Mark Davenport1, Wajid B Jawaid2, Paul D Losty3. 1. Department of Paediatric Surgery, Kings College Hospital, Denmark Hill, London SE5 9RS, United Kingdom. Electronic address: markdav2@ntlworld.com. 2. Department of Paediatric Surgery, Alder Hey Children's Hospital NHS Foundation Trust, United Kingdom. 3. Department of Paediatric Surgery, Alder Hey Children's Hospital NHS Foundation Trust, United Kingdom; Faculty Of Health And Life Sciences, University Of Liverpool, , United Kingdom.
Abstract
BACKGROUND: The publication record can be regarded as a key metric of the academic output of a craft surgical speciality with an almost exponential increase in the number of such publications worldwide over the past 20 years (Ashfaq et al. J Surg Res 2018;229:10-11). We aimed to examine and explore if this was the experience within UK paediatric surgery centres. METHODS: The academic search engine Scopus™ (Elsevier) was used to track every paediatric surgeon's (NHS or University) publication history between Jan. 2005 - Dec. 2020. This was validated by an algorithmic search of PubMed™. The h-index (citations/publication), considered a validated metric of career academic output, was also calculated for each individual surgeon. A Field-Weighted Citation Index (Scopus™) (FWCI) was used to assess impact of individual publications. Textbooks, book chapters, abstracts, duplications ("double dipping") and output attributed to UK BAPS-CASS national studies were excluded. Some output(s), not considered as relevant to "paediatric surgery", was edited. Data are quoted as median(range). RESULTS: During this 16-year period, there were 3838 publications identified from 26 centres with a "top ten" listing of those paediatric surgical units contributing over half the output (n = 2189, 57%). To look for evidence of trend(s) we analysed the output from these surgical centres in two 5-year periods (2005-9 and 2015-19) and showed an overall fall in output(s) - [730 (53.4%) to 645 (46.4%)] with 6/10 (60%) ' top ten ' centres here recording a reduction in publications. The median h-index of the 232 contributing paediatric surgical consultants was 12 (range 1-56). The best performing publication from the "top ten" centres had 96.5(51-442) citations with the FWCI being 4.5 (2.2 - 30.2). CONCLUSIONS: This study highlights current paediatric surgery publication output metrics in UK centres. There is evidence of a relative reduction in outputs overall which is a cause for concern for the future, although individual publications from the 10 most active units in the UK remain highly cited. These findings may serve purpose in several ways: (i) UK paediatric surgical centre rankings may be helpful for guiding residency / trainee application; (ii) surgical research funding for the top performing units may be better facilitated and finally (iii) UK centres showing a ' fertile ground ' for nurturing and training paediatric surgeons with academic aspirations could be useful for future workforce planning.
BACKGROUND: The publication record can be regarded as a key metric of the academic output of a craft surgical speciality with an almost exponential increase in the number of such publications worldwide over the past 20 years (Ashfaq et al. J Surg Res 2018;229:10-11). We aimed to examine and explore if this was the experience within UK paediatric surgery centres. METHODS: The academic search engine Scopus™ (Elsevier) was used to track every paediatric surgeon's (NHS or University) publication history between Jan. 2005 - Dec. 2020. This was validated by an algorithmic search of PubMed™. The h-index (citations/publication), considered a validated metric of career academic output, was also calculated for each individual surgeon. A Field-Weighted Citation Index (Scopus™) (FWCI) was used to assess impact of individual publications. Textbooks, book chapters, abstracts, duplications ("double dipping") and output attributed to UK BAPS-CASS national studies were excluded. Some output(s), not considered as relevant to "paediatric surgery", was edited. Data are quoted as median(range). RESULTS: During this 16-year period, there were 3838 publications identified from 26 centres with a "top ten" listing of those paediatric surgical units contributing over half the output (n = 2189, 57%). To look for evidence of trend(s) we analysed the output from these surgical centres in two 5-year periods (2005-9 and 2015-19) and showed an overall fall in output(s) - [730 (53.4%) to 645 (46.4%)] with 6/10 (60%) ' top ten ' centres here recording a reduction in publications. The median h-index of the 232 contributing paediatric surgical consultants was 12 (range 1-56). The best performing publication from the "top ten" centres had 96.5(51-442) citations with the FWCI being 4.5 (2.2 - 30.2). CONCLUSIONS: This study highlights current paediatric surgery publication output metrics in UK centres. There is evidence of a relative reduction in outputs overall which is a cause for concern for the future, although individual publications from the 10 most active units in the UK remain highly cited. These findings may serve purpose in several ways: (i) UK paediatric surgical centre rankings may be helpful for guiding residency / trainee application; (ii) surgical research funding for the top performing units may be better facilitated and finally (iii) UK centres showing a ' fertile ground ' for nurturing and training paediatric surgeons with academic aspirations could be useful for future workforce planning.