Home About us Editorial board Ahead of print Current issue Search Archives Submit article Instructions Subscribe Contact Us Login 
An Official Publication of the Indian Association of Oral and Maxillofacial Pathologists

ORIGINAL ARTICLE Table of Contents   
Year : 2010  |  Volume : 14  |  Issue : 2  |  Page : 52-58

Early detection of oral cancer: PAP and AgNOR staining in brush biopsies

1 Department of Oral Pathology and Microbiology, YCMM and RDF's Dental College and Hospital, Wadgaon Gupta MIDC, Ahmednagar - 414001, India
2 Department of Oral Pathology and Microbiology, Government Dental College and Hospital, Mumbai - 400001, Maharashtra, India

Date of Web Publication12-Nov-2010

Correspondence Address:
Jagdish V Tupkari
R. No. 301, Department of Oral Pathology and Microbiology, Government Dental College and Hospital, Mumbai - 400001
Login to access the Email id

Source of Support: None, Conflict of Interest: None

DOI: 10.4103/0973-029X.72501

Rights and Permissions



Aim: The aim of this study was to determine the diagnostic accuracy of routine Papanicolaou stain (PAP) and Silver stained Nucleolar Organizer Regions (AgNOR) staining in brush biopsies taken from suspected oral lesions for early detection of oral cancer. Materials and Methods: Brush biopsies were collected from macroscopically suspicious lesions of the oral cavity of 34 patients and 10 normal-aged and sex-matched controls. The numbers of AgNORs were counted in 100 squamous epithelial cell nuclei per slide after silver staining of the smears (Ploton's one-step method). Results: Sensitivity and specificity of PAP analysis in the oral smears for detection of oral cancer and normal cells was 91.176% and 100%. The positive and negative prediction values were 100% and 76.92%, respectively. Sensitivity and specificity of AgNOR analysis in the oral smears for detection of oral cancer and normal cells was 100%. The positive and negative prediction values were 100% each. Conclusion: Based on the above facts, we conclude that brush biopsy in conjunction with AgNOR staining is an easily practicable, non-invasive, safe and accurate screening method for the detection of macroscopically suspicious oral cancerous lesions. Because of its simple technique and high reliability for cellular proliferation, AgNOR staining in brush smears can be used as an adjunct to other routine cytological diagnoses for the early detection of oral cancer. However, further investigations with more number of study samples will be needed to establish this correlation beyond doubt.

Keywords: AgNOR analysis, brush biopsy, cancer screening, diagnostic accuracy, early cancer detection, nucleolar organizer regions, oral cancer

How to cite this article:
Rajput DV, Tupkari JV. Early detection of oral cancer: PAP and AgNOR staining in brush biopsies. J Oral Maxillofac Pathol 2010;14:52-8

How to cite this URL:
Rajput DV, Tupkari JV. Early detection of oral cancer: PAP and AgNOR staining in brush biopsies. J Oral Maxillofac Pathol [serial online] 2010 [cited 2022 Aug 18];14:52-8. Available from: https://www.jomfp.in/text.asp?2010/14/2/52/72501

   Introduction Top

Oral squamous cell carcinomas (OSCCs) currently hold the sixth position in the worldwide cancer statistics, [1] with a dismal 5-year survival rate, except when diagnosed in the early stages. [2] Hence, there is a need to promote early diagnosis of oral cancers. [3] But, the only established method for their diagnosis is biopsy, which is carried out only when the lesions become symptomatic, i.e. in the late/advanced stages. [4]

Exfoliative cytology is an easy, non-invasive procedure and hence could be carried out even on slightest suspicion regarding the nature of the given lesion. [2] Although the reliability of oral exfoliative cytology has been questioned by many studies, [5] interest in this technique has been renewed due to the advent of newer modifications, like cytobrush and image analysis systems. [6] But, image analysis systems are not available in all institutes because of their high cost and the need of well-trained labor. [3] Therefore, our aim was to make the diagnostic procedures simpler and inexpensive and, at the same time, to increase the sensitivity and specificity of the routine exfoliative cytology.

In the last few years, AgNOR analysis is being frequently used to determine the prognosis of many malignant lesions. [7] NORs can be identified indirectly by means of argyrophilia of their associated proteins (AgNORs) as nuclear dark dots. Many recent reports have suggested that the number of AgNORs per nucleus is related to cellular proliferation and differentiation. This finding could be useful in differentiating between normal, benign and malignant lesions. [8] In addition, because this technique can be carried out with basic laboratory facilities and a light microscope, it will be helpful in increasing the sensitivity and specificity of exfoliative cytology. [9]

The purpose of this study was to determine the diagnostic accuracy of routinely performed PAP staining as compared with AgNOR staining in brush biopsies of suspected oral lesions.

   Materials and Methods Top

Subject population

This study was carried out in the Department of Oral Pathology and Microbiology, Government Dental College and Hospital, Aurangabad. The study population consisted of 44 subjects (including control), from which 88 smears (two smears per subject) were obtained. After thorough evaluation, 10 subjects for the control group were selected from age- and sex-matched subjects with prior consent and these subjects comprised the group I category of this study.

The 34 subjects having clinically diagnosed or suspicious of cancerous lesions (excluding recurrent lesions or those who had taken some sort of treatment) were grouped separately and comprised the group II category of this study. The brush biopsies were obtained and diagnosed before scalpel biopsies clarified the nature of the oral lesions histologically. The quantification of AgNOR counts was performed blindly without the knowledge of the cytological or histopathological report.

Clinical procedure

After thorough clinical examination and consent, the subjects were subjected to 5-min gargling and the lesional areas were wiped off of excessive saliva and surface debris using a moistened gauze piece. Lesional areas with erythematous patches were usually preferred as collection sites. In case of highly keratotic or exophytic lesions, fissured or ulcerative areas were preferred for collecting the cells.

Two cytologic smears were obtained from the pathologic area in question using a cytobrush plus GT (cytobrush GT plus, Med-Scand Medical, Malmo, Sweden). The head of the cytobrush cell collector was moistened with water and was then firmly held against the mucosa of the lesional area. Then, gentle pressure was applied to the brush until the bristles curled or tiny bleeding spots were evident. In this position, the brush was rolled over the lesional site and was rotated for 10 full turns. The cytobrush cell collector was then rolled on glass slides by applying a continuous motion from one end of the slide to the other.

Staining and mode of interpretation

The spray-fixed smears were stained by a commercially available RAPID-PAP Papanicolaou stain kit (Biolab Diagnostics, Boisar, Maharashtra, India).

Evaluation of the Papanicolaou-stained smears was carried out according to the standardized procedure at a magnification of Χ450. The cells suspected to be abnormal were evaluated at higher magnifications and the location of abnormal cells was marked on the cover slip by an ink dot [Figure 1].

AgNOR staining

AgNOR staining was performed according to the one-step method of Ploton et al. [10] with slight modifications suggested by Linder. [11] Further, some modifications were made in the staining procedure so as to suit the laboratory conditions.


The alcohol-fixed smears were immersed in 95% absolute ethanol followed by progressive rehydration and washing in distilled water. The AgNOR staining was carried out using a solution containing one part of 2% gelatine in 1% aqueous formic acid and two parts of 50% silver nitrate. The smears were flooded with silver-colloidal mixture and were kept under safelight conditions for 55 min at room temperature. After staining, the smears were placed in a dark container and washed in three changes of deionised water, followed by immersion in 5% sodium thiosulfate solution for 5 min. After thoroughly washing the smears in running tap water for 5 min, they were immersed in hypo eliminator solution for 5 min. After this step, the smears were washed in several changes of distilled water. This was followed by sequential dehydration in graded alcohols, cleared in xylene and mounted in synthetic medium (DPX).


Nucleolar organizer regions appeared as brown to black dots [Figure 2].

Counting procedure

AgNOR counting was carried out according to Crocker's method. [12] All smears were examined under X1000 magnification in oil immersion using a Labomed Binocular microscope HL-AT1-B, Labo America, Inc, Auburn court, Fremont, CA, USA). In all the sections, the argyrophilic NORs were distinctly visible as dark brown to black "dots" or "blebs" of varying size in the brown-stained nucleus on a pale yellow background of the cells [Figure 2]. The overall slide background was clear. However, a small amount of extraneous silver deposits were present. To standardize the procedure of counting, the following steps were taken:

  1. Firstly, all silver-stained structures were counted, both lying in groups (clusters) and as individual dots outside the clusters.
  2. Secondly, the number of the clusters per nucleus was counted. The partly disaggregated dots associated with the clusters were considered as one structure.
  3. Finally, just the numbers of individual dots (satellites) were counted.

The mean number of AgNORs per nucleus as clusters, as satellites, as clusters and satellites together and all AgNORs lying together in clusters and as satellites were calculated in each case.

   Results Top

PAP staining evaluation

Of technically sufficient brushings from the study sample, all 10 cases in the control group were classed as Class I, i.e. normal cytology. In the second group, a diagnosis of positive for malignancy was made in nine subjects [Figure 1] and 15 subjects were suggestive of the presence of malignancy. The diagnosis of intermediate cytology (Class III) was made in seven subjects, which is indicative of severe dysplasia or carcinoma in situ. The diagnosis of Class II cytology was made in three subjects.
Figure 1 :Class V cytology showing dysplastic epithelial cells (PAP stain, ×400 magnification)

Click here to view

Of the nine cases positive for malignancy, all were histologically proved to be OSCC. Of the 15 cases suggestive of malignancy, all were histologically proved to be OSCC. Of seven cases of intermediate cytology, six were histologically proven to be OSCC and one was diagnosed as verrucous carcinomas. Of the three cases of Class II cytology, all were histologically proven to be verrucous carcinoma.

Sensitivity of our PAP analysis in oral smears for the detection of oral cancer was 91.176%, while specificity for the detection of non-neoplastic cells was 100%. The positive and negative predictive values were 100% and 76.92%, respectively [Table 1].
Table 1 :Sensitivity & andspecificity of PAP staining versus histology in OSCC and verrucous carcinoma

Click here to view

AgNOR evaluation

In the healthy control group, the epithelial cells revealed 2.07-3.05 NORs per nucleus (mean, 2.568±0.3178). In the verrucous carcinoma group, the epithelial cells revealed 4-4.46 NORs per nucleus (mean, 4.223±0.1902). In the OSCC group, the number of NORs per epithelial cell ranged from 4.83 to 6.09 (mean, 5.384±0.3444) [Table 2] [Figure 2]. The cut-off value to differentiate between normal and malignant cells was four.
Table 2 :mAgNOR counts in the study groups

Click here to view
Figure 2 :AgNORs in dysplastic epithelial cells of oral squamous cell carcinoma (AgNOR stain, ×1000 magnification)

Click here to view

In the healthy control group, more numbers of clusters were observed, ranging from 118 to 192 clusters per 100 cells, while the number of clusters in the verrucous carcinomas and OSCC ranged from 91 to 177 and 78 to 113, respectively. The number of satellites in healthy controls, verrucous carcinomas and OSCC were 49-158, 308-368 and 308-489 per 100 cells, respectively. Hence, in the control group, the number of NORs in the form of clusters was more than those in the form of satellites, while in the verrucous and OSCC groups, the number of satellites was significantly higher than that in the control group.

Histologically, in Group II, four subjects were proved to have verrucous carcinoma and 30 subjects had OSCC. The sensitivity of our AgNOR analysis in oral smears for the detection of oral cancer was 100% whereas the specificity for the detection of non-neoplastic cells was 100%. The positive and negative predictive values were 100% each [Table 3].
Table 3 :Sensitivity and specificity of mAgNOR counts versus histopathology in the study groups

Click here to view

Statistical analysis

Correlation between various cytological grades obtained by routine PAP method and histological grading was determined by a two-way variance ANOVA test. The P-value was more than 0.05. Hence, the correlation between cytological grades and histological grading was not significant. Correlation between mAgNOR counts and control, verrucous and OSCC groups determined by means of a one-way variance ANOVA test. The mAgNOR counts were found to increase in number from the control group to the OSCC group. The P-value was <0.05. Hence, the correlation was extremely significant [Table 4].
Table 4 :Statistical correlation between AgNOR counts in the different groups

Click here to view

   Discussion Top

Early detection of OSCCs not only increases the survival rate but also reduces the need for disfiguring treatments. Unfortunately, early detection of oral cancerous lesions has proved difficult because as many as 50% of the patients have regional or distant metastases at the time of diagnosis. [2],[3]

The malignant transformation at the beginning of carcinogenesis affects only few cells long before small parts of tissue are involved. [3],[4] Thus, cytologic examination should be a suitable method to elucidate the dignity of suspicious oral lesions earlier than histology, especially when used with sensitive markers like AgNORs.

Clinical examination and histopathological studies of biopsied material are the classical diagnostic methods used for the diagnosis of oral cancerous lesions. Biopsy is a "bloody" technique with surgical implications, technique limitations for some professionals and psychological implications for some patients. It also presents limitations when the lesions are large as, in these cases, it is important to select the more appropriate place where histological changes would be present. Even though biopsic study is fundamental, it is a diagnostic method with limited sensitivity, where one of the most important features is the subjectivity of the pathologists, which has been proved by few reports. [13],[14],[15],[16] The diagnostic reliability of incisional biopsies has not been proved by any scientific study. Yet, despite this, it is accepted worldwide as a reliable way to obtain oral diagnosis, both in major textbooks. [17],[18] and in national protocols. [4],[19],[20]

In contrast, exfoliative cytology is an easy, reliable technique that could be beneficial for the early diagnosis of oral cancers. [21] However, this technique is marred with a high false-negative rate (range, 0-31%). [22] One of the most common failures of exfoliative cytology in previous studies was the faulty techniques of smear collection, often yielding insufficient quantity of cells as required for microscopic examination. [14],[23]

These flaws can very well be removed by using a more reliable sample collector like cytobrush. The superiority of the cytobrush with regards sample collection from a given lesion has been proved by many studies. [24],[25] The cytobrush seems to have many advantages over traditional sample collectors with regard to cell yield and dispersion. By using a cytobrush, more number of cells are collected and can be more evenly spread over a slide thus allowing an easier interpretation. [25] In this study, all smears collected contained more than sufficient cells required for microscopic analysis.

Another common flaw of exfoliative cytology is subjectivity in interpretation of the given sample when stained by the routine PAP method. Cytological diagnoses of oral cancer cells are difficult and need much experience. Its application is thus limited by the requirement of highly specialized cytopathologists. However, recently, the introduction of molecular markers, image analysis systems and proliferation markers has helped to eliminate the above error. However, these techniques are rather expensive and time consuming and facilities required for them are not available in all institutions. [26]

Deregulated proliferation is considered to be a prime characteristic of malignancies. However, the estimation of proliferation in clinical material is still problematic. In contrast to several techniques that merely estimate static parameters of proliferation, such as the percentage of cycling or S-phase cells, AgNORs seem to reflect dynamic aspects of the cell cycle, i.e., the rapidity of cell duplication. [27] NORs are the morphologic sites around which the nucleolus develops at the end of mitosis. In situ hybridization techniques have shown that these regions represent the loops of DNA actively transcribing to rRNA and thus to ribosomes and, ultimately, to proteins. NORs can be identified by means of the argyrophilia of their associated proteins (NORAPs) as nuclear dark dots. Most recent reports have suggested that the number of AgNORs per nucleus is related to cellular proliferation and differentiation. These findings suggest that AgNORs can be used as an aid in diagnosing malignant lesions such as OSCC. [8],[28] Hence, the aim of present study was to investigate whether the AgNOR method could play a role in the diagnosis of OSCC by studying exfoliated cells from suspected lesions using the cytobrush technique.

The method is applicable with simple light microscopes without additional and expensive technical options and hence could prove a cheap yet specific marker for proliferation when used in smears [Figure 2]. [26],[28] This property of AgNOR is very useful because the false-negative rate of cytologic examination alone could be as high as 31%. [22] Based on these facts, one aim of the present study was to compare the diagnostic accuracy of routine PAP staining and AgNOR staining in exfoliated cells of suspicious oral lesions. The advantage of using exfoliated cells for AgNOR counting is that the whole cell can be examined, reducing the possibility of underestimating the AgNOR counts per nucleus. The risk of obscuring some AgNORs by superimposition and coalescence is minimal. [8] Many papers have reported about the diagnostic values of AgNOR staining in OSCCs using biopsy specimens. [27],[29],[30],[31] However, only few investigators have dealt with AgNOR on cytologic material (scrapings or brushings) of the oral cavity. Mao [8]reported the mean AgNOR counts per nucleus in exfoliated cells of the cancer group at 4.69±0.72 and 2.44±0.37 for normal mucosa. His AgNOR counts showed that the mean value for cancerous lesions were significantly higher than those of the normal mucosa (P<0.005). He found no overlap between the two groups. The results of the present study are basically in agreement with the data of Mao. In the control group, the mAgNOR count was 2.568 (±0.3178); in verrucous carcinoma, the mAgNOR count was 4.223 (±0.1902); and in the OSCC group, the mAgNOR count was 5.384 (0.3444). The mAgNOR counts were significantly different in all groups, the P-value being <0.005. The mAgNOR counts in the present study were slightly higher than those reported by Mao, which may be related to the advanced grades of lesions and/or due to racial variations.

Remmerbach et al.[26] compared the mAgNOR and pAgNOR counts in control, benign inflammatory lesions, oral leukoplakia and OSCCs by using the exfoliated cells. The mAgNOR counts reported by these authors were 2.31 (±1.7), 3.39 (±0.4), 3.88 (±0.59) and 8.99 (±2.64), respectively. The mAgNOR counts of these authors were significantly greater than the mAgNOR counts obtained in the present study. This may be attributed to the staining time used in these studies. Remmerbach et al. stained the smears only for 20 min while in the present study, the staining time used was 55 min. Because of an increase in the staining time in the present study, the small NORs present in the given nucleus may have fused with each other due to continued deposition of silver for a longer time. As a result, the small-sized dot-like precipitations merge and the discrimination between small individual dots may not be possible.

In the present study, the diagnostic accuracy of routine PAP method and AgNOR staining were compared for the diagnosis of OSCCs. The routine PAP-stained smears were graded into five grades based on Papanicolaou's criteria. [22] Thus, the sensitivity of PAP staining was 91.176% and the specificity was 100%. Based on these facts, the negative and positive predictive values were 76.92% and 100%, respectively.

The false-negative rate of PAP staining for diagnosing OSCCs in the present study was 23.08%. Folsom et al. reported the false-negative rate of exfoliative cytology to be ranging from 0% to 29% and, in his own study, the rate was 31%. [22] The false-negative rate in the present study was within the above range.

Scuibba [2] and Remmerbach et al.[26] have reported false-negative rates of 4% and 1.5%, respectively, which is significantly less than that in the present study. However, the above authors had used image analysis programs to analyze the brush smears. The use of such programs makes identification of abnormal cells easier, quicker and less tedious, which could be responsible for the lower false-negative rates.

Furthermore, epithelial dysplasias and borderline lesions represent morphological alterations that are suspicious for malignancy, but do not provide sufficient evidence for its definitive diagnosis. [3] This may be applicable to the present study because the subjects who were reported as false negative were histologically confirmed as having verrucous carcinoma. The grade of malignancy in this lesion may have been very low, which in turn had resulted in a false-negative diagnosis.

On the other hand, the latter situation offers the opportunity for adjuvant methods to identify the malignancy earlier than subjective interpretation of histological or cytological images. Here lies the importance of AgNOR analysis, which, due to its simplicity, has an edge over immunohistochemical methods for the similar purpose. When AgNOR staining was employed in the present study, the sensitivity and specificity of AgNOR staining was 100%. The negative and predictive values were also 100%. Here lies the advantage of AgNOR analysis because, unlike the PAP method, this analysis was able to not only diagnose all cases of verrucous carcinomas but also differentiate them from OSCCs. Hence, NOR analysis may be useful as a quantitative marker of incipient cellular alterations even before the histological hallmarks of changes can be detected. [30]

Based on the above facts, AgNOR analysis appears to be far superior to routine PAP staining when used for the detection of OSCCs in exfoliated cells.

   Conclusion Top

All smears contained more than sufficient number of cells required for microscopic analysis and from all cell layers. This proves the efficiency of the cytobrush cell collector. The mAgNOR per nucleus is a reliable marker of neoplastic squamous cells in oral smears. This method is able to increase the sensitivity for the detection of malignant and specificity for benign cells in oral smears and, thus, decreases the rate of cytologically false-negative or positive diagnoses. The AgNOR technique in exfoliative cytology can be used as an adjuvant diagnostic aid to routine cyto- and histopathology for differentiating between benign and malignant lesions of the oral cavity.

Although there seems to be a generally positive correlation between AgNOR counts and degree of malignancy, further investigations with more number of study samples will be needed to establish this correlation beyond doubt. However, their ease of demonstration and high specificity to cellular proliferation makes them the best available cytopathological marker in the arsenal of the oral pathologist.

   References Top

1.Sugerman PB, Savage NW. Exfoliative cytology in clinical oral pathology. Aus Dent J 1996;41:71-4.   Back to cited text no. 1
2.Sciubba JJ. Improving detection of precancerous and cancerous oral lesions. Computer assisted analysis of the oral brush biopsy. JADA 1999;130:1445-57.  Back to cited text no. 2
3.Remmerbach TW, Weidenbach H, Hemprich A, Bφcking A. Earliest detection of oral cancer using non- invasive brush biopsy including DNA- image - cytometry: Report on four cases. Analyt Cell Pathol 2003;25:159-66.  Back to cited text no. 3
4.Pentenero M, Carrozzo M, Pagano M, Galliano D, Broccoletti R, Scully C, et al. Oral mucosal dysplastic lesions and early squamous cell carcinomas. Under diagnosis from incisional biopsy. Oral Dis 2003;9:68-72.  Back to cited text no. 4
5.Poate TW, Buchanan JA, Hodgson TA, Speight PM, Barrett AW, Moles DR, et al. An audit of the efficacy of the oral brush biopsy technique in a specialist oral medicine unit. Oral Oncol 2004;40:829-34.  Back to cited text no. 5
6.Ogden GR. The future role for oral exfoliative cytology - bleak or bright? Oral Oncol 1997;33:2-4.  Back to cited text no. 6
7.Egan MJ, Crocker J. NORs in pathology. Br J Cancer 1992;65:1-7.  Back to cited text no. 7
8.Mao EJ. Prevalence of human papillomavirus 16 and nucleolar organizer region counts in oral exfoliated cells from normal and malignant epithelia. Oral Surg Oral Med Oral Pathol Oral Radiol Endod 1995;80:320-9.   Back to cited text no. 8
9.Remmerbach TW, Weidenbach H, Mόller C, Hemprich A, Pomjanski N, Buckstegge B, et al. Diagnostic value of nucleolar organizer regions (AgNORs) in brush biopsies of suspicious lesions of the oral cavity. Analyt Cell Pathol 2003;25:139-46.   Back to cited text no. 9
10.Ploton D, Menager M, Jeannesson P, Himber G, Pigeon F, Adnet JJ. Improvement on the staining and in the visualization of the argyrophilic proteins of the nucleolar organizer region at the optical level. Histochem J 1986;18:5-14.  Back to cited text no. 10
11.Lindner LE. Improvements in the silver- staining technique for nucleolar organizer regions (AgNOR). J Histochem Cytochem 1993;41:439-45.  Back to cited text no. 11
12.Crocker J, Boldy DA, Egan MJ. How should we count AgNOR's? Proposals for a standardized approach. J Pathol 1989;158:185-8.  Back to cited text no. 12
13.Pindborg JJ, Reibel J, Holmstrup P. Subjectivity of evaluating oral epithelial dysplasia, carcinoma in situ and initial carcinoma. J Oral Path 1985;14:698-708.   Back to cited text no. 13
14.Allegra SR, Broderick PA, Corvese N. Oral cytology. Seven year oral cytology screening program in the state of Rhode Island. Analysis of 6448 cases. Acta Cytol 1973;17:42-8.  Back to cited text no. 14
15.Abbey LM, Kaugars GE, Gunsolley JC, Burns JC, Page DG, Svirsky JA, et al. Intraexaminer and Interexaminer reliability in the diagnosis of oral epithelial dysplasia. Oral Surg Oral Med Oral Pathol Oral Radiol Endod 1995;80:188-91.  Back to cited text no. 15
16.Karabulut A, Reibel J, Therkildsen MH. Obsrver variability in the histologic assessment of oral premalignant lesions. J Oral Pathol Med 1995;24:198-200.  Back to cited text no. 16
17.Regezi J, sciubba J. Oral pathology: Clinical pathologic correlations, 2 nd ed. Philadelphia: Saunders Company; 1993. p. 84-106.  Back to cited text no. 17
18.Sapp JP, Eversole LR, Wysocki GP. Epithelial disorders. In: Contemporary oral and maxillofacial pathology. St. Louis: Mosby; 1997. p. 156-95.  Back to cited text no. 18
19.Agrestini F, Capozzi L, Carrassi A. Campagna nazionale per la revenzione e la diagnosi precoce dei tumori della cavita orale. Gruppo di studio su "I tumori della cavita orale" Lega Italiana per la Lotta contro i tumori. Rome, Italy: 1994.  Back to cited text no. 19
20.Barker G, Baughman RA, Burzynski N. Oral cancer background papers. National strategic conference for the prevention and control of oral and pharyngeal cancers. Chicago, IL, USA: August 7-9, 1996.  Back to cited text no. 20
21.Christian DC. Computer- assisted analysis of oral brush biopsies at an oral cancer screening program. J Am Dent Assoc 2002;133:357-62.  Back to cited text no. 21
22.Folsom TC, White CP, Bromer L, Canby HF, Garrington GE. Oral exfoliative study. Review of the literature and report of a three - year study. Oral Surg Oral Med Oral Pathol Oral Radiol Endod 1972;33:61-73.  Back to cited text no. 22
23.Cowpe JG, Longmore RB, Green MW. Quantitative exfoliative cytology of normal oral squames: an age, site and sex-related survey. J Royal Soc Med 1985;78:995-1004.  Back to cited text no. 23
24.Ogden GR, Cowpe JG, Green M. Cytobrush and wooden spatula for oral exfoliative cytology. A comparison. Acta Cytol 1992;36:706-10.  Back to cited text no. 24
25.Jones AC, Pink FE, Sandow PL, Stewart CM, Migliorati CA, Baughman RA. The cytobrush plus cell collector in oral cytology. Oral Surg Oral Med Oral Pathol Oral Radiol Endod 1994;77:101-4.  Back to cited text no. 25
26.Remmerbach TW, Weidenbach H, Mόller C, Hemprich A, Pomjanski N, Buckstegge B, et al. Diagnostic value of nucleolar organizer regions (AgNORs) in brush biopsies of suspicious lesions of the oral cavity. Analyt Cell Pathol 2003;25:139-46.   Back to cited text no. 26
27.Piffkς J, Bΰnkfalvi A, Ofner D, Rasch D, Joos U, Schmid KW. Standardized AgNOR analysis of the invasive front in oral squamous cell carcinomas. J Pathol 1997;182:450-6.  Back to cited text no. 27
28.Derenzini M, Romagnoli T, Ceccarelli C, Eusebi V. Fixatives and silver stainability of NOR proteins at the light microscopic level. J Histochem Cytochem 1988;36:1453-4.  Back to cited text no. 28
29.Kazuo S, Hiroshi T, Fujita S, Inokuchi T, Pe MB, Okabe H, et al. Prognostic implications of silver binding NOR's (AgNORs) in oral squamous cell carcinomas. J Oral Pathol Med 1991;20:53-6.  Back to cited text no. 29
30.Schwint AE, Gomez E, Itoiz ME, Cabrini RL. Nucleolar organizer regions as markers of incipient cellular alterations in squamous epithelium. J Dent Res 1993;72:1233-6.  Back to cited text no. 30
31.Piffkς J, Bΰnkfalvi A, Ofner D, Rasch D, Joos U, Schmid KW. Standardized demonstration of silver stained NOR's- AP's in archival oral squamous cell carcinomas and adjacent non-neoplastic mucosa. Mod Pathol 1997;10:98-104.  Back to cited text no. 31


  [Figure 1], [Figure 2]

  [Table 1], [Table 2], [Table 3], [Table 4]

This article has been cited by
1 Cytological Screening Model of Normal Oral Mucosa Exposed to Carcinogens: A Pilot Study
Ricardo Losekann Paiva, Maria Antonia Zancanaro de Figueiredo, Karen Cherubini, Vinicius Duval Da Silva, Fernanda Gonçalves Salum
Acta Cytologica. 2022; 66(2): 114
[Pubmed] | [DOI]
2 Usefulness of Five-Parameter System Reconfirmed for Cytopathology of Oral Squamous Cell Carcinoma regardless of Differentiation Degree
Hitoshi Hara, Tsunemi Misawa, Eri Ishii, Miki Nakagawa, Saki Amemiya, Kenji Amemiya, Toshio Oyama, Takashi Saku
Acta Cytologica. 2022; : 1
[Pubmed] | [DOI]
3 A Systematic Review of Oral Biopsies, Sample Types, and Detection Techniques Applied in Relation to Oral Cancer Detection
Guanghuan Yang, Luqi Wei, Benjamin K. S. Thong, Yuanyuan Fu, Io Hong Cheong, Zisis Kozlakidis, Xue Li, Hui Wang, Xiaoguang Li
BioTech. 2022; 11(1): 5
[Pubmed] | [DOI]
4 Analysis of laryngeal brush biopsy-based cytology results in patients of the 4th Military Teaching Hospital and Polyclinic in Wroclaw in years 2019–2020
Paulina Lepka, Tomasz Zatonski, Szczepan Barnas, Emilia Jaskiewicz-Burnejko, Agnieszka Halon
Otolaryngologia Polska. 2022; 76(2): 15
[Pubmed] | [DOI]
5 Modified Papanicolaou staining for oral swab samples stored long term
Srijayaprakash B. Uppada, Lepakshi S. V. Madduri, Sravani Singu, Brooke Lawson, Linda Bauer, Alison Freifeld, Vijaya R. Bhatt, Siddappa N. Byrareddy
Biotechnic & Histochemistry. 2021; 96(5): 359
[Pubmed] | [DOI]
6 Strategies to improve diagnosis and risk assessment for oral cancer patients
John Adeoye, Peter Thomson
Faculty Dental Journal. 2020; 11(3): 122
[Pubmed] | [DOI]
7 Nucleolar organizer regions in human oral verrucous carcinoma and adjacent lining epithelium
Andrea Monti Hughes, Analía Méndez, María Elina Itoiz, Amanda E. Schwint
Biotechnic & Histochemistry. 2020; 95(7): 555
[Pubmed] | [DOI]
8 Preventive measures in oral cancer: An overview
Sharon D’souza, Veeranjaneyulu Addepalli
Biomedicine & Pharmacotherapy. 2018; 107: 72
[Pubmed] | [DOI]


Print this article  Email this article


    Similar in PUBMED
    Search Pubmed for
    Search in Google Scholar for
  Related articles
    Article in PDF (824 KB)
    Citation Manager
    Access Statistics
    Reader Comments
    Email Alert *
    Add to My List *
* Registration required (free)  

    Materials and Me...
    Article Figures
    Article Tables

 Article Access Statistics
    PDF Downloaded1139    
    Comments [Add]    
    Cited by others 8    

Recommend this journal

© Journal of Oral and Maxillofacial Pathology | Published by Wolters Kluwer - Medknow
Online since 15th Aug, 2007