Use of digital strategies in the diagnosis of oral squamous cell carcinoma: a scoping review.

Telediagnosis uses information and communication technologies to support diagnosis, shortening geographical distances. It helps make decisions about various oral lesions. The objective of this scoping review was to map the existing literature on digital strategies to assist in the diagnosis of oral squamous cell carcinoma. this review was structured based on the 5-stage methodology proposed by Arksey and O'Malley, the Joanna Briggs Institute Manual for Evidence Synthesis and followed the Preferred Reporting Items for Systematic Reviews and Meta-Analyses extension for scoping reviews. The methods were registered on the Open Science Framework. The research question was: What digital strategies have been used to assist in the diagnosis of oral squamous cell carcinoma? The search was conducted on PubMed/MEDLINE, Scopus, Web of Science, Embase, and ScienceDirect. Inclusion criteria comprised studies on telediagnosis, teleconsultation or teleconsultation mediated by a professional and studies in English, without date restrictions. The search conducted in June 2023 yielded 1,798 articles, from which 16 studies were included. Telediagnosis was reported in nine studies, involving data screening through applications, clinical images from digital cameras, mobile phones or artificial intelligence. Histopathological images were reported in four studies. Both, telediagnosis and teleconsultation, were mentioned in seven studies, utilizing images and information submission services to platforms, WhatsApp or applications. One study presented teleconsultations involving slides and another study introduced teleconsultation mediated by a professional. Digital strategies telediagnosis and teleconsultations enable the histopathological diagnosis of oral cancer through clinical or histopathological images. The higher the observed diagnostic agreement, the better the performance of the strategy.

Crossing the Andes: Challenges and opportunities for digital pathology in Latin America.

The most widely accepted and used type of digital pathology (DP) is whole-slide imaging (WSI). The USFDA granted two WSI system approvals for primary diagnosis, the first in 2017. In Latin America, DP has the potential to reshape healthcare by enhancing diagnostic capabilities through artificial intelligence (AI) and standardizing pathology reports. Yet, we must tackle regulatory hurdles, training, resource availability, and unique challenges to the region. Collectively addressing these hurdles can enable the region to harness DP's advantages-enhancing disease diagnosis, medical research, and healthcare accessibility for its population. Americas Health Foundation assembled a panel of Latin American pathologists who are experts in DP to assess the hurdles to implementing it into pathologists' workflows in the region and provide recommendations for overcoming them. Some key steps recommended include creating a Latin American Society of Digital Pathology to provide continuing education, developing AI models trained on the Latin American population, establishing national regulatory frameworks for protecting the data, and standardizing formats for DP images to ensure that pathologists can collaborate and validate specimens across the various DP platforms.

Systematic Review of the Use of Telepathology During Intraoperative Consultation.

OBJECTIVE: To compare studies that used telepathology systems vs conventional microscopy for intraoperative consultation (frozen-section) diagnosis. METHODS: A total of 56 telepathology studies with 13,996 cases in aggregate were identified through database searches. RESULTS: The concordance of telepathology with the reference standard was generally excellent, with a weighted mean of 96.9%. In comparison, we identified seven studies using conventional intraoperative consultation that showed a weighted mean concordance of 98.3%. Evaluation of the risk of bias showed that most of these studies were low risk. CONCLUSIONS: Despite limitations such as variation in reporting and publication bias, this systematic review provides strong support for the safety of using telepathology for intraoperative consultations.

A telecitologia na rotina do rastreamento do câncer do colo uterino / The telecithology in the routine of cervical cancer screening

Introdução: A telecitologia ou citologia digital é a interpretação de amostras citológicas à distância. Depende principalmente da conversão da informação óptica obtida da ocular de um microscópio em uma imagem digital, que posteriormente será transmitida remotamente. Possui aplicações em diversas áreas, como as consultas intraoperatórias, propósitos educacionais e para amenizar o problema da indisponibilidade de profissionais citopatologistas. Objetivo: Descrever sobre o uso da telecitologia na rotina do laboratório de citopatologia, seus métodos, aplicações, vantagens e desvantagens. Método: Tratase de um estudo de revisão de literatura. Resultados: O uso da telecitologia no auxílio ao diagnóstico das lesões cérvico-vaginais mostra-se vantajoso, uma vez que a geração das imagens a partir do screening das lâminas possibilita maior discussão de casos duvidosos, mesmo à distância. Além disso, essa tecnologia fornece garantia e segurança dos resultados, possibilidade de revisão de lâminas por outros profissionais e o armazenamento permanente dos resultados. Considerações finais: A citologia digital traz novas possibilidades, pois permite que imagens de espécimes citológicos estejam disponíveis para qualquer pessoa, em qualquer lugar, para uso em diversas áreas. Com o advento das novas tecnologias em saúde, a telecitologia é uma ferramenta extremamente útil que permite auxílio ao diagnóstico, especialmente a longas distâncias.

Introduction: Telecitology, or digital cytology is the interpretation of cytological samples at a distance. It mainly depends on the conversion of the optical information obtained from the eyepiece of a microscope into a digital image, which will subsequently be transmitted remotely. It has applications in several areas, such as intraoperative consultations, educational purposes and to alleviate the problem of the unavailability of cytopathologists. Objective: To describe the use of telecitology in routine laboratory cytopathology, its methods, applications, advantages and disadvantages. Method: This is a literature review. Results: The use of telecitology to aid in the diagnosis of cervicovaginal lesions is advantageous, since the generation of images from the screening of the slides allows a greater discussion of doubtful cases, even at a distance. In addition, this technology provides guarantee and safety of results, possibility of review of slides by other professionals, and the permanent storage of results. Final considerations: Digital cytology brings new possibilities, as it allows images of cytological specimens to be available to anyone, anywhere, for use in a variety of areas. With the advent of new health technologies, telecitology is an extremely useful tool that allows diagnostic assistance, especially at long distances.

Design and Validation of a Low-Cost Telepathology System.

OBJECTIVE: This work sought to evaluate the precision and repeatability of a telepathology prototype based on open software and hardware. MATERIALS AND METHODS: A prototype was designed with application in telepathology and telemicroscopy. Accuracy and prototype precision were evaluated by calculating the mean absolute error and the intraclass and repeatability correlation coefficients for a series of 190 displacements at 10, 25, 50, 75, and 100 µm. RESULTS AND CONCLUSIONS: This work developed a low-cost prototype that is accessible, easily reproducible, implementable, and scalable; based on the use of technology created under principles of open software and hardware. A pathologist reviewed the obtained images and found them to be of diagnostic quality. Its excellent repeatability, coupled with its good accuracy, allows for its application in telemicroscopy and static, dynamic, and whole-slide imaging pathology systems.

An adaptable navigation strategy for Virtual Microscopy from mobile platforms.

Real integration of Virtual Microscopy with the pathologist service workflow requires the design of adaptable strategies for any hospital service to interact with a set of Whole Slide Images. Nowadays, mobile devices have the actual potential of supporting an online pervasive network of specialists working together. However, such devices are still very limited. This article introduces a novel highly adaptable strategy for streaming and visualizing WSI from mobile devices. The presented approach effectively exploits and extends the granularity of the JPEG2000 standard and integrates it with different strategies to achieve a lossless, loosely-coupled, decoder and platform independent implementation, adaptable to any interaction model. The performance was evaluated by two expert pathologists interacting with a set of 20 virtual slides. The method efficiently uses the available device resources: the memory usage did not exceed a 7% of the device capacity while the decoding times were smaller than the 200 ms per Region of Interest, i.e., a window of 256×256 pixels. This model is easily adaptable to other medical imaging scenarios.

Review of the current state of whole slide imaging in pathology.

Whole slide imaging (WSI), or "virtual" microscopy, involves the scanning (digitization) of glass slides to produce "digital slides". WSI has been advocated for diagnostic, educational and research purposes. When used for remote frozen section diagnosis, WSI requires a thorough implementation period coupled with trained support personnel. Adoption of WSI for rendering pathologic diagnoses on a routine basis has been shown to be successful in only a few "niche" applications. Wider adoption will most likely require full integration with the laboratory information system, continuous automated scanning, high-bandwidth connectivity, massive storage capacity, and more intuitive user interfaces. Nevertheless, WSI has been reported to enhance specific pathology practices, such as scanning slides received in consultation or of legal cases, of slides to be used for patient care conferences, for quality assurance purposes, to retain records of slides to be sent out or destroyed by ancillary testing, and for performing digital image analysis. In addition to technical issues, regulatory and validation requirements related to WSI have yet to be adequately addressed. Although limited validation studies have been published using WSI there are currently no standard guidelines for validating WSI for diagnostic use in the clinical laboratory. This review addresses the current status of WSI in pathology related to regulation and validation, the provision of remote and routine pathologic diagnoses, educational uses, implementation issues, and the cost-benefit analysis of adopting WSI in routine clinical practice.

Reprodutibilidade do diagnóstico histopatológico de dermatoses por fotomicrografias digitais versus microscopia óptica convencional / Reproducibility of histopathologic diagnosis of skin diseases by digital photomicrographs versus conventional optical microscopy

FUNDAMENTOS: A telepatologia é considerada boa alternativa para consultas de segunda opinião. Sua implementação é desejável, mas estudos que confirmem sua aplicação prática são necessários. OBJETIVOS: Analisar a concordância entre os diagnósticos histopatológicos de dermatoses feitos com base em microfotografias digitais em comparação com a microscopia convencional. MÉTODOS: As lâminas de 135 pacientes foram avaliadas por dois consultores por meio de microscópio. Após quatro semanas, os mesmos consultores avaliaram 1.738 microfotografias digitais obtidas dessas lâminas. Estimou-se a taxa geral de concordância intraobservadores e interobservadores e obteve-se o índice Kappa com a categorização das dermatoses: dermatoses neoplásicas, dermatoses infectocontagiosas e não infectocontagiosas. RESULTADOS: A concordância do Consultor 1, que analisou lâminas ao microscópio versus imagens, foi de 88,1 por cento (IC 95 por cento = 81,5 por cento - 93,1 por cento). O Consultor 2 obteve concordância de 80,7 por cento (IC 95 por cento = 73,1 por cento - 87 por cento). A concordância interconsultores ao microscópio foi de 81,5 por cento (IC 95 por cento = 73,9 por cento - 87,6 por cento). A mesma análise por meio de microfotografias mostrou concordância de 85,9 por cento (IC 95 por cento = 78,9 por cento - 91,3 por cento). O índice Kappa, que avalia as dermatoses categorizadas, foi de 98,6 por cento para o Consultor 1, de 93,1 por cento para o Consultor 2, de 95,8 por cento para interconsulta por imagens e de 95,9 por cento para interconsultas ao microscópio óptico. Todos esses valores são considerados ótimos. CONCLUSÃO: A avaliação das microfotografias apresentou ótimo nível de reprodutibilidade quando comparada à microscopia tradicional, sendo uma opção viável para consultas de segunda opinião em dermatopatologia.

BACKGROUND: Telepathology is considered a good alternative for a second opinion consultation. Its implementation is desirable, but studies to confirm its practical application are required. OBJECTIVES: To evaluate the reproducibility of histopathologic diagnoses of skin diseases obtained through digital photomicrographs compared with conventional microscopy. METHODS: We evaluated the surgical specimens of 135 patients using an optical microscope. After 4 weeks, the same consultants independently evaluated a total of 1,738 digital photomicrographs obtained from the histopathological slides. We estimated the overall rate of intra and interobserver agreement, and the Kappa coefficient was obtained with the categorization of the skin diseases: neoplastic skin diseases, infectious-contagious skin diseases and non-infectious-contagious skin diseases. RESULTS: Consultant 1 obtained an agreement of 88.1 percent (95 percent CI = 81.5 percent - 93.1 percent) between conventional microscopy and images. Consultant 2 obtained an agreement of 80.7 percent (95 percent CI = 73.1 percent - 87 percent). The interobserver agreement for the microscopy analysis was 81.5 percent (95 percent CI = 73.9 percent - 87.6 percent). The same analysis using microphotography showed an agreement of 85.9 percent (95 percent CI = 78.9 percent - 91.3 percent). The Kappa coefficient, which evaluated the categorized skin diseases, was 98.6 percent for Consultant 1, 93.1 percent for Consultant 2, 95.8 percent for interconsultant analyses of images and 95.9 percent for interconsultant analyses using conventional optical microscopy. All of these values are considered optimal. CONCLUSION: The evaluation of microphotographs shows a good level of reproducibility when compared to traditional microscopy and, therefore, is a viable option for a second opinion consultation in dermatopathology.