4 mm, respectively, P=0.833).
White blood cell counts, C-reactive protein (CRP) and erythrocyte sedimentation rates (ESRs) on admission were elevated in 10 of 11 patients, and there were no difference between 2 groups: complete blood cell count (22,170/µL vs. 14,904/µL), CRP (11.7 mg/dL vs. 14.5 mg/dL) and ESR (46.2 mm/hr vs. 59.6 mm/hr). Nine patients presented with a left shift in the leukocyte count; 2 patients were excluded due to missing or incomplete medical records.
2. Clinical manifestations and laboratory data
Fever was the most common symptom, and was reported in all 11 patients (100%) at the time of admission. Ten patients (91%) presented with cough and sputum. Rhinorrhea and dyspnea were reported in 3 (27%) and 2 patients (18%), respectively. A variety of symptoms such as chest pain, weight loss, abdominal pain, lethargy, and shoulder pain were also present (
The mean duration of fever before hospitalization was 9.1±8.3 days in all 11 patients without significance between 2 groups (9.6±8.0 days vs 8.7±9.2 days, P=0.8). There were no differences between primary and secondary abscess groups in terms of length of hospital stay (21.4±9.9 days vs. 22.8±11.4 days, P=0.9), mean time to defervescence (17.4±7.6 days vs. 12.0±7.2 days, P=0.353), hospital days before invasive procedure, including thoracostomy, thoracotomy, or surgery (12.3±11.2 days vs. 19.2±9.4 days, P=0.393), and time to recovery or discharge (24.7±6.5 days vs. 14.8±7.4 days, P=0.161).
3. Etiology and treatments
Putative microbiologic results were found for 6 patients (55%) from specimens of blood, sputum, urine, and thoracic fluid (
Two patients in the primary abscess group were improved with antibiotic therapy alone. One patient who had recurrent fever and rash suggestive of Kawasaki disease was treated with intravenous immunoglobulin. One patient with S. pneumoniae pneumonia who had had persistent fever after discharge from the hospital was diagnosed with lung abscess by chest x-ray performed in the outpatient clinic, and showed improvement in clinical symptoms and radiologic findings upon treatment with a third generation oral cephalosporin.
Eight patients were treated with invasive procedures in combination with antibiotic therapy including third-generation cephalosporins, clarithromycin, clindamycin, vancomycin, and beta-lactam/beta-lactamase complexes. Third generation cephalosporins (8 patients) and clindamycin (7 patients) were used most commonly. The antibiotic regimens were similar in the primary and secondary groups. Pleural injection of urokinase and imipenem via the chest tube was tried in 1 patient who had serological confirmation of Mycoplasma pneumoniae. There was no significant difference between groups in the mean duration of intravenous antibiotics administration during hospitalization (19.8±10.9 days vs. 22.3±10.6 days, P=0.762) or in the time to defervescence after antibiotics use (8.8±8.0 days vs. 6.2±3.8 days, P=0.755).
Three patients in the primary abscess group and 5 in the secondary abscess group required invasive procedures (60% vs. 80%). One patient with CCAM (
Discussion
In this study, there were several findings that differ from those of previous studies. First, the patients with primary lung abscess were around 2 years of age, and were younger than those with secondary lung abscess, although this did not reach statistical significance because the sample size was too small. The finding that all of the patients in the primary group were younger than 3 years has not been reported in other studies. Second, in the secondary group, predisposing factors related to structural problems such as skeletal anomalies were dominant. Third, in previous reports, percutaneous aspiration was a preferred intervention when needed, while in the present series the majority of patients underwent interventional procedures that included thoracostomy and segmentectomy, and in all such cases, the timely interventional procedures appeared to be valuable. Lastly, in the present series, there were no reported sequelae in any patients; all were completely cured.
While all patients in the present series had fever, none presented with gastrointestinal signs or symptoms or hemoptysis
Previous studies have reported that duration of hospitalization ranged from 13 days to 28 days in patients with primary lung abscess and was longer for patients with secondary lung abscess
Aspiration plays a major role of lung abscess formation which is related with dependent segments
In contrast to lung abscess in adults
Administration of parenteral antibiotics for 2-3 weeks followed by oral therapy is recommended as treatment for lung abscess
Abscess drainage is necessary in 20% of cases. The primary indications for drainage are failure to respond to medical therapy alone and the presence of factors such as significant hemoptysis, suspected neoplasm, fever persisting beyond 7-10 days
In conclusion, lung abscess in children can occur over a wide range of ages, but an age of <3 years may be influential. Structural problems that cause chest wall deformities or mechanical changes are predominant factors in secondary lung abscess. The combination of antibiotics treatment and interventional procedures may result in a more favorable clinical course for patients with lung abscess in the presence of any aggravating condition. In the present series, the rate of identification of pathogens was low and attempted identification of pathogens was lacking.
Acknowledgment
This study was exempt from Institutional Review Board oversight in the aspect that all patients had been hospitalized in a conventional therapeutic setting and cases were reported before 2011.
Conflicts of interest: No potential conflict of interest relevant to this article was reported.
The chest radiography of a typical secondary lung abscess with congenital cystic adenomatoid malformation in patient 7 shows two cysts with an air-fluid level (arrow), respectively, on postero-anterior view (A) and lateral view (B).
Demographic data, underlying diseases, and radiologic and laboratory findings (n=11)
| Patient No. | Sex/age (yr) | Fever duration | Underlying diseases | Radiologic findings | Location of lung abscess | WBC (cells/µL)/segmented neutrophil (%) | CRP (mg/dL)/ESR (mm/hr) |
|---|---|---|---|---|---|---|---|
| Primary lung abscess (n=5) | |||||||
| 1 | M/2 | 16 | Pneumonia, pneumatocele | LLL sup. seg. | 14,900/62.2 | 0.97/60 | |
| 2 | F/3 | 2 | Pneumonia, atelectasis, pleural effusion | LUL apico-posterior seg, LLL sup. seg. | 28,350/85.0 | 7.32/52 | |
| 3 | M/2 | 3 | Pneumonia | RUL apical & post. seg. | 18,900/54.7 | 14.79/47 | |
| 4 | M/3 | 20 | Thoracic mass or cyst | LUL | 37,100/* | 6+†/60 | |
| 5 | M/2 | 7 | Pneumonia, atelectasis, Pleural effusion, pneumothorax, pneumatocele | RUL, RML | 11,600/84.0 | 23.6/12 | |
| Secondary lung abscess (n=6) | |||||||
| 6 | M/2 | 2 | RDS | Pneumonia | RLL sup. seg | 15,030/51.2 | 10.9/64 |
| 7 | F/9 | 2 | CCAM | Pneumonia | LUL apico-posterior seg. | 13,500/84.7 | 17.36/44 |
| 8 | F/16 | 20 | Incomplete treatment of pulmonary Tbc, pectus excavatum scoliosis | Pneumonia, pneumothorax | RUL, apical, anterior & post. seg. | 17,990/92.0 | 29.9/78 |
| 9 | M/1 | 21 | CCAM | Pneumonia, pneumatocele, pleural effusion, thoracic cyst | RLL sup., lateral basal, post. basal seg. | 13,900/65.3 | 2.37/62 |
| 10 | M/3 | 4 | Pectus excavatum, developmental delay | Pneumonia, thoracic mass | RLL sup. & post. basal seg. | 15,700/* | */* |
| 11 | F/1 | 3 | TOF, s/p BT shunt & total correction, wound infection | Pneumonia, atelectasis | RUL apical & post. seg. | 15,700/48.4 | 12/50 |
WBC, white blood cell counts; CRP, C-reactive protein; ESR, erythrocyte sedimentation rate; LLL, left lower lobe; sup., superior; post., posterior; seg., segment; LUL, left upper lobe; RUL, right upper lobe; RML, right middle lobe; RDS, respiratory distresss syndrome; RLL, right lower lobe; CCAM, congenital cystic adenomatoid malformation; Tbc, tuberculosis; TOF, Tetralogy of Fallot; BT shunt, Blalock-Taussing shunt; s/p, state of postoperation.
*Missing or incomplete medical records. †Semiquantitative data.
Clinical manifestations of the lung abscess patients (n=11)
| Presentation | No. of patients (%) |
|---|---|
| Fever | 11 (100) |
| Cough, sputum | 10 (91) |
| Rhinorrhea (patients 3, 6, 7) | 3 (27) |
| Dyspnea (patients 5, 8, 10) | 3 (27) |
| Chest pain (patient 7) | 1 (9) |
| Weight loss (patient 8) | 1 (9) |
| Abdominal pain (patient 8) | 1 (9) |
| Lethargy (patient 4) | 1 (9) |
| Shoulder pain & swelling (patient 4) | 1 (9) |
| Redness around sternum (patient 11) | 1 (9) |
Some patients had more than one symptom
Etiologic pathogens and treatments in lung abscess patients (n=11)
| Patient No. | Specimens | Isolated pathogens | Procedures |
|---|---|---|---|
| Primary lung abscess (n=5) | |||
| 1 | Blood | Not found | None |
| 2 | Blood | M. pneumoniae | Chest tube |
| 3 | Urine | S. pneumoniae | None |
| 4 | Pleural fluid Cx. | S. aureus | Chest tube & lung segmentectomy |
| 5 | Pleural fluid & blood Cx. | S. pneumoniae | Chest tube |
| Secondary lung abscess (n=6) | |||
| 6 | Abscess Cx. | S. pneumoniae | Chest tube |
| 7 | Blood | M. pneumoniae | Lung segmentectomy & chest tube |
| 8 | Blood | Not found | Chest tube |
| 9 | Blood | Not found | Chest tube |
| 10 | Blood | Not found | Fluoroscopy guided closed thoracotomy |
| 11 | Blood | Not found | None* |
Cx., culture; M. pneumoniae, Mycoplasma pneumoniae; S. pneumoniae, Streptococcus pneumoniae; S. aureus, Staphylococcus aureus.
*One patient was transferred to another hospital without undergoing invasive procedures.