Within the neck are eleven zones that are created by planes of lesser and greater resistance between the fascial layers. These potential spaces can expand, communicate with each other and permit the infection to spread. The spaces include:

Parapharyngeal space or the lateral pharyngeal space is located superiorly to the hyoid bone. The skull base is the superior margin and the medial boundary is the middle layer of the deep cervical fascia.

Deep neck space abscess should be considered when patients describe any or many of the following:

• Severe pain
• Recent dental procedures
• Upper respiratory infection
• Neck or mouth trauma
• Respiratory distress
• Dysphagia or dysphonia
• Immunosuppression
• The rapid rate of onset
• Prolonged duration of symptoms

Particular red flags include asymmetry of the neck, neck masses, lymphadenopathy, trismus, medial displacement of the lateral pharyngeal wall and tonsil, torticollis, cranial nerve involvement, spiking fevers, and tachypnea/shortness of breath.

CT imaging of the neck can offer help with confirming and localizing the presence of a deep neck infection. However, patients are often either too unstable for CT imaging or unable to lie flat on the CT table to have the CT performed. There may be situations where only a portable lateral soft tissue neck x-ray can be obtained, and this can help support the diagnosis of neck abscess without much help in localization.

In cases where an early neck abscess is suspected, an otolaryngologist may be called upon to perform direct laryngoscopy to ascertain the presence of swelling. [7]

If a dental source is suspected, then a panorex view is necessary.

Blood work including electrolytes, clotting profile, blood cultures, and abscess cultures should be obtained.

Treatment involves adequate drainage of the abscess in the operating room. Also, antibiotic therapy is paramount. Because cultures are not available at the time of presentation, empiric antibiotics are started at presentation. A study in 2008 by Yang et al. found three comparable antibiotic regimens: (1) ceftriaxone and clindamycin (2) ceftriaxone and metronidazole, or (3) penicillin G and gentamicin and clindamycin.

In a 2015 Iranian study by Motahari, et al., 815 of 428 cases were managed surgically while the rest were managed medically. Tracheostomy was performed in five cases. One 15-year-old with symptoms suggestive of mediastinitis died of airway compromise a day after undergoing surgical management of parapharyngeal abscess. The study concluded that if medical management fails after 24 to 48 hours, or if fluctuance or any complications are present, prompt surgical management is indicated.

It is important to determine the underlying cause of the problem and to address that specifically. For example, with odontogenic infections, early dental extraction is crucial. Airway management must always be a consideration, as there is often swelling and distortion of anatomy, the surgical airway may be preferable. Certainly, in cases of deep neck infection, early notification of otolaryngology and anesthesia for airway backup is wise. For patients presenting with a compromised airway, prompt transfer to the operating room for simultaneous evaluation, airway management, and treatment may be life-saving. [8],[9]

• Epiglottis

• Esophagitis

• Gastrointestinal foreign bodies

• Infectious mononucleosis in emergency medicine

• Kawasaki disease

• Mediastinitis in emergency medicine

• Meningitis

• Pharyngitis

• Sinusitis imaging

• Trachea foreign bodies

The anatomy of the neck is quite complex. Terms of review include:

The two main fascial planes are (1) superficial cervical fascia and (2) deep cervical fascia.

The deep neck spaces include the following:

• Parapharyngeal space (i.e., lateral pharyngeal space/pharyngomaxillary space/pterygomaxillary space/pterygoid-pharyngeal space)
• Retropharyngeal space
• Prevertebral space
• Danger space
• Masticator space
• Submandibular space
• Carotid space, pretracheal space
• Peritonsillar space
• Parotid space
• Temporal space

an interprofessional approach to neck infections

Deep neck infections are not uncommon in clinical practice. The problem is that they are sometimes missed, and this can have an enormous morbidity on the patient. Deep neck infections cannot only compromise the airways but also spread vertically to the brain, spinal cord, and the mediastinum. Because the majority of patients initially present to the primary care worker, it is important to have a streamlined process to ensure that the diagnosis is made promptly and the condition treated. Data from infections in the pediatric population reveal that by following clinical guidelines one can achieve a very low morbidity.[10] While there are no universal guidelines in the management of deep neck infections, current expert opinion reveals that an interprofessional group of health professionals can help achieve excellent outcomes.[11] Once a deep neck infection is suspected, the following healthcare workers need to be involved:

• Radiologist to help determine the location and extent of the infection, and even help with drainage
• ENT and/or thoracic surgeon to help with debridement
• Laboratory technologist to identify the organisms involved
• Anesthesiologist in case an airway is required
• Infectious disease expert on determining the choice of antibiotics
• Nurses to help monitor the patient’s vital signs, educate the family, and ensure infection precautions
• Pharmacists to help follow the different types of medications and prevent drug interactions
• Dietitian consult as the patient may not be able to eat and may require tube feedings

Outcomes

Since most deep neck infections are considered surgical emergencies, there are no randomized trials to determine the best procedure, antibiotic, or duration of treatment. The only definitive data is that surgery is recommended in almost all patients with neck abscess. The earlier the surgery, the better the outcomes. [12] [Level III]