Fascial spaces of the head and neck

Fascial spaces (also termed fascial tissue spaces[1] or tissue spaces[2]) are potential spaces that exist between the fasciae and underlying organs and other tissues.[3] In health, these spaces do not exist; they are only created by pathology, e.g. the spread of pus or cellulitis in an infection. The fascial spaces can also be opened during the dissection of a cadaver. The fascial spaces are different from the fasciae themselves, which are bands of connective tissue that surround structures, e.g. muscles. The opening of fascial spaces may be facilitated by pathogenic bacterial release of enzymes which cause tissue lysis (e.g. hyaluronidase and collagenase).[1][4] The spaces filled with loose areolar connective tissue may also be termed clefts. Other contents such as salivary glands, blood vessels, nerves and lymph nodes are dependent upon the location of the space. Those containing neurovascular tissue (nerves and blood vessels) may also be termed compartments.

Generally, the spread of infection is determined by barriers such as muscle, bone and fasciae. Pus moves by the path of least resistance,[5] e.g. the fluid will more readily dissect apart loosely connected tissue planes, such the fascial spaces, than erode through bone or muscles. In the head and neck, potential spaces are primarily defined by the complex attachment of muscles, especially mylohyoid, buccinator, masseter, medial pterygoid, superior constrictor and orbicularis oris.[6]

Infections involving fascial spaces of the head and neck may give varying signs and symptoms depending upon the spaces involved. Trismus (difficulty opening the mouth) is a sign that the muscles of mastication (the muscles that move the jaw) are involved.[2] Dysphagia (difficulty swallowing) and dyspnoea (difficulty breathing) may be a sign that the airway is being compressed by the swelling.

Classification

Different classifications are used. One method distinguishes four anatomic groups:[3]

Since the hyoid bone is the most important anatomic structure in the neck that limits the spread of infection, the spaces can be classified according to their relation to the hyoid bone:[5]

In oral and maxillofacial surgery, the fascial spaces are almost always of relevance due to the spread of odontogenic infections. As such, the spaces can also be classified according to their relation to the upper and lower teeth, and whether infection may directly spread into the space (primary space), or must spread via another space (secondary space):

Perimandibular spaces

The submaxillary space is a historical term for the combination of the submandibular, submental and sublingual spaces, which in modern practice are referred to separately or collectively termed the perimandibular spaces.[7] The term submaxillary may be confusing to modern students and clinicians since these spaces are located below the mandible, but historically the maxilla and mandible together were termed "maxillae", and sometimes the mandible was termed the "inferior maxilla". Sometimes the term submaxillary space is used synonymously with submandibular space.[4] Confusion exists, as some sources[5] describe the sublingual and the submandibular spaces as compartments of the "submandibular space".[4]

Submandibular space

Submental space

Sublingual space

Mental space

Buccal space

Canine space (infra-orbital space)

Masticator space

The four compartents of the right masticator space. A Temporalis muscle, B Masseter muscle, C Lateral pterygoid muscle, D Medial ptaerygoid muscle, E Superficial temporal space, F Deep temporal space, G Submasseteric space, H Pterygomandibular space, I Approximate location of infratemporal space.

This term is sometimes used, and is a collective name for the submasseteric (masseteric), pterygomandibular, superficial temporal and deep temporal spaces. The infratemporal space is the inferior portion of the deep temporal space. The superficial temporal and the deep temporal spaces are sometimes together called the temporal spaces. The masticator spaces are paired structures on either side of the head. The muscles of mastication are enclosed in a layer of fascia, formed by cervical fascia ascending from the neck which divides at the inferior border of the mandible to envelope the area. Each masticator space also contains the sections of the mandibular division of the trigeminal nerve and the internal maxillary artery.[4]

The masticator space could therefore be described as a potential space with four separate compartments. Infections usually only occupy one of these compartments, but severe or long standing infections can spread to involve the entire masticator space.[7] The compartments of the masticator space are located on either side of the mandibular ramus and on either side of the temporalis muscle.

Submasseteric space

This is also referred to as the masseter space or the superifical masticator space. The submasseteric space is logically located under (deep to) the masseter muscle, created by the insertions of masseter onto the lateral surface of the mandibular ramus. Submasseteric abscesses are rare and are associated with marked trismus.

Pterygomandibular space

The pterygomandibular space lies between the medial side of the ramus of the mandible and the lateral surface of the medial pterygoid muscle.

Deep temporal space (infra-temporal space)

The infra-temporal space is the inferior portion of the deep temporal space.[7]

History

Modern understanding of the fascial spaces of the head and neck developed from the landmark research of Grodinsky and Holyoke in the 1930s.[4] They injected a dye into cadevers to simulate pus. Their hypothesis was that infection in the head and neck mainly spread by hydrostatic pressure. This is now accepted to be true for most infections in the head and neck, with the exception of actinomycosis which tends to burrow into the skin, and mycotuberculoid infections which tend to spread via the lymphatics.[4]

References

  1. 1 2 Newlands C, Kerawala C (2010). Oral and maxillofacial surgery. Oxford: Oxford University Press. pp. 374–375. ISBN 9780199204830.
  2. 1 2 Odell W (2010). Clinical problem solving in dentistry (3rd ed.). Edinburgh: Churchill Livingstone. pp. 151–153, 229–233. ISBN 9780443067846.
  3. 1 2 Kenneth M. Hargreaves Stephen Cohen ; web, Louis H.Berman, eds. (2010). Cohen's pathways of the pulp (10th ed.). St. Louis, Mo.: Mosby Elsevier. pp. 590–595. ISBN 978-0323064897.
  4. 1 2 3 4 5 6 Topazian RG, Goldberg MH, Hupp JR (2002). Oral and maxillofacial infections (4. ed.). Philadelphia: W.B. Saunders. pp. 188–213. ISBN 978-0721692715.
  5. 1 2 3 Norton NS (2007). Netter's Head and Neck Anatomy for Dentistry. Philadelphia PA: Saunders Elsevier. pp. 460–472. ISBN 9781929007882.
  6. Standring S (2004). Gray's Anatomy: The Anatomical Basis of Clinical Practice (39th ed.). Elsevier. ISBN 978-0443066764.
  7. 1 2 3 Hupp JR, Ellis E, Tucker MR (2008). Contemporary oral and maxillofacial surgery (5th ed.). St. Louis, Mo.: Mosby Elsevier. pp. 317–333. ISBN 9780323049030.
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