Scope and limitations of intraoperative cytological methods of diagnosis of ovarian tumors.

Crush preparations are made by compressing the tissue between two slides, and the material obtained is smeared by another slide. [ 52 ] It is used for necrotic and friable tissues. Fine-needle aspiration cytology in the pre-operative investigation of the ovarian tumor has been discouraged for the following reasons: Concern for tumor contents seeping into the peritoneal cavity and subsequent implantation; a ruptured capsule that causes the tumor to upstage. There is a need for repeated punctures in multi-loculated ovarian masses. [ 53 ]

Ovarian tumors constitute a heterogeneous group of lesions, which include benign, borderline, and malignant tumors. [ 1 ] An increased risk of ovarian cancer has been linked to several modifiable and non-modifiable factors, such as aging, a family history of the disease, inherited genetic mutations (e.g., BRCA1/BRCA2 mutations), obesity, nulliparity, and the use of hormone replacement therapy. [ 2 ] The world’s developed and developing regions are both impacted; however, the incidence is twice as high in the former. [ 3 ] Based on the Globocan 2018 Fact Sheet, ovarian cancer was found to be the eighth most prevalent cancer overall and the third most common among Indian women, accounting for 3.44% (36170) of all cancer cases. [ 4 ] Moreover, it is also a grave cause of cancer-related fatalities among Indian women, accounting for 3.34% (24015) of all cancer-related deaths in India in a given year. [ 5 ] A physical examination, which includes a pelvic examination, a blood test for tumor markers like cancer antigen 125 (CA-125), and transvaginal ultrasonography, are the first steps in the diagnosis of ovarian cancer. However, their usefulness in distinguishing among benign, borderline, and malignant categories is limited. CA-125, a serum tumor marker, lacks specificity. In the early stages of ovarian cancer, the CA-125 level may be normal; it may also be elevated in non-neoplastic diseases such as pelvic inflammatory disease and endometriosis. In addition, imaging is not always reliable in accurately diagnosing ovarian masses, particularly when there are big, heterogeneous lesions. Moreover, on imaging, borderline ovarian tumors are frequently misinterpreted as benign. Therefore, intraoperative pathological assessment is essential for determining the malignancy, stage, and course of treatment of ovarian tumors. The most widely used method for intraoperative diagnosis has traditionally been frozen sections (FSs). However, intraoperative cytology (IOC) has become the primary method of intraoperative pathological assessment for ovarian tumors at several centers in resource-poor settings with its benefits including quick results and ease of production of numerous high-quality preparations. The goal of this study is to determine the potential benefits and drawbacks of intraoperative cytological diagnosis of ovarian tumors, as well as to evaluate the limitations and suggest corrective actions.

Scrape cytology carries similar merits and demerits as imprint, but the scrape technique provides better cell yield. The scrape approach was determined to be the most effective way of preparing the smears, according to a study done by Ivan et al . [ 24 ] In comparison to other cytological methods, there was a high level of cellularity and superior morphological preservation. The sensitivity of scrape cytology was found to be higher (92.1%) than that of imprint (73%), comparable with that of FS analysis (92.6%) in a study conducted by Mohammadnia Avval et al . on sentinel lymph nodes in patients with breast cancer. [ 50 ] Gautam et al . compared imprint and scrape cytology in the intraoperative diagnosis of soft tissue tumors and tumor-like lesions. The study found that the diagnostic yield of scrape smears was 100%, while that of imprint smears was only 24%. [ 51 ] Cellular yield is higher in scrape cytology in comparison to imprint. However, individual cellular details tend to be better appreciated in imprint cytology because of the monolayering of cells. It is particularly useful in low cellular tumors or lesions with cystic changes. A glimpse of three studies correlating diagnostic accuracy with scrape cytology is given in Table 3 . Diagnostic accuracy (%) of scrape cytology when compared with final histopathological diagnosis.

Ivan et al . used FS and imprint cytology to analyze 76 cases of ovarian tumors, with the histopathological report serving as the gold standard. Three out of nine cases of borderline tumors were correctly diagnosed with FSs; however, borderline tumors could not be diagnosed using an imprint smear. The diagnostic accuracy for benign tumors was determined to be slightly higher by the imprint technique, while it was equal for malignant tumors. [ 24 ] Azami et al . used FS and imprint cytology to investigate 55 cases of ovarian tumors. Both FSs and imprint cytology provided appropriate diagnoses of benignity and malignancy. For imprint cytology, the diagnosis accuracy of benign tumors was 90.9% (50/55), whereas for frozen sections, it was 96.3% (53/55). [ 25 ] Nomura et al . suggested using IOC for additional intraoperative evaluation of any tumors on FSs initially identified as borderline tumors. Seventy-eight percent of cases were compared by IOC, FS, and final histopathology in terms of both behavioral types that are benign, borderline, or malignant and histologic subtypes that are serous, mucinous, endometrioid, or clear cell tumors. [ 26 ] Kediya et al . concluded that intraoperative imprint cytology has greater diagnostic accuracy (80%) than FSs (76%). For imprint cytology, the corresponding values for sensitivity, specificity, positive predictive value, and negative predictive value were 77.5%, 90.0%, 96.9%, and 50%; in contrast, for the FS, the corresponding values were 72.5%, 90.0%, 96.7%, and 45.0%. [ 27 ] Shiva Murthy et al . study included 53 cases of ovarian tumors with imprint smears, FS slides, and routine histopathology slides. The final histopathology diagnosis did not correspond with the results of imprint cytology in five cases. One case of endometrioid carcinoma was misdiagnosed as a cystadenocarcinoma; one case of mucinous carcinoma was misdiagnosed as a borderline mucinous tumor; two cases of borderline mucinous tumors were misdiagnosed as mucinous cystadenomas; and one case was a mixed germ cell tumor with a yolk sac component and an embryonal component. As a result, the sensitivity and specificity were, respectively, 93.75% and 97%. [ 28 ] Abe et al . assessed the value of IOC in ovarian germ cell tumors. For immature teratoma, accuracy was 54.5% (6/11), but for other tumors, it was 91.7% (11/12). In both of the cases, cytologic testing allowed for an appropriate diagnosis; an intraoperative diagnosis by FS proved to be wrong. [ 29 ] In a study led by Melies et al ., 100 patients with ovarian masses identified by radiographic, ultrasound, or clinical evaluation were included. The study’s results showed 84.85% sensitivity, 100% specificity, and 92.75% diagnostic accuracy. They found that because malignant and epithelial borderline neoplasms have comparable cytological characteristics, such as the presence of hyperchromatic nuclei, pleomorphism, and complicated branching architecture, it can be difficult to distinguish between the two types of neoplasms. The invasion of the stroma is the only distinction between them. This is the research restriction that Nagai et al . also encountered. [ 30 ] In the study by Akbar et al ., the corresponding values for sensitivity and specificity were 82.2% and 89.4%, respectively. [ 31 ] Their investigation was limited by inadequate cellularity and interpretation errors, particularly in cases of epithelial tumors. Due to overlapping papillary cell clusters displaying considerable nuclear pleomorphism, smears from two borderline serous tumors were classified as serous adenocarcinomas on the imprint. Therefore, histopathology is necessary to determine if stromal invasion has occurred or not. Ivan et al . proposed scrapping the slides to maximize cell production in response to a similar problem. [ 24 ] Souka et al . evaluated to assess the combined use of cytological imprint and FS that led to the diagnostic pick up by 84% and 74% for frozen and imprint, respectively; however, combined cytologic and cryostat methods showed 90% accuracy of diagnosis. [ 32 ] Thirty-one cases out of the forty ovarian neoplasms evaluated in a study by Sireesha et al . showed a correlation with the histopathological findings. Four of the nine instances that did not correlate were carcinomas, and four were borderline cases. The reason could be that a huge tumor made it difficult to sample the representative area. A granulosa cell tumor had solid and cystic areas filled with serous material. Imprint smears were hypocellular and revealed cells with pleomorphism and slight nuclear atypia, which suggested that the tumor might be a borderline epithelial serous-type tumor. The study’s overall accuracy was 87.5%, with a sensitivity of 88.89%, a specificity of 86.36%, and a positive predictive value of 84.21%. [ 33 ] Panicker et al . divided 194 cases into four categories: Surface epithelial tumors, sex cord stromal tumors, germ cell tumors, and tumor-like lesions. The diagnostic accuracy for each of the categories was 96.4%, 98.5%, 100%, and 97%, respectively. [ 34 ] . When cytologic smears were added to ovarian FSs, the total number of deferrals and discrepancies dropped from 13.75% to 7.85%. The majority of benefits were noted in cases of primary ovarian cancer. [ 35 ] Of the 50 instances in Vijayakumar’s investigation, 45 showed diagnostic concordance. With 90% of the patients having results that matched the final diagnosis, the intraoperative imprint cytology demonstrated satisfactory overall diagnostic accuracy. Five cases where the intraoperative imprint cytology did not correspond with the final diagnosis included two endometrioid carcinomas misdiagnosed as cystadenocarcinomas, two mucinous carcinomas misdiagnosed as borderline mucinous tumors, and one borderline mucinous tumor misdiagnosed as mucinous cystadenoma, similar to the study done by Shivamurthy and Jaiprakash. [ 28 , 36 ] Jennifer compared the imprint cytology and FS diagnostic accuracy with that of the permanent sections. The study comprised fifty-four individuals. While the FS had an accuracy rating of 90.7%, imprint cytology had a higher rate of 94.4%. Each was 100% specific. Imprint sensitivity was 80%, whereas FS sensitivity was 66.7%. [ 37 ] When diagnosing ovarian neoplasms intraoperatively, imprint cytology is a highly useful diagnostic technique. In terms of accuracy, it is similar to the frozen portion and occasionally superior because imprint smears retain cytomorphology, whereas FSs retain tissue architecture but lack cytological features. [ 22 ] In FSs, freezing artifacts are frequently encountered due to ice crystal formation, resulting in the alteration of nuclear details and anisonucleosis. [ 38 ] Thicker sections result in the folding of the sections and removal from the slide surface due to insufficient adhesion during staining. [ 19 ] The imprint technique offers vivid cytological details. It makes it possible to analyze individual cells. [ 23 ] It is useful in identifying the malignant tumor’s histologic subtype. [ 26 ]

IOC with rapid stain can yield a cost-effective and early diagnosis in resource-poor settings such as developing nations like ours, where FSs are frequently unavailable. Intraoperative cytological diagnosis can be used as an alternative to FSs since it can discriminate between benign and malignant tumors conveniently. When a clinician, radiologist, and pathologist work in close cooperation, IOC can be a very effective technique for the early diagnosis of ovarian masses.

FS is the gold standard in intraoperative diagnosis, and it can be used to evaluate the efficacy of IOC. [ 7 ] In a retrospective study, Sukumaran et al . compared the FS and permanent section diagnoses of 233 cases of ovarian tumors. The FSs total accuracy was 91.85%. [ 8 ] From January 2011 to December 2018, Rukmangadha et al . conducted a retrospective study including 289 cases. [ 9 ] Thirty-five cases were found to be incompatible. The diagnostic accuracy of FSs was 87.89% overall. With a specificity of 91.8% and a sensitivity of 68.7%, borderline tumors showed the lowest results. [ 9 ] In a retrospective review of the FS shown by Kung et al ., the diagnostic accuracy was 97.20%, with 100% specificity and 92.51% sensitivity considering borderline and malignant diagnoses together. [ 10 ] Jena et al . compared FSs on 49 ovarian tumors that were radiologically and clinically diagnosed with the final histopathologic diagnosis. Five cases were false-negative, and there were no false-positive cases. With a mean diameter of 26 cm, the five discordant cases were all mucinous ovarian neoplasms. [ 11 ] From January 2009 to December 2014, Hashmi et al . assessed 141 cases of ovarian tumors. Over 99% of FS diagnoses were made correctly. For benign and malignant tumors, the sensitivity and specificity were broadly similar, but for borderline tumors, they were 83% and 99%, respectively. [ 12 ] A mucinous tumor of the ovary can lead to a discordant diagnosis between frozen and final. [ 13 ] A study conducted by Sarma et al . over 2 years showed that the concordance rate of FSs with histopathological diagnosis was 91.67%. Diagnostic accuracy for benign, malignant, and borderline tumors was 88.64%, 72.63%, and 55.56%, respectively. [ 14 ] Table 1 and Figure 2 having various studies are given for the correlation of FS findings with corresponding final histopathology. Diagnostic accuracy (%) of the frozen section with final histopathological diagnosis. NA: Not available Diagnostic accuracy (%) of the frozen section with final histopathological diagnosis.

IOC, especially rapid Giemsa stain, can easily detect background mucin, intra-cellular mucin, cytoplasmic vacuolization, and background stromal fragments that help in the diagnosis of ovarian sex cord stromal tumor and serous and mucinous neoplasm. Cytology preparations do not require as much technical knowledge as FSs do, so they do not depend as much on the availability of qualified technical personnel. These cytology techniques are more widely available, particularly in settings with low resources. The cellular features have been preserved exceptionally well, and there has been no tissue loss, unlike cryostat sections. Tissue-freezing-related artifacts are absent. This decreases the minimum required quantity of diagnostic material. Moreover, preparations that may be infectious can be evaluated cytologically without contaminating cryostat facilities.

Dr. Louis B. Wilson, an American pathologist and the chief of pathology at Mayo Clinic, is widely acknowledged as having pioneered intraoperative FSs. Cytology was first used as an intraoperative pathological evaluation technique by Leonard S. Dudgeon and Vincent Patrick at the University of London in 1927. [ 6 ] This opened up new possibilities for the quick and accurate diagnosis of newly cut specimens. Following these preliminary attempts, traditional inspection of FSs was preferred for several decades, and the use of cytology smears during intraoperative consultation was overlooked. However, several recent investigations have shown that diagnostic effectiveness of the IOC is on par with FSs.

One of the shortcomings of imprint cytology is the diagnosis of borderline ovarian tumors. This can be attributed to sampling inaccuracy and substantial tumor heterogeneity, which is an admixture of borderline and benign areas within the same ovarian mass .[ 24 , 25 , 28 , 30 , 37 ] It is also not possible to assess the depth of infiltration with imprint cytology. [ 23 ] Therefore, a thorough gross examination is crucial. By obtaining several imprints from various representative areas, imprint cytology can be further refined for even greater precision. [ 21 ] In conclusion, if a rapid diagnosis is needed or resources are limited, imprint cytology can be utilized independently to support intra-operative decision-making. In addition, it can be used in conjunction with an FS to provide a more precise intraoperative diagnosis.

FSs should be preferred over IOC in the following situations: To differentiate between in situ and invasive carcinoma, to estimate the depth of tumor penetration, to assess the surgical resection margins, and to verify whether the tumor has been eliminated or not. When there is a discrepancy between the tumor’s gross appearance and its intraoperative cytological features, FSs may be used. Scirrhous lesions are challenging to prepare for cytological analysis because they are dense and unyielding. IOC is not very effective in the diagnosis of borderline tumors. In such cases, FSs may be preferred over cytology for a more accurate diagnosis. [ 54 - 56 ]

A literature search was performed only in PubMed using the following terms: Ovarian tumors, intraoperative examination, FS, intraoperative cytological examination, limitations, improvement, history, and India. Relevance was assessed, and articles that discussed the advantages and disadvantages of IOC in comparison to FSs about ovarian tumors were included. After searching for the keywords alone or in combination, without a time limit, 2048 source results were found. Three hundred one sources appeared in the results after the search parameters were adjusted. Fifty two of the 301 maximally applicable sources were used as references in this review article. For more pertinent information, the references to each article were reviewed. The information obtained was combined and included in this review. A flow chart depicting the selection of studies was included [ Figure 1 ]. The software used was Microsoft ® Word for Microsoft 365 MSO (Version 2501 Build 16.0.18429.20132) 64-bit. The manufacturer is Microsoft Corporation. Flow chart for the selection of studies.