Oral pigmentation
Oral pigmentation is asymptomatic and does not usually cause any alteration to the texture or thickness of the affected area. The colour can be uniform or speckled and can appear solitary or as multiple lesions.[1] Depending on the site, depth, and quantity of pigment, the appearance can vary considerably.[2]
Oral pigmentation is found in the following places:
- Lower vermillion border (the exposed pink or reddish margin of a lip[3])
- Tongue
- Oral mucosa
- Gingivae
- Palate[2]
Oral pigmentation affects about 3% of the population[4] and is most likely seen in those with dark skin;[5] however people with light skin have, on average, 30 local pigmented areas and in some circumstances will present intra-orally. They are more often found in females than males[6] and the typical age at presentation is 40 years although they can appear at any age.[3]
Causes
Racial pigmentation
Oral pigmentation affects about 3% of the population[4] and is most likely seen in those with dark skin;[5] however people with light skin have, on average, 30 local pigmented areas and in some circumstances will present intra-orally. They are more often found in females than males[6] and the typical age at presentation is 40 years although they can appear at any age.[3]
Black hairy tongue
Black hairy tongue is a harmless condition which causes blackening pigmentation on the dorsum of the tongue. It is a very common oral condition and affects 13% of the world population. It is often due to poor oral hygiene which leads to accumulation of oral bacteria and build up of keratin on the tongue surface. Black hairy tongue can also be associated with the use of certain medications such as antibiotics, prolonged coffee/tea drinking habit, or smoking.[7]
Amalgam tattoo
The amalgam tattoo is mostly found on the alveolar or gingival mucosa (however can sometimes found on the buccal mucosa) and is more commonly found in females and older patients. It appears as painless, blue/gray/black, nonulcerated, soft macule without any erythematous reaction surrounding it. The tattoos greatest diameter is usually less than 0.5 cm and some lesions containing larger particles may be identifiable on certain radiographs.
Some patients exhibit a long-term inflammatory response and if so they may produce discoloured, small papules. The discoloured patch may enlarge over time in patients demonstrating a strong macrophage response
Amalgam deposits can be found within bone occasionally. This can be caused during a surgical procedure e.g. tooth extraction or endodontic surgery, which has caused the material to become inadvertently dislodged from a restoration in an adjacent tooth. These deposits become blackened and can lead to blackening of the adjacent bone.[8]
Peutz–Jeghers syndrome
The autosomal dominant disorder Peutz–Jeghers syndrome is characterized by 'intestinal hamartomatous polyps in association with mucocutaneous melanocytic macules'. These macules often vary in shades of brown, size and are confluent, Although any oral site can be affected, in almost all cases pigmented macules appear on the buccal mucosae, lips and around the mouth. Pigmented macules on the face are less common. The extent of oral involvement and degree of pigmentation varies between each individual case.
An individual who has this syndrome has a relative risk fifteen times greater of developing cancer in comparison to the general population.
In older patients, the main consequence of the syndrome is cancer. The sites mainly affected include the pancreas, stomach, lungs, colon, small intestine, uterus, breasts and the ovaries and breasts. Additionally, Peutz-Jeghers Syndrome can be associated with other reproductive site cancers including sertoli cell tumours and adenoma malignum of the cervix.
In young patients, intussusception and obstruction of the small intestinal obstruction and are the main complications, these are caused by the small intestinal location of the polyps.
Addison's disease
Addison's disease can be caused by a variety of pathological processes. It is an endocrinal disorder where there is an increased amount of adrenocorticotropic hormone (ACTH) as a result of deficient amounts of hormones being produced from the adrenal cortex.[9] Due to this, dark pigmentation may be visible on the oral mucosa or skin.[10] Most common oral sites include: buccal mucosa, lips, gums, hard palate or tongue. Intraoral sites are usually seen as the first sign and they usually develop prior to the skin lesions.[11] In developing countries, this disease is often associated with tuberculosis, where the infection can lead to destruction of the adrenal gland.[12]
Systemically oral melanosis can also be associated with the following;
Kaposi's sarcoma
This is an intermediate neoplasm which affects the skin and mucous membranes; usually arising in patients with HIV.[15] The stages of this type of pigmentation start from an early patch stage, to become plaque-like which then develop into larger nodules- known as the tumour stage.[16] It is common to have oral involvement with this disease and frequently this is associated with a poor prognosis.[17]
Smoker's melanosis
Smoker's Melanosis, benign melanocytic pigmentation of the oral mucosa,[18][19] most commonly seen in the lower labial gingiva and interdental papillae[19] of smokers.[20] Smoking results in an increase of melanin deposit in the oral mucosa [18] through physical thermal damage and chemical interaction between melanin and nicotine compounds,[19] but this is not the only risk factor towards the pigmentation, it is also associated with other aetiology factors.[21]
Oral melanoacanthoma
Oral melanoacanthoma are benign pigmented lesions due to dendritic melanocyte proliferation and superficial epithelium acanthosis. Clinically characterized by a rapidly growing macular brown lesion that appears suddenly.[22]
Melanocytic nevi
Oral nevi or oral melanocytic nevi, are result of benign proliferations of nevus cells present either in the epithelial layer, the submucosal layer or both. Most commonly seen presentation of oral nevi are intramucosal nevi, these are dome shaped brown papules accounting for 64% of all reported case of oral nevi.[23] Other presentation of oral nevi includes: Blue nevus, junctional nevus and compound nevus.[24]
Melanotic macules
Melanotic macules can be found on the buccal mucosa, lip, palate, alveolar ridge and gingiva.[8] Melanotic macules are benign pigmented lesions that are found in the oral cavity, caused by an increase in pigmentation in the basal cell layer of the epithelium and the lamina propria. Clinically presentation of melanotic macules are typically a brown, black, blue or grey area that is well circumscribed, lesions are usually less than 10 mm in diameter but can be larger in some cases. Vermillion border of the lips is the most common site to find melanotic macules.[25]
Oral melanoma
This type of oral malignancy is very rare. It's caused by proliferation of malignant melanocytes within the connective tissues. Most common oral sites include the hard palate and gums.[2] The presentation of oral melanoma can vary; some could be asymptomatic pigmented areas, whilst others could be rapidly growing areas of ulceration with symptoms such as, bone destruction, pain and bleeding.
To stage oral melanoma, the TNM clinical staging system is used. This stands for 'Tumor – Nodes – Metastasis'. It highlights the three stages: stage I is a primary tumor; stage II is a metastatic tumor which has spread to regional lymph nodes and; stage III is a metastatic tumor which has spread to distant sites.[26]
Pathogenesis
Many different diseases can cause melanin pigmented lesions in the mouth through
- Increase in the number of melanocytes or melanocytosis
- Increased melanin production with or without melanocytosis
Melanin is an endogenous pigment synthesized by melanocytes that are located in the basal layer of epithelium. Melanin is then transferred to keratinocytes in melanosomes. Nevus cells in the skin and oral mucosa also produce melanin. Oral melanosis can present as black, gray, blue or brown lesions depending on the site and amount of melanin deposition in tissues.[12]
Physiological
Increased melanin production without increase in melanocytes[27]
Peutz-Jeghers syndrome
Increased production of melanin without increase in number of melanocytes[2]
Addison's disease
Decrease in blood adrenocortical hormone level causes increased levels of adrenocorticotropic hormone secreted by anterior pituitary gland. As a result, melanocyte-stimulating hormone is induced which causes oral melanosis[27]
Smoker's melanosis
Increased melanin production to defend against damage from tobacco smoke[27]
Oral melanoacanthoma
Increased number of dendritic melanocytes [27]
Melanocytic nevi
Accumulation of nevus cells at the basal layer of the epithelium or in the connective tissue or both[27]
Oral melanoma
Increased number of malignant melanocytes[27]
Diagnosis
Diagnosis of oral pigmentation is by a complete history taken by the clinician followed by a thorough clinical examination.[1] Management of such lesions is typically by close clinical monitoring, photographs and measuring tools. A biopsy may be indicated where the following features are present: large or new-pigmented lesions and those with a papular appearance or irregular colouration.[28]
Management
Physiological oral pigmentation
Physiological pigmentation is considered of normal variation. However, for some individuals, the brown/black discolouration may be aesthetically displeasing. It may cause embarrassment or discomfort for some, particularly when smiling or talking. Some methods used to eliminate or reduce this pigmentation include gingivectomy, laser therapy and cryosurgery. There are pros and cons for each type of management strategy.
Cryotherapy is one of the most successful and popular treatments for oral melanosis. Cryotherapy damages the tissue by freezing its internal components – thereby jeopardising the cells' optimum temperature; leading to denaturation of enzymes and proteins required for cell function. Minimum temperature needed for cell damage is cell specific, and melanocytes are very sensitive to low temperatures at −4 °C to −7 °C where cell death can occur.[29] This procedure is relatively pain free, so local anaesthesia is generally not needed. Immediately after, slight erythema of the gingiva becomes apparent. Superficial necrosis is observed over the next few days and a whitish slough could be separated from the underlying tissue leaving a clean pink ulcer bed. Within a week, the gingiva returns to normal and is fully healed in next few weeks minus the pigmentation.[30] In conclusion, cryotherapy has been described as the most suitable treatment options for physiological oral melanosis. It is simple yet effective method for treating oral pigmentation with minimal trauma to the patient.[31]
Alternatively, lasers can be used to treat physiological oral melanosis. There are many different lasers available on the market to purchase, each with their own individual benefits and disadvantages. These lasers are expensive therefore, not commonly available in a hospital or clinical setting. However, lasers allow for controlled cutting with a limited depth of necrosis. Studies have shown the diode laser is a safe method and is the preferred laser when no other short pulse lasers are available.[32] The diode laser is specific and is absorbed only by the melanin meaning more selective destruction and less damage to surrounding normal tissue with comparison to CO2 lasers.[33]
Systemic conditions associated with oral pigmentation
Oral melanosis caused by systemic diseases may be the first sign a dentist or medical professional may pick up to cause suspicion for any underlying systemic disease. Most diseases are treated with the relevant medications which leads to a gradual decrease in oral melanosis. For example, Addison's disease causes hyperpigmentation in the mouth and may be noticed during an exam followed alongside other systemic symptoms. An oral biopsy alongside other relevant tests (i.e. bloods) should be taken and confirmed for diagnosis for any type of oral melanosis which you suspect to be caused by an underlying disease. For Addison's, the specific treatment option would be to treat with glucocorticoids and mineralocorticoids.
Alternatively, the continuous exposure to high concentrations of corticosteroids increases susceptibility to Cushing's syndrome which is also a cause of oral melanosis. The patterns of pigmentation are very similar to those with Addison's. The management of these depend on the severity and can be removed by surgical, radiation or drug therapy i.e. Pasierotide.[34]
With regards to oral melanosis caused by systemic diseases, the most important thing to do is to refer the patient to their GMP if there is a suspicion of any underlying systemic cause. If suitable, then it would be appropriate to carry out the relevant investigation to come to a definitive diagnosis. From here it will be easier to manage the cause with the relevant medication or therapy.[34]
Kaposi's sarcoma
There is a variety of different treatment options for Kaposi sarcoma. The appropriate therapy options may vary depending on the variation of disease and the patients immune status.[35] If the lesion is localised, usually found in classical Kaposi sarcoma, and not systemic treatments can be any from lasers, cryotherapy, non-intervention, chemotherapy and immune upregulation.[36] For generalized and systemic cases chemotherapeutic drugs are used.[35] HAART is also a recognised treatment if the patient is known to have AIDS-related Kaposi sarcoma. For cases of iatrogenic Kaposi sarcoma any immunosuppressive medication should be stopped or reduced if able.
Smoker's melanosis
Smokers melanosis may resolve over several years following smoking cessation.[2]
Oral melanoma
An initial biopsy of the lesion may be carried out first to determine correct diagnosis. Following this there is a number of different treatment options available. The combination used will be based on the individual patient and presenting melanoma. Surgical resection[37] is most commonly carried out. This involves cutting out the lesion and ensuring complete removal from the oral cavity. Chemotherapy and Radiotherapy are considered first line management[38] and they may be used in conjunction with surgery. Another option available is Immunotherapy. The aim of this is to target cells or molecules in the immune system in an effort to destroy tumours.[39] This can be done by suppressing or stimulating the patients immune system. After treatment has been carried out patients should be seen for regular follow ups[40] to manage any reoccurrence early and ensure complete healing following surgeries. If the melanoma has progressed extensively and metastasised, treatment, for example surgery, would be carried out in a palliative nature only.[41]
Epidemiology
Oral pigmentation also be classified as 2 categories, melanocytic or non-melanocytic. (Melanocytic being the genesis due to the increase in melanotic pigments and non-melanocytic origin being the genesis from non melanotic causes). The prevalence of melanocytic and non-melanocytic causes of oral melanosis was roughly 1:1.[42][8]
Physiological
Oral pigmentation affects about 3% of the population[4] and is most likely seen in those with dark skin[5]
Peutz Jeghers syndrome
For Peutz Jeghers syndrome the frequency is approximately 1 case per 60,000-300,000 people in the USA. Equal occurrence in both sexes and all races. Average age of diagnosis being 23 years in men and 26 years in women.[25]
Smokers melanosis
Smoker's melanosis is present in all age groups, has no observed sex or race predilection.[8]
Melanotic macule
For hyperplastic or neoplastic processes, the mean age of oral melanotic macule (hyperplastic- increase in malanoticpigments without an increase in malanocytes) is 43.1 years with the mean size of the lesion was about 6.8mm. The female: male ratio is 2:1 and lower lip being the most common location. For oral melanoma (neoplastic) the mean age was 53.8 years with equal ratio of female:male and most common location being in the palate or gingiva.[25][43]
Oral melanoma
For oral melanoma (neoplastic lesion), the mean age was 53.8 years with equal ratio of female:male and most common location being in the palate or gingiva.[25][43]
Cumulative frequency
The occurrence of oral malanosis on the cheeks were (21%), alveolar mucosa (16.6%), gingiva (11.8%). Amalgam tattoo being majority of the cases (46.3%), malanotic macules (22.9%) and nevus (20.5%).[42]
References
- Lenkiewicz E, Ferencowa A, Szewczykowa E (April 1992). "[Subconjunctival autohemotherapy of eye burns in our cases]". Klinika Oczna (in Polish). 94 (4): 113–4. doi:10.4016/46352.01. PMID 1405409.
- Gondak RO, da Silva-Jorge R, Jorge J, Lopes MA, Vargas PA (November 2012). "Oral pigmented lesions: Clinicopathologic features and review of the literature". Medicina Oral, Patologia Oral y Cirugia Bucal. 17 (6): e919-24. doi:10.4317/medoral.17679. PMC 3505710. PMID 22549672.
- Culpepper CJ (2000). "Merriam‐Webster Online: The Language Center0011The Staff of Merriam‐Webster. Merriam‐Webster Online: The Language Center. 47 Federal Street, PO Box 281, Springfield, MA 01102; Tel: (413) 734‐3134; Fax: (413) 731‐5979;: Merriam‐Webster, Inc c1999. Free". Electronic Resources Review. 4: 9–11. doi:10.1108/err.2000.4.1_2.9.11.
- Takematsu H, Usuba Y, Kato T, Tagami H (1989). "Giant volar melanotic macule". Skin Cancer. 4: 68–71. doi:10.5227/skincancer.4.68.
- "Cawson, R. A.: Aids to Oral Pathology and Diagnosis. VII, 126 pages. Churchill Livingstone, Edinburgh - London - Melbourne - New York, 1981. Price: £ 3.50". Pathology - Research and Practice. 175 (4): 412. 1982. doi:10.1016/s0344-0338(82)80057-5.
- Retna Kumari N, Sreedharan S, Balachandran D (2007). "Melanotic neuroectodermal tumour of infancy: a case report". Journal of Indian Society of Pedodontics and Preventive Dentistry. 25 (3): 148–51. doi:10.4103/0970-4388.36568. PMID 17951934.
- Staff, SBI. "Hairy Tongue". www.aaom.com. Retrieved 2018-10-27.
- "Disorders of Oral Pigmentation: Background, Pathophysiology, Epidemiology". August 2018.
{{cite journal}}
: Cite journal requires|journal=
(help) - Kim HW (September 1988). "Generalized oral and cutaneous hyperpigmentation in Addison's disease". Odonto-Stomatologie Tropicale = Tropical Dental Journal. 11 (3): 87–90. PMID 3268826.
- Kauzman A, Pavone M, Blanas N, Bradley G (November 2004). "Pigmented lesions of the oral cavity: review, differential diagnosis, and case presentations". Journal. 70 (10): 682–3. PMID 15530266.
- Sarkar SB, Sarkar S, Ghosh S, Bandyopadhyay S (October 2012). "Addison's disease". Contemporary Clinical Dentistry. 3 (4): 484–6. doi:10.4103/0976-237X.107450. PMC 3636818. PMID 23633816.
- Sreeja C, Ramakrishnan K, Vijayalakshmi D, Devi M, Aesha I, Vijayabanu B (August 2015). "Oral pigmentation: A review". Journal of Pharmacy & Bioallied Sciences. 7 (Suppl 2): S403-8. doi:10.4103/0975-7406.163471. PMC 4606629. PMID 26538887.
- Langford A, Pohle HD, Gelderblom H, Zhang X, Reichart PA (March 1989). "Oral hyperpigmentation in HIV-infected patients". Oral Surgery, Oral Medicine, and Oral Pathology. 67 (3): 301–7. doi:10.1016/0030-4220(89)90360-5. PMID 2927925.
- Kleinegger CL, Hammond HL, Finkelstein MW (August 2000). "Oral mucosal hyperpigmentation secondary to antimalarial drug therapy". Oral Surgery, Oral Medicine, Oral Pathology, Oral Radiology, and Endodontics. 90 (2): 189–94. doi:10.1067/moe.2000.106340. PMID 10936838.
- Faden A, AlSheddi M, AlKindi M, Alabdulaaly L (July 2017). "Oral Kaposi Sarcoma in HIV-seronegative Saudi patient: Literature review and case report". The Saudi Dental Journal. 29 (3): 129–134. doi:10.1016/j.sdentj.2017.03.003. PMC 5502912. PMID 28725131.
- Radu O, Pantanowitz L (February 2013). "Kaposi sarcoma". Archives of Pathology & Laboratory Medicine. 137 (2): 289–94. doi:10.5858/arpa.2012-0101-RS. PMID 23368874.
- Khammissa RA, Pantanowitz L, Feller L (2012). "Oral HIV-Associated Kaposi Sarcoma: A Clinical Study from the Ga-Rankuwa Area, South Africa". AIDS Research and Treatment. 2012: 873171. doi:10.1155/2012/873171. PMC 3447356. PMID 23008762.
- Monteiro LS, Costa JA, da Câmara MI, Albuquerque R, Martins M, Pacheco JJ, Salazar F, Figueira F (2015). "Aesthetic Depigmentation of Gingival Smoker's Melanosis Using Carbon Dioxide Lasers". Case Reports in Dentistry. 2015: 510589. doi:10.1155/2015/510589. PMC 4410537. PMID 25954535.
- Brown FH, Houston GD (August 1991). "Smoker's melanosis. A case report". Journal of Periodontology. 62 (8): 524–7. doi:10.1902/jop.1991.62.8.524. PMID 1920020.
- Hedin CA (November 1977). "Smokers' melanosis. Occurrence and localization in the attached gingiva". Archives of Dermatology. 113 (11): 1533–8. doi:10.1001/archderm.1977.01640110053007. PMID 931390.
- Tadakamadla J, Kumar S, Nagori A, Tibdewal H, Duraiswamy P, Kulkarni S (December 2012). "Effect of smoking on oral pigmentation and its relationship with periodontal status". Dental Research Journal. 9 (Suppl 1): S112-4. PMC 3692188. PMID 23814550.
- Lakshminarayanan V, Ranganathan K (January 2009). "Oral melanoacanthoma: a case report and review of the literature". Journal of Medical Case Reports. 3: 11. doi:10.1186/1752-1947-3-11. PMC 2631493. PMID 19144105.
- Buchner, A.; Merrell, P. W.; Carpenter, W. M. (2004). "Relative frequency of solitary melanocytic lesions of the oral mucosa". Journal of Oral Pathology and Medicine. 33 (9): 550–557. doi:10.1111/j.1600-0714.2004.00238.x. ISSN 0904-2512. PMID 15357676.
- Buchner A, Merrell PW, Carpenter WM (October 2004). "Relative frequency of solitary melanocytic lesions of the oral mucosa". Journal of Oral Pathology & Medicine. 33 (9): 550–7. doi:10.1111/j.1600-0714.2004.00238.x. PMID 15357676.
- Shashikiran ND (2014). "Probiotic caries intervention…!!". Journal of Indian Society of Pedodontics and Preventive Dentistry. 32 (4): 271–2. doi:10.4103/0970-4388.140934. PMID 25231032.
- Meleti M, Leemans CR, Mooi WJ, Vescovi P, van der Waal I (February 2007). "Oral malignant melanoma: a review of the literature". Oral Oncology. 43 (2): 116–21. doi:10.1016/j.oraloncology.2006.04.001. PMID 16931116.
- Tarakji B, Umair A, Prasad D, Alsakran Altamimi M (December 2014). "Diagnosis of oral pigmentations and malignant transformations". Singapore Dental Journal. 35C: 39–46. doi:10.1016/j.sdj.2014.03.001. PMID 25496584.
- Schaffer JV, Bolognia JL (2003). "The treatment of hypopigmentation in children". Clinics in Dermatology. 21 (4): 296–310. doi:10.1016/s0738-081x(03)00045-2. PMID 14572700.
- Thai KE, Sinclair RD (November 1999). "Cryosurgery of benign skin lesions". The Australasian Journal of Dermatology. 40 (4): 175–84, quiz 185–6. doi:10.1046/j.1440-0960.1999.00356.x. PMID 10570551. S2CID 10798963.
- Kumar M, Bandyopadhyay P, Kundu D, Mishra L (March 2013). "Cryosurgery by tetrafluoroethane: An answer to black gums". Journal of Indian Society of Periodontology. 17 (2): 257–60. doi:10.4103/0972-124X.113093. PMC 3713763. PMID 23869138.
- Talebi M, Farmanbar N, Abolfazli S, Sarraf Shirazi A (2012). "Management of physiological hyperpigmentation of oral mucosa by cryosurgical treatment: a case report". Journal of Dental Research, Dental Clinics, Dental Prospects. 6 (4): 148–51. doi:10.5681/joddd.2012.030. PMC 3529929. PMID 23277862.
- Soliman MM, Al Thomali Y, Al Shammrani A, El Gazaerly H (April 2014). "The use of soft tissue diode laser in the treatment of oral hyper pigmentation". International Journal of Health Sciences. 8 (2): 133–40. doi:10.12816/0006079. PMC 4166985. PMID 25246880.
- Castro GL, Gallas M, Núñez IR, Borrajo JL, Varela LG (February 2006). "Histological evaluation of the use of diode laser as an adjunct to traditional periodontal treatment". Photomedicine and Laser Surgery. 24 (1): 64–8. doi:10.1089/pho.2006.24.64. PMID 16503791.
- Feagans W, Glick M (2015). Burket's oral medicine (12th ed.). Buffalo, New York: People's Medical Publishing House. pp. 132, 136–137.
- Coleman Iii, William P. (2008). "Skin Cancer: Recognition and Management, 2nd Edition by ROBERT A. SCHWARTZ". Dermatologic Surgery. 34 (12): 1702. doi:10.1111/j.1524-4725.2008.34351.x.
- Stockfleth E, Rosen T, Schumack S (2010). Managing skin cancer. Berlin: Springer. ISBN 9783540793472. OCLC 663097085.
- Umeda M, Komatsubara H, Shigeta T, Ojima Y, Minamikawa T, Shibuya Y, Yokoo S, Komori T (July 2008). "Treatment and prognosis of malignant melanoma of the oral cavity: preoperative surgical procedure increases risk of distant metastasis". Oral Surgery, Oral Medicine, Oral Pathology, Oral Radiology, and Endodontics. 106 (1): 51–7. doi:10.1016/j.tripleo.2008.03.003. PMID 18504155.
- Zhang J, Yu M, Li X, Huang X, Wang H (October 2018). "Combination therapy improves immune response and prognosis in patients with advanced oral mucosal melanoma: A clinical treatment success". Oral Surgery, Oral Medicine, Oral Pathology and Oral Radiology. 126 (4): 307–316. doi:10.1016/j.oooo.2018.05.004. PMID 29958936. S2CID 49617552.
- Yamaguchi, Yoshiyuki, ed. (2016). Immunotherapy of Cancer. doi:10.1007/978-4-431-55031-0. ISBN 978-4-431-55030-3.
- Mohan M, Sukhadia VY, Pai D, Bhat S (October 2013). "Oral malignant melanoma: systematic review of literature and report of two cases". Oral Surgery, Oral Medicine, Oral Pathology and Oral Radiology. 116 (4): e247-54. doi:10.1016/j.oooo.2011.11.034. PMID 22771409.
- Padhye A, D'souza J (October 2011). "Oral malignant melanoma: A silent killer?". Journal of Indian Society of Periodontology. 15 (4): 425–8. doi:10.4103/0972-124x.92587. PMC 3283947. PMID 22368374.
- Tavares TS, Meirelles DP, de Aguiar MC, Caldeira PC (November 2018). "Pigmented lesions of the oral mucosa: A cross-sectional study of 458 histopathological specimens". Oral Diseases. 24 (8): 1484–1491. doi:10.1111/odi.12924. PMID 29945290. S2CID 49432714.
- Shen ZY, Liu W, Bao ZX, Zhou ZT, Wang LZ (July 2011). "Oral melanotic macule and primary oral malignant melanoma: epidemiology, location involved, and clinical implications". Oral Surgery, Oral Medicine, Oral Pathology, Oral Radiology, and Endodontics. 112 (1): e21-5. doi:10.1016/j.tripleo.2011.02.040. PMID 21669356.