Comparative study between the Hybrid Capture II test and PCR based assay for the detection of human papillomavirus DNA in oral submucous fibrosis and oral squamous cell carcinoma

Oral malignancy is a major global health problem and it constitutes the sixth most common malignancy. More than 90% of these malignancies representing a squamous cell carcinoma (SCC), which are often preceded by pre-existing oral lesions termed as potentially malignant disorders of the oral mucosa such as oral sub mucous fibrosis (OSMF) [1]. OSMF occurs most commonly in South East Asia, but many cases, it has been reported worldwide, in countries like China, UK, Kenya, Saudi Arabia, Pakistan and other parts of the world [2]. In India, about 5 millions people suffer from this disease [3].

Mehrotra et al reported that potentially malignant and malignant disorders of the oral mucosa were widespread in the patients visiting in the Medical College and SRN hospital, Allahabad and suggested that OSMF constituted the highest number of the patients in the potentially malignant group while in case of malignant group, OSCC was most prevalent in this region [4]. The habits of chewing tobacco and areca nut with or without betal quid are rampant in this area. Besides the main risk factors of tobacco, smoking and alcohol, infection by human papillomavirus (HPV) and genetic alterations are likely to play an important role in these lesions [5]. Oncogenic HPVs are a main causative agent for cervical cancer, but the role of HPV infection in OSMF and OSCC is less established.

Human papillomavirus is about 55 nm in diameter. It has a single circular double stranded DNA molecule and belongs to the family papillomaviridae. Its genome is made up of 7,200-8,000 base pairs with a molecular weight of 5.2 × 10⁶ D. Molecular evidences also provide support to the role of high risk HPV, particularly HPV-16, in the pathogenesis of OSCC of the head and neck [6]. Kreimer et al reported that genomic DNA of oncogenic HPV has been detected approximately 26% of all OSCC of the head and neck worldwide [7] but the most accurate and consistent study for OSMF and OSCC, in which viral integration and the expression of viral oncogenes (E6 and E7) have been shown [8].

HPV detection in potentially malignant and malignant oral squamous cell carcinoma showed many discrepancies. Several studies reported the presence of HPV-DNA within these lesions with variable frequency. HPV16 and 18 genotypes were the most frequently found viruses in these lesions. Bouda et al suggested that high risk HPV E6/E7 transcripts and viral integration have also been detected in head and neck squamous cell carcinoma (HNSCC). Transcriptionally active HR-HPVs, particularly HPV-16 are found in a subset of HNSCC. HPV16-associated carcinogenesis is mediated by expression of the viral E6 and E7 oncoproteins, which cause deregulation of the cell cycle by inactivating p53 and pRb respectively [9]. Integration often disrupts the integrity and expression of the E1 and E2 open reading frames, which may affect the transcription of E6 and E7 genes [10‐13]. In HPV-16 and HPV-18, the E2 proteins are active in virus proliferation, it control E6-E7 gene expression and are necessary for episomal virus production [10]. Specific viral genes (E6 and E7) from HPV types 16, 18, and 33 act as oncogenes [14, 15].

Recentaly, a second-generation assay with improved diagnostic sensitivity has been developed known as hybrid capture II test (HC-II) and approved by the US food and drug administration (FDA). The performance characteristics of HC-II assay and the PCR for detection of HPV DNA have been compared in cervical lesions and results shown variation. [16‐19]. Many testing techniques used to identify the prevalence rate of cervical as well as oral associated HPV infection have been developed but specific HPV testing may not be proper as a primary screening tool due to lack of specificity and sensitivity of the test. Newly developed molecular techniques have significantly assisted to indentifying the association of HR-HPV types with these oral lesions. The purpose of this study was to compare the efficacy of HC-II assay and PCR for the detection of specific HPV type (HPV 16 E6) in OSMF and OSCC cases as well as find out the prevalence rate of the HR-HPV in these lesions.

Four hundred thirty cases (average age 58.0 ± 12.6 years) were incorporated in this study, of which 208 patients suffered from potentially malignant disorder of the oral cavity such as OSMF (123; 59.13% males and 85; 40.87% females) and 222 OSCC patients (146; 65.76% males and 76; 34.23% females). On the basis of demographic distribution of the patients with 208 cases of the OSMF, of which 105 (50.48%) and 103 (49.52%) cases were below and above the age of 45 years respectively while in 222 OSCC cases, 89 (40.1%) and 133 (59.9%) cases were below and above the age of 45 years respectively. In case of OSMF, 156 (75%), 163 (78.36%) and 165 (79.32%) subjects were addicted with tobacco chewing, cigarette smoking and alcohol drinking respectively while 52 (25%), 45 (21.63%) and 43 (20.67%) subjects were never taken any types of addiction. In case of OSCC, 176 (79.27%), 184 (82.88%) and 172 (77.47%) subjects were addicted with tobacco chewing, cigarette smoking and alcohol drinking respectively while 46 (20.72%), 38 (17.11%) and 50 (22.52%) subjects were never taken any types of addiction [Figure 3].

Total 208 cases of OSMF, 57 (27.4%) were HR-HPV DNA positivite and 151 (72.59%) cases were negative while in 222 cases of OSCC, 70 (31.53%) were positive and 152 (68.47%) subjects were negative by HC-II assay. These sample were again tested by the type specific HPV 16 E6 with the help of PCR. The positivity rate of HPV 16 E6 DNA was 54 (25.96%) in OSMF and 72 (32.43%) in OSCC cases while 154 (74.03%) and 150 (67.56%) cases were negative respectively [Figure 4].

Table 1 summarizes the results of HPV DNA detection by the two tests in the following categories such as gender, age, addiction habits as well as location of the tumors. In OSMF cases, 42 subjects were positive, of which 28 (66.6%) males and 14 (33.3%) females were positive while 139 subjects were negative, of which 77 (55.4%) males and 62 (44.6%) females were negative by the HR-HC-II assay as well as type specific PCR. In case of OSCC, 61 subjects were positive, of which 42 (68.8%) males and 19 (31.1%) females were positive while 141subjects were negative of which 91 (64.5%) males and 50 (35.5%) females were negative by both the test HC-II and PCR assay.

On the basis of addiction habits, in OSMF cases, 42 were positive by the HR-HC-II assay as well as type specific PCR. Of which, 38/42 (90.5%) tobacco chewers, 35/42 (83.3%) cigarette smokers, 40/42 (95.2%) alcohol drinkers and 04/42 (9.5%) non chewers, 07/42 (9.5%) non smokers and 02/42 (4.7%) non drinkers were HPV positive. While 139 were negative by both test. Of which, 96/139 (69.1%) tobacco chewers, 111/139 (79.8%) cigarette smokers, 105/139 (75.5%) alcohol drinkers and 43 (30.9%) non chewers, 28/139 (20.1%) non smokers and 34/139 (24.5%) non drinkers were negative.

In case of OSCC, 61 were positive by the HR-HC-II assay as well as type specific PCR. Of which, 52/61 (85.2%) tobacco chewers, 51/61 (83.6%) cigarette smokers, 40/61 (65.6%) alcohol drinkers and 09/61 (14.7%) non chewers, 10/61 (16.4%) non smokers, 21 (34.4%) non drinkers were positive. While 141 cases were negative by the both test. Of which, 109/141 (77.3%) tobacco chewers, 121/141 (85.8%) cigarette smokers, 120/141 (85.1%) alcohol drinkers and 32/141 (22.7%) non chewers, 20/141 (14.2%) non smokers, 21/141 (14.9%) non drinkers were negative.

On the basis of location of the lesions in potentially malignant OSMF of the oral cavity, out of 42 positive cases, 18 (42.8%) oral cavity, 12 (28.6%) tongue, 09 (21.4%) lip, 03 (70.1%) hard & soft palate were positive while out of 139 negative cases, 68 (48.9%) oral cavity, 13 (9.4%) tongue, 28 (20.1%) lip, 30(21.6%) hard & soft palate were HPV negative by the both the test HR-HC-II assay as well as type specific PCR. In case of OSCC, out of 61 positive cases, 32 (52.5%) oral cavity, 12 (19.7%) tongue, 08 (13.1%) lip, 09 (14.7%) hard & soft palate were positive while out of 141 negative cases, 72 (51.1%) oral cavity, 21 (14.9%) tongue, 20 (14.2%) lip, 29 (19.8%) hard & soft palate were HPV negative by the both the test HR-HC-II assay as well as type specific PCR [Table 1 ].

Clinico-pathological diagnosis of the potentially malignant disorders (OSMF) of oral cavity, out of 42 positive cases, 5 (11.9%) grade I, 09 (21.42%) grade II, 11 (26.12%) grade III , 17 (40.47%) grade IV were HPV positive while out of 139 negative cases, 18 (12.94%) grade I, 29 (18.7%) grade II, 37 (26.61%) grade III , 55 (39.56%) grade IV were HPV negative by the both the test [Table 2]. In case of malignant oral lesions (OSCC), according to TNM grading criteria, 28/80 (35%) T1-2 and 33/142 (23.23%) T3-4 sample were positive and in lymph node (N) category 21/66 (31.8%) N0 and 40/156 (2.56%) N1-3 were positive for both the test. While 45/80 (56.25%) cases of T1-2 category, 96/142 (67.6%) cases of T3-4 were HPV negative and 42/66 (63.63%) cases of N0, 99/156 (63.46%) of N1-3were HPV negative by both test [Table 3].

In case of OSMF, the two tests gave concordant results for 42 HPV positive samples and 154 HPV negative samples, with an overall level of agreement of 85.4% (Cohen's kappa = 66.83). Among the samples with discrepant results, 15 were positive by the HC-II assay but negative by PCR, whereas 12 samples were PCR positive but negative by HC-II assay. The sensitivity and specificity of the test were 73.7% and 92.05% (p < 0.00) respectively [Table 4].

In case of OSCC, the two tests gave concordant results for 61 HPV positive samples and 152 HPV negative samples, with an overall level of agreement of 88.3% (Cohen's kappa = 79.29, 95% CI 0.706-0.879). Among the samples with discrepant results, 11 were positive by the HC-II assay but negative by PCR, whereas 9 samples were PCR positive but negative by HC-II assay. The sensitivity and specificity of the test were 87.14% and 92.76% (p < 0.00) respectively [Table 5].

In this study we compare the data obtained by two techniques, (HC-II & PCR assay) detecting HR HPV DNA in potentially malignant (OSMF) and malignant (OSCC) disorders of the oral cavity. Use of the same samples for both DNA tests was done to avoid bias. We examined the punch biopsies sample histopathologically and to find out the final diagnosis of the oral lesions. This approach acceptable to find out the positivity rate between HPV detection and oral lesions. We did not detect any type of low risk humanpapilloma virus in these lesions. The HC-II assay used for the detection of the presence of 13 types high risk HPV types (i.e, 16,18,31, 35,39,45,51, 52, 58, 59 and 68) and 18 low risk (i.e, 6,11,42,43 and 44) in cervical lesions [23, 24]. As well as recentaly Mehrotra et al reported that the prevalence rate of HR HPV infection in potentially malignant lesions (OSMF) with 33/105 (31.42%) HR-HPV positivity by the HC-II test [25].

This study included 430 cases (average age 58.0 ± 12.6 years), of which 208 patients suffered from potentially malignant lesions such as OSMF (123; 59.13% males and 85; 40.87% females) and 222 OSCC patients (146; 65.76% males and 76; 34.23% females). The overall occurrence rate of HPV 16 E6 DNA positivity was nearly 26% by PCR and 27.4% by the HC-II test in case of OSMF. While in case of OSCC the HPV DNA positivity were 32.4% by the PCR and 31.5% by the HC-II test. Therefore, the study concluded that slight difference was found between the positivity rate of HR HPV infection of the both detection methods in OSMF as well as in OSCC cases. However, Kujan et al from United Kingdom, reported that all oral samples were negative for HR-HPV using the HC-II technique [26] while Vidal et al from Brazil [27], studied the role of HPV by this assay in oral carcinoma and reported 22.5% positivity of HR-HPV DNA by the same test. They also suggested that the detection of HPV by this technique not only helped to identify viral infections, but also correspond to find out the koilocytosis on exfoliative cytology and concluded the presence of HPV might also contribute to the development of cancer, but there are many other factors such as tobacco smoking, tobacco chewing and radiations that were consistently present in persons suffering from oral malignancies.

In this study we reported that in case of potentially malignancy oral lesions such as OSMF, the two tests (HC-II & PCR assay) concordant results with an overall level of agreement of 85.4% (Cohen kappa = 66.83, 95% CI = 0.553-0.736). The sensitivity and specificity of the test were 73.7% and 92.5% (p < 0.00) respectively. While in case of OSCC both the tests gave concordant result with an overall level of agreement of 88.3% (Cohen's kappa = 79.29, 95% CI = 0.706-0.879). The sensitivity and specificity of the test were 87.14% and 92.76% (p < 0.00) respectively. Therefore, we concluded that HC-II assay seemed to have better sensitivity in case of OSCC. Similar result was reported by the Kalama et al in case of cervical lesions [24]. To the best of our knowledge this is the first study to find out the occurrence rate as well as the comparative study between the HC-II assays and PCR in OSMF and OSCC cases. Investigation on the role of HPV markers could be rewarding in planning long-term strategies for prevention, diagnosis and possible cure of these conditions. There findings warrant further study with a larger number of patients. Evidence has showed that strong epidemiology data would provide additional support for a causal association between HR-HPV and oral lesions and might be guided future cancer prevention programs involving vaccination to oral HPV infection or screening in North Indian population.

This study concluded that slight difference was found between the positivity rate of HR-HPV infection detected by the HC-II and PCR assay in OSMF and OSCC cases and the HC II assay seemed to have better sensitivity in case of OSCC.