American Society of Cytopathology Telecytology validation recommendations for rapid on-site evaluation (ROSE)

Telecytology has multiple applications, including rapid onsite evaluation (ROSE) of fine-needle aspiration (FNA) specimens. It can enhance cytopathology practice by increasing productivity, reducing costs, and providing subspecialty expertise in areas with limited access to a cytopathologist. However, there are currently no specific validation guidelines to ensure safe practice and compliance with regulations. This initiative, promoted by the American Society of Cytopathology (ASC), intends to propose recommendations for telecytology implementation. These recommendations propose that the validation process should include testing of all hardware and software, both separately and as a whole; training of all individuals who will participate in telecytology with regular competency evaluations; a structured approach using retrospective slides with defined diagnoses for validation and prospective cases for verification and quality assurance. Telecytology processes must be integrated into the laboratory's quality management system and benchmarks for discrepancy rates between preliminary and final diagnoses should be established and monitored. Special attention should be paid to minimize discrepancies that downgrade malignant cases to benign (false positive on telecytology). Currently, billing and reimbursement codes for telecytology are not yet available. Once, they are, recommendation of the appropriate usage of these codes would be a part of the recommendations. These proposed guidelines are intended to be a resource for laboratories that are considering implementing telecytology. These recommendations can help to ensure the safe and effective use of telecytology and maximize its benefits for patients.

The current practice of telecytology for rapid on-site evaluation (ROSE): Practical considerations and limitations

Advances in digital imaging technology and development of high-speed internet has brought a change in ROSE practice from the traditional in-person to remote evaluation. The rapid expansion of image-guided procedures to obtain tissues for diagnosis and ancillary testing has put a huge demand on cytopathologists' time to perform on-site adequacy assessment. The technology of transmitting digital slide images in real-time via the internet from procedure site that can be viewed remotely and provide preliminary diagnosis, has had a huge impact on the practice of ROSE. Telecytology (TC) has increased the efficiency of cytopathologists, by cutting down on travel time to procedure sites and eliminate the long wait time between procedures/needle passes. It also provides the cytopathologist with the flexibility of covering ROSE procedures occurring at several locations simultaneously. The options and design of TC systems are driven by clinical needs, availability of resources and case volume. A buy-in from stakeholders early in the process, infrastructure planning and information technology (IT) support are critical for the successful implementation of TC. Training of staff, validation study and compliance training should be performed according to established guidelines. There are different TC platforms commercially available in the market today, these include static image sharing, real-time video streaming, robotic microscopy and whole slide imaging (WSI). Additionally, low-cost TC system can be built and designed using equipment that are available off-the-shelf. The intent of this review is to highlight the current practices of TC, the pros and cons of each system are discussed.

Application and performance of artificial intelligence technology in cytopathology

Deep learning algorithms and artificial intelligence (AI) are making great progress in their capacity to evaluate and interpret image data recent advancements in computer vision and machine learning. The first use of AI in a pathology lab was in cytopathology, when a computer-assisted Pap test screening was created. Initially designed to diagnose rather than screen, there was a lot of disagreement concerning their wide use to clinical specimens. However, whole-slide imaging of both gynaecological and non-gynaecological histopathology have been the subject of recent AI work. An overview of the literature on AI in cytopathology is provided in this brief review. To be more precise, it intends to emphasize the relevance of applications of AI algorithms to gynaecological and non-gynaecologic cytology. Between January 2000 and December 2021, a search on artificial intelligence in cytopathology was conducted in several well-known databases, including PubMed, Web of Science, Scopus, Embase, and Google Scholar. Only full-text papers that could be accessed online were evaluated.

Selective deployment of dynamic telecytology for rapid evaluation of cytology smears: assessment of workflow processes and role of cytopathology fellows as on-site operators

INTRODUCTION

The deployment of telecytology (TC) requires a substantial investment of financial and human resources. To offset the high demand for rapid on-site evaluation, we performed a limited deployment of dynamic TC and have detailed the workflow processes and the role of trainees.

MATERIALS AND METHODS

TC systems were installed in radiology suites with a high volume of cases. Validation was performed using retrospective and prospective cases. Cytotechnologists and cytopathology fellows were the operators of the instrument. TC malignant and benign diagnoses were correlated with the final sign-out diagnoses.

RESULTS

Of the 120 cases, 50 (41.6%) were fine needle aspirations and 70 (58.3%) were touch imprint smears of core biopsy specimens. The cytotechnologists were the operators for 34 cases (28.3%) and cytology fellows for 86 cases (71.6%). Adequacy concordance with the final diagnosis was 100% and 98.5% in the retrospective and prospective cases, respectively. In the prospective cases, concordance of TC with the final diagnosis of malignancy was 42 of 45 (93.3%), with 2 of 45 (4.4%) discordant and a downgrade rate of 2.7%. For the benign diagnoses, the concordance was 90%. For the malignant diagnoses, the sensitivity of TC was 97.67% (95% confidence interval [CI], 87.71 to 99.94%; specificity, 81.82%; 95% CI, 48.22% to 97.72%). The positive predictive value was 95.45% (95% CI, 85.69% to 98.66%), the negative predictive value was 90.00% (95% CI, 55.98% to 98.45%), and the accuracy was 94.44% (95% CI, 84.61% to 98.84%).

CONCLUSIONS

TC can be deployed in a limited fashion as an option for cytopathologists to offset the high demand for rapid on-site evaluations. Trainee participation in TC service is important for building confidence and honing their cytology skills.

Implementation and assessment of a telecytology quality assurance program

INTRODUCTION

The College of American Pathologists mandates that telepathology services are included in laboratory quality management programs. The aim of this study was to assess a telecytology quality assurance (QA) process that we implemented in 2015.

MATERIALS AND METHODS

Each month, a cytotechnologist randomly selected 3 telecytology fine-needle aspiration (FNA) cases from each cytopathologist on the FNA service that month. Data were recorded in a monthly worksheet and included onsite telecytology adequacy, final adequacy, concordance, onsite operator, cytopathologist, and reason for discrepancy, if present. The worksheet was reviewed monthly, discordant cases were re-examined, and feedback to cytologists was provided. For this study, worksheets from October 2015 to December 2019 were retrospectively reviewed.

RESULTS

The QA program captured 488 cases, representing 25% of total cases that utilized telecytology during the evaluation period (n = 1983). The telecytology onsite assessment was concordant with the final cytologic assessment in 84% (410 of 488) of cases. The majority of discordant cases (72 of 78, 92%) were the result of an "Inadequate" onsite telecytology assessment, but a final diagnosis was able to be rendered; 92% of these cases were attributed to diagnostic material being present in cytologic preparations not available during the onsite assessment. Nine telecytology onsite interpretation errors were identified, of which 7 were provided by cytopathologists with less than 2 years of experience.

CONCLUSIONS

Most telecytology cases with onsite assessment errors were evaluated by cytopathologists with less than 2 years of practice experience; therefore, careful monitoring of new staff should be considered when developing a telecytology QA program.

Utilization of Dynamic Telecytopathology for Rapid Onsite Evaluation of Touch Imprint Cytology of Needle Core Biopsy: Diagnostic Accuracy and Pitfalls

Background: In the era of personalized medicine, there has been an increase in demand on cytopathology service to perform rapid onsite evaluation of touch imprints (ROSETIs) of needle core biopsies (NCBs) to ensure sample adequacy and provide preliminary diagnosis. Limited publications have addressed use of telecytopathology for ROSETIs. We present our experience with telecytopathology-guided ROSETIs of NCBs. Materials and Methods: Cytotechnologist onsite transmitted real-time images of Diff-QUIK stained touch imprints of NCBs using an Olympus digital camera through Ethernet to a pathologist. The preliminary diagnosis from telecytopathology-guided ROSETIs was compared with that of the final NCB for diagnostic accuracy. Sensitivity, specificity, positive predictive value (PPV), and negative predictive value (NPV) were calculated. Results: Of 186 cases, 163 (87%) were concordant and 23 (13%) were discordant. Of the 23 discordant cases, 14 (58%) were diagnosed as benign with final NCB diagnoses as malignant and 9 (41%) were suspicious on ROSETIs with final NCB diagnoses as benign. The causes of discordance among cases categorized as benign on preliminary and malignant on final included interpretative error (9) and sampling (6). Six cases categorized as suspicious on preliminary and negative on final biopsy diagnosis correlated with concurrent fine-needle aspiration, raising the possibility of loss of diagnostic areas in processed tissue cores. Remaining three cases in this category represented misinterpretation of reactive cells. Sensitivity, specificity, PPV, and NPV were 87.9%, 95.7%, 97.1%, and 82.7%, respectively. Conclusions: Telecytopathology-guided ROSETI yields high accuracy for preliminary interpretation of NCBs and may be utilized as an effective substitute for conventional microscopy.

Review of different platforms to perform rapid onsite evaluation via telecytology

There is increased utilisation of cytopathology to provide a rapid onsite evaluation (ROSE) of fine needle aspiration and touch preparations of small biopsies. A well-executed ROSE procedure can significantly impact the diagnostic quality and appropriate specimen triage of procured biopsy materials. To accommodate the demand for ROSE, telecytology has been increasingly implemented to facilitate ROSE occurring remotely. Telecytology can be categorised based on camera systems including eyepiece system, camera port system and robotic microscope/whole slide image scanner system. Image sharing methods include static images, broadcast only live video streaming, teleconferencing and whole slide image management system. In this review, we will discuss the advantages and disadvantages of each of these systems and deployment considerations.

Learning cytology in times of pandemic: an educational institutional experience with remote teaching

Introduction

As the coronavirus pandemic swept across national and state borders, institutions of higher learning, including cytology, began closing campuses and moving instruction online. We have described a method of remotely teaching cytology in our institution, including using the telecytology concept used with rapid onsite evaluation and remote conferencing and educational tools to conduct eCytology learning. This is a cost-effective method to transition a traditional in-classroom program into online teaching for cytology. It can also be implemented quickly.

Materials and methods

In March 2020, our cytology program developed a method for teaching cytology remotely. The distance-learning teaching method included the use of remote conferencing (Zoom platform) and learning management platforms (Canvas) to present lectures and administer tests. Remote multihead sessions were conducted by adapting the telecytology rapid onsite evaluation concept, which attaches a mobile device to the microscope to transmit live video to remote learners.

Results

When asked about their experience with online learning, the students had responded positively. All the students indicated a willingness to attend classes remotely in the future, even when the traditional in-classroom learning option is available.

Conclusions

We have presented a method for educating students remotely using existing technology that is affordable and can be implemented quickly by nearly all cytology education programs.

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Our experience with teaching eCytology in times of pandemic can serve as a cost-effective way to transition a traditionally in-classroom program, into an online teaching in cytology. It can also be implemented quickly.

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Remote multi-head sessions, conducted by adapting the tele-cytology ROSE concept with an attached mobile device to the microscope, is an effective approach to distance learning in times of social distancing and is a promising tool for the future cytology education.

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The students, when asked about their experiences with online learning, responded positively.

V. A, Rana MH, Gurpur P, Skandarajah A, D’Ambrosio M, Ramanjinappa RD, Mohan SP, Raghavan N, Kandasarma U, N. S, Raghavan S, Hedne N, Koch F, Fletcher DA, Selvam S, Kollegal M, N. PB, Ladic L, Suresh A, Pandya HJ, Kuriakose MA. A smart tele-cytology point-of-care platform for oral cancer screening

Early detection of oral cancer necessitates a minimally invasive, tissue-specific diagnostic tool that facilitates screening/surveillance. Brush biopsy, though minimally invasive, demands skilled cyto-pathologist expertise. In this study, we explored the clinical utility/efficacy of a tele-cytology system in combination with Artificial Neural Network (ANN) based risk-stratification model for early detection of oral potentially malignant (OPML)/malignant lesion. A portable, automated tablet-based tele-cytology platform capable of digitization of cytology slides was evaluated for its efficacy in the detection of OPML/malignant lesions (n = 82) in comparison with conventional cytology and histology. Then, an image pre-processing algorithm was established to segregate cells, ANN was trained with images (n = 11,981) and a risk-stratification model developed. The specificity, sensitivity and accuracy of platform/ stratification model were computed, and agreement was examined using Kappa statistics. The tele-cytology platform, Cellscope, showed an overall accuracy of 84–86% with no difference between tele-cytology and conventional cytology in detection of oral lesions (kappa, 0.67–0.72). However, OPML could be detected with low sensitivity (18%) in accordance with the limitations of conventional cytology. The integration of image processing and development of an ANN-based risk stratification model improved the detection sensitivity of malignant lesions (93%) and high grade OPML (73%), thereby increasing the overall accuracy by 30%. Tele-cytology integrated with the risk stratification model, a novel strategy established in this study, can be an invaluable Point-of-Care (PoC) tool for early detection/screening in oral cancer. This study hence establishes the applicability of tele-cytology for accurate, remote diagnosis and use of automated ANN-based analysis in improving its efficacy.

Dynamic Telecytopathology-Guided Rapid On-Site Assessment of Percutaneous Image-Guided Fine-Needle Aspiration of Hepatic Lesions: An Institutional Review of 178 Cases

Background: Rapid on-site evaluation (ROSE) of image-guided fine-needle aspiration (IGFNA) of hepatic lesions is necessary to ensure adequate sample collection and render preliminary diagnosis. We review our experience with utilization of telecytopathology for ROSE of IGFNA of liver lesions. Materials and Methods: Cytotechnologists at a remote site transmitted real-time images of Diff-Quik-stained cytology smears of hepatic lesions obtained using an Olympus DP70 digital camera via Ethernet to a pathologist. All live communications were conducted using the Vocera voice communication system. Preliminary telecytopathology ROSE diagnosis was compared with the final diagnosis for accuracy. Results: ROSE using telecytopathology of IGFNAs of hepatic lesion was performed on a total of 178 cases. Preliminary diagnosis of unsatisfactory, benign, suspicious for malignancy, and positive for malignancy was 2%, 28%, 15%, and 55%, respectively, for telecytopathology. The overall concordance between the preliminary and final cytology diagnoses was 94.4%. Nine of the cases were upgraded to suspicious/malignant final diagnosis contributing to an upgrade rate of 5%. One case with preliminary evaluation of positive for malignancy was downgraded to benign cytology on final diagnosis resulting in a downgrade rate of 0.1%. Conclusion: Utilization of telecytopathology is highly effective and accurate for ROSE of IGFNAs of hepatic lesions and may serve as a substitute for conventional microscopy.

Instant messenger smartphone application for endosonographer/cytopathologist real-time interaction at a distance in EUS-FNA for solid pancreatic lesions

Background and study aims  Telecytopathology (TCP) may allow proper and timely evaluation of endoscopic ultrasound-guided fine-needle aspiration (EUS-FNA) specimens. The aim of this study was to evaluate the feasibility of TC through a multiplatform instant messenger smartphone application to evaluate specimens of EUS-FNA of pancreatic solid lesions. Patients and methods  Twenty-three patients (14 male/9 female; median age: 56 yr.; age range: 33 - 86) with a solid pancreatic lesion were included. Exclusion criteria were as follows: age < 18 yr and predominantly cystic lesions. During each EUS-FNA, after each pass, the aspirated material was spread over a glass slide and was stained by the endoscopist. The glass slide was then reviewed on a microscope with a smartphone fitted in, and the most representative fields were captured and sent to the cytopathologist using WhatsApp Messenger. Results  In initial evaluation using TCP rapid on-site evaluation (ROSE), adequate cellularity of the glass slide was detected in 16 of 23 patients (69.6 %). An initial diagnosis of malignancy (positive or suspicious) was possible in 14 of 23 patients (60.8 %). Conclusion  The current study demonstrated the feasibility of a low-cost, Internet-based, telecytopathology system using WhatsApp Messenger to provide ROSE of EUS-FNA slides in patients with solid pancreatic lesions.

Rapid on-site evaluation using telecytology: A major cancer center experience

BACKGROUND

Rapid on-site evaluation (ROSE) with cytology preparations plays a critical role in minimally invasive procedures. The time spent by a pathologist performing ROSE is unpredictable and could be used for more cost-effective activities. The solution encountered by several institutions to address this issue is the use of telecytology (TC). This study analyzes the experience of using telecytology for ROSE in a major cancer center over a period of over 2 years.

METHODS

A retrospective analysis of all remote TC evaluations for adequacy on fine needle aspiration (FNA) and touch preparations (TP) of core biopsies (CB) performed at a major cancer center was performed. The preliminary adequacy assessment was then compared to the adequacy assessment at final diagnosis.

RESULTS

A total of 12 949 adequacy assessments were analyzed. The most common sites biopsied in our institution were lymph node, lung, and liver. There were 7725 adequacy assessments for CB (59.7%), while adequacy assessment for FNA specimens represented 40.3% (n = 5224) of the total number of specimens evaluated by ROSE. Perfect concordance between initial adequacy assessment and the adequacy assessment at final cytologic diagnosis was 93% (12 049/12 949). The final diagnosis adequacy upgrade rate was 6.7% (n = 863), and the adequacy downgrade (a specimen considered adequate on-site that was determined to be nondiagnostic on final examination) was 0.3% (n = 37).

CONCLUSIONS

TC can be easily implemented with the current technologies available. It is cost-effective and allows for better patient care with a more efficient use of the pathologist's time and laboratory resources.

International telecytology: Current applications and future potential

International telecytology can improve patient care by increasing access to regional and international expertise in cytopathology. The majority of international telecytology studies published to date have been based on static telepathology platforms. Overall concordance rates for these studies ranged from 71% to 93%. This is comparable to the concordance rates published for other studies comparing diagnoses made by digital still images to reference glass slides, which vary from 80% to 95%. Static telepathology systems are relatively cheap and easy to use, and have the potential to increase access to international experts in developing countries with limited resources. In contrast, resource-rich academic and private medical centers can use whole slide digital imaging (WSI) for telecytology consultation, though few studies have been published addressing this topic. International telepathology consultation services with digital whole slide image capabilities have been established at several academic medical centers including the University of Pittsburgh Medical Center (UPMC) and the University of California at Los Angeles (UCLA), through the UCLA Center for Telepathology and Digital Pathology. In a small series of 20 telecytology cases submitted to UCLA from 2014 to 2017 (10 gynecologic and 10 fine needle aspiration cases), a meaningful diagnosis was rendered for 100% of cases, with 100% concordance between the submitting institution, versus consultation diagnosis provided by UCLA. These limited results are promising, and in the future both WSI and static telecytology consultation may have a place serving clinical needs in different practice settings.

Pathological and Molecular Aspects to Improve Endoscopic Ultrasonography-Guided Fine-Needle Aspiration From Solid Pancreatic Lesions

Endoscopic ultrasonography-guided fine-needle aspiration (EUS-FNA) has been applied to pancreatic lesions since the 1990s, and its use is now widespread. Improvements in endoscopic devices and sampling techniques have resulted in excellent diagnostic ability for solid pancreatic lesions. However, clinical improvements alone are not responsible for it; pathological aspects have also played important roles. Rapid on-site evaluation minimizes endoscopic procedures, although its value at improving the diagnostic ratio is still debated. Diagnostic efficacy differs by sample preparations (direct smear, cytospin, liquid-based cytology, cell block, and biopsy) and by staining methods (Papanicoloau, Diff-Quik, hematoxylin-eosin, and Giemsa). Several immunocytochemistry protocols aid in diagnosing epithelial components with cytological atypia and in differentiating various tumor types. One cytopathology diagnostic system is telecytology, which uses transmitted digital images and enables real-time diagnosis of EUS-FNA samples by expert cytologists at remote locations. However, EUS-FNA samples are useful for more than just diagnoses, as molecular analysis of these samples allows the identification of prognostic markers, such as genetic alterations in K-ras and EGFR. Expression of drug-metabolizing enzymes, human equilibrative nucleoside transporter 1, correlates with the response to gemcitabine-based chemotherapy. These pathology efforts have enhanced the diagnostic efficacy of EUS-FNA, thereby leading to better outcomes for patients with pancreatic diseases.

Efficacy of telecytopathology for preliminary assessment of fine-needle aspirations performed at a remote facility

INTRODUCTION

The need for real time anatomic pathology services has grown as healthcare systems, traditionally found at large medical centers, expand into smaller communities. The placement of a pathologist is not cost-, time-, or resource-efficient. Telecytopathology can provide rapid offsite evaluation of cytology tissues. This study evaluated the accuracy rate of rendered preliminary assessments for telecytopathology of ultrasound (US)-guided fine-needle aspirations (FNAs) for an offsite facility by comparing preliminary assessment results with the final diagnosis.

MATERIALS AND METHODS

The pathology database was searched for telecytopathology US-guided FNAs with rapid offsite evaluation performed at a regional care center from August 2014 to June 2016. A total of 674 consecutive US-guided FNAs from 444 patients were obtained. FNA sites included lymph node (345 cases), breast (178 cases), thyroid gland (71 cases), and others (80 cases).

RESULTS

Preliminary assessments of the 674 FNAs were adequate/benign in 275 (41%) cases, adequate/malignant in 182 (27%) cases, adequate/further review needed in 162 (24%) cases, indeterminate/borderline cellularity in 37 (5%) cases, and nondiagnostic in 18 (3%) cases. Final FNA diagnoses rendered included 391 (58%) negative for malignancy, 205 (30%) malignant, 34 (5%) atypical/suspicious for malignancy, 26 (4%) indeterminate cellularity-favor benign, and 18 (3%) nondiagnostic specimens. Concurrent core biopsy was performed in 42 cases and 83 cases were triaged for ancillary studies. The majority (99%) of US-guided FNAs demonstrated concordant preliminary assessments with the final diagnoses. A major discrepancy occurred in 1 case; 5 cases had minor discrepancies.

CONCLUSIONS

Remote facility telecytopathology can be utilized as an accurate modality in guiding appropriate tissue acquisition and final diagnosis.

Digital Applications in Cytopathology: Problems, Rationalizations, and Alternative Approaches

OBJECTIVE

The aim of this work was to raise awareness of problems using digital applications for examining, teaching, and applying telecytology at King Abdulaziz Medical City (KAMC), Riyadh, Saudi Arabia; University of Nebraska Medical Center (UNMC), Omaha, NE, USA; and University of Pittsburgh Medical Center (UPMC), Pittsburgh, PA, USA. The objective was to rationalize problems and propose alternative digital approaches.

STUDY DESIGN

We sought to identify solutions to improve the following: (a) interpretive examination scores at KAMC for complex cytological templates (i.e., high-grade squamous intraepithelial lesions [HSIL]) when using static digital images (SDI) of cells in regions of interest (ROI); (b) visualization of cells in 3D clusters when teaching at UNMC using 2D and 3D whole-slide imaging (WSI); and (c) visualization of cells through streaming telecytology at UPMC.

RESULTS

Composite SDI (CSDI) improved test scores for complex interpretations (i.e., HSIL) by converging diagnostic criteria from multiple ROI. Multiplane focusing through z-stacked WSI facilitated the teaching of cytological entities characterized by 3D cell clusters and consultative telecytology through robotic cell analysis.

CONCLUSIONS

Adequately visualized cytomorphology and multiplane focusing are essential for virtual cytopathology examinations, teaching, or consultative telecytology. Visualization of diagnostic criteria through 2D or 3D imaging is critical. Panoptiq panoramic WSI with integrated z-stacked video clips enables optimal applied telecytology.

Successful Secure High-definition Streaming Telecytology for Remote Cytologic Evaluation

BACKGROUND

The use of minimally invasive procedures to obtain material for diagnostic purposes has become more prevalent in recent years. As such, there is increased demand for immediate cytologic adequacy assessment of minimally invasive procedures. The array of different locations in which rapid on-site evaluation (ROSE) is expected requires an ever-increasing number of cytology personnel to provide support for adequacy assessment. In our study, we describe the implementation process of a telecytology (TC) system in a high case volume setting and evaluate the performance of this activity.

METHODS

We performed retrospectively an analysis of all consecutive remote TC ROSE evaluations obtained for 15 months. The specimens were evaluated using a TC system. The ROSE adequacy assessment obtained at the time of the procedure was compared to the final cytopathologist-rendered adequacy assessment when all the material was available for review, including the alcohol-fixed preparations.

RESULTS

A total of 8106 distinct cases were analyzed. TC-assisted preliminary adequacy assessment was highly concordant with the final cytopathologist-rendered adequacy assessment. Perfect concordance or accuracy was at 93.1% (7547/8106). The adequacy upgrade rate (inadequate specimen became adequate) was 6.8% (551/8106), and the initial adequacy downgrade (adequate specimen became inadequate) was <0.1% (8/8106).

CONCLUSIONS

The TC outcome demonstrates high concordance between the initial adequacy assessment and final cytopathologist-rendered adequacy assessment. Adequacy upgrades were minor but, more importantly, our results demonstrate a minimal adequacy downgrade. The process implemented effectively eliminated the need for an attending pathologist to be physically present onsite during a biopsy procedure.

Robotic Telecytology for Remote Cytologic Evaluation without an On-site Cytotechnologist or Cytopathologist: An Active Quality Assessment and Experience of Over 400 Cases

BACKGROUND

The first satellite center to offer interventional radiology procedures at Memorial Sloan Kettering Cancer Center opened in October 2014. Two of the procedures offered, fine needle aspirations and core biopsies, required a rapid on-site cytologic evaluation of smears and biopsy touch imprints for cellular content and adequacy. The volume and frequency of such evaluations did not justify hiring on-site cytotechnologists, and therefore, a dynamic robotic telecytology (TC) solution was created. In this article, we provide data on our experience with this active implementation. Sakura VisionTek was selected as our robotic TC solution.

METHODS

A retrospective analysis of all TC evaluations from this satellite site was performed. Information was collected on demographics, lesion location, imaging modality; a comparison of TC-assisted adequacy with final adequacy was also conducted.

RESULTS

An analysis of 439 cases was performed over a period of 23 months with perfect correlation in 92.7% (407/439) of the cases. An adequacy upgrade (inadequate specimen becomes adequate) in 6.6% (29/439) of the cases. An adequacy downgrade (adequate specimen becomes inadequate), is near zero at 0.7% (3/439) of the cases.

CONCLUSIONS

Dynamic robotic TC is effective for immediate evaluations performed without on-site cytotechnology staff. The overall intent of this article is to present data and concordance rates as outcome metrics. Thus far, such outcome metrics have exceeded our expectations. Our TC implementation shows high, perfect concordance. Adequacy upgrades are minor but more relevant and impressive is a near zero adequacy downgrade. Our full implementation has been so successful that plans are in place for configurations at future satellite sites.

The Empirical Foundations of Telepathology: Evidence of Feasibility and Intermediate Effects

INTRODUCTION

Telepathology evolved from video microscopy (i.e., "television microscopy") research in the early 1950s to video microscopy used in basic research in the biological sciences to a basic diagnostic tool in telemedicine clinical applications. Its genesis can be traced to pioneering feasibility studies regarding the importance of color and other image-based parameters for rendering diagnoses and a series of studies assessing concordance of virtual slide and light microscopy diagnoses. This article documents the empirical foundations of telepathology.

METHODS

A selective review of the research literature during the past decade (2005-2016) was conducted using robust research design and adequate sample size as criteria for inclusion.

CONCLUSIONS

The evidence regarding feasibility/acceptance of telepathology and related information technology applications has been well documented for several decades. The majority of evidentiary studies focused on intermediate outcomes, as indicated by comparability between telepathology and conventional light microscopy. A consistent trend of concordance between the two modalities was observed in terms of diagnostic accuracy and reliability. Additional benefits include use of telepathology and whole slide imaging for teaching, research, and outreach to resource-limited countries. Challenges still exist, however, in terms of use of telepathology as an effective diagnostic modality in clinical practice.

Digital cytopathology

The advancements in the fields of technology and networking have revolutionized the world including the fields of medicine and dentistry. Telemedicine and its various branches provide a broad platform to medical professionals for consultations and investigations and can also act as a valuable educational aid. This review highlights the components, methods employed, clinical applications, advantages, disadvantages of telepathology and telecytology.

Online education in cytotechnology programs: a pilot study

INTRODUCTION

The University of Nebraska Medical Center's cytotechnology program has received requests for an on-line program. The purpose of this study is to demonstrate that on-line education with virtual microscopy (VM) achieves similar screening and interpretation skills as traditional teaching methods using light microscopy (LM).

MATERIALS AND METHODS

The pilot phase was conducted using the first two courses in the program. The students were divided into two groups; traditional and virtual. The virtual group replaced LM with VM, while the traditional group utilized traditional teaching methods. At the end of the two courses, the virtual group was shown how to use LM and was given glass slide examinations.

RESULTS

The mean of the female genital tract (FGT) screening quizzes and exams of the traditional group was 92.5; the mean for the virtual group was 86.8. For the respiratory tract (RT) course, the traditional group had a mean of 96 for their screening exams while the virtual group's was 85.3. The glass slide examinations (FGT Mean = 98, RT Mean = 95.3) given to the virtual group at the end of the pilot study demonstrated their ability to apply screening and interpretation skill learned from VM to LM.

CONCLUSION

The study concludes that screening and interpretation skills of the traditional and virtual groups were similar. It appears possible to train students using VM as the sole method of teaching. The study will be extended to another cohort of students using the entire curriculum to further demonstrate the soundness of these results.

Utilization review and reimbursement of cytology services in endobronchial ultrasound-guided procedures: challenge and opportunity

INTRODUCTION

The roles of pathologists and cytotechnologists (CTs) continually evolve to optimize patient care, particularly with regard to rapid on-site evaluation (ROSE). Having ROSE performed helps ensure sufficient material is obtained for diagnosis and permits appropriate specimen triage for ancillary studies. At our institution, both on-site and telecytology evaluations are increasingly utilized, particularly in endobronchial ultrasound-guided procedures (EBUS). Consequently, time demands placed on the pathologist and CT staff has significantly increased, creating workload management challenges.

MATERIAL AND METHODS

A consecutive number of ROSE procedures were documented for a 3-month time period at our institution. Case type and time spent for travel, adequacy assessment, processing, screening, and sign-out was recorded in order to assess time demands placed on staff by different procedures.

RESULTS

Average travel/processing time by CTs was variable among ROSE procedures (72.9 minutes), as was adequacy assessment time by pathologists (16.9 minutes). EBUS posed the greatest time challenges with the longest CT travel/processing time as EBUS took almost 40% longer and adequacy assessment took the pathologist 3-4 times longer when compared with other procedures because of the targeting of multiple sites during EBUS with associated procedural delays. Using telecytology, average pathologist adequacy assessment time was reduced from 44.8 minutes to 24.6 minutes for EBUS. The provision of ROSE for EBUS is more challenging from a workload management perspective than for other procedures.

CONCLUSIONS

ROSE reimbursement is low, and no greater for EBUS than for other procedures. Use of telecytology can save time for pathologists and make the service more cost-effective if the number of procedures is sufficient to justify investment in the technology.

Utilization of virtual microscopy in cytotechnology educational programs in the United States

Background:

Our cytotechnology (CT) program has been utilizing virtual microscopy (VM) as an adjunct educational resource since 2011.

Aims:

The aim of this study was to identify the utilization of VM in other CT programs across the United States (US).

Subjects and Methods:

A cover letter was sent to the program directors of all accredited CT programs in the US (excluding our program), requesting their participation in an online survey. After 2 days, the participants were sent an online link to the survey. The survey results were analyzed using descriptive statistics.

Results:

There were a total of 25 respondents to the survey. Among the 25, three CT programs use VM. Two of the three programs have been using VM for <2 years while another program for “2–4” years. The respondents found that VM's side-by-side comparison feature helped to demonstrate differences between diagnoses and preparation methods, and VM helped to preserve the important slides by digitizing them. Respondents believed that teaching with glass slides was very important. The reasons for not using VM were that VM is expensive and time-consuming to incorporate into the program, and lack of manpower resources to create digitized teaching files.

Conclusions:

The CT programs that use VM found it to be a valuable educational tool. Even though many were not using VM, responses from the survey indicated they will likely use it in the future.

Current practice patterns in nongynecologic and fine-needle aspiration cytology

INTRODUCTION

The American Society of Cytopathology Clinical Practice Committee in collaboration with the American Society of Cytotechnology surveyed cytology practitioners to better understand current practices related to nongynecologic (NGYN) cytology. While work practices in gynecologic (GYN) cytology are highly regulated with limited variation among specimens and processing techniques, practice patterns for NGYN cytology are less standardized among laboratories.

MATERIALS AND METHODS

An NGYN cytology survey was created that consisted of 40 questions focusing on 6 main topic areas: (1) practice settings and demographic data; (2) NGYN non-fine-needle aspiration cytology; (3) fine-needle aspiration (FNA) cytology; (4) rapid on-site evaluation practices; (5) workload recording practices; and (6) expanding roles of the cytotechnologist (CT). The survey was sent to all American Society of Cytopathology and American Society of Cytotechnology members and remained available for 40 days.

RESULTS

There were 368 survey participants (14% response rate) with nearly equal participation among CTs, cytology general managers and/or supervisors, and pathologists representing a variety of practice types. Most laboratories (87%) are providing a rapid on-site evaluation service for FNA specimens. The role of CTs is expanding with the majority of respondents stating that CTs assist with both clinician-performed and pathologist-performed FNA acquisition (77% and 50%, respectively), telecytology (16%), and screening of ancillary studies, including special stains (64%), immunohistochemistry (23%), and fluorescence in situ hybridization (16%).

CONCLUSIONS

Knowledge of NGYN cytology practice patterns among laboratories may contribute information to better define the future of cytotechnology, support reimbursement initiatives, and enhance quality and efficiencies in the cytology laboratory.

Rapid on-site evaluation with dynamic telecytopathology for ultrasound-guided fine-needle aspiration of head and neck nonthyroid lesions

BACKGROUND

Rapid on-site evaluation (ROSE) at the time of ultrasound-guided fine-needle aspiration (USGFNA) of head and neck lesion is essential for obtaining adequate samples and providing the preliminary diagnosis. We summarize our experience with ROSE of USGFNA on head and neck nonthyroid lesions using telecytopathology.

MATERIALS AND METHODS

Real-time images of Diff-Quik stained cytology smears were obtained at ultrasound suite with an Olympus DP-70 digital camera attached to an Olympus CX41 microscope, and transmitted via ethernet by a cytotechnologist to a cytopathologist in cytopathology laboratory who rendered a preliminary diagnosis. Live communication was conducted with Vocera voice communication system. The ultrasound suite was located on different floor from the cytopathology laboratory. Accuracy of ROSE via telecytopathology was compared with an equal number of cases that received ROSE, prior to introduction of telecytopathology, via conventional microscopy.

RESULTS

Rapid on-site evaluation was performed on a total of 116 USGFNA of head and neck nonthyroid lesions. The telecytopathology system and conventional microscopy was used to evaluate equal number of cases (58 each). Preliminary diagnoses of benign, atypical/suspicious for malignancy, and positive for malignancy were 72.4%, 17.2% and 10.3% for telecytopathology, and 69.0%, 10.3% and 20.7% for conventional microscopy. None of the cases were deemed unsatisfactory. The overall concordance between the preliminary and final diagnoses was 94.8% for telecytopathology and 98.3% for conventional microscopy and was not statistically significant (P = 0.309). The causes of discordant preliminary and final diagnoses were mainly attributed to availability of cell block and Papanicolaou-stained slides for review or flow cytometry results for lymphoma cases at the time of final sign out.

CONCLUSIONS

Telecytopathology is comparable with conventional microscopy in ROSE of USGFNA of head and neck nonthyroid lesions.

Validation of a novel robotic telepathology platform for neuropathology intraoperative touch preparations

Background:

Robotic telepathology (RT) allows a remote pathologist to control and view a glass slide over the internet. This technology has been demonstrated to be effective on several platforms, but we present the first report on the validation of RT using the iScan Coreo Au whole slide imaging scanner.

Methods:

One intraoperative touch preparation slide from each of 100 cases were examined twice (200 total cases) using glass slides and RT, with a 3 week washout period between viewings, on two different scanners at two remote sites. This included 75 consecutive neuropathology cases and 25 consecutive general surgical pathology cases. Interpretations were compared using intraobserver variability.

Results:

Of the 200 total cases, one failed on RT. There were 47 total interpretive variances. Most of these were the result of less specific interpretations or an inability to identify scant diagnostic material on RT. Nine interpretive variances had potentially significant clinical implications (4.5%). Using the final diagnosis as a basis for comparison to evaluate these nine cases, three RT interpretations and three glass slide interpretations were considered to be discrepant. In the other three cases, both modalities were discrepant. This distribution of discrepancies indicates that underlying case difficulty, not the RT technology, probably accounts for these major variances. For the subset of 68 neoplastic neuropathology cases, the unweighted kappa of agreement between glass slides and RT was 0.68 (good agreement). RT took 225 s on average versus only 71 s per glass slide.

Conclusions:

This validation demonstrates that RT using the iScan Coreo Au system is a reasonable method for supplying remote neuropathology expertise for the intraoperative interpretation of touch preparations, but is limited by the slowness of the robotics, crude focusing, and the challenge of determining where to examine the slide using small thumbnail images.

Telecytology for EBUS-FNA immediate adequacy assessment: implementation experience at a large academic medical center

INTRODUCTION

Performing immediate assessment (IA) has become the standard of care for endobronchial ultrasound-guided fine-needle aspiration (EBUS-FNA) specimens. Despite the benefits of aiding interventional pulmonologists to achieve higher adequacy rates and fewer unnecessary passes, the time required by attending cytopathologists to be present for on-site assessments is significant and affects other clinical responsibilities. Telepathology, as implemented here, consists of a cytotechnologist-driven or trainee-driven microscope attached to a Nikon DS-Fi1 Camera and DS-L2 controller that displays dynamic microscopic images in real time on the attending pathologist's office computer.

MATERIALS AND METHODS

Preliminary assessment results, final diagnoses, and corresponding surgical pathology diagnoses, when available, were compared between consecutive EBUS-FNA specimens acquired before and after implementation of telepathology-assisted IA. Cases were divided into 3 categories: satisfactory for evaluation, indeterminate for evaluation, and unsatisfactory for evaluation.

RESULTS

During the first half of 2012, immediate assessments for adequacy were performed in person by attending pathologists for all cases in the EBUS-FNA suite. There were 209 adequacy assessments performed without the use of telepathology and 289 with telepathology. There were no differences in the relative distribution of satisfactory, indeterminate, and unsatisfactory for evaluation cases, the percentages of diagnostic samples relative to the adequacy category or in the histologic concordance between pretelepathology and post-telepathology cases.

CONCLUSIONS

Telepathology-assisted IA of EBUS-FNA allowed for the same diagnostic accuracy as traditional on-site IA and is saves time for pathologists.

Focus on technology: How important is resolution in telecytopathology?

BACKGROUND

The authors conducted an analysis of 2 telepathology systems with different resolutions to determine how resolution affects the pathologists' ability to provide preliminary diagnoses for fine-needle aspirations (FNA).

METHODS

FNA cases evaluated by telepathology between February 1, 2011 and January 18, 2012 were reviewed. Concordance indices between preliminary and final diagnoses were calculated for cases assessed with two proprietary systems (the Remote Meeting Technologies iMedHD system and the Olympus NetCam system) using 3 diagnostic classifications (negative, atypical, and suspicious/positive). A Wilcoxon rank-sum test was used to compare the number of passes necessary to determine adequacy.

RESULTS

In total, 298 NetCam cases and 26 iMedHD cases were evaluated. The concordance index, which was calculated using the 3 classifications, was 0.943 (95% confidence interval, 0.922-0.963) for NetCam compared with 0.951 (95% confidence interval, 0.898-1.000) for iMedHD. The mean value for the number of passes required to determine adequacy was 2.2 for NetCam and 2.1 for iMedHD (P = .838).

CONCLUSIONS

The results from statistical analyses demonstrated no difference in the concordance indices between preliminary and final diagnoses or in the number of passes necessary to render adequacy between the 2 telepathology systems. However, because it had higher resolution along with other features, the iMedHD system achieved greater user satisfaction.

Feasibility of dynamic telecytopathology for rapid on-site evaluation of endobronchial ultrasound-guided transbronchial fine needle aspiration

OBJECTIVE

Rapid on-site evaluation (ROSE) at the time of endobronchial ultrasound-guided transbronchial fine needle aspiration (EBUS-TBFNA) is useful in obtaining adequate samples and providing preliminary diagnosis. We present our experience with ROSE of EBUS-TBFNA using telecytopathology.

MATERIALS AND METHODS

Real-time images of Diff-Quik (Mercedes Medical, Sarasota, FL)-stained cytology smears were obtained with an Olympus (Olympus America, Center Valley, PA) digital camera attached to an Olympus CX41 microscope and transmitted via ethernet by a cytotechnologist to a cytopathologist in a cytopathology laboratory who rendered a preliminary diagnosis while communicating with an on-site cytotechnologist via the Vocera (San Jose, CA) voice communication system. The endoscopy suite was located a block away from the cytopathology laboratory. Accuracy of ROSE via telecytopathology was compared with an equal number of cases that received ROSE, prior to introduction of telecytopathology, via conventional microscopy.

RESULTS

ROSE was performed on a total of 200 EBUS-TBFNAs. The telecytopathology system and conventional microscopy were used to evaluate equal numbers of cases (100 each). Preliminary diagnoses of negative/benign, atypical/suspicious, and positive for malignancy were 58%, 14%, and 24% for telecytopathology and 57%, 10%, and 31% for conventional microscopy. Four percent of telecytopathology cases and 2% of conventional microscopy cases were deemed unsatisfactory at the time of ROSE. The overall concordance between the preliminary and final diagnoses was 96% for telecytopathology and 93% for conventional microscopy. The causes of discordant preliminary and final diagnoses could be mainly attributed to difficulty in distinguishing small cell carcinoma versus reactive lymph node due to crush artifact, atypia related to reactive bronchial epithelial cells, and availability of cell block material and Papanicolaou-stained slides for review at the time of final cytologic sign out.

CONCLUSIONS

Telecytopathology is comparable with conventional microscopy in ROSE of EBUS-TBFNA. It can serve as a valid substitute for conventional microscopy for on-site assessment of EBUS-TBFNA.

Telecytological diagnosis of space-occupying lesions of the liver

OBJECTIVE

In this study, the efficiency of telemedical consulting with regard to fine needle aspirates from space-occupying lesions (SOLs) of the liver is investigated for the first time.

STUDY DESIGN

The study includes fine needle aspirations from 62 patients, 33 with hepatocellular carcinoma (HCC) and 29 with non-hepatic tumors. Using the Internet-based iPath system, the initial pathologist submitted 1-8 images from smears and cell block sections. One consultant assessed the cytological and another one the histological images. Both made their diagnoses independent of each other. A final diagnosis was made by immunochemistry of cell block sections. The cytological images were analyzed retrospectively for the occurrence of the most typical HCC indicators. The number of these indicators was related to the initial diagnoses of the three pathologists, and possible reasons for diagnostic errors were analyzed based on this analysis.

RESULTS

The accuracy of the preliminary telemedical diagnoses regarding HCC was 82.0% for the cytological images and 87.7% for the histological images. Most of the false diagnoses occurred in tumors with unusual cytological and histological patterns.

CONCLUSIONS

Telemedical consulting is a valuable tool to obtain a second opinion. However, for improvement of the diagnosis of HCC, supplementary immunochemical tests are necessary.

Making cytological diagnoses on digital images using the iPath network

BACKGROUND

The iPath telemedicine platform Basel is mainly used for histological and cytological consultations, but also serves as a valuable learning tool.

AIM

To study the level of accuracy in making diagnoses based on still images achieved by experienced cytopathologists, to identify limiting factors, and to provide a cytological image series as a learning set.

METHOD

Images from 167 consecutive cytological specimens of different origin were uploaded on the iPath platform and evaluated by four cytopathologists. Only wet-fixed and well-stained specimens were used. The consultants made specific diagnoses and categorized each as benign, suspicious or malignant.

RESULTS

For all consultants, specificity and sensitivity regarding categorized diagnoses were 83-92 and 85-93%, respectively; the overall accuracy was 88-90%. The interobserver agreement was substantial (κ = 0.791). The lowest rate of concordance was achieved in urine and bladder washings and in the identification of benign lesions.

CONCLUSION

Using a digital image set for diagnostic purposes implies that even under optimal conditions the accuracy rate will not exceed to 80-90%, mainly because of lacking supportive immunocytochemical or molecular tests. This limitation does not disqualify digital images for teleconsulting or as a learning aid. The series of images used for the study are open to the public at http://pathorama.wordpress.com/extragenital-cytology-2013/.

Diagnostic benefits and cost-effectiveness of on-site imprint cytology adequacy evaluation of core needle biopsies of bone lesions

BACKGROUND

Core needle biopsy (CNB) is a well-established, successful technique for the diagnosis of various organ system lesions. To increase diagnostic yield, on-site cytologic evaluation of adequacy (OCA) is routinely performed at many institutions. Numerous studies evaluating the impact of OCA on CNB have been published. However, little has been said regarding accuracy of OCA for bone lesions.

METHODS

To evaluate this, we reviewed our experience during a two-year period, and compared OCA results with the final diagnosis of the corresponding CNB. For the study, diagnoses were divided into three categories: malignant, benign, and nonspecific/nondiagnostic findings.

RESULTS

Sixty-one cases were included. During OCA, 25 cases were diagnosed as malignant, three cases as benign, and 33 as nonspecific/nondiagnostic. On histologic evaluation, 29 cases were malignant, 16 were benign, and 16 were classified as nonspecific/nondiagnostic. Concordance with final CNB diagnosis was seen in 100% of malignant, 67% of benign, and 45% of nonspecific/nondiagnostic on-site cytology evaluations. The overall diagnostic success rate of OCA for malignancy was 86% (25/29). The success rate of OCA for benign lesions was only 13%. Fifty-four percent of cases were diagnosed as nonspecific/nondiagnostic on-site. This category included four false negative cases.

CONCLUSIONS

We conclude that for lesions with a suspicion of malignancy, OCA is a valuable adjuvant diagnostic tool. However, for cases with a benign or nonspecific clinical impression, OCA has a limited diagnostic role. Careful selection of cases in which OCA is beneficial is necessary to maintain accuracy and to limit procedure costs.

Feasibility of telecytopathology for rapid preliminary diagnosis of ultrasound-guided fine needle aspiration of axillary lymph nodes in a remote breast care center

Background:

In the recent years, the advances in digital methods in pathology have resulted in the use of telecytology in the immediate assessment of fine needle aspiration (FNA) specimens. However, there is a need for organ-based and body site-specific studies on the use of telecytology for the immediate assessment of FNA to evaluate its pitfalls and limitations. We present our experience with the use of telecytology for on-site evaluation of ultrasound-guided FNA (USG-FNA) of axillary lymph nodes in a remote breast care center.

Materials and Methods:

Real-time images of Diff-Quik-stained cytology smears were obtained with an Olympus digital camera attached to an Olympus CX41 microscope and transmitted via ethernet by a cytotechnologist to a pathologist who rendered preliminary diagnosis while communicating with the on-site cytotechnologist over the Vocera system. The accuracy of the preliminary diagnosis was compared with the final diagnosis, retrospectively.

Results:

A total of 39 female patients (mean age: 50.5 years) seen at the breast care center underwent USG-FNA of 44 axillary nodes. Preliminary diagnoses of benign, suspicious/malignant, and unsatisfactory were 41, 52, and 7%, respectively. Only one of the 23 cases that were initially interpreted as benign was reclassified as suspicious on final cytologic diagnosis. Seventeen of 18 suspicious/malignant cases on initial cytology corresponded with a malignant diagnosis on final cytology. One suspicious case was reclassified as benign on final cytologic diagnosis. All unsatisfactory cases remained inadequate for final cytologic interpretation. The presence of additional material in the cell block and interpretative error were the main reasons for discrepancy, accounting for the two discrepant cases.

Conclusions:

This retrospective study demonstrates that the on-site telecytology evaluation of USG-FNA of axillary lymph nodes in patients at a remote breast care center was highly accurate compared with the final cytologic evaluation. It allows pathologists to use their time more efficiently and makes on-site evaluation at a remote site possible.

Virtual microscopy in cytotechnology education: Application of knowledge from virtual to glass

Background:

Virtual microscopy (VM) is a technology in which the glass slides are converted into digital images. The main objective of this study is to determine if cellular morphology, learned through virtual microscopy, can be applied to glass slide screening.

Materials and Methods:

A total of 142 glass slides (61 teaching and 81 practice) of breast, thyroid, and lymph node fine needle aspiration body sites were scanned with a single focal plane (at 40X) using iScanCoreo Au (Ventana, Tuscan, AZ, USA, formerly known as BioImagene, California, USA). Six students including one distant student used these digital images to learn cellular morphology and conduct daily screening. Subsequently, all the students were tested on 10 glass slides using light microscopy (LM). At the end of the study, the students were asked to respond to an online survey on their virtual microscopy experience. The glass slide screening test scores of the participating students who were taught through VM and tested on glass slides (VMLM group) were compared with the last three classes of students who were taught through LM and tested on glass slides (LMLM group).

Results:

A non-parametric statistical analysis indicated no difference (P = 0.20) in the glass screening test scores between VMLM (median = 93.5) and LMLM groups (median = 87). The survey indicated that the annotated teaching slides and access to the VM, off campus, were well appreciated by the students.

Conclusions:

Although the students preferred LM, they were able to apply the cytological criteria learned through VM to glass slide screening. Overall, VM was considered a great teaching tool.

Telecytology: Clinical applications, current challenges, and future benefits

Telecytology is the interpretation of cytology material at a distance using digital images. For more than a decade, pioneering efforts to introduce telecytology into clinical practice have been reported. A Medline search for "telecytology" and "cytology" reveals a voluminous literature, though much of what has been published to date is based on technologies that are rapidly becoming obsolete. The technological limitations of previous techniques, including the transmission of static digital images and dynamic streaming images, have limited telecytology to minor niches. The primary problem with these technologies is that the remote viewer can only see a small fraction of the material on the original slides, introducing the possibility of diagnostic error based not only on image quality but also on image selection. Remote robotic microscopy offers one possible solution to this problem, but to date has found limited acceptance, principally attributable to slow operating times. Whole slide imaging seems to be a much more promising solution, though cytology-specific literature regarding its use is still scant. The advent of whole slide imaging opens up new possibilities for telecytology by enabling high-quality images of entire cytology specimens to be available to anyone, anywhere via the Internet. Although challenges remain, especially with regard to capturing the full microscopy experience including multiple planes of focus and sharp high-powered images, rapidly advancing technology promises to overcome these limitations. Increasing application of whole slide imaging technology in surgical pathology will undoubtedly also increase its application to cytology due to the increasing affordability and practicality of the equipment as it serves a larger number of useful roles within a pathology department. The current and expanding applications of telecytology for clinical practice, education, quality assurance, and testing will be reviewed.