Telemicroscopy by the Internet revisited

Telepathological evaluation of paediatric histological specimens in support of a hospital in Tanzania

Background/Objective

In a project of telepathology (TP) between German pathologists and a hospital in Tanzania, trained technical assistants have uploaded digital histological images onto the internet-based platform ipath. The diagnoses from 486 paediatric specimens were analysed.

Methods

The investigation included diagnoses, either primarily done via TP or secondarily after a further workup of the paraffin-embedded tissue, which was sent to Germany for cases which could not be solved via TP. In the latter, the initial TP-diagnoses were compared with the results after re-evaluation.

Results

The median age was 11 years. The cohort comprised 390 benign diseases (80.2%) and 96 malignant diseases (19.8%). For benign diseases, the most frequent anatomic sites were lymph nodes, skin, and soft tissue, breast, and head&-neck. Frequent diagnoses were non-specific inflammations and benign tumors. In malignant diseases, the most sites were lymph nodes, skin, soft tissue, head&neck, and ovary and the most frequent diseases sarcomas and lymphomas. The paraffin embedded tissue of 179 cases (36.3%) was shipped to Germany. With the concordance analysis, we could discover the mandatory necessity for the possibility of second opinion in difficult cases.

Conclusion

An exclusively TP-support cannot meet all requirements of modern medical diagnostics. The education of local pathologists is imperative.

Intraoperative frozen section consultation by remote whole-slide imaging analysis -validation and comparison to robotic remote microscopy

Digital pathology including whole slide image (WSI) acquisition is a promising tool for histopathologic teleconsultation. To test and validate the use of WSI in comparison with robotic microscopy for intraoperative frozen section consultation of peripheral hospitals serviced by our department, we compared the VENTANA DP 200 slide scanner with an established remote-controlled digital microscope. Thirty cases were retrospectively analysed. In comparison with a median specimen handling time of 19 min using remote-controlled microscopy, the WSI handling was significantly shorter (11 min, p=0.0089) and offered better image quality, for example, allowing to detect a positive resection margin by a malignant melanoma that had been missed using the former system. Prospectively assessed on 12 cases, the median handling time was 6 min. Here, we demonstrate the applicability and the advantages of WSI for intraoperative frozen section teleconsultation. WSI-based telepathology prooves to be an efficient and reliable tool providing superior turn-around time and image resolution.

[Ten years of telepathology for a mission hospital in Tanzania]

BACKGROUND

A collaboration between a hospital in Tanzania and a German institute for pathology was initiated in 2007 with the aim of establishing a working telepathological connection using the internet-based platform iPath to transmit static histological images.

OBJECTIVES

This study aimed to describe the diagnostic spectrum evaluated in the course of an aid project in a developing country in Africa.

MATERIAL AND METHODS

A total of 5230 diagnoses were analyzed, including cases that could only be definitively concluded after a second analysis of the paraffin-embedded material in Germany. The most frequent diagnoses in the five largest diagnostic groups from 17 different anatomical locations were surveyed. In addition, cases sampled from children/young adults and rare diagnoses were assessed separately.

RESULTS

Altogether we diagnosed 2934 (56.1%) benign and 2134 (40.8%) malignant diseases. The number of cases sent to Germany for a second opinion was 734 (14%). The five most common anatomical locations were the uterine cervix (n = 1211), the prostate (n = 728), skin (n = 626), breast (n = 524), and lymph nodes (n = 340). Children comprised 504 cases (9.6%). Typical tropical diseases were only rarely seen in the whole collective of cases.

CONCLUSIONS

By means of telepathology histopathological diagnoses can be supplied in a short period of time. Difficulties occurred mainly due to the unstable staff situation on site and because the quality of sampled biopsy material was not always sufficient for further investigations. Furthermore, it became clear in the course of this aid project that a predominance of standard diagnostic findings routinely seen in the pathology of tumors and infections can be anticipated rather than exotic diseases.

Re-evaluation of challenging telepathological diagnoses in support of a hospital in Tanzania

Since 2007, a hospital in Tanzania has been supported with histopathological reports via telepathology (TP) by German pathologists. For this, the Internet-based platform iPath is used. The aim of this study was to analyse the rate of discrepancies in defined diagnostic groups. After shipment of paraffin-embedded tissue to Germany, specimens were processed according to recent diagnostic standards. All diagnoses were grouped into eight benign and 11 malignant main categories. The comparison comprised the following categories: 1, identical diagnosis; 2, mild discordance; 3, correct distinction between benign and malignant process, 4, false malignant; 5, false benign; and 6, no primary diagnosis possible. The cohort comprised 396 benign and 336 malignant diseases. Of the benign diseases, 62% were category 1, 23% category 2, 2% category 3, 6% category 4 and 7% category 6. Of the malignant diseases, 42% were category 1, 16% category 2, 12% category 3, 14% category 5 and 15% category 6. Exclusive support with static TP cannot meet all requirements of modern medical diagnostics. However, the project shows a approach for how pathologists in industrial countries can help low-income countries. In difficult cases, the opportunity for a final work-up using additional methods must be given for useful diagnostic purposes.

Diagnostic validity of static telepathology supporting hospitals without local pathologists in low-income countries

INTRODUCTION

Static telepathology (TP) was used to support a hospital in Tanzania that cannot employ a resident pathologist but has a basic laboratory. Histological slides were prepared by the local technical staff and digital images were uploaded into an Internet-based system; consultant pathologists in Germany could give their opinion. The aim of the study was to examine the diagnostic validity of this project without local pathologists.

METHODS

The set-up period for special training of local technical assistants was 10 weeks. Diagnoses of the first 545 cases that were processed via TP were compared with the results of a second opinion on the basis of routine slides created from the corresponding paraffin blocks, which were sent to Germany.

RESULTS

Of all cases, 384 (70%) TP diagnoses were completely confirmed by the second opinion. Minor deviations (e.g. divergent subtypes of tumours or other aetiology of non-specific reactive processes) were documented in 76 cases (14%), so that overall, 84% of diagnoses were useful in the setting of the available therapeutic possibilities. The results were better in some subgroups of diseases (90-100% useful diagnoses) and suboptimal (minimum 63%) in a few subgroups with rare diseases. Thirty (5%) malignant diseases were primarily misinterpreted as being benign and 12 (2%) benign diseases as malignant. Forty-three (8%) cases were insufficient for diagnosis using TP and could not be provided with a primary assessment.

DISCUSSION

Static TP can help support medical services in low-income countries in the absence of local pathologists with a potentially high diagnostic validity, especially for selected groups of diseases. The procedure can significantly improve the diagnostic procedures before commencement of therapy - a substantial contribution within a globalised world.

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.

Robotic Telecytology for Remote Cytologic Evaluation without an On-site Cytotechnologist or Cytopathologist: A Tale of Implementation and Review of Constraints

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 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 technical article, we present a detailed description of our implementation of robotic TC.

METHODS

Pathology devised the remote robotic TC solution after acknowledging that it would not be cost effective to staff cytotechnologists on-site at the satellite location. Sakura VisionTek was selected as our robotic TC solution. In addition to configuration of the dynamic robotic TC solution, pathology realized integrating the technology solution into operations would require a multidisciplinary effort and reevaluation of existing staffing and workflows.

RESULTS

Extensively described are the architectural framework and multidisciplinary process re-design, created to navigate the constraints of our technical, cultural, and organizational environment. Also reviewed are the benefits and challenges associated with available desktop sharing solutions, particularly accounting for information security concerns.

CONCLUSIONS

Dynamic robotic TC is effective for immediate evaluations performed without on-site cytotechnology staff. Our goal is providing an extensive perspective of the implementation process, particularly technical, cultural, and operational constraints. Through this perspective, our template can serve as an extensible blueprint for other centers interested in implementing robotic TC without on-site cytotechnologists.

History and structures of telecommunication in pathology, focusing on open access platforms

Background

Telecommunication has matured to a broadly applied tool in diagnostic pathology.

Technology and Systems

Contemporary with the development of fast electronic communication lines (Integrated digital network services (ISDN), broad band connections, and fibre optics, as well as the digital imaging technology (digital camera), telecommunication in tissue - based diagnosis (telepathology) has matured. Open access (internet) and server - based communication have induced the development of specific medical information platforms, such as iPATH, UICC-TPCC (telepathology consultation centre of the Union International against Cancer), or the Armed Forces Institute of Pathology (AFIP) teleconsultation system. They have been closed, and are subject to be replaced by specific open access forums (Medical Electronic Expert Communication System (MECES) with embedded virtual slide (VS) technology). MECES uses php language, data base driven mySqL architecture, X/L-AMPP infrastructure, and browser friendly W3C conform standards.

Experiences

The server - based medical communication systems (AFIP, iPATH, UICC-TPCC) have been reported to be a useful and easy to handle tool for expert consultation. Correct sampling and evaluation of transmitted still images by experts reported revealed no or only minor differences to the original images and good practice of the involved experts. β tests with the new generation medical expert consultation systems (MECES) revealed superior results in terms of performance, still image viewing, and system handling, especially as this is closely related to the use of so - called social forums (facebook, youtube, etc.).

Benefits and Expectations

In addition to the acknowledged advantages of the former established systems (assistance of pathologists working in developing countries, diagnosis confirmation, international information exchange, etc.), the new generation offers additional benefits such as acoustic information transfer, assistance in image screening, VS technology, and teaching in diagnostic sampling, judgement, and verification.

Virtual surgical pathology in underdeveloped countries: The Zambia Project

Only 1 surgical pathology laboratory is available in Zambia, a country with a population of 12 million people. Since 2004 the Italian association of pathologists Patologi Oltre Frontiera has been working to create a virtual laboratory through the use of telemedicine. The project has involved staining histologic preparations on site, with the interpretation of imaged slides performed abroad through telepathology. Starting in April 2007, all surgical specimens obtained in Mtendere Mission Hospital, Chirundu, Zambia, were submitted for microscopic examination through whole-slide scans. Two independent Italian pathologists evaluated the cases by means of satellite connection and the final diagnoses were sent to Zambian clinicians via the internet. This article describes the spectrum of diagnoses made via telepathology for the Zambian population. Also, we analyze the concordant and discordant data between this telepathology method and traditional microscopy in a developing country. Moreover, we provide possible solutions for providing pathology services in other underdeveloped countries.

Dynamic active telepathology over National Health Laboratory service network, South Africa: feasibility study using Nikon Coolscope

Telepathology recently entered a new era with the introduction of digital microscopes combined with Internet technology. The microscope allows viewing real time of whole slide (macro) as well as different chosen fields in four different magnifications. Three Nikon Coolscope were installed in NHLS laboratories in Mthatha, East London and Port Elizabeth. All these microscopes are connected to NHLS server allowing real time viewing of the full slide at any time of the day using Internet browser. Viewing is possible from any PC connected to NHLS Intranet. The challenge was to be able to view slides from other than NHLS computers due to NHLS IT Department network security measures. This was solved by installing NHLS Virtual Private Network server. About 60 cases were viewed by pathologists in Cape Town (Stellenbosh University) and Pretoria (MEDUNSA). All users assessed the system as a helpful tool allowing easy access to cases needing consultation or second opinion. The quality of images was very good. Our experience with Nikon Coolscope is positive. It is an excellent tool for remote small histopathology departments lacking specialists in such areas as dermatopathology, oncology, and haematopathology. Further studies are needed especially in the scope of full utilization of the microscopes installed and impact on laboratory services.

How to implement grid technology in tissue-based diagnosis: diagnostic surgical pathology

BACKGROUND

Tissue-based diagnosis or diagnostic surgical pathology is a highly accurate, sensitive and specific medical diagnostic technique that has expanded rapidly in using both molecular biology and computer technology.

OBJECTIVE

The objective is to analyze the present stage and potential influence of distributed data acquisition, analysis and presentation in tissue-based diagnosis by using recently developed standardized network systems such as grids.

METHODS

Interpretation of medical data is often based upon specialized examination, visual information acquisition and transfer as well as upon data collected from various sources. Efficient and accurate diagnostics require standardized data and transfer modes, which can be provided by a grid environment. The medical requirements, construction of an adequate grid environment, practical experiences in various medical disciplines and potential use in tissue-based diagnosis are described.

CONCLUSIONS

Grid technology is probably a useful tool to meet the conditions of tissue-based diagnosis in the near future, and will probably play a significant role in its further development.

An application of virtual microscopy in the teaching of an oral and maxillofacial pathology laboratory course

OBJECTIVE

The aim of this study is to share the experience of establishing a virtual microscope and telepathology system for the oral and maxillofacial pathology laboratory course in a dental school.

STUDY DESIGN

A dot-slide system has been used to generate digitized microscopic slides, which are placed on an image server that is available online.

RESULTS

Using software that is available as a free download (OlyVIA), students are able to select a teaching slide record, view at magnifications comparable with those of a conventional microscope, and navigate to any area on the matching virtual slide image that is stored on the image server database. Before class, the students can review the findings of the virtual teaching slides at any time or any place via broadband internet by using the instructions available on DVD. During class, students report and discuss the histological findings of the virtual teaching slides with tutors who evaluate, test, and make constructive comments on the presentations in a Web-based computer classroom. After class, students can revise the histological findings of the microscopic virtual slides available on the server.

CONCLUSIONS

Virtual microscopy has many advantages over real microscopy in oral and maxillofacial pathology education. Furthermore, telepathology could also be applied in other pathological services, such as intraoperative frozen sections, routine surgical pathology, and subspecialty consultation.

TuBaFrost 6: Virtual microscopy in virtual tumour banking

Many systems have already been designed and successfully used for sharing histology images over large distances, without transfer of the original glass slides. Rapid evolution was seen when digital images could be transferred over the Internet. Nowadays, sophisticated Virtual Microscope systems can be acquired, with the capability to quickly scan large batches of glass slides at high magnification and compress and store the large images on disc, which subsequently can be consulted through the Internet. The images are stored on an image server, which can give simple, easy to transfer pictures to the user specifying a certain magnification on any position in the scan. This offers new opportunities in histology review, overcoming the necessity of the dynamic telepathology systems to have compatible software systems and microscopes and in addition, an adequate connection of sufficient bandwidth. Consulting the images now only requires an Internet connection and a computer with a high quality monitor. A system of complete pathology review supporting bio-repositories is described, based on the implementation of this technique in the European Human Frozen Tumor Tissue Bank (TuBaFrost).

Virtuelle Mikroskopie

Only recently fast-paced developments in computer technology allowed for the digitization of complete histologic slides. The resulting virtual slides may be viewed via webbrowser by any number of pathologists or students independent of time and location. Usage of a virtual microscope simply requires a computer workstation with a fast internet connection, which opens this technology to a broad public. A virtual microscopy system consists of three components: acquisition, server and client. Such systems are under development by different commercial and academic bodies worldwide. We have developed a virtual microscope system called vMic (http://www.vmic.unibas.ch) which provides virtual slides of very high image quality. Several successfully held online slide seminars and a histology course for students in dentistry are freely accessible in the internet. With the commercial availability of ultra rapid and easy-to-use slide scanners and the fast improvements of technology virtual microscopy will offer many applications in teaching, research and diagnostics. Thanks to additional functionalities, real microscopes will most likely be replaced by computer workstations in a couple of years.

Grid technology in tissue-based diagnosis: fundamentals and potential developments

Tissue-based diagnosis still remains the most reliable and specific diagnostic medical procedure. It is involved in all technological developments in medicine and biology and incorporates tools of quite different applications. These range from molecular genetics to image acquisition and recognition algorithms (for image analysis), or from tissue culture to electronic communication services. Grid technology seems to possess all features to efficiently target specific constellations of an individual patient in order to obtain a detailed and accurate diagnosis in providing all relevant information and references. Grid technology can be briefly explained by so-called nodes that are linked together and share certain communication rules in using open standards. The number of nodes can vary as well as their functionality, depending on the needs of a specific user at a given point in time. In the beginning of grid technology, the nodes were used as supercomputers in combining and enhancing the computation power. At present, at least five different Grid functions can be distinguished, that comprise 1) computation services, 2) data services, 3) application services, 4) information services, and 5) knowledge services. The general structures and functions of a Grid are described, and their potential implementation into virtual tissue-based diagnosis is analyzed. As a result Grid technology offers a new dimension to access distributed information and knowledge and to improving the quality in tissue-based diagnosis and therefore improving the medical quality.

The iPath telemedicine platform

An early, point-to-point telepathology system at the University of Basel developed into an open-source, Internet-based platform for telemedicine in 2001. The Internet Pathology Suite (iPath) is a Web-based telepathology platform that permits the online presentation and discussion of cases within user groups. It also allows realtime telemicroscopy across firewalls. After four years, the telepathology network has over 700 active users. More than 6,300 cases with a total of about 39,000 images have been diagnosed. The diagnostic workload of all these cases is not exclusively handled by the Department of Pathology in Basel, but by a growing number of independent groups who also use the server simply as a case repository. What started as a small project for hospitals in Switzerland has become a global network.

Expression profiling by high-throughput immunohistochemistry

Immunohistochemistry (IHC) provides valuable information on expression of proteins within tissues at a cellular and subcellular level. Recent developments in the practice of IHC now make it possible to contemplate using this technique as a high-throughput expression profiling system. Advances have been made in creation and use of tissue microarrays, in automated IHC and in image capture/analysis. Each of these technologies are reviewed and issues surrounding their use considered. The success of high-throughput IHC is also dependent on both generation and screening of appropriate antibodies. Antibody-related issues which are likely to affect the success of high-throughput IHC, such as specificity, sensitivity, fixation choice, etc., are also considered.

Development and evaluation of the virtual pathology slide: a new tool in telepathology

BACKGROUND

The Virtual Pathology Slide is an interactive microscope emulator that presents, via the Internet or CD-ROM, a complete 15.53 mm x 11.61 mm digitalized tissue section. The Virtual Pathology Slide mimics the use of a microscope in both the stepwise increase in magnification (from 16x up to 2000x) and in lateral motion in the X and Y Cartesian directions. This permits a pathologist to navigate to any area on a slide, at any magnification, similar to a conventional microscope.

OBJECTIVE

The aim of this study was to assess the diagnostic accuracy and acceptability of the Virtual Pathology Slide.

METHODS

Ten breast needle core biopsies were randomly selected and presented to 17 pathologists or trainee pathologists with at least 2 years experience in pathology practice. Participants were required to examine each case online and provide a diagnostic classification using online feedback forms. The recorded data permitted examination of interobserver variability and user satisfaction.

RESULTS

Agreement between original glass-slide diagnosis and consensus diagnosis using the Virtual Pathology Slide was reached in 9 out of 10 slides. Percentage concordance for slides lay in the range of 35.3% to 100% with an average percentage concordance between slides of 66.5%. The average Kappa statistics for interobserver agreement was 0.75 while average percentage concordance amongst participants was 66.5%. Participants looked at an average of 22 fields of view while examining each slide. Confidence: 81.25% of the participants indicated confidence using the Virtual Pathology Slide to make a diagnostic decision, with 56.25% describing themselves as "reasonably confident," 18.75% as "confident," and 6.25% as "very confident." Ease of use: 68.75% reported the system as "easy" or "very easy" to use. Satisfaction: 87.5% of participants expressed satisfaction with image quality, with 43.75% describing the image quality as "adequate," 25% describing it as "good," and 18.75% describing the image quality as "excellent." Pathologists with a working bandwidth greater than 20 kilobits per second found the download speed of the Virtual Pathology Slide "adequate" or better.

CONCLUSIONS

Results from this study show that the Virtual Pathology Slide can be used to make a correct diagnostic decision, and that the system is a realistic alternative to dynamic telepathology.

Telepathology: current status and future prospects in diagnostic histopathology

Telepathology is the process of diagnostic histopathology performed on digital images viewed on a display screen rather than by conventional glass slide light microscopy. The technology of telepathology has radically improved over the past 5 years so that it is no longer the limiting factor in the diagnostic process. This review looks at the resources needed for dynamic and static telepathology, including image quality, computers and software interfaces, means of transmission and human resources. It critically analyses 32 published trials of telepathology, including some large prospective studies, in all areas of diagnostic histopathology including intraoperative frozen sections, routine and referral cases. New developments, including internet solutions and virtual microscopy, are described and there is analysis of the economics of telepathology within health care systems. The review concludes that all the necessary technology for telepathology is available, there is strong published evidence for a diagnostic accuracy comparable with glass slide diagnosis, in many contexts there is a clear-cut economic argument in favour of telepathology, and that the technique should now be integrated into mainstream diagnostic histopathology.