Material and Method: Since the first article on telepathology was published in 1986, we included all indexed articles retrieved from Web of Science databases between 1986 and 2017.
Results: We found that the USA covering 43.01% of all literature was the leading country in the telepathology field and was followed by Germany, Italy and the UK (n=120, 90 and 83, respectively). The countries with the most contributions were located in the continents of Europe and North America. The most productive source titles were Human Pathology, Journal of Telemedicine and Telecare, and Modern Pathology. Harvard University ranked first with 59 articles. The most commonly used keywords of the telepathology literature were telepathology, telemedicine, digital pathology, virtual microscopy and telecytology. We noted that all of the ten countries with the most contributions were in the developed category of UN classification and all twenty of the most productive institutions were from developed countries.
Conclusion: We suggest that researchers from developing and least developed countries should be encouraged to carry out novel studies since telemedicine is a required and promising technology for rural developing or least developed areas in which access to health care is difficult.
Bibliometrics provides holistic data on publication trends and patterns and is described as science of science [5]. Although scientometric and bibliometric studies have been popular recently, only one study relevant to telepathology has been reported so far to the best of our knowledge. To fully utilize the advantages of telepathology, individual feasibility studies are necessary, as data analysis, organizations, societies and infrastructures [6]. Our study aims to present a comprehensive bibliometric analysis of the literature of telepathology.
Figure 1: Number of telepathology publications by year.
Table I: The most studied research areas of the telepathology literature between 1986 and 2017.
Table II: Document types published in the telepathology literature.
Productivity of Countries, Authors, Journals and
Institutions
The USA, covering 43.01% of the literature, was detected
to rank first among countries with 477 articles, followed by
Germany, Italy and the UK (n=120, 90 and 83, respectively; Figure 2). China stood out among developing countries
according to the UN classification with 18 articles (3.07%)
followed by Brazil, India and Colombia (1.44, 1.26 and
0.81%, respectively). From the underdeveloped (least
developed) countries, Benin, Burundi, Congo, Rwanda,
Senegal, Sudan and Zambia produced one article each.
Figure 2: Top ten countries publishing telepathology articles between 1986 and 2017.
The countries contributing the most countries were located in the continents of Europe and North America (Figure 3). Weinstein RS was the most prolific author with 44 papers (3.97%, Table III). The source titles with the most contributions were Human Pathology, Journal of Telemedicine and Telecare and Modern Pathology (n= 80, 69 and 56 articles, respectively; Table IV). The most productive meeting in this field was the 10th European Congress on Telepathology and the 4th International Congress on Virtual Microscopy with 20 proceedings (Table V). Harvard University was the leading institution with 59 documents followed by the University of Arizona, Pennsylvania Commonwealth System of Higher Education, and the University of Pittsburgh (n= 52, 50 and 48 items, respectively; Table VI).
Figure 3: Publication density of world countries in the telepathology field.
Table III: The 20 most prolific authors of the telepathology literature between 1986 and 2017.
Table IV: The journals with the most contributions to the telepathology literature.
Table V: The meetings or conferences in which the most documents on telepathology were presented.
Table VI: The 20 most productive institutions in the telepathology literature between 1986 and 2017.
Citations, Keywords and Bibliometric Network Analyses
The h-index is a calculated metric value to measure
productivity and citation impact in a certain area. The
h-index of telepathology literature was 52. The total number
of citations was 14,911 (8,997 without self-citations) and
the average number of citations per item were 13.45.
The most cited article was an original article titled Telemedicine Technology and Clinical Applications published in 1995 by Perednia and Allen (Table VII). This article did not only focus on telepathology and mentioned telepathology as an application of store-and-forward telemedicine [10]. The most cited document focusing on telepathology was an original article titled Overview of telepathology, virtual microscopy, and whole slide imaging: prospects for the future published in 2009 by Weinstein RS who is the most prolific author of telepathology literature, and was cited 146 times. The article presented information relevant to fourth-generation telepathology systems, so-called virtual slide telepathology systems used for educational purposes [11].
Table VII: The most cited articles in telepathology literature by decades.
The most common keywords of the telepathology literature were telepathology, telemedicine, digital pathology, virtual microscopy and telecytology (Table VIII). Bibliometric network analysis of the keywords revealed a starburst pattern in which keywords of telepathology, digital pathology and internet were centered (Figure 4). As we analyzed the co-authorship among countries, it was found that the most collaborative countries were the USA with 377 documents and 6286 citations (total link strength, TLS=127) followed by Italy, the UK and Germany (TLS=79, 73 and 71, respectively; Figure 5).
Table VIII: The 20 most used keywords in the telepathology literature.
Figure 4: Bibliometric network of the most used keywords in the telepathology literature.
Figure 5: The most collaborative countries in the telepathology literature.
The first recorded telepathology procedure was performed in the late 1960s between Massachusetts General Hospital and Logan Airport Medical Station in Boston via a realtime television microscopy service [16]. Since this onset, the research area of telepathology has been growing into subfields. The first paper in the telepathology field was an editorial published in 1986 and titled Prospects for Telepathology by Ronald Weinstein. The author defined telepathology as the practice of pathology by visualizing an indirect image on a television screen rather than viewing a specimen directly through a microscope . Interestingly, there was no study on telepathology in the medical literature prior to this definition. Weinstein predicted the future of computer technology perfectly and defined the level of development of telepathology at that time as an embryonic stage of development [16]. Over the last 30 years, the generation of telepathology systems has improved rapidly with the evolution of digital microscopy: video-microscopy, robotic microscopy and the upgrade to virtual slide processing systems. This change is a revolution in the traditional pathology practice in todays computer age [17]. Increased workload, case complexity, financial constraints, and staffing shortages justify wider implementations of digital pathology [6]. The possibility to consult expert colleagues using telepathology, particularly for cases not requiring molecular investigations in external laboratories, may also permit significant financial savings, reduce the turnaround time, facilitate the international change of information, and support the sharing of even more cases [18].
Bibliometrics is a popular statistical application providing quantitative and qualitative analysis of a certain academic field [19]. The term was coined by Alan Pritchard in the late 1960s as an application of mathematics and statistical methods to books and other media of communication although Siyali Ramamrita Ranganathana, who was a librarian and mathematician from India, created the principal ideas behind bibliometrics and scientometrics in the 1940s [19,20]. Bibliometric studies have become increasingly popular in the academic literature in the last decades, and a total of 8806 reports have been published in the time period of our study according to the WoS databases. Although the term of telepathology has been included in MeSH terminology since 1996, the scientific literature contained only one bibliometric study of telepathology. Della Mea reported the first and only bibliometric study in the telepathology literature in 2011 [21]. The data of this study was extracted from PubMed and only 967 papers published in 344 different journals from 34 countries were detected between 1986 and 2010. The USA was found to be the leading country as noted in our study with 310 articles (32.06%) followed by Germany, Italy, UK and Japan (n= 81, 46, 40 and 27 documents, respectively). The major journals in the telepathology field were Journal of Telemedicine and Telecare, Human Pathology and the Telemedicine Journal (n= 71, 65 and 27 items, respectively) [21].
In conclusion, we found that all ten of the most contributing countries were in developed category of UN classification although telemedicine is a required and promising technology for rural developing or least developed areas in which access to health care is difficult. Also, all twenty most productive institutions were from developed countries. We suggest that researchers from developing and least developed countries should be encouraged to carry out novel studies.
CONFLICT of INTEREST
The authors declare no conflict of interest.
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