Risk factors for preoperative respiratory complications in children with tracheobronchial foreign bodies

Introduction

Tracheobronchial foreign body aspiration (TFBA) is one of the most common respiratory conditions, causing dyspnoea or other pulmonary complications; TFBA can become life threatening under severe circumstances. ¹ Delayed diagnoses are frequent and substantially increase the risk of respiratory complications. ² Respiratory complications of TFBA, including pulmonary infection (pneumonia), emphysema, atelectasis, mediastinal shift and pneumomediastinum, not only add difficulties to the bronchoscopy procedure but also contribute to long-term adverse consequences and harmful effects on children’s health.^3–5

Research has reported a positive correlation between respiratory complications and the retention time of foreign bodies, ² but factors that influence the retention time have not been identified. The present study aimed to identify the risk factors for preoperative respiratory complications by retrospectively analysing cases of paediatric TFBA in order to compare age, sex, symptoms, type of foreign body, retention time and location of foreign body between groups with or without preoperative respiratory complications.

Patients and methods

Results

A total of 223 children were enrolled in the study (150 male; 73 female, with a mean ± SD age of 1.8 ± 1.9 years [range, 7 months to 12 years]). The mean ± SD retention time was 5.9 ± 1.5 days (range, 30 min to 63 days). In total, 156 of 223 patients (70%) were referred from other hospitals in the local area.

Patients were divided into two groups based on the presence of preoperative respiratory complications as identified on CT: group A (n = 161; 106 male and 55 female patients) and group B (n = 62; 43 male and 19 female patients). Table 1 presents the demographic and clinical characteristics of the two groups. There were no significant between-group differences in terms of age or sex distribution. Age- and sex distributions of the patients in both groups A and B are presented in Figure 1. In group A, the age groups that were most likely to present with TFBA were the 0 to <1 (n = 40 patients) and ≥1 to <2 (n = 100) year groups. In group B, the age groups that were most likely to present with TFBA were 0 to <1 (n = 15 patients) and ≥1 to <2 (n = 36) year groups, which together accounted for 86% (191/223) of all patients. OPEN IN VIEWER

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Table 1.

Clinical and demographic characteristics of paediatric patients admitted to hospital with symptoms of tracheobronchial foreign body aspiration, with (group A) or without (group B) preoperative respiratory complications.

Characteristic	Group A n = 161	Group B n = 62
Age, years	1.8 ± 1.7	1.9 ± 1.5
Age range, years	7 months to 12 years	7 months to 12 years
Age categories
0 to <1	40	15
≥1 to <2	100	36
≥2 to <3	8	5
≥3 to <4	5	1
≥4 to <5	3	3
≥5 to <12	5	2
Sex, male/female	106/55	43/19
Retention time, days	13.40 ± 1.62	4.02 ± 5.62 a
Retention time, range	3 h to 63 days	0.5 h to 15 days

Data presented as mean ± SD or n patients.

a

P < 0.05 compared with group A; Student’s t-test.

The mean ± SD retention time was significantly longer in group A compared with group B (P < 0.05) (Table 1).

Coughing and wheezing were the most common symptoms of TFBA in patients in both groups (Table 2). The proportion of patients with dyspnoea in group B was significantly higher compared with group A (P < 0.05). There were no other significant between-group differences.

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Table 2.

Symptoms of tracheobronchial foreign body aspiration in paediatric patients admitted to hospital with (group A) or without (group B) preoperative respiratory complications.

Symptoms	Group A n = 161	Group B n = 62
Coughing	156 (96.9)	52 (83.9)
Wheezing	126 (78.3)	55 (88.7)
Fever	12 (7.5)	5 (8.1)
Dyspnoea	5 (3.1)	17 (27.4) a

Types of foreign body that were aspirated by patients in both study groups are listed in Table 3. The majority of aspirated foreign bodies were food items (145/161 [90%] in group A; 55/62 [89%] in group B), particularly peanut kernels and sunflower seeds.

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Table 3.

Types of aspirated foreign body in paediatric patients admitted to hospital with symptoms of tracheobronchial foreign body aspiration with (group A) or without (group B) preoperative respiratory complications.

Category	Group A n = 161	Group B n = 62
Peanut	52 (32.3)	10 (16.1) a
Sunflower seed	22 (13.7)	27 (43.5) a
Walnut	15 (9.3)	2 (3.2) a
Pistachio nut	12 (7.5)	4 (6.5)
Apple, peach	9 (5.6)	4 (6.5)
Animal bone	8 (5.0)	3 (4.8)
Rice	7 (4.3)	2 (3.2)
Bean	7 (4.3)	3 (4.8)
Chestnut	5 (3.1)	0 (0.0)
Almond	3 (1.9)	0 (0.0)
Meat	3 (1.9)	0 (0.0)
Watermelon seed	2 (1.2)	0 (0.0)
Toy	8 (5.0)	5 (8.1)
Whistle	0 (0.0)	1 (1.6)
Cap of a pen	1 (0.6)	0 (0.0)
Unknown	7 (4.3)	1 (1.6)

Anatomical locations of aspirated foreign bodies for both groups are shown in Table 4. Results of the CT scans for preoperative pulmonary complications for group A are shown in Table 5. Emphysema and pneumonia were the most common complications. A total of 121 of 161 patients (75%) in group A had several complications simultaneously.

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Table 4.

Locations of aspirated foreign bodies in paediatric patients admitted to hospital with symptoms of tracheobronchial foreign body aspiration with (group A) or without (group B) preoperative respiratory complications.

Site	Group A n = 161	Group B n = 62
Left bronchus	82 (50.9)	17 (27.4)
Right bronchus	75 (46.6)	13 (21.0)
Trachea	4 (2.5)	32 (51.6)

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Table 5.

Pulmonary complications identified by preoperative computed tomography in paediatric patients admitted to hospital with symptoms of tracheobronchial foreign body aspiration; patients presented with preoperative respiratory complications.

Complication	Group A a n = 161
Emphysema	156 (96.9)
Pneumonia	73 (45.3)
Atelectasis	3 (1.9)
Pneumomediastinum	2 (1.2)
Subcutaneous emphysema	1 (0.6)
Pneumothorax	1 (0.6)

Data presented as n (%) of patients.

a

Group B patients did not present with preoperative respiratory complications and are therefore not included in this analysis.

Univariate and multivariate analyses of the effects of clinical parameters on respiratory complications of TFBA in children found that the type of foreign body and the symptoms of TFBA differed significantly between both groups (P < 0.05) (Table 6).

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Table 6.

Univariate and multivariate analyses of the effects of clinical parameters on respiratory complications of tracheobronchial foreign body aspiration in children (n = 223).

Parameter	Univariate analysis			Multivariate analysis a
	HR	95% CI	Statistical significance	HR	95% CI	Statistical significance
Type of foreign body	1.434	1.122, 1.535	P = 0.001	0.879	0.367, 0.987	P = 0.01
Symptoms	1.671	1.231, 1.878	P = 0.008	1.457	1.123, 1.671	P = 0.012
Location of foreign body	0.342	0.111, 0.567	NS
Age	0.876	0.567, 1.013	NS
Sex	1.097	0.876, 1.342	NS

Discussion

Despite improvements in the general public’s knowledge of TFBA in recent years, this pulmonary condition remains life threatening for young children who cannot chew food thoroughly and tend to put foreign bodies into their mouths. Previous reports have demonstrated that children aged 0–3 years are most likely to experience TFBA, accounting for 65–75% of all cases.^4,6 In the current study, 86% (191/223) of the cases were children aged 0 to <2 years and the mean age of the study population was 1.8 years. The mean age was 1 year younger than in previous reports.^6–8 Reasons for this decrease in the mean age of children experiencing TFBA are speculated to be an improved material life and increased availability of food at home. Some nutritionists recommend nuts to promote brain development in young children, prompting parents to add these foodstuffs to their children’s diets. There was no significant difference in the mean age of groups A and group B (1.8 versus 1.9 years, respectively) in the present study.

In the present study, the male/female ratios in groups A and B were 1.9:1.0 and 2.3:1.0, respectively, which were similar to previously reported ratios. ⁹ There is some evidence that male children may be more adventurous and careless than female children, which may heighten the risk of TFBA in male infants. ⁹

Tracheobronchial foreign body aspiration is frequently misdiagnosed in children for the following reasons: (i) parents are absent when TFBA occurs and cannot provide a clear history; (ii) due to concern over being blamed, babysitting seniors may refuse to accurately report an incident; (iii) lack of medical knowledge, which leads to neglect of the serious situation and delay in seeing a physician; (iv) clinicians misdiagnose TFBA as upper respiratory infection, bronchitis or pneumonia.^2,3 In the present study, the mean ± SD retention time was significantly longer in group A compared with group B (13.40 ± 1.62 days [range, 3 h to 63 days] versus 4.02 ± 5.62 days [range, 0.5 h to 15 days], respectively) (P < 0.05). Delayed treatment prolongs the retention time of the foreign body in the respiratory tract, resulting in pneumonia, emphysema, atelectasis, pneumomediastinum and other serious complications.^2,3

Common symptoms of TFBA are coughing, dyspnoea, wheezing, and fever, which differ according to the stage of TFBA; these symptoms are generally experienced in a sequential manner.^1,2 In the first stage (acute stage), the most common symptoms are violent coughing, dyspnoea, or even asphyxia due to complete airway blockage.^1,2 In the second stage (quiescent stage), the symptoms are not obvious, which can lead to misdiagnosis.^1,2 The third stage is a late stage accompanied by complications.^1,2 In the present study, the most common symptoms of TFBA in patients in both groups were coughing and wheezing. Other symptoms included fever and dyspnoea. The proportion of patients with dyspnoea in group B was significantly higher compared with group A (P < 0.05) in the present study, a finding that might be attributed to the location of foreign bodies. Patients in group B were more likely to have their foreign body located in their trachea compared with group A (51.6% versus 2.5%, respectively), which in our experience cause severe symptoms such as dyspnoea, attracting more attention and causing patients and their parents to seek urgent medical help, thus facilitating early diagnosis and timely treatment.

Preoperative respiratory complications are related to the retention time of the foreign body. ³ In our experience, plant foreign bodies such as peanuts and walnuts can cause complications if they are retained for >24 h, while plastic foreign bodies require a longer period, several months or even years, to trigger complications. The type, size, shape and location of the foreign body also plays a role in the occurrence of preoperative respiratory complications. ³ The type of foreign body is related to the local culture and dietary habits.^3,10,11 Most studies have shown that nuts (particularly peanuts) and seeds (especially sunflower seeds) are most commonly aspirated.^3,12,13 In the present study, ∼90% of the aspirated foreign bodies in both groups were food, particularly peanut kernels (group A: 32.3%; group B: 16.1%) and sunflower seeds (group A: 13.7%; group B: 43.5%). Peanut kernels are larger than sunflower seeds, so they are prone to cause airway blockage. After prolonged retention in the respiratory tract, during which time water is absorbed, the peanut can expand and worsen the condition. ³ In addition, peanuts are abundant in unsaturated fatty acids, contributing to respiratory inflammation. ³ These facts might explain the higher proportion of aspirated peanuts in group A compared with group B, in the present study. The majority of TFBA cases could be avoided by parents and carers keeping young children away from nuts and small toys.

In the long term, foreign bodies have a higher tendency to fall into the right bronchus. ¹² Recent research has shown that the right-side tendency exists in adults but not in children younger than 15 years. ¹⁴ The left and right principal bronchi form similar angles within the main trachea, ¹³ thus the likelihood of a foreign body falling into each should be similar.^14,15 This present study supports this suggestion, as 50.9% of foreign bodies in group A were located in the left bronchus and 46.6%% were in the right bronchus; in group B, 27.4% of foreign bodies were located in the left bronchus and 21.0% were in the right bronchus. Of special interest was the fact that in group B, 51.6% of the foreign bodies were located in the trachea, which was markedly higher than in group A (2.5%). These findings suggest that the symptoms associated with the presence of a foreign body in the trachea were more severe than in the bronchus, causing patients and their parents to seek medical help earlier.

When patients present with TFBA at our institution, CT is routinely used to ascertain the location of the foreign body and confirm preoperative complications, because severe complications must be detected in order to provide timely treatment and reduce surgical risks. All 223 patients in the present study underwent CT and 161 patients (group A) were confirmed to have preoperative respiratory complications. Emphysema and pneumonia were the most common complications, accounting for 96.9% and 45.3% of all cases, respectively. Less common complications included atelectasis, pneumomediastinum, pneumothorax and subcutaneous emphysema.

The present study had a number of limitations. First, there was no sample-size calculation undertaken prior to commencement of the study and the authors randomly chose the number of patients to include. Secondly, analyses were not undertaken according to the different age groups. Thirdly, the study did not present the results of treatment and different treatment modalities. Finally, the imbalance between male and female participants might have had an impact on the results.

In conclusion, respiratory complications of TFBA in children are correlated with type of foreign body, retention time and symptoms, but showed no relationship with location of the foreign body, age or sex. Aspiration of peanuts and prolonged retention time may cause preoperative complications. Dyspnoea and trachea-located foreign bodies appeared to urge the patient and their parents to seek medical help earlier, thus reducing preoperative respiratory complications. Early diagnosis and treatment are considered to be key factors in improving the clinical response to TFBA, and in reducing the incidence of complications associated with TFBA in children.