Keywords
Oral squamous cell carcinoma, Metastasis, Potentially malignant disorders, Etiological factors of OSCC, Diagnosis of OSCC
This article is included in the Oncology gateway.
Oral squamous cell carcinoma, Metastasis, Potentially malignant disorders, Etiological factors of OSCC, Diagnosis of OSCC
One of the commonest forms of cancer is head and neck cancer1. Its prevalence is different in various parts of the world; in unindustrialized countries, like India, it is the cancer most commonly diagnosed in male patients whereas in the Western world, it is responsible for 1–4% of all cancers2. Lip, oral cavity, and oropharynx combined were responsible for about 4,47,751 new cancer cases with an estimated 2,28,389 deaths in 2018, which accounts for 2.4% of all cancer deaths3. Among other cancers, head and neck cancer is fourteenth in terms of incidence but thirteenth in terms of mortality3. The Asian continent has the highest incidence and mortality rates of oral cavity and oropharynx cancers among all other countries4. More than 90% of cancer cases in head and neck region are OSCCs (Figure 1)5. OSCC develops in the oral cavity and oropharynx and can occur due to many etiological factors, but smoking and alcohol remain the most common risk factors especially in the Western world6. In South Asian countries, consumption of smokeless tobacco and areca nut products are the main etiological factors associated with OSCC7. Gene mutations may also cause cancer development in the pharynx and oral cavity; however, no specific gene has been identified in OSCCs8. Activation of proto-oncogenes (ras, myc, EGFR) or inhibition of tumor suppressor genes (TB53, pRb, p16) by environmental factors such as smoking, irradiation, and viral infection may increase the risk of oral and oropharynx OSCC9. Most of the oral and oropharynx OSCC cases occur in elderly male patients, with tonsils and tongue being the most commonly affected sites10.
In this review we have briefly described metastasis related to OSCC, some disorders that could transform into OSCC with associated common etiological factors. In addition, a brief account of the diagnosis of OSCC and role of salivary biomarkers in its early detection has also been highlighted. Google Scholar and PubMed search engines were searched with keywords including “oral squamous cell carcinoma”, “OSCC”, “oral cancer”, “potentially malignant disorders in oral cavity”, “etiological factors of OSCC”, “diagnosis of OSCC”, and “salivary biomarkers and OSCC” and our search revealed 500+ results. All the articles in languages other than English and conference abstracts/presentations were excluded. Finally, 77 articles were selected for this study and included in our review.
Metastasis could be of two types; regional and/or distant metastasis, as discussed below.
In terms of regional metastasis, nodal metastasis transpires when tumor cells at the primary site penetrate lymphatic channels and migrate to regional lymph nodes in the neck, forming a micrometastasis11. Lymph node metastasis is a critical prognostic indicator for oral and oropharyngeal carcinomas12. The most common site for OSCC metastasis is cervical lymph nodes, and it reduces the survival rate by 50%13,14. Cancer cells usually spread to the lymph nodes on the same side of the cancer primary site. However, contralateral or bilateral lymph nodes metastasis can rarely occur9. In histopathology, tumor cells dissemination outside the lymph node capsule making the prognosis worse and reducing patient survival rate11. Therefore, a thorough head and neck lymph node inspection and palpation for all first-time patients should be performed to help in early detection of cancer, which will increase the chances for successful treatment and improve prognosis15.
For distant metastasis, carcinomas require certain biological events in order to spread from the primary tumor site to an anatomically distant site. Several steps are required for cancer cells to spread from their original site to the metastatic one, as shown in the invasion-metastasis cascade16. The cascade starts at the primary tumor site where the cancer cells locally breach the basement membrane to invade the surrounding extracellular matrix and connective tissue17. Then, the tumor cells move to lymphatic or blood vessels and travel to distant metastatic sites. At this point, tumor cells start to extravasate from the vessels into the stroma of the metastatic site18. Initially, tumor cells use the metastatic tissue microenvironment to grow and form micrometastasis. Then, tumor cells expand and colonize to start their own proliferative program and form macroscopic metastasis16. The lung is the commonest site for distant metastasis for head and neck OSCC19. However, metastasis to other organs, such as mediastinal nodes, liver, and bone, have been also reported19,20. Distant metastasis worsens the prognosis and reduces the chances of successful treatment21. Positive regional lymph node involvement, extracapsular invasion of tumor cells, and human papilloma virus negativity are key factors that increase the risk of primary tumor cell dissemination to distant organs20.
Early detection of cancer is a key factor for improved prognosis and increased patient survival rate. Even though the oral cavity can be easily examined and assessed by direct visual inspection, most OSCC cases are not identified early22. This most likely ensues because patients do not seek dental care on a regular basis and most oral cancers in the early stages are asymptomatic22. Moreover, dentists may not be aware of the different clinical presentations of OSCC and misdiagnose cancers as reactive or benign lesions23. In order to help early discovery and increase the prognosis of cancers, patient awareness about regularly visiting dentists and education of dental practice staff to carefully examine the patients should be raised24.
There are many PMDs in the oral cavity that have the predisposition to transform into OSCC, a few of which are discussed below in detail.
The World Health Organization describes “a clinical diagnosis that include any white lesion (plaque or patch) on the oral mucosa that cannot be considered clinically or pathologically as any other disease is a leukoplakia”25. In 1975, Waldron et al. reviewed 3,256 clinical cases defined as “leukoplakia” and found that around 80% of the cases are diagnosed microscopically as either hyperkeratosis or acanthosis26. They also reported that about 17% of the cases were potentially malignant lesions (12.2% mild to moderate dysplasia and 4.5% severe dysplasia or carcinoma in situ) and the diagnosis of OSCC was made in about 3% of the cases that were received with the diagnosis of “leukoplakia”26. Earlier, Bewley and Farwell also reported that OSCC can occur from malignant transformation of leukoplakia27. Therefore, early detection of leukoplakia is key to stop their transformation into aggressive malignant OSCC, which could be hard to treat.
PVL is a destructive form of oral leukoplakia that clinically presents as multiple, slowly spreading white lesions with high reappearance rate and high probability of malignant transformation28. A study of 47 patients diagnosed with PVL showed that around 40% of the patients developed malignant lesions (OSCC or verrucous carcinoma) during follow-up (within 2 years)29. Bagán et al. also reported in their study that there was a high occurrence of patients with PVL developing OSCC in different sites (gingiva and palate being most common)30.
Erythroleukoplakia (sometimes called speckled leukoplakia) is a mixed red and white lesion that most likely exhibits more advanced dysplastic changes in histopathological examination compared to leukoplakia31. This lesion usually has irregular margins, and Candida colonization on these lesions is also common32. The chances of speckled leukoplakia for malignant transformation is 18–47%33.
Defined as “Any red lesion of the oral mucosa that cannot be clinically diagnosed as any other condition is called erythroplakia”34. True erythroplakia is a more alarming clinical finding compared to leukoplakia.9 A retrospective study showed that 91% of 58 cases clinically observed as “erythroplakia” were diagnosed as OSCC (51%), carcinoma in situ or severe dysplasia (40%), or mild or moderate epithelial dysplasia (9%)35. Erythroplakia and leukoplakia are usually predecessors of OSCC36 and sometimes also seen adjacent to an OSCC lesion37.
OSMF occurs due to progressive fibrosis of the oral mucosa due to chronic use of areca nut38. Patients diagnosed with OSMF are likely to develop malignant OSCC39. A prospective study was carried out on 371 patients with microscopically proven diagnosis of OSCC and it was reported that around 30% of the patients (112) had a history of OSMF40. However, a study carried out by Chourasia et al. reported an incidence of 4.2% for patients with OSMF transforming to OSCC39.
An immune-mediated condition that clinically may present as reticular white areas that may or may not be associated with erosive and ulcerative lesions41. There is still debate whether to consider OLP as a PMDs. A previous study in which the data of 20,095 patients was assessed reported 1.1% incidence of OLP patients developing OSCC42. It should be noted however, that erosive type of OLP and patients with history of smoking and alcohol use are likely to suffer from transformation of OLP to OSCC42,43. It was reported in another previous study that tumour recurrence rate of OSCC is higher in patients who had previous OLP than the patients with primary OSCC44.
Various etiological factors of OSCC have been reported in the literature. The most common are summarized below.
Cigarette smoking helps in the spread of tumors by suppressing immunity and tumor suppressor genes, most importantly p53 and PTEN45. In an earlier study, al-Idrissi reviewed 65 patients with established diagnosis of head and neck OSCC and reported that the majority of these patients were men and 41.5% were smokers46. In another study from China, which included 210 cases, a strong association between long term smoking and OSCC was reported47. Llewelyn and Mitchell from Scotland reported in their study that out of 454 patients with confirmed oral cancer, 60% were smokers and over 95% of those lesions were OSCC48.
A strong connection between drinking alcohol and several cancer types has been described in the literature49. The synergetic effects of alcohol consumption and tobacco smoke increases the risk of OSCC by making the oral epithelium more permeable, dissolving tobacco, and promoting its penetration50. However, chronic use of alcohol alone may lead to OSCC via several mechanisms, including DNA adduct formation, generation of ethanol-related reactive oxygen metabolites, and interference with the DNA-repair mechanism51.
The consumption of shammah is on the rise in many countries52. It is a combination of powdered smokeless tobacco with ingredients like lime, pepper, ash, and flavoring agents, and people use it by placing it in buccal cavity till the taste penetrates53. In a previous study from Jazan, Saudi Arabia, in which data from 132 patients were recorded, it was reported that the most common cancer detected was OSCC followed by thyroid cancer52. Another study carried out on Yemeni shammah users concluded that there was a strong association between daily shammah usage and formation of leukoplakia (a PMD)54.
Khat is a plant that is mostly used for chewing and is a mixture of cathine and norephidrine55. In a previous study, the prevalence of its consumption was found to be 23.1% among university students of Jazan, Saudi Arabia56. In an earlier case report of one patient, a strong affiliation between khat chewing and growth of OSCC was reported57. Sawair et al. also reported a strong relationship between khat chewing and development of OSCC in their study, which consisted of 649 Yemeni patients58. Lukandu et al. reported from Kenya that chronic khat chewing could lead to abnormal epithelial thickening of oral mucosa and increased keratinization, and fibrosis59.
Shisha is commonly available in restaurants, cafes, and other eatery shops in many countries and it contains a high concentration of nicotine, tar, and carbon monoxide60. In water pipe smoking, smoke passes through water and there is a general idea that it is less harmful then cigarette smoking61. In a recently published review, a strong association between water pipe smoking and head and neck cancers was reported62. Zaid et al. reported in a study from Syria and Lebanon that p53 gene mutations were associated water pipe smoking in OSCC63. Al-Amad carried out a study in Jordan, which revealed that 36% of their sample who had oral cancer had a habit of water pipe smoking64.
Exfoliative cytology is a simple method that could prove useful in early identification of oral cancer as it is based on collection of exfoliated cells for microscopic examination65. It should be noted however that cells can suffer exfoliation normally and/or in the presence of a benign or malignant disease66. Therefore, the most accurate diagnosis of OSCC should only be made by biopsy.
Despite the new diagnostic modalities in oral cancer detection, biopsy and histopathologic analysis remain the gold standard to diagnose OSCC67. An adequate biopsy technique involves local anaesthesia administration, having sufficient width and depth of the excised tissue, correct handling of the tissue, and submission without contamination to aid an accurate definitive diagnosis68.
The typical diagnosis of OSCC is made by clinical oral examination followed by biopsy of the suspected tissue69. Unfortunately, due to this approach, most OSCC cases either go undetected (at an early stage) or are diagnosed at advanced stages70. In addition, due to late diagnosis, metastasis for OSCC is very common, resulting in a 5-year survival rate of less than 50%71.
Human saliva could be used for the early detection of various diseases72. OSCC is very common and its early detection can improve the prognosis significantly73. It has been suggested by various researchers that a specific group of protein biomarkers are increased in saliva of individuals with OSCC74. Franzmann et al. reported CD44 as a probable biomarker of head and neck cancer whereas, Nagler et al. described Cyfra-21-1 and cancer antigen-25 to be potential biomarkers for oral cancer74,75. In an earlier study including 395 patients, Elashoff et al. stated an increase in expression of all seven transcriptomes and three proteins as possible markers for OSCC76. They also reported an increase in the levels of IL-8 and subcutaneous adipose tissue in saliva exhibiting maximum levels of sensitivity and specificity to diagnose OSCC77. Similarly, Arellano-Garcia et al. described that expression of IL8 and IL1β were increased in saliva of patients with OSCC as compared with control patients78. Gleber-Netto et al. performed a study involving 180 patients and reported that among the proteomic markers, IL8 and IL1β concentration was greater in OSCC patients when compared with control and dysplasia patients79. Awasthi performed a study that included 64 individuals with diagnosed cases of OSCC, pre-malignant conditions, and healthy controls80. It was revealed from the results of that study that patients with OSCC had increased salivary levels of Cyfra-21-1, lactate dehydrogenase, and total protein concentration in comparison to other groups80.
Our review concludes that OSCC has the potential for regional as well as distant metastasis. Many PMDs can transform into OSCC with the help of various etiological factors. Diagnosis of OSCC involves traditional biopsy, but salivary biomarkers could also be utilized for its early diagnosis.
No data is associated with this article.
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Is the topic of the review discussed comprehensively in the context of the current literature?
Yes
Are all factual statements correct and adequately supported by citations?
Yes
Is the review written in accessible language?
Yes
Are the conclusions drawn appropriate in the context of the current research literature?
Yes
Competing Interests: No competing interests were disclosed.
Is the topic of the review discussed comprehensively in the context of the current literature?
Yes
Are all factual statements correct and adequately supported by citations?
Yes
Is the review written in accessible language?
Yes
Are the conclusions drawn appropriate in the context of the current research literature?
Yes
Competing Interests: No competing interests were disclosed.
Reviewer Expertise: Head and neck oral squamous cell carcinoma, micro-vesicles, Exosomes, oral cancer diagnostics.
Is the topic of the review discussed comprehensively in the context of the current literature?
Yes
Are all factual statements correct and adequately supported by citations?
Yes
Is the review written in accessible language?
Yes
Are the conclusions drawn appropriate in the context of the current research literature?
Yes
Competing Interests: No competing interests were disclosed.
Alongside their report, reviewers assign a status to the article:
Invited Reviewers | |||
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Version 1 02 Apr 20 |
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