A Case Report of Frontal Sinus Abscess Complicated by Epidural Abscess with a Literature Review

Introduction

Sinusitis is defined as the inflammation of the nasal and paranasal sinus mucosa.1 It can be caused by bacterial infection, mucociliary clearance (MCC) dysfunction, disruption of the epithelial barrier, interruption of the immune response, microbial biofilm communities, and dysbiosis of the sinus microbiota, among other factors.2 Frontal sinus abscess primarily results from untreated or inadequately treated paranasal sinus inflammation and can lead to severe intracranial complications through direct invasion or retrograde thrombophlebitis, such as meningitis, epidural abscess, and subdural abscess.3 Although these complications are rare, they can be life-threatening once they occur. This report presents a case of frontal sinus abscess secondary to intracranial infection, complicated by an epidural abscess misdiagnosed as an epidural hematoma, and summarizes the relevant literature from both domestic and international sources for discussion, aiming to further enhance the understanding of the disease and reduce misdiagnosis and missed diagnosis.

Case

The patient is a 14-year-old male who was admitted to a local hospital due to headache and dizziness accompanied by fever and a runny nose for 1 week. Cranial CT showed bilateral frontal epidural hemorrhages, and the local hospital initially diagnosed an intracranial epidural hematoma. However, after symptomatic supportive treatment, the patient’s headache and fever progressively worsened, and he was referred to our hospital as an emergency case. He had a history of upper respiratory tract infection two weeks earlier. Physical examination: conscious, depressed, severe headache, swelling of the forehead, soft to touch, obvious fluctuating sensation, and positive signs of meningeal irritation. Emergency cranial CT revealed a right frontal epidural effusion with pneumatization, along with effusions in the right maxillary, ethmoid, and frontal sinuses, indicating the presence of multiple groups of paranasal sinusitis (Figure 1A). The main laboratory results are shown in (Table 1). Blood culture results showed Staphylococcus aureus infection, and drug sensitivity tests indicated sensitivity to vancomycin, cephalosporins, and linezolid. Combined with the patient’s medical history, physical examination, and auxiliary examinations, the preliminary diagnosis is: 1. multiple groups of paranasal sinus abscess 2. possible intracranial infection 3. possible bacteremia. The patient’s condition is critical. After discussion among the treatment team, he was temporarily administered ceftriaxone sodium 1g q12h and vancomycin hydrochloride 0.75g q8h intravenously (IV) for combined anti-infective treatment. After 2 days of treatment, the patient’s temperature gradually improved, however, the symptoms of headache and pus drainage remained unresolved. Further cranial MRI examination suggested the following findings: mucosal thickening of the right paranasal sinuses, with the sinus cavity filled with a long T2 signal shadow; a crescent-shaped, spindle-shaped long T2 signal shadow was observed below the right frontal cranial plate, accompanied by swelling of the frontal scalp soft tissue, subcutaneous small patchy long T2 signal shadow, and a small amount of gas shadow; DWI revealed a slightly elevated signal, and scattered gas shadows were also observed beneath the cranial plate. Additionally, a subcutaneous lesion was noted in association with the right frontal sinus, and this lesion appeared to be connected to the area beneath the frontal cranial plate (Figure 1B–D). After consulting and discussing with the otorhinolaryngology department of our hospital, it was decided to perform open drainage of the maxillary sinus and frontal sinus under general anesthesia with the assistance of nasal endoscopy. During the operation, purulent secretions were observed in the sinus cavities of the maxillary sinus and frontal sinus. These secretions were repeatedly rinsed out with physiological saline and suctioned. The openings of the maxillary sinus and frontal sinus were dilated, and the operation was successfully completed (Figure 2). After the operation, the swelling of the forehead improved significantly. The patient continued to receive vancomycin hydrochloride injection (0.75g q8h) and meropenem for injection (1g q8h) for anti-infective treatment, along with nutritional support therapy, for 1 week. During this time, the body temperature returned to normal, the headache disappeared, and inflammatory markers such as leukocytes, neutrophils normalized and C-reactive protein were normal, After continuing the consolidation therapy for 1 week, he was discharged from the hospital. After discharge, the patient was advised to continue taking linezolid tablets 0.6g qd for 1 month. The patient was followed up for 3 months, with no new onset of symptoms, and no recurrence of frontal sinus, maxillary sinus, and epidural abscesses on repeat cranial MRI (Figure 3).

Table 1 Main Laboratory Results

Figure 1 (A) right frontal epidural effusion with gas accumulation, frontal subcutaneous soft tissue swelling; (B-D) MRI: A crescent-shaped, spindle-shaped long T2 signal shadow was observed beneath the right frontal cranial plate, along with swelling of the frontal scalp soft tissue; Subcutaneous small patchy long T2 signal shadow and a small amount of gas accumulation shadow were also noted; DWI showed a slightly high signal, and scattered gas shadows were also observed beneath the cranial plate; The subcutaneous lesion was communicating with the right frontal sinus and frontal subcranial plate lesion.

Figure 2 The frontal sinus opening (black arrow) and pus (yellow arrow) are shown in the figure.

Figure 3 Cranial MRI of the patient in the third month after surgery: bilateral frontal epidural effusions were not shown, original frontal scalp soft tissue swelling was not shown, and the patient recovered well.

Discussion

Sinusitis is defined as inflammation of the mucous membranes of the nasal cavity and paranasal sinuses.1 Among these, inflammation of the frontal sinuses, a form of sinusitis, is the most common cause of intracranial complications related to paranasal sinus inflammation.Inflammation of the frontal sinuses, which is closely associated with numerous crucial anatomical structures, can result in a range of potentially life-threatening complications if left untreated. For example, In the anatomical relationship between the frontal sinus and the orbit, since the base of the frontal sinus lies directly above the orbit, an extension of infection can potentially result in corresponding orbital complications through either direct invasion or retrograde thrombophlebitis,4 These complications include nasal septal cellulitis, orbital cellulitis, subperiosteal abscess, and orbital abscess. Further extension of the infection into the middle cranial fossa may result in intracranial complications such as meningitis, epidural abscess, subdural abscess, brain abscess, and cavernous sinus thrombosis, all of which can pose a life-threatening risk to the patient.3 Recent studies have shown that epidural abscesses are a more common intracranial complication of inflammation of the frontal sinuses and are infections in the epidural cavity anywhere in the brain.5 The majority of intracranial epidural abscesses occur in children or adolescents, with over 70% of patients being younger than 20 years of age.6 The most common signs and symptoms are headache, fever, vomiting, altered mental status, seizures, mild hemiparesis or cranial nerve signs.7 Peripheral blood leukocytosis is the most common laboratory abnormality in intracranial epidural abscesses.8 In this regard, we conducted a literature review on PubMed, using the keywords ‘sinusitis’, “frontal sinus inflammation”, and “epidural abscess”, resulting in the retrieval of 31 similar cases (Table 2). More than 50% of the patients exhibited inflammation of the frontal sinuses. Notably, 26 patients, constituting 83.87%, were aged 20 years or younger. Furthermore, 80.65% of the patients were male. Almost all patients presented with headache and fever, while other symptoms included dizziness, vomiting, diarrhoea, and epilepsy. Most of the infections were bacterial, with Streptococcus spp. being the predominant species, accounting for over 50% of the total cases. Staphylococcus spp. and Haemophilus influenzae were also identified, while a small number of cases presented with mixed infections involving multiple pathogenic microorganisms. A single case of fungal infection was also observed.9 Following a combination of antibiotic and surgical treatment, most patients achieved favorable outcomes.

Table 2 Summary of Cases of Epidural Abscess Secondary to Sinusitis

In this case, due to untreated inflammation of the frontal sinus, the patient developed frontal sinus pus accumulation, subcutaneous abscess in the forehead region, and intracranial epidural effusion. The patient exhibited persistent hyperthermia, and blood culture tests revealed a positive result for Staphylococcus aureus infection. A review of pertinent data has identified the primary causative organisms of acute sinusitis to be Streptococcus pneumoniae, Haemophilus influenzae, Moraxella catarrhalis, and Staphylococcus aureus. However, the principal species causing intracranial complications of sinusitis are Streptococcus species, Staphylococcus species, and anaerobes.9 The patient presented to the hospital with early symptoms of headache, dizziness, and fever. Upon arrival, a physical examination revealed a positive meningeal irritation sign. Subsequent laboratory tests indicated a significant elevation in the patient’s white blood cell count. CT is often the first choice for the diagnosis of sinusitis with intracranial complications for the sake of easier access and rapid diagnostic needs.31 Compared to CT, MRI is equally good at detecting sinus disease, and MRI is more sensitive in diagnosing complications such as meningitis and intracranial abscesses.32 Younis et al analysed the diagnostic accuracy of imaging and clinical presentation in patients with intracranial complications and found that MRI was the most accurate in establishing the diagnosis (97%), while CT and clinical presentation were 87% and 82% accurate, respectively.33

Treatment of epidural abscesses usually requires a combination of antibiotics, surgical intervention and eradication of the primary infected site.19 Surgical treatment requires removal of nasal and intracranial abscesses so that microbiological culture specimens can be obtained as a means of improving antibiotic efficacy. However, the need for surgery in some patients with epidural abscesses has been questioned. Some scholars believe that surgical treatment may not be necessary in patients with (1) no neurological deficit; (2) no occupying effect on CT scan; and (3) effective antibiotics. Some scholars believe that antibiotics alone can be used in patients with MRI-detected lesions that are too small for surgical drainage. However, most scholars believe that antibiotic therapy alone cannot halt the progression of the infection, which makes it nearly impossible to eradicate the infection.34,35 Regarding surgical options, craniotomy or puncture and drainage can be employed to eliminate epidural abscesses, while sinus surgery serves as a complementary procedure to eliminate nasal pus,36 According to the literature, endoscopic sinus surgery (ESS) is now the standard procedure for the treatment of complex cases of frontal sinusitis.1 For antibiotic use, intravenous broad-spectrum antibiotic therapy should be continued for 2–4 weeks, followed by oral or intravenous supplementation for up to 8 weeks, depending on the patient’s response to treatment.6 In the presence of osteomyelitis, it is recommended that antibiotic therapy be extended for an additional 8 weeks or more.37 Premature discontinuation of broad-spectrum antibiotics during treatment may lead to inadequate infection control.35 We gave the patient in this case an endoscopic whole group sinus opening under general anaesthesia with adequate exposure of the frontal sinus openings and sinus cavities, removal of pus and postoperative sending for culture. For better control of infection and prevention of recurrence, patients were given vancomycin combined with meropenem for anti-infective treatment after surgery. Long-term sinusitis treatment plays a very important role in order to achieve better therapeutic results.

Conclusion

Epidural abscess is a rare complication of sinusitis, and its treatment process is long and difficult. Misdiagnosis and missed diagnosis can lead to severe consequences and endanger the patient’s life. Therefore, early diagnosis, timely anti-infection treatment, and surgical intervention are crucial for preventing focal deficits and complications in these patients. We hope that this case will help neurologists expand their clinical thinking, enrich their treatment experience, and reduce misdiagnosis and missed diagnosis.

Ethical Statement

The research does not require the approval of the ethics committee.

Consent to Publish

Written informed consent was obtained from the minor(s)’ legal guardian/next of kin for the publication without any potentially identifiable images or data included in this article.

Author Contributions

All authors made substantial contributions to the development and execution of the study, including the design, data acquisition, analysis, and interpretation. The authors participated in the drafting, revision, and critical review of the article and gave their final approval for publication. They are accountable for all aspects of the work and have agreed on the submission to the specified journal.

Funding

Gansu Provincial Key Laboratory of Cerebrovascular Disease (20JR10RA431), Effects of Digital Running Table Combined with Limb Linkage System on Walking and Balance Function of Stroke Patients (22JR5RA673) and Study on the effect of respirable fine particulate matter promoting the activation of DAPK1/ERK pathway in brain tissue on ischemic stroke (ZX-62000001-2023-457).

Disclosure

All authors declare no conflict of interest.

References

1. Al Yaeesh I, AlOmairin A, Al Shakhs A, et al. The serious complications of frontal sinusitis, a case series and literature review. J Surg Case Rep. 2020;2020(12):rjaa474. doi:10.1093/jscr/rjaa474

2. Chegini Z, Noei M, Hemmati J, et al. “The destruction of mucosal barriers, epithelial remodeling, and impaired mucociliary clearance: possible pathogenic mechanisms of Pseudomonas aeruginosa and Staphylococcus aureus in chronic rhinosinusitis. Cell Communic Sign. 2023;21(1306). doi:10.1186/s12964-023-01347-2

3. Goldberg AN, Oroszlan G, Anderson TD. Complications of frontal sinusitis and their management. Otolaryngol Clin North Am. 2001;34(1):211–225. doi:10.1016/S0030-6665(05)70307-8

4. Vázquez A, Baredes S, Setzen M, et al. Overview of frontal sinus pathology and management. Otolaryngol Clin North Am. 2016;49(4):899–910. doi:10.1016/j.otc.2016.03.014

5. Chow F. Brain and spinal epidural abscess. Continuum. 2018;24(5):1327–1348.

6. Kanu OO, Ukponmwan E, Bankole O, et al. Intracranial epidural abscess of odontogenic origin: case report. J Neurosurg Pediatr. 2011;7(3):311–315. doi:10.3171/2010.12.PEDS10242

7. Otto WR, Paden WZ, Connors M, et al. Suppurative intracranial complications of pediatric sinusitis: a single-center experience. J Pediat Infect Diseases Soc. 2021;10(3):309–316. doi:10.1093/jpids/piaa101

8. Coyne TJ, Kemp RJ. Intracranial epidural abscess: a report of three cases. Aust New Zeal J Surg. 1993;63(2):154–157. doi:10.1111/j.1445-2197.1993.tb00068.x

9. Tone K, Fujisaki R, Hagiwara S, et al. Epidural abscess caused by Schizophyllum commune: a rare case of rhinogenic cranial complication by a filamentous basidiomycete. Mycoses. 2018;61(3):213–217. doi:10.1111/myc.12729

10. Tudor RB, Carson JP, Pulliam MW, et al. Pott’s puffy tumor, frontal sinusitis, frontal bone osteomyelitis, and epidural abscess secondary to a wrestling injury. Am J Sport Med. 1981;9(6):390–391. doi:10.1177/036354658100900609

11. Rosenberg J, Shaked Y, Rappaport ZH, et al. Extradural empyema complicating frontal sinusitis. Neurochirurgia. 1982;25(1):31–32. doi:10.1055/s-2008-1053953

12. Dietrich U, Feldges A, Nau HE, et al. Epidural abscess following frontal sinusitis-demonstration of communication by epidural contrast medium and coronal computerized tomography. Computerized Med Imaging Graphics. 1989;13(4):351–354. doi:10.1016/0895-6111(89)90215-2

13. Dolan RW, Chowdhury K. Diagnosis and treatment of intracranial complications of paranasal sinus infections. J Oral Maxillofacial Surg. 1995;53(9):1080–1087.

14. Durand B, Poje C, Dias M. Sinusitis-associated epidural abscess presenting as posterior scalp abscess-a case report. Internat J Pediat Otorhinolaryngol. 1998;43(2):147–151.

15. Ueberall MA, Wunsiedler U, Renner C, et al. Epidural and pericranial abscesses complicating frontal sinusitis in a comatose child. Pediatr Neurol. 1998;19(5):385–387.

16. Kubo S, Wakayama A, Baba K, et al. Combined transfrontal and endonasal endoscopic surgery of epidural abscess following frontal sinusitis. A case report. Neurological Res. 1999;21(2):229–232.

17. Bambakidis NC, Cohen AR. Intracranial complications of frontal sinusitis in children: pott’s puffy tumor revisited. Pediat Neurosurg. 2001;35(2):82–89.

18. Fountas KN, Duwayri Y, Kapsalaki E, et al. Epidural intracranial abscess as a complication of frontal sinusitis: case report and review of the literature. Southern Med J. 2004;97(3):279–283.

19. Karatas A, Is M, Guclu E, et al. Intracranial epidural abscess secondary to isolated sphenoid sinusitis. Brit J Neurosurg. 2007;21(6):616–618. doi:10.1080/02688690701630090

20. Kaptan H, Çakıroğlu K, Kasımcan Ö, et al. Bilateral frontal epidural abscess. Neurocirugia. 2008;19(1):55–57.

21. Rosen DS, Shafizadeh S, Baroody FM, et al. Epidural abscess treated with a medial supraorbital craniotomy through an incision in the eyebrow: case report. J Neurosurg Pediatr. 2008;1(2):145–147.

22. Mittal MK, Zimmerman RA. Meningitis and epidural abscess related to pansinusitis. Pediatric Emerg Care. 2009;25(4):267–268.

23. Sommer DD, Minet W, Singh SK. Endoscopic transnasal drainage of frontal epidural abscesses. J Otolaryngol. 2011;40(5):1.

24. Miyabe R, Niida M, Obonai T, et al. Percutaneous tap** for the treatment of sinusitis-related intracranial epidural abscess in children. J Pediatr Neurosci. 2014;9(3):286.

25. Nicoli TK, Mäkitie A. Frontal sinusitis causing epidural abscess and puffy tumor. N Engl J Med. 2014;370(11):e18.

26. Liu A, Powers AK, Whigham AS, et al. A child with fever and swelling of the forehead. Clin Pediat. 2015;54(8):803–805.

27. Sade R, Polat G. Rare and serious complications of sinusitis in pediatric patients: epidural abscess. J Craniofacial Surgery. 2017;28(2):e144–e145.

28. Oliver JD, Kobets AJ, Judy BF, et al. Posterior ischemic optic neuropathy following supine craniotomy for epidural abscess in a child. Child’s Nerv Syst. 2021;37:2657–2660.

29. Hallak H, Abou-Al-Shaar H, Mallela AN, et al. The eyebrow approach for the management of pediatric frontal epidural abscesses secondary to diffuse sinusitis. Pediat Neurosurg. 2022;57(3):213–221.

30. Vu A, Schoonover A, Lanphear J, et al. An epidural brain abscess and thrombus in the superior sagittal sinus in a 12 year-old with sinusitis. Am J Emergency Med. 2023;65:218.e5–218.e7.

31. Agouzoul S, Coelho J, Sagardoy T, et al. Intracranial empyema complicating sinusitis in childhood: epidemiology, imaging findings and outcome. Internat J Pediat Otorhinolaryngol. 2022;162:111299. doi:10.1016/j.ijporl.2022.111299

32. Germiller JA, Monin DL, Sparano AM, et al. Intracranial complications of sinusitis in children and adolescents and their outcomes. Arch Otolaryngology. 2006;132(9):969–976. doi:10.1001/archotol.132.9.969

33. Younis RT, Anand VK, Davidson B. The role of computed tomography and magnetic resonance imaging in patients with sinusitis with complications. Laryngoscope. 2002;112(2):224–229. doi:10.1097/00005537-200202000-00005

34. Hlavin ML, Kaminski HJ, Fenstermaker RA, et al. Intracranial suppuration: a modern decade of postoperative subdural empyema and epidural abscess. Neurosurgery. 1994;34(6):974–981. doi:10.1227/00006123-199406000-00004

35. Lundy P, Kaufman C, Garcia D, et al. Intracranial subdural empyemas and epidural abscesses in children. J Neurosurg Pediatr. 2019;24(1):14–21.

36. Akhondi H, Baker MB Epidural abscess; 2018.

37. Menéndez RH, Erice SG, Vázquez EA, et al. Infratentorial epidural abscess secondary to furunculosis: case report and a review of the literature. J Neurosci Rur Pract. 2019;10(01):148–150. doi:10.4103/jnrp.jnrp_165_18

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