Abstract

Introduction

The role of surgical drainage versus conservative therapy in treating patients with parapharyngeal abscesses is still a theme of debate.

Objectives

This study aimed to investigate the characteristics associated with good outcomes in pediatric patients with parapharyngeal abscesses treated with conservative therapy.

Methods

This retrospective chart review was performed on children aged 0.3-14 years with the diagnosis of parapharyngeal abscesses confirmed by computed tomography from January 2013 to March 2018. Patients with a severe upper airway obstruction required early intervention, while those in a stable condition initially received conservative therapy with antibiotics. If the patients appeared unlikely to recover, additional surgical drainage was provided. Multivariate logistic regression models were constructed to investigate the clinical characteristics associated with a good response to conservative therapy. A receiver operating characteristic curve was used to identify the age and abscess size cutoff for predicting a successful response.

Results

A total of 48 children were included in the study. Patient age, antecedent illness, and abscess size were significantly associated with a response to therapy (Odds Ratio = 1.326, 2.314 and 1.235, respectively). The age cutoff associated with the conservative therapy was 4.2 years (76.9% sensitivity, 68.2% specificity), and the abscess size cutoff associated with the conservative therapy was 23 mm (84.6% sensitivity, 77.3% specificity).

Conclusion

The findings suggested that younger age, smaller abscess size, and less frequent antecedent illnesses, such as upper respiratory tract infection and lymphadenitis, could predict a successful response to conservative therapy in pediatric patients with parapharyngeal abscesses.

Keywords
Deep neck infection; Parapharyngeal abscess; Pediatric; Therapy

Resumo

Introdução

O papel da drenagem cirúrgica versus tratamento conservador na abordagem de pacientes com abscessos parafaríngeos ainda é uma questão controversa.

Objetivo

Investigar as características associadas a um bom desfecho em pacientes pediátricos com abscessos parafaríngeos tratados com terapia conservadora.

Método

Revisão retrospectiva de prontuários feita em crianças de 14 anos com diagnóstico de abscesso parafaríngeo confirmado por tomografia computadorizada de janeiro de 2013 a março de 2018. Pacientes com obstrução grave das vias aéreas superiores necessitaram de intervenção precoce, enquanto aqueles em estado inicialmente estável receberam tratamento conservador com antibióticos. Se a recuperação dos pacientes parecesse improvável, drenagem cirúrgica adicional era feita. Modelos de regressão logística multivariada foram construídos para investigar as características clínicas associadas a uma boa resposta a terapia conservadora. Uma curva ROC, ou seja, característica de operação do receptor, foi usada para identificar a idade e o tamanho do abscesso com o intuito de prever uma resposta bem-sucedida.

Resultados

Foram incluídas no estudo 48 crianças. Idade do paciente, doenças respiratórias prévias e comorbidades e tamanho do abscesso foram significantemente associados à resposta terapêutica. (odds ratio = 1.326, 2.314 e 1.235, respectivamente). O ponto de corte da idade associado à terapia conservadora foi de 4,2 anos (sensibilidade de 76,9%, especificidade de 68,2%) e o ponto de corte do tamanho do abscesso associado à terapia conservadora foi de 23 mm (sensibilidade de 84,6%, especificidade de 77,3%).

Conclusão

Os achados sugerem que idade mais jovem, menor tamanho de abscesso e menor frequência de doença comuns, como infecção do trato respiratório superior e linfadenite, podem prever uma resposta bem-sucedida à terapia conservadora em pacientes pediátricos com abscessos parafaríngeos.

Palavras-chave
Infecção cervical profunda; Abscesso parafaríngeo; Pediatria; Terapia

Introduction

Parapharyngeal abscess (PPA) is a common but dangerous deep neck infection in pediatric patients. It can result in local, regional, and systemic complications, including airway obstruction, mediastinitis, and paraspinal abscesses, leading to paralysis, jugular vein thrombophlebitis, cranial nerve dysfunction, cervical osteomyelitis, meningitis, and death.¹1 Huang CM, Huang FL, Chien YL, Chen PY. Deep neck infections in children. J Microbiol Immunol Infect. 2017;50:627-33. The incidence of PPA has increased in children in recent decades.²2 Baldassari CM, Howell R, Amorn M, Budacki R, Choi S, Pena M. Complications in pediatric deep neck space abscesses. Otolaryngol Head Neck Surg. 2011;144:592-5.^,33 Novis SJ, Pritchett CV, Thorne MC, Sun GH. Pediatric deep space neck infections in U.S. children, 2000-2009. Int J Pediatr Otorhinolaryngol. 2014;78:832-6. In younger children, the most common presentations are fever and reduced appetite rather than a sore throat, while airway obstruction, neck swelling, and tenderness are also common presentations of PPA. Early diagnosis and treatment are critical to prevent such conditions and improve patient survival. Because of lower compliance and smaller anatomy, a pediatric PPA demands special skills in terms of diagnosis and treatment.

The conventional treatment for PPA in adults is antibiotic therapy with surgical drainage, whereas in children, the role of surgical drainage versus conservative therapy is still debatable.⁴4 Cramer JD, Purkey MR, Smith SS, Schroeder JW. The impact of delayed surgical drainage of deep neck abscesses in adult and pediatric populations. Laryngoscope. 2016;126:1753-60. Some studies suggested that antibiotic therapy could be used alone if no evidence of a compromised airway is found.⁵5 Cetin AC, Olgun Y, Ozses A, Erdag TK. A New Trend in the management of pediatric deep neck abscess: achievement of the medical treatment alone. Turk Arch Otorhinolaryngol. 2017;55:57-63.

6 McClay JE, Murray AD, Booth T. Intravenous antibiotic therapy for deep neck abscesses defined by computed tomography. Arch Otolaryngol Head Neck Surg. 2003;129:1207-12.

7 Wong DK, Brown C, Mills N, Spielmann P, Neeff M. To drain or not to drain ‒ management of pediatric deep neck abscesses: a case-control study. Int J Pediatr Otorhinolaryngol. 2012;76:1810-3.

8 Carbone PN, Capra GG, Brigger MT. Antibiotic therapy for pediatric deep neck abscesses: a systematic review. Int J Pediatr Otorhinolaryngol. 2012;76:1647-53.^-99 Lawrence R, Bateman N. Controversies in the management of deep neck space infection in children: an evidence-based review. Clin Otolaryngol. 2017;42:156-63. Danny et al.⁷7 Wong DK, Brown C, Mills N, Spielmann P, Neeff M. To drain or not to drain ‒ management of pediatric deep neck abscesses: a case-control study. Int J Pediatr Otorhinolaryngol. 2012;76:1810-3. reported that deep neck abscesses (including retropharyngeal and parapharyngeal abscesses) with smaller abscesses (≤25 mm maximal diameter) and younger age respond to antibiotics as the first-line treatment. Dong-Kyu et al.¹⁰10 Kim DK, Lee JW, Na YS, Kim MJ, Lee JH, Park CH. Clinical factor for successful nonsurgical treatment of pediatric peritonsillar abscess. Laryngoscope. 2015;125:2608-11. found that younger age, fewer episodes of acute tonsillitis, and smaller abscess size could predict the favorable outcome of nonsurgical treatment of a pediatric peritonsillar abscess. To date, the indications for conservative therapy of PPA in pediatric patients remain unknown. Therefore, this study was performed to investigate the characteristics associated with good outcomes in pediatric patients with parapharyngeal abscesses treated with conservative therapy by analyzing 5 year data from the Zhejiang University.

Methods

Patients

This retrospective study included consecutive patients who visited either the clinical department for the therapy of parapharyngeal abscesses or the emergency department for the therapy of severe upper airway obstruction from January 2013 to March 2018. Children aged 0.3-14 years were included. The diagnosis was confirmed via a Computed Tomography (CT) scan. Abscess size referred to the presence of frank pus, not just the murky fluid. Patients with obvious symptoms of upper airway obstruction received surgical drainage directly using intraoral and lateral neck approaches. Patients with no symptoms or signs of upper airway obstruction and systemic toxicity were admitted for close observation and intravenous antibiotic treatment. All patients underwent ultrasound-guided puncture of pus (ultrasound shows the hypoechoic liquid dark area of the parapharyngeal space, with no blood flow signal, but the wall of the abscess may have a low blood flow signal due to inflammation), bacterial culture, and drug sensitivity test based on the results of the selection of antibiotics. If the patients appeared unlikely to recover and had a persistent high fever, systemic toxicity, increased neck swelling, frank pus on a CT scan, or signs of upper airway obstruction after 24 h of intensive medical therapy, open surgical treatments such as drainage were provided. The exclusion criteria were as follows: (1) aged 15 years or older and (2) had a previous diagnosis of parapharyngeal abscesses. This retrospective study was approved by the Ethics Committee of local hospital.

Data collection

All clinical information was obtained through a retrospective medical chart review, including age, gender, body mass index (BMI), presenting symptoms, physical examination, laboratory studies, radiological findings, antecedent illnesses, management, microbiology, and hospital duration. The abscess size was assessed based on radiological examination and C-Reactive Protein (CRP) levels. Also, bacterial culture results were obtained from swabs taken intraoperatively.

Statistical analysis

A total of 48 children were divided into conservative therapy and surgical drainage groups. The Mann-Whitney U test or the Student t test was used to compare differences in clinical parameters between the two groups. The Pearson's chi-square test was also used to evaluate associations. Additionally, multivariate logistic regression models were constructed to identify the predictors of a good response to medical therapy after adjusting for confounding factors. A Receiver Operating Characteristic (ROC) curve was used to determine the cutoff point of age and abscess size associated with a good response to conservative treatment. SPSS statistical software version 20.0 (SPSS Inc., IBM, USA) was used to conduct statistical analyses. A P value <0.05 was considered statistically significant.

Results

A total of 48 children (30 male and 18 female) diagnosed with parapharyngeal abscesses were enrolled in this study. Their mean age was 4.5 years (range: 0.3-14 years). The clinical characteristics of the two groups are presented in Table 1.

No significant differences were found in gender (p = 0.413) and BMI (p = 0.167) between the two groups. Also, no significant differences in serum CRP values (p = 0.643) and hospital duration (p = 0.643) were observed between conservative and surgical treatments. Meanwhile, antecedent illnesses [leukemia, Kawasaki Disease (KD)] (p ＜ 0.05) and abscess size (p = 0.004) showed significant differences between the two groups.

Logistic regression models demonstrated that age, antecedent illnesses (leukemia and KD), and abscess size were significantly associated with a response to intensive medical therapy. The strongest association was found for antecedent illnesses (Odds Ratio ‒ OR = 2.314, 95% Confidence Interval ‒ 95% CI: 1.239-3.437) (Table 2).

Of 36 children, 7 had Pyriform Sinus Fistula (PSF), and 5 underwent drainage. Clear respiratory obstruction symptoms were evident during the first visit. The patients were provided smooth breathing through tracheal intubation. However, the 24 h effect of conservative treatment was not good. The laryngoscopic examination confirmed the diagnosis of left PSF, which improved after cutting the drain and cauterizing the mouth of the inner fistula (Figs. 1‒4). Two cases improved with conservative treatment, followed by discharge. Esophagus imaging revealed left PSF (Fig. 5).

The ROC curve analysis was used to evaluate the characteristics of the predictors of a good response to intensive medical therapy. The ROC curve analysis demonstrated the cutoff age for surgery drainage as 4.2 years (76.9% sensitivity, 68.2% specificity). The area under the ROC curve for conservation was 0.684 (95% CI: 0.526-0.843, p = 0.029, p < 0.005) (Fig. 6). The ROC curve analysis demonstrated the cutoff abscess size for surgery drainage as 23 mm (84.6% sensitivity, 77.3% specificity). The area under the ROC curve for conservation was 0.844 (95% CI: 0.732-0.955, p < 0.005) (Fig. 7).

In addition, bacterial culture results were obtained from swabs taken intraoperatively, which were positive in 11 patients (42.3%). Of these, most patients showed the growth of Streptococcus pyogenes or Staphylococcus aureus, and one patient had methicillin-resistant S. aureus, they received therapy in the intensive care unit (Table 3).

Discussion

The incidence of parapharyngeal abscesses in children is approximately 17-35 cases per 100,000 children per year,¹¹11 Grisaru-Soen G, Komisar O, Aizenstein O, Soudack M, Schwartz D, Paret G. Retropharyngeal and parapharyngeal abscess in children-epidemiology, clinical features and treatment. Int J Pediatr Otorhinolaryngol. 2010;74:1016-20. and it has increased recently.²2 Baldassari CM, Howell R, Amorn M, Budacki R, Choi S, Pena M. Complications in pediatric deep neck space abscesses. Otolaryngol Head Neck Surg. 2011;144:592-5.^,33 Novis SJ, Pritchett CV, Thorne MC, Sun GH. Pediatric deep space neck infections in U.S. children, 2000-2009. Int J Pediatr Otorhinolaryngol. 2014;78:832-6. The diagnosis and treatment are different from those in adults, and the infection can more easily spread into other deep neck spaces and result in life-threatening complications in children. Because of the patient's low compliance and smaller anatomy, a pediatric PPA involves more special skills and challenges for pediatricians. To date, a large number of studies have been performed on pediatric deep neck infection. However, studies on pediatric PPA are rare, and most of these have presented only descriptive data, including epidemiology, age, sex, symptoms, seasons, microbiology, and admission course. In contrast, the present study focused on treatment decisions (medical versus surgical) in the pediatric population to allow for the recommendation of the appropriate treatment for PPA. This was the first large-population study concerning treatment decisions on pediatric PPA. The study showed that the clinical factor for a good response to successful conservative treatment was significantly associated with age, abscess size, and antecedent illnesses (leukemia and KD).

A previous study reported that children aged 6 years better responded to medical treatment compared with older groups.¹1 Huang CM, Huang FL, Chien YL, Chen PY. Deep neck infections in children. J Microbiol Immunol Infect. 2017;50:627-33. Another study found that the clinical presentation of pediatric PPA differed between children aged 5 years and <5 years.¹²12 Sichel JY, Dano I, Hocwald E, Biron A, Eliashar R. Nonsurgical management of parapharyngeal space infections: a prospective study. Laryngoscope. 2002;112:906-10. The ROC analysis also indicated that the cutoff age for a poor response to conservative treatment in children with PPA was 4.2 years (76.9% sensitivity, 68.2% specificity). The area under the ROC curve for conservation was 0.684 (95% CI: 0.526-0.843, p = 0.029, p < 0.005). Therefore, the findings suggested that pediatricians should consider nonsurgical treatment for younger children. The reason is unclear and may be related to age sensitivity to antibiotics.

Some studies revealed that the most frequent antecedent illness in pediatric PPA was lymphadenitis, whereas acute pharyngitis, including peritonsillar abscess, was the most frequent in adults.¹³13 Hasegawa J, Hidaka H, Tateda M, Kudo T, Sagai S, Miyazaki M, et al. An analysis of clinical risk factors of deep neck infection. Auris Nasus Larynx. 2011;38:101-7.^,1414 Shimizu Y, Hidaka H, Ozawa D, Kakuta R, Nomura K, Yano H, et al. Clinical and bacteriological differences of deep neck infection in pediatric and adult patients: Review of 123 cases. Int J Pediatr Otorhinolaryngol. 2017;99:95-9. The present study results (including 21 patients with lymphadenitis, 43.75%) were consistent with the findings of the aforementioned studies. Younger children with leukemia are more likely to develop infections in the parapharyngeal space and lateral neck because of less resistance, suppurative change, or lymphogenous spread of infections.¹⁵15 Takeda T, Ito T, Kawashima Y, Hatanaka A, Watanabe S, Kitamura K, et al. Clinical Characteristics of Pediatric Deep Neck Abscesses. Nihon Jibiinkoka Gakkai Kaiho. 2016;119:1379-87.^,1616 Daya H, Lo S, Papsin BC, Zachariasova A, Murray H, Pirie J, et al. Retropharyngeal and parapharyngeal infections in children: the Toronto experience. Int J Pediatr Otorhinolaryngol. 2005;69:81-6. In addition, the present study showed that most patients were unresponsive to empiric antibiotics and needed surgery (p = 0.011, p < 0.05). Kawasaki disease, or mucocutaneous lymph node syndrome, is an acute multisystem vasculitis of unknown etiology that typically affects young children. Several reports are available on patients with KD having deep neck infections, such as peritonsillar abscess, suppurative parapharyngeal infection, or retropharyngeal abscess.¹⁷17 Kao HT, Huang YC, Lin TY. Kawasaki disease presenting as cervical lymphadenitis or deep neck infection. Otolaryngol Head Neck Surg. 2001;124:468-70.

18 Choi SH, Kim HJ. A case of Kawasaki disease with coexistence of a parapharyngeal abscess requiring incision and drainage. Korean J Pediatr. 2010;53:855-8.

19 Langley EW, Kirse DK, Barnes CE, Covitz W, Shetty AK. Retropharyngeal edema: an unusual manifestation of Kawasaki disease. J Emerg Med. 2010;39:181-5.^-2020 Aldemir-Kocabas B, Kicali MM, Ramoglu MG, Tutar E, Fitoz S, Ciftci E, et al. Recurrent Kawasaki disease in a child with retropharyngeal involvement: a case report and literature review. Medicine (Baltimore). 2014;93:e139. The mechanism via which KD causes parapharyngeal infection is unclear. It is speculated the inflammation causes increased vascular permeability, leading to protein exudation and ultimately local edema. The pharyngeal gap is a loose connective tissue more prone to edema. Swollen lymph nodes caused by lymphatic circulation disorders and lymphatic fluid accumulation in the pharyngeal gap may lead to a low-density edema region and abscess formation. The results of the present study are consistent with the aforementioned reports. Therefore, children diagnosed with KD having parapharyngeal abscesses need surgical treatment (p < 0.05). Pyriform Sinus Fistula (PSF) is a congenital neck-induced malformation caused by the insufficiency of the third and fourth incomplete rupture of the fissure in the early stages of embryonic development. The fistula formed by abnormal embryonic development is closely related to the adjacent structure of the cricoarytenoid joint area, forming the anatomical basis of secondary neck infection. PSF can cause repeated inflammatory lumps in the neck, acute suppurative thyroiditis or deep abscess of the lower neck.²¹21 Mutlu M, Dereci S, Aslan Y. Deep neck abscess in neonatal period: case report and review of literature. Int J Pediatr Otorhinolaryngol. 2014;78:577-82. The clinical incidence of the disease is low due to the lack of the understanding of the disease, and it is more easily misdiagnosed. In the present group of seven children, five received surgical treatment, drainage, and endoscopic examination for clear diagnosis at the same time (Fig. 2). The patients showed improvement later (Figs. 3 and 4). Two who received conservative treatment were discharged from the hospital after the follow-up and visited the department 1 month later for review. Esophagus imaging suggested left PSF (Fig. 5); the current follow-up did not recur. This suggested that the existence of PSF should be considered in the clinical work for pediatric patients with left PPA, and drainage should be performed while supporting the larynx to detect the mouth of the inner fistula to avoid misdiagnosis.

Some reports of successful conservative management have concentrated on abscess size, which has been shown to be an important predictor of treatment modality or the need for surgical intervention. Danny et al.⁷7 Wong DK, Brown C, Mills N, Spielmann P, Neeff M. To drain or not to drain ‒ management of pediatric deep neck abscesses: a case-control study. Int J Pediatr Otorhinolaryngol. 2012;76:1810-3. reported deep neck abscesses (including retropharyngeal and parapharyngeal abscesses) with smaller abscesses (≤25 mm maximal diameter) and younger age responded to antibiotics as the first-line treatment. Hoffmann et al.²²22 Hoffmann C, Pierrot S, Contencin P, Morisseau-Durand MP, Manach Y, Couloigner V. Retropharyngeal infections in children. Treatment strategies and outcomes. Int J Pediatr Otorhinolaryngol. 2011;75:1099-103. reported that a long axis of 20 mm was more common for children to receive surgery after a period of medical management. However, high-quality evidence suggesting any particular characteristics only for PPA in children is lacking. In the present study, the ROC analysis indicated that patients were statistically more likely to have successful conservative management when abscesses were <23 mm (84.6% sensitivity, 77.3% specificity).

The present study reported the presence of aerobic organisms predominantly in pediatric PPA. Particularly Staphylococcus species (30.8%), anaerobic bacteria, and MRSA were uncommon, which was consistent with previous findings.¹1 Huang CM, Huang FL, Chien YL, Chen PY. Deep neck infections in children. J Microbiol Immunol Infect. 2017;50:627-33.^,66 McClay JE, Murray AD, Booth T. Intravenous antibiotic therapy for deep neck abscesses defined by computed tomography. Arch Otolaryngol Head Neck Surg. 2003;129:1207-12.^,77 Wong DK, Brown C, Mills N, Spielmann P, Neeff M. To drain or not to drain ‒ management of pediatric deep neck abscesses: a case-control study. Int J Pediatr Otorhinolaryngol. 2012;76:1810-3. Regarding antibiotic treatment, the patients were treated with penicillins and β-lactamase inhibitors (e.g., ampicillin/sulbactam) for the aforementioned organisms as soon as the diagnosis was made. Therapy might be altered later according to microbiological examinations and antibiograms if necessary. The incidence of community-acquired MRSA infection is rare, and hence anti-MRSA drugs were not used empirically.

The present study had several limitations. First, it was a retrospective study with a small sample size, short observation time, and findings from a single medical center. Second, the duration of hospital therapy in this study was insufficient to improve a patient's condition. However, it was difficult to wait for more than 72 h because a local infection might suddenly become a systemic infection, and some pediatric patients might suffer from life-threatening airway obstruction. Third, empirical antimicrobial coverage might have affected the microbiological findings. Further studies should involve multicenter research, prolonged observation, and more information on factors such as socioeconomic status and the exact time of symptom onset.

Conclusions

This study found that younger age, smaller abscesses, and fewer antecedent illnesses were significant predictors for choosing conservative treatment in pediatric parapharyngeal abscesses. It also suggested that the favorable response of nonsurgical treatment significantly diminished after 4.2 years of age and for abscess size larger than 23 mm. Therefore, intravenous antibiotics with analgesia and careful monitoring for airway or neurological complications may be considered as the initial treatment for young children presenting with a small abscess.

Acknowledgments

The authors thank Shi Meng Luo for helping with the statistical analysis in the Department of Epidemiology Institution, Women's and Children's Hospital, Chang Xing.

References

Publication Dates

History