55.2.3 Prevertebral Layer

Attached to the ligamentum nuchae, the pre-vertebral fascia invests the prevertebral muscles and forms the floor of the posterior triangle. Superiorly, it is attached to the base of the skull, in front of the atlas. Inferiorly, the fascia extends into the thorax and attaches to the anterior longitudinal ligament of the vertebral column, at the level of T3. An abscess behind this fascia cannot extend below T3 unless the fascia is breached.

55.3 Retropharyngeal Space

Immediately anterior to the prevertebral fascia is a potential space extending from the skull base to the diaphragm. That portion behind the pharynx is the retropharyngeal space. There is no anatomical barrier preventing an abscess tracking inferiorly into the superior and posterior mediastinum, although the inflammatory reaction usually localises the abscess to the retropharyngeal space. The retropharyngeal space communicates laterally with the parapharyngeal space.

55.4 Parapharyngeal Space

The parapharyngeal space is a potential space immediately lateral to the oropharynx and nasopharynx, the styloid process dividing it into an anterior or pre-styloid and a posterior or post-styloid compartment. The latter contains the carotid sheath, which is firmly attached on its lateral aspect to the investing layer of deep fascia on the deep aspect of sternomastoid but has only loose areolar tissue lying medially and posteriorly. Infection may therefore spread from the pre-styloid to the post-styloid compartment by passing medial to the carotid sheath or from the retropharyngeal space to the post-styloid compartment (and vice versa) by passing posterior to the carotid sheath. An abscess in the post-styloid compartment may track further laterally to point just behind the posterior aspect of sternomastoid. In the pre-styloid compartment, a collection may extend as far forwards as the fascia surrounding the submandibular gland, just anterior to the sternomastoid but above the hyoid bone.

55.5 Infra-Temporal Fossa

The infra-temporal fossa lies beneath the base of skull between the sidewall of the pharynx and the ascending ramus of the mandible. It is bounded posteriorly by the styloid process and the anterior wall of the carotid sheath, anteriorly by the posterior wall of the maxilla and superiorly by the infra-temporal surface of the greater wing of the sphenoid. The infra-temporal fossa therefore is equivalent to the pre-styloid compartment of the parapharyngeal space.

55.6 Submandibular Space

The submandibular space is bound by the mucosa of the floor of the mouth superiorly and by the mylohyoid muscle and deep fascia investing the submandibular gland inferiorly.

The clinical features of deep neck space infections are variable; while some patients will present in extremis with severe pain, dysphagia, stertor, stridor and obvious neck swelling, others may have little or no temperature, no neck swelling but a sore throat and some neck stiffness. It is important to have a high index of suspicion and take a thorough history.

55.8 Common Symptoms and Signs

Pyrexia.

Malaise.

Dehydration.

Respiratory distress.

Stridor.

Stertor.

Trismus.

Drooling.

Dysphagia/odynophagia.

Hoarseness.

Referred otalgia.

Neck swelling.

Reduced/painful neck movement.

55.9 Investigations

Patients should have routine blood tests looking specifically for raised inflammatory markers, septic patients should have blood sent for culture. Pus should be sent for aerobic and anaerobic culture. In immunocompromised patients fungal and tuberculosis (TB) culture should also be requested.

In the past, lateral plain X-rays of the neck were the standard initial investigation. While ultrasound can be effective in differentiating an abscess from cellulitis, CT with contrast is now regarded as the imaging investigation of choice. CT is helpful both in determining the presence and location of neck infections in children; it is less helpful in differentiating abscess from lymphadenitis and cellulitis. Magnetic resonance imaging (MRI) gives improved soft tissue definition without the use of radiation, but its use is limited due to time constraints especially in children, for whom general anaesthesia is often required. MR angiography may be needed if there is suspicion of the involvement of major neck vessels. Both CT and ultrasound can be used to assist in the aspiration of abscesses and so may prevent the need for open incision and drainage.

Any pus from aspiration or drainage should be sent for culture and the determination of antibiotic sensitivities. The organisms which may be responsible are numerous, including both aerobic and anaerobic organisms. Both gram-positive and gram-negative organisms can be cultured.

55.10 Management

Patients with a small collection (< 2.2 cm on computed tomography [CT]), without airway compromise who are otherwise fit and well, may respond to a period of medical management with appropriate broad-spectrum antibiotics. However, septic patients, those with airway compromise or complications, need surgical intervention. Surgery is also indicated for those who have failed to respond to antibiotics after 48 hours or with progressive symptoms in spite of antibiotics. Ultrasound-guided drainage can be effective for patients with well-defined unilocular abscesses in the absence of airway compromise. Whilst parapharyngeal and retropharyngeal abscesses, which are pointing in the pharynx, may be drained intra-orally, an external approach is required for most cases.

55.11 Specific Neck Space Infections

Citelli’s abscess and Bezold’s abscess, both complications of acute suppurative otitis media and peritonsillar abscess have been described earlier (see Related Topics of Interest).

55.12 Prevertebral Abscess

This is seen in adults, usually associated with cervical spinal tuberculosis. A prevertebral abscess may also be a consequence of iatrogenic trauma. The attachment of the fascia limits the inferior extent to the vertebral body of T3. The usual presentation is with a progressively painful and tender neck with limitation of movement. Occasionally, collapse will cause acute spinal cord compression, requiring urgent drainage of the abscess and cord decompression.