Oral mucosa explained

Oral mucosa
Latin:tunica mucosa oris

The oral mucosa is the mucous membrane lining the inside of the mouth. It comprises stratified squamous epithelium, termed "oral epithelium", and an underlying connective tissue termed lamina propria.[1] The oral cavity has sometimes been described as a mirror that reflects the health of the individual. Changes indicative of disease are seen as alterations in the oral mucosa lining the mouth, which can reveal systemic conditions, such as diabetes or vitamin deficiency, or the local effects of chronic tobacco or alcohol use.[2] The oral mucosa tends to heal faster and with less scar formation compared to the skin.[3] The underlying mechanism remains unknown, but research suggests that extracellular vesicles might be involved.[4]

Classification

Oral mucosa can be divided into three main categories based on function and histology:

Structure

Oral mucosa consists of two layers, the surface stratified squamous epithelium and the deeper lamina propria. In keratinized oral mucosa, the epithelium consists of four layers:

In nonkeratinised epithelium, the two deep layers (basale and spinosum) remain the same but the outer layers are termed the intermediate and superficial layers.

Depending on the region of the mouth, the epithelium may be nonkeratinized or keratinized. Nonkeratinized squamous epithelium covers the soft palate, inner lips, inner cheeks, the floor of the mouth, and ventral surface of the tongue. Keratinized squamous epithelium is present in the gingiva and hard palate as well as areas of the dorsal surface of the tongue.[7] [8]

Keratinization is the differentiation of keratinocytes in the stratum granulosum into nonvital surface cells or squames to form the stratum corneum. The cells terminally differentiate as they migrate to the surface from the stratum basale where the progenitor cells are located to the superficial surface.

Unlike keratinized epithelium, nonkeratinized epithelium normally has no superficial layers showing keratinization. Nonkeratinized epithelium may, however, readily transform into a keratinizing type in response to frictional or chemical trauma, in which case it undergoes hyperkeratinization. This change to hyperkeratinization commonly occurs on the usually nonkeratinized buccal mucosa when the linea alba forms, a white ridge of calloused tissue that extends horizontally at the level where the maxillary and mandibular teeth come together and occlude. Histologically, an excess amount of keratin is noted on the surface of the tissue, and the tissue has all the layers of an orthokeratinized tissue with its granular and keratin layers. In patients who have habits such as clenching or grinding (bruxism) their teeth, a larger area of the buccal mucosa than just the linea alba becomes hyperkeratinized. This larger white, rough, raised lesion needs to be recorded so that changes may be made in the dental treatment plan regarding the patient's parafunctional habits.[9]

Even keratinized tissue can undergo further level of hyperkeratinization; an increase in the amount of keratin is produced as a result of chronic physical trauma to the region. Changes such as hyperkeratinization are reversible if the source of the injury is removed, but it takes time for the keratin to be shed or lost by the tissue. Thus, to check for malignant changes, a baseline biopsy and microscopic study of any whitened tissue may be indicated, especially if in a high-risk cancer category, such with a history of tobacco or alcohol use or are HPV positive. Hyperkeratinized tissue is also associated with the heat from smoking or hot fluids on the hard palate in the form of nicotinic stomatitis.[10]

The lamina propria is a fibrous connective tissue layer that consists of a network of type I and III collagen and elastin fibers in some regions. The main cells of the lamina propria are the fibroblasts, which are responsible for the production of the fibers as well as the extracellular matrix.

The lamina propria, like all forms of connective tissue proper, has two layers: papillary and dense. The papillary layer is the more superficial layer of the lamina propria. It consists of loose connective tissue within the connective tissue papillae, along with blood vessels and nerve tissue. The tissue has an equal amount of fibers, cells, and intercellular substance. The dense layer is the deeper layer of the lamina propria. It consists of dense connective tissue with a large amount of fibers. Between the papillary layer and the deeper layers of the lamina propria is a capillary plexus, which provides nutrition for the all layers of the mucosa and sends capillaries into the connective tissue papillae.[10]

A submucosa may or may not be present deep in the dense layer of the lamina propria, depending on the region of the oral cavity. If present, the submucosa usually contains loose connective tissue and may also contain adipose tissue or salivary glands, as well as overlying bone or muscle within the oral cavity.[10] The oral mucosa has no muscularis mucosae, and clearly identifying the boundary between it and the underlying tissues is difficult. Typically, regions such as the cheeks, lips, and parts of the hard palate contain submucosa (a layer of loose fatty or glandular connective tissue containing the major blood vessels and nerves supplying the mucosa). The submucosa's composition determines the flexibility of the attachment of oral mucosa to the underlying structures. In regions such as the gingiva and parts of the hard palate, oral mucosa is attached directly to the periosteum of underlying bone, with no intervening submucosa. This arrangement is called a mucoperiosteum and provides a firm, inelastic attachment.[11]

A variable number of Fordyce spots or granules are scattered throughout the nonkeratinized tissue. These are a normal variant, visible as small, yellowish bumps on the surface of the mucosa. They correspond to deposits of sebum from misplaced sebaceous glands in the submucosa that are usually associated with hair follicles.[10]

A basal lamina (basement membrane without aid of the microscope) is at the interface between the oral epithelium and lamina propria similar to the epidermis and dermis.[12]

Function

Mechanical stress is continuously placed on the oral environment by actions such as eating, drinking and talking. The mouth is also subject to sudden changes in temperature and pH meaning it must be able to adapt to change quickly. The mouth is the only place in the body which provides the sensation of taste. Due to these unique physiological features, the oral mucosa must fulfil a number of distinct functions.

Clinical significance

Infective

Viral

The majority of viral infections affecting the oral cavity are caused by the human Herpes Virus group. Each human herpes virus may present differently within the oral cavity. They are more likely to affect immunocompromised patients such as children and the elderly.

Bacterial

Fungal

Oral fungal infections are most commonly caused by different Candida species such as Candida Albicans, Candida Glabrata and Candida Tropicalis resulting in oral Candidiasis.[20] There are several predisposing factors to fungal infections such as systemic disease for example Diabetes, recent antibiotics, use of steroid inhalers etc . Management includes identifying and addressing contributory factors, the use of topical/systemic anti-fungal agents, oral and denture hygiene instruction.[21]

Different presentations of oral Candidiasis include:

Autoimmune

Hypersensitivity Reaction

Traumatic

Idiopathic

Neoplastic:

●      Oral Submucous Fibrosis:

This is a condition that involves inflammation of the tissues under the surface. This may cause rigid tissues and difficulty opening the mouth. 

Benign soft tissue neoplasms

1.     Peripheral nerve sheath tumours most commonly are traumatic neuromas, a reactive response to trauma (1), neurilemmoma and neurofibroma which are large growing painless tumours usually found on the tongue (3). Neurofibroma may occur as a benign solitary lesion but can present as multiple lesions associated with (Von Reckllinghausen's Disease) neurofibromatosis (4). They can be preceded by café au lait pigmentation spots on the skin, and as they grow can become very disfiguring (4). Malignant change can occur in neurofibromatosis but very rarely in single lesion presentation. Mucosal neuromas can be associated with other conditions such as Multiple Endocrine Neoplasia (MEN) Syndrome and may precede thyroid cancer. (1, 4)

2.     Lipoma and fibrolipoma, are tumour of adipose tissue, or fat, giving them a yellow appearance which varies according to fat content (1, 4). They are usually soft, mobile, slow growing painless and occur mostly in middle age or the elderly.

3.     Granular Cell Tumour is also a tumour arising from neural cells, though it was incorrectly thought to arise from muscle cells and therefore previously called Granular Cell Myoblastoma (4), It also is slow growing large painless and occurs mostly in the tongue (1, 3).

4.     Congenital Epulis, also known as Congenital Granular Cell Tumour (but not related to Granular Cell Tumour) occur mostly on the upper gum, the maxillary alveolar ridge, of newborns, predominantly females (4). Rarely, they occur elsewhere, usually the tongue. They are usually self-resolving (1).

5.     Angiomas – vascular tumours: haemangioma, lymphangioma, venus varix (2). Angiomas are difficult to classify as previously they were considered hamartomas, benign tumour-like malformations (6) but there is debate if they are developmental abnormality, true benign tumour or hamartoma, or can be either (1, 4, 5).  Haemangiomas are common in the oral mucosa but can occur in other structures such as salivary glands (4), and can be congenital (from birth) or develop in childhood. Congenital lesions can resolve spontaneously (involute) but those that develop later usually continue to slowly grow. They are usually dark red-purple or blue, soft, sometimes fluctuant (5) and painless. They commonly blanch on pressure. Usually solitary, they can occur as part of syndromes such as Sturge-weber Syndrome affecting the trigeminal nerve. They are at risk of trauma with subsequent excessive bleeding, thrombosis or calcification (2). Lymphangiomas are far less common in the oral mucosa, usually appearing on the tongue, less commonly the lip at birth or in infancy (1, 2, 4). They are colourless to pale pink and may be nodular projections (1) or resemble 'frog spawn' domes (2). They can cause macroglossia (enlargement of the tongue) (1, 4). Venous Varix, like varicose vein, usually appear in older people on the lower lip as a blue-purple lump (2).

Connective tissue malignancies, sarcomas, are rare in the oral mucosa. Osteosarcoma, chondrosarcoma arise in bone and cartilage, lymphoma in haematological disorders (1). The most common malignancies are carcinomas, overwhelmingly Squamous Cell Carcinoma (SSC) (4). See Oral Cancer.

  1. Rhabdomyosarcoma are fast growing destructive swellings usually in the maxilla. It is the most common oral sarcoma in children and adolescents (1), but rare (4).
  2. Kaposi Sarcoma is related to the Kaposi Sarcoma Herpes Virus (KSHV) or Human Herpes Virus (HHV-8) viral infection (3). Predominating on the hard palate and gingivae it develops initially as a macule ranging in colour from red, blue, purple to brown or black, becoming nodular as it grows (2, 3, 4). The lesions are highly vascular and can ulcerate and bleed easily; death is usually from opportunistic infections (1). It is usually associated with HIV /AIDS but also less commonly with immunosuppression such as organ donor recipients or prevalent in some communities such as Mediterranean Jews (1). There is no cure (4) but the lesions respond well to Highly Active Antiretroviral Treatment (HAART) drugs (2)

Routes of administration

See also

External links

Notes and References

  1. Book: Ten Cate's Oral Histology. Nanci. Elsevier. 2013. 280.
  2. Christopher A. . Squier . Mary J. . Kremer . Biology of Oral Mucosa and Esophagus . Journal of the National Cancer Institute. Monographs . 2001. 29 . 7–15 . 2001 . 11694559 . 10.1093/oxfordjournals.jncimonographs.a003443 . free .
  3. Mak . Karen . Scarless healing of oral mucosa is characterized by faster resolution of inflammation and control of myofibroblast action compared to skin wounds in the red Duroc pig model . Journal of Dermatological Science . 56 . 3 . 168–180 . 10.1016/j.jdermsci.2009.09.005 . 19854029 . 2009 .
  4. Sjöqvist . Sebastian . Exosomes derived from clinical-grade oral mucosal epithelial cell sheets promote wound healing . Journal of Extracellular Vesicles . 8 . 1 . 1565264 . 10.1080/20013078.2019.1565264 . 30719240 . 6346716 . 2019 .
  5. Book: Chandra. Textbook of Dental and Oral Histology and Embryology with MCQs. 1 January 2004. Jaypee Brothers Publishers. 978-81-8061-238-1. 180–.
  6. Web site: NCI Dictionary of Cancer Terms . National Cancer Institute . en . 2 February 2011.
  7. University of Michigan Health System, Learning Resource Center at http://histology.med.umich.edu/node/2
  8. Luiz Carlos Junquiera et al (2005), Basic Histology, p. 282,
  9. Ten Cate's Oral Histology, Nanci, Elsevier, 2013, page 285
  10. Illustrated Dental Embryology, Histology, and Anatomy, Bath-Balogh and Fehrenbach, Elsevier, 2011, page 106
  11. Book: Human Oral Mucosa. en. 10.1002/9781118710470. 2011. 9781118710470. Squier. Christopher. Brogden. Kim A.
  12. Book: Nanci. Ten Cate's Oral Mucosa. 2013. Elsevier. 278.
  13. Squier. C. A.. Kremer. M. J.. 2001. Biology of oral mucosa and esophagus. Journal of the National Cancer Institute. Monographs. 2001. 29. 7–15. 10.1093/oxfordjournals.jncimonographs.a003443. 1052-6773. 11694559. free.
  14. Book: Oral Mucosa in Health and Disease: A Concise Handbook. 2018. Springer International Publishing. 978-3-319-56064-9. Bergmeier. Lesley. en.
  15. Pedersen. A. M. L.. Sørensen. C. E.. Proctor. G. B.. Carpenter. G. H.. Ekström. J.. 2018. Salivary secretion in health and disease. Journal of Oral Rehabilitation. en. 45. 9. 730–746. 10.1111/joor.12664. 29878444. 46959534. 1365-2842. free.
  16. Nyush. Ayko. Textbook of Dental & Oral Histology with Embryology & MCQs - 2nd ed. (2010).pdf. en.
  17. Book: Odell, E. W.. Cawson's essentials of oral pathology and oral medicine. Preceded by (work): Cawson, R. A.. 978-0-7020-4982-8. Ninth. [Edinburgh]. 960030340. 2017.
  18. Web site: NICE The National Institute for Health and Care Excellence. NICE. 2020-03-05.
  19. Jones. L.. Ong. E. L. C.. Okpokam. A.. Sloan. P.. Macleod. I.. Staines. K. S.. May 2012. Three cases of oral syphilis – an overview. British Dental Journal. en. 212. 10. 477–480. 10.1038/sj.bdj.2012.420. 22627222. 1476-5373. free.
  20. Akpan. A.. Morgan. R.. 2002-08-01. Oral candidiasis. Postgraduate Medical Journal. en. 78. 922. 455–459. 10.1136/pmj.78.922.455. 0032-5473. 12185216. 1742467.
  21. Book: Drug prescribing for dentistry : dental clinical guidance.. Scottish Dental Clinical Effectiveness Programme,, Scotland. National Dental Advisory Committee., NHS Education for Scotland.. 2016. 978-1-905829-28-6. Third. Dundee. 948261144.
  22. Shirasuna. Kanemitsu. 2014. Oral lichen planus: Malignant potential and diagnosis. Oral Science International. en. 11. 1. 1–7. 10.1016/S1348-8643(13)00030-X. 1881-4204. free.
  23. Margaix-Munoz. M.. Bagan. Jv.. Jimenez. Y.. Sarrion. Mg.. Poveda-Roda. R.. 2015. Graft-versus-host disease affecting oral cavity. A review. Journal of Clinical and Experimental Dentistry. 7. 1. e138–e145. 10.4317/jced.51975. 4368002. 25810826.
  24. Imanguli. Mm. Alevizos. I. Brown. R. Pavletic. Sz. Atkinson. Jc. July 2008. Oral graft-versus-host disease. Oral Diseases. en. 14. 5. 396–412. 10.1111/j.1601-0825.2008.01448.x. 1354-523X. 2565862. 18593456.
  25. Kayani. Mahaz. Aslam. Arif M.. 2017-06-08. Bullous pemphigoid and pemphigus vulgaris. BMJ. en. 357. j2169. 10.1136/bmj.j2169. 0959-8138. 28596152. 873223.
  26. Kamath. VenkateshVishwanath. Setlur. Krishnanand. Yerlagudda. Komali. 2015. Oral lichenoid lesions - A review and update. Indian Journal of Dermatology. en. 60. 1. 102. 10.4103/0019-5154.147830. 0019-5154. 4318020. 25657414 . free .
  27. Preeti. L. Magesh. Kt. Rajkumar. K. Karthik. Raghavendhar. 2011. Recurrent aphthous stomatitis. Journal of Oral and Maxillofacial Pathology. en. 15. 3. 252–6. 10.4103/0973-029X.86669. 0973-029X. 3227248. 22144824. free.