Analysis of 50 Most Cited Articles About Refractive Surgery From an Altmetric Perspective
Authors:
Mustafa Berhuni
; Ozer Zeynep Ozcan
Authors place of work:
Dr Ersin Arslan Training and Research Hospital, Gaziantep, Turkey
Published in the journal:
Čes. a slov. Oftal., 80, 2024, No. Ahead of print, p. 1-8
Category:
Original papers
doi:
https://doi.org/10.31348/2024/13
Summary
Aims: The purpose of this study is to evaluate an Altmetric analysis of the 50 most cited refractive surgery articles in Ophthalmology journals and to compare them with traditional metrics.
Methods: The term "refractive surgery" was searched, using a time filter between 2010-2020 in the Web of Science core collection database. The 50 most cited articles between 2010 and 2020 were recorded. Descriptive statistics were performed. The Spearman correlation test was used to evaluate the correlation between traditional metrics and Altmetrics.
Results: The Altmetric scores of the top 50 articles ranged from 0 to 25, and the median Altmetric score was 4. The citation numbers of the 50 articles ranged from 83 to 523, and the median citation number was 119.5. The most cited article topic was "Toric Intraocular Lens"; the topics with the highest Altmetric scores were "Toric Intraocular Lens" and "Trifocal Intraocular Lens". There was no significant correlation between Altmetric scores and number of citations. There was a weak correlation between Altmetric scores and the average citation per year. Conclusion: The Altmetric score is insufficient, compared with traditional metrics, to show the scientific value of articles on refractive surgery. Altmetrics can be used to supplement traditional metrics.
Keywords:
social media – refractive surgery – Altmetric score – citation number – articles
INTRODUCTION
Refractive errors are one of the most common causes of reversible visual impairment worldwide, and refractive surgery is among the most commonly performed eye surgeries worldwide [1]. Refractive surgery can be divided into two categories: corneal procedures and lens procedures [2]. Corneal procedures are surface ablation procedures (photorefractive keratectomy-PRK, subepithelial laser keratomileusis-LASEK), laser in situ keratomileusis (LASIK), and small incision lens extraction (SMILE). Lens procedures include refractive lens exchange and phakic lens implantation. PRK, in which the corneal epithelium is mechanically separated, and the LASEK procedure, in which the epithelium is separated using alcohol, are generally appropriate procedures for patients with high myopia and thin corneas [3]. The LASIK procedure, in which a corneal flap separation, and laser application result in faster visual rehabilitation and fewer ocular surface symptoms than surface ablation procedures [4]. With the development of femtosecond laser technology, the SMILE procedure was defined as a lenticule extraction procedure in refractive surgery [5]. The advantages of the SMILE procedure are fewer ocular surface symptoms, less laser energy use, and less corneal inflammation [6,7]. Bifocal and trifocal (diffractive) IOLs have been developed due to visual problems, especially in the intermediate and near range, after the implantation of monofocal IOLs [8,9]. Monofocal toric and multifocal toric IOLs are used in patients with corneal astigmatism. However, due to patients’ complaints of halo and glare after the implantation of these IOLs, extended depth of field intraocular lenses (EDOF IOLs) have been developed to provide good quality vision at intermediate and long distances [9]. In addition, toric IOLs are used in patients with severe corneal astigmatism [10]. The Phakic IOL procedure, used as an intraocular lens implantation without any intervention to the crystalline lens, was developed to correct high-grade refractive errors, when using refractive surgical procedures is risky [11].
The authors are curious about the impact of their published articles on a large audience. Traditional metrics measure the quality and effectiveness of each article and journal. These include the number of citations the article has received and the journal’s impact factor. With the increase in Internet and social media users in recent years, Altmetrics, a web-based measurement method, has emerged to measure articles’ effectiveness and quality [12]. The Altmetric system has become a measurement system that quickly offers researchers the effectiveness of their published articles. In this system, the effectiveness and quality of published articles are measured by the number of citations received and the number of downloads and mentions on social media platforms, such as blogs, Facebook, and Twitter. The Altmetric Score (AS) reflects the overall interest that the article received. The Altmetric system is also known as the social impact factor [13].
In this study, we aimed to analyze the 50 most cited articles in the field of refractive surgery published in Ophthalmology journals using traditional metrics and Altmetrics.
MATERIAL AND METHOD
In this study, the term “refractive surgery” was searched, using a time filter between 2010–2020 in the Web of Science (WoS) core collection database base search. The 50 most cited articles in Ophthalmology journals between 2010 and 2020 were included in the study (Access date: Dec 01, 2022). The English articles with full text in the literature were listed according to the number of citations. Two researchers independently reviewed the articles. The main inclusion criteria were articles related to refractive surgery. Articles unrelated to refractive surgery, not written in English, and whose full text could not be obtained were not included in the study. The articles found after the search were sorted from most cited to least cited, and a list of the top 50 articles was generated. The titles of all articles, publication year (PY), number of years since publication (NYsP), first authors, number of citations (CN), average citations per year (ACPY), AS, type of studies, journals in which they were published, journals’ Q category, impact factors (IF) for 2019, 5-year impact factor, and H index were recorded and analyzed.
The AS is designed to make it easier to determine how much interest a study is receiving. The bookmark “Almetric it” from the website www.altmetric.com was used to calculate AS (accessed Dec 01, 2022). Clicking on this bookmark displays the colored Altmetric donut (Figure 1). Each color in the Altmetric donut represents a different source of attention. AS was calculated and recorded separately for each item, using this automatic algorithm. The score obtained represents the attention received by the Altmetric company that created the page for each research article.
Statistical Analysis
SPSS software (IBM, version 26) was used for the statistical analysis of all data. The median and interquartile range (IQR) of 25 % to 75 % were used, since all data did not conform to the normal distribution according to the Shapiro-Wilk test. Categorical variables were expressed as percentages and numbers. Spearman’s rank correlation analysis was used to evaluate the correlation between AS, CN, ACpY, PY, NYsP, IF, 5-year IF, and H indexes. p < 0.05 was considered statistically significant.
Table 1. Journals with top-50 articles, ranked according to the number of articles
Journal name |
AN |
Q category |
H index |
IF |
5-year IF |
CN |
AS |
Journal of Cataract and Refractive Surgery |
24 |
Q1 |
148 |
1.25 |
2.875 |
115 (105.5–144) |
3.5 (3–7) |
Journal of Refractive Surgery |
9 |
Q1 |
99 |
2.71 |
3.125 |
132 (105–140) |
7 (3–10) |
Ophthalmology |
4 |
Q1 |
256 |
8.47 |
8.339 |
177 (160.50–208) |
7 (5.5–16) |
American Journal of Ophthalmology |
4 |
Q1 |
194 |
4.01 |
4.451 |
106 (99.5–123) |
4 (3–5.5) |
British Journal of Ophthalmology |
3 |
Q1 |
162 |
3.69 |
3.402 |
103 (100–313) |
12 (9–12) |
Graefes Archive for Clinical and Experimental Ophthalmology |
2 |
Q1 |
105 |
2.39 |
2.258 |
133 (123–143) |
4.5 (3–6) |
Investigative Ophthalmology & Visual Science |
1 |
Q1 |
123 |
2.21 |
3.659 |
98 (NA) |
0 (NA) |
Cornea |
1 |
Q1 |
137 |
4.19 |
2.362 |
83 (NA) |
1 (NA) |
Progress in Retinal and Eye Research |
1 |
Q1 |
229 |
3.47 |
14.384 |
97 (NA) |
5 (NA) |
Survey of Ophthalmology |
1 |
Q1 |
164 |
14.86 |
4.037 |
135 (NA) |
14 (NA) |
AN – number of articles, IF – impact factor, CN – number of citations, AS – altmetric score, NA – not applicable
Table 2. Number of citations and altmetric scores of top 50 articles, ranked according to the study topics
Study topics |
AN |
CN |
AS |
SMILE |
10 |
131.5 (98–183) |
3.5 (3–6) |
Multifocal IOL |
7 |
131 (112–145) |
3 (3–5) |
SMILE-FemtoLASIK comparison |
6 |
116 (97–132) |
1.5 (0–12) |
Toric IOL |
6 |
175 (148–181) |
7 (4–8) |
Trifocal IOL |
5 |
106 (105–123) |
7 (3–10) |
SMILE-LASIK comparison |
3 |
148 (132–176) |
4 (3.5–14.5) |
Phakic IOL |
3 |
129 (116–132.50) |
3 (3–5) |
LASIK |
2 |
108 (106–110) |
2.5 (1–4) |
Presbyopia correction procedures |
2 |
96 (105–123) |
4.5 (4–5) |
Others |
6 |
111.5 (105–113) |
7.5 (7–18) |
AN – number of articles, CN – number of citations, AS – altmetric score, SMILE – small-incision lenticule extraction, LASIK – laser-assisted in-situ keratomileusis, IOL – intraocular lens
Table 3. Number of citations and altmetric scores of top 50 articles, ranked according to the study types and publication year
Study Type |
AN |
CN |
AS |
|||||
Prospective comparative |
14 |
110.5 (101–132) |
3 (1–12) |
|||||
Prospective observational |
13 |
137 (112–177) |
6 (3–7) |
|||||
Review |
10 |
117 (97–135) |
5.5 (3–8) |
|||||
Prospective randomized |
3 |
114 (108–147) |
4 (3.5–4) |
|||||
Prospective non-randomized |
2 |
310 (97–523) |
7 (2–12) |
|||||
Retrospective case series |
2 |
191.5 (136–247) |
5 (3–7) |
|||||
Retrospective obsevational |
2 |
101.5 (93–110) |
7 (4–10) |
|||||
Systematic review and meta analyse |
1 |
136 (NA) |
7 (NA) |
|||||
Retrospective comparative |
1 |
106 (NA) |
1 (NA) |
|||||
Evaluation of diagnostic test |
1 |
140 (NA) |
10 (NA) |
|||||
Computational modeling study |
1 |
116 (NA) |
4 (NA) |
|||||
Publication year |
||||||||
2010 |
8 |
110 (104–126) |
3 (3–3) |
|||||
2011 |
7 |
140 (104–324) |
3 (3–7) |
|||||
2012 |
4 |
138.5 (121–161.50) |
5 (3–7.5) |
|||||
2013 |
6 |
152 (123–177) |
7 (6–8) |
|||||
2014 |
13 |
129 (106–136) |
4 (2–7) |
|||||
2015 |
1 |
148 (NA) |
25 (NA) |
|||||
2016 |
7 |
97 (96–99) |
6 (3–12.5) |
|||||
2017 |
2 |
123.5 (112–135) |
10.5 (7–14) |
|||||
2018 |
1 |
111 (NA) |
19 (NA) |
|||||
2019 |
1 |
97 (NA) |
5 (NA) |
|||||
|
AS |
CN |
ACpY |
PY |
NYsP |
IF |
5 year IF |
H index |
AS |
1 |
0.072 |
0.319* |
0.369** |
0.065 |
0.320* |
0.295* |
0.003 |
CN |
0.622 |
1 |
0.500** |
-0.240 |
0.174 |
0.041 |
0.025 |
0.072 |
ACpY |
0.024 |
< 0.001 |
1 |
0.603** |
0.199 |
0.361* |
0.345* |
0.065 |
PY |
0.008 |
0.093 |
< 0.001 |
1 |
-0.020 |
0.392** |
0.387** |
-0.008 |
NYsP |
0.659 |
0.236 |
0.175 |
0.890 |
1 |
-0.021 |
-0.033 |
0.039 |
IF |
0.024 |
0.775 |
0.01 |
0.005 |
0.886 |
1 |
0.998** |
0.410** |
5 year IF |
0.038 |
0.862 |
0.014 |
0.006 |
0.825 |
< 0.001 |
1 |
0.425** |
H index |
0.981 |
0.618 |
0.652 |
0.958 |
0.792 |
0.003 |
0.002 |
1 |
The values above the diagonal consisting of one value extending from the top left to the bottom right represent the ”R” value, and the values below represent the ”P” value.
*Correlation is significant at the .05 level (2-tailed)
**Correlation is significant at the .01 level (2-tailed)
CN – number of citations, NYsP – number of years since publication, AS – altmetric score, ACpY – average citation per year, IF – impact factor, PY – publication year
RESULTS
The Web of Science search revealed that 5 978 articles on refractive surgery were listed in the Ophthalmology category between 2010 and 2020. The CN of the 50 articles ranged from 83 to 523, and the median citation number was 119.5 (IQR 102.75–146.5). The most cited article was “Small incision corneal refractive surgery using the small incision lenticule extraction (SMILE) procedure for the correction of myopia and myopic astigmatism: results of a 6-month prospective study”, written by Secundo and published in the “British Journal of Ophthalmology” in 2011 and the number of citations was 523. The AS of the top 50 articles ranged from 0 to 25, and the median AS was 4 (IQR 3–8). The article with the highest number of AS was “Dry Eye Disease after Refractive Surgery Comparative Outcomes of Small Incision Lenticule Extraction versus LASIK” by Denoyer and published in the journal “Ophthalmology” in 2015, and its AS was 25. The top 50 articles were written by 43 first authors and published in 10 different Ophthalmology journals (Table 1). The journal with the highest number of articles in the top 50 list was “The Journal of Cataract and Refractive Surgery” with 24 articles. When the journals were evaluated according to the “Scimago Journal and Country Rank” category, all journals were in the Q1 category. The journal with the highest impact factor was “Survey of Ophthalmology”; the journal with the highest 5-year impact factor was “Progress in Retinal and Eye Research” and the journal with the highest H-index was “Ophthalmology” (Table 1). Articles in the top 50 list were separated by study topic (Table 2). Most article topics were related to small-incision lenticule extraction (SMILE); the most frequently cited article topic was “Toric Intraocular Lens” (IOL), and the topics with the highest AS were the toric IOL and trifocal IOL groups (Table 2). When articles were separated by study type, there were 39 original research articles and 11 review articles (Table 3). The number of articles, CN, and AS by year of publication of the articles are shown in Table 3. The year in which the most articles were published was 2014 (Table 3). The results of the correlation analysis between CN, NYsP, AS, ACpY, IF, 5 year-IF, PY, and H index, are shown in Table 4. There was a weak positive correlation between AS and AcpY, PY, IF, and 5-year IF, and there was a strong positive correlation between CN and ACpY, but there was no correlation between AS and CN and H-index (Table 4). The titles, first authors, PY, CN, ACpY, and AS of all articles are shown in Table 5. Three of the top 50 articles did not have AS.
DISCUSSION
The impact of scientific research on academia is assessed by the CN it receives and the journal’s impact factor. The higher the CN an article receives, the higher is its quality and the more it contributes to Science. However, it takes a long time for a scientific article to be cited. In addition, some journals limit the number of article references, which encourages authors to be more selective in their choice of references. With the widespread use of the Internet and social media in recent years, it has become apparent that these criteria, along with the CN of articles, are also important for evaluating the effectiveness of Science, as articles can be published on platforms such as news sites, Twitter, Facebook, blogs, LinkedIn, and YouTube and reach a wider audience. It is possible to interact with the article on the Internet quickly and to reach a large population. Every day, much scientific content is shared on the Internet. All these developments have led to the Altmetric system, a webbased criterion, gaining importance [12]. Altmetrics shows the interactions of scientific research on the Internet and
social media and produces a score. Altmetrics provides metrics for different types of impact and the number of citations. Some authors suggest using Altmetrics as a measure of an article’s “diffuse impact” and citations as a measure of its “scientific impact” [14]. However, Altmetric criteria also have negative aspects. Altmetrics are used by both the researchers and also the public, which can lead to misinterpretation when evaluating articles. In addition, popular topics receive more attention than technical topics. In this case, it becomes difficult to make an objective assessment. Studies that are not newsworthy, especially regarding refractive surgical procedures, receive fewer interactions and have lower Altmetric scores. Some journals use social media to promote their articles, while others do not. In this case, Altmetric values also vary from journal to journal.
Table 5. Top 50 article by metrics
Rank |
Article title |
First author |
PY |
CN |
ACpY |
AS |
1 |
Small incision corneal refractive surgery using the small incision lenticule extraction (SMILE) procedure for the correction of myopia and myopic astigmatism: results of a 6-month prospective study |
Sekundo W |
2011 |
523 |
52.3 |
12 |
2 |
Results of small incision lenticule extraction: All-in-one femtosecond laser refractive surgery |
Shah R |
2011 |
401 |
40.1 |
3 |
3 |
Dissatisfaction after implantation of multifocal intraocular lenses |
de Vries NE |
2011 |
247 |
24.7 |
3 |
4 |
Safety and Complications of More Than 1500 Small-Incision Lenticule Extraction Procedures |
Ivarsen A |
2014 |
235 |
33.57 |
7 |
5 |
Mathematical Model to Compare the Relative Tensile Strength of the Cornea After PRK, LASIK, and Small Incision Lenticule Extraction |
Reinstein DZ |
2013 |
204 |
25.5 |
3 |
6 |
Small-incision lenticule extraction for moderate to high myopia: Predictability, safety, and patient satisfaction |
Vestergaard A |
2012 |
183 |
20.33 |
3 |
7 |
The AcrySof Toric Intraocular Lens in Subjects with Cataracts and Corneal Astigmatism a Randomized, Subject-Masked, Parallel-Group, 1-Year Study |
Holland E |
2010 |
181 |
16.45 |
4 |
8 |
Correcting astigmatism with toric intraocular lenses: Effect of posterior corneal astigmatism |
Koch DD |
2013 |
177 |
22.12 |
11 |
9 |
Toric Intraocular Lenses in the Correction of Astigmatism During Cataract Surgery a Systematic Review and Meta-analysis |
Kessel L |
2016 |
173 |
34.6 |
7 |
10 |
Multifocal intraocular lenses in cataract surgery: Literature review of benefits and side effects |
de Vries NE |
2013 |
156 |
19.5 |
6 |
11 |
Dry Eye Disease after Refractive Surgery Comparative Outcomes of Small Incision Lenticule Extraction versus LASIK |
Denoyer A |
2015 |
148 |
24.66 |
25 |
12 |
Toric intraocular lenses: Historical overview, patient selection, IOL calculation, surgical techniques, clinical outcomes, and complications |
Visser N |
2013 |
148 |
18.5 |
8 |
13 |
Comparison of Visual and Refractive Outcomes Following Femtosecond Laser Assisted LASIK With SMILE in Patients With Myopia or Myopic Astigmatism |
Ganesh S |
2014 |
146 |
20.85 |
2 |
14 |
One-year refractive results, contrast sensitivity, high-order aberrations and complications after myopic small-incision lenticule extraction (ReLEx SMILE) |
Sekundo W |
2014 |
143 |
20.42 |
6 |
15 |
Predictors for the Outcome of Small-incision Lenticule Extraction for Myopia |
Hjortdal JO |
2012 |
140 |
15.55 |
3 |
16 |
Design and qualification of a diffractive trifocal optical profile for intraocular lenses |
Gatinel D |
2011 |
140 |
14 |
10 |
17 |
Central Corneal Volume and Endothelial Cell Count Following Femtosecond Laser-assisted Refractive Cataract Surgery Compared to Conventional Phacoemulsification |
Takacs AI |
2012 |
137 |
15.22 |
8 |
18 |
Eight-Year Follow-up of Posterior Chamber Phakic Intraocular Lens Implantation for Moderate to High Myopia |
Igarashi A |
2014 |
136 |
19.42 |
7 |
19 |
Multifocal intraocular lenses: An overview |
Alio JL |
2017 |
135 |
33.75 |
14 |
20 |
Comparison of the Visual Results After SMILE and Femtosecond Laser-Assisted LASIK for Myopia |
Lin FY |
2014 |
132 |
18.85 |
0 |
21 |
Multifocal intraocular lenses: Relative indications and contraindications for implantation |
Braga-Mele R |
2014 |
131 |
18.71 |
1 |
22 |
Corneal biomechanical effects: Small-incision lenticule extraction versus femtosecond laser-assisted laser in situ keratomileusis |
Wu D |
2014 |
129 |
18.42 |
0 |
23 |
Phakic intraocular lenses Part 2: Results and complications |
Kohnen T |
2010 |
129 |
11.72 |
3 |
24 |
Visual outcomes and subjective experience after bilateral implantation of a new diffractive trifocal intraocular lens |
Sheppard AL |
2013 |
123 |
15.37 |
7 |
25 |
Femtosecond lenticule extraction for the correction of myopia: preliminary 6-month results |
Blum M |
2010 |
123 |
11.18 |
3 |
26 |
Comparison of biomechanical effects of small-incision lenticule extraction and laser in situ keratomileusis: Finite-element analysis |
Roy AS |
2014 |
116 |
16.57 |
4 |
27 |
Intermediate visual function with different multifocal intraocular lens models |
Alfonso JF |
2010 |
114 |
10.36 |
3 |
28 |
Comparison of bifocal and trifocal diffractive and refractive intraocular lenses using an optical bench |
Gatinel D |
2013 |
113 |
14.12 |
7 |
29 |
Visual performance after bilateral implantation of 2 new presbyopiacorrecting intraocular lenses: Trifocal versus extended range of vision |
Monaco G |
2017 |
112 |
28 |
7 |
30 |
A Comparative Evaluation of a New Generation of Diffractive Trifocal and Extended Depth of Focus Intraocular Lenses |
Cochener B |
2018 |
111 |
37 |
19 |
31 |
Association Between the Percent Tissue Altered and Post-Laser in Situ Keratomileusis Ectasia in Eyes with Normal Preoperative Topography |
Santhiago MR |
2014 |
110 |
15.71 |
4 |
32 |
Visual outcomes and optical performance of a monofocal intraocular lens and a new-generation multifocal intraocular lens |
Alio JL |
2011 |
110 |
11 |
3 |
33 |
Outcomes of a new diffractive trifocal intraocular lens |
Mojzis P |
2014 |
106 |
15.14 |
10 |
34 |
Laser in situ keratomileusis flap complications using mechanical microkeratome versus femtosecond laser: Retrospective comparison |
Moshirfar M |
2010 |
106 |
9.63 |
1 |
35 |
IntraLase Femtosecond Laser vs Mechanical Microkeratomes in LASIK for Myopia: A Systematic Review and Meta-analysis |
Chen SH |
2012 |
105 |
11.66 |
7 |
36 |
Effect of astigmatism on visual acuity in eyes with a diffractive multifocal intraocular lens |
Hayashi K |
2010 |
105 |
9.54 |
3 |
37 |
Small incision lenticule extraction (SMILE) and femtosecond laser LASIK: comparison of corneal wound healing and inflammation |
Dong ZX |
2014 |
103 |
14.71 |
12 |
38 |
Phakic intraocular lenses Part 1: Historical overview, current models, selection criteria, and surgical techniques |
Guell JL |
2010 |
103 |
9.36 |
3 |
39 |
Visual and Refractive Outcomes of Femtosecond Lenticule Extraction and Small-Incision Lenticule Extraction for Myopia |
Kamiya K |
2014 |
102 |
14.57 |
4 |
40 |
Comparative Analysis of the Clinical Outcomes with a Monofocal and an Extended Range of Vision Intraocular Lens |
Pedrotti E |
2016 |
101 |
20.2 |
18 |
41 |
Early Corneal Wound Healing and Inflammatory Responses after Refractive Lenticule Extraction (ReLEx) |
Riau AK |
2011 |
98 |
9.8 |
0 |
42 |
Comparison of toric intraocular lenses and peripheral corneal relaxing incisions to treat astigmatism during cataract surgery |
Mingo-Botin D |
2010 |
98 |
8.9 |
3 |
43 |
Presbyopia: Effectiveness of correction strategies |
Wolffsohn JS |
2019 |
97 |
48.5 |
5 |
44 |
Five-year results of Small Incision Lenticule Extraction (ReLEx SMILE) |
Blum M |
2016 |
97 |
19.4 |
6 |
45 |
Clinical Outcomes of SMILE and FS-LASIK Used to Treat Myopia: A Meta-analysis |
Zhang YJ |
2016 |
97 |
19.4 |
24 |
46 |
Trifocal Intraocular Lens Implantation to Treat Visual Demands in Various Distances Following Lens Removal |
Kohnen T |
2016 |
97 |
19.4 |
2 |
47 |
Efficacy and safety of multifocal intraocular lenses following cataract and refractive lens exchange: Metanalysis of peer-reviewed publications |
Rosen E |
2016 |
95 |
19 |
4 |
48 |
Intracorneal inlay to correct presbyopia: Long-term results |
Yilmaz OF |
2011 |
95 |
9.5 |
4 |
49 |
Outcomes of Small Incision Lenticule Extraction (SMILE) in Low Myopia |
Reinstein DZ |
2014 |
93 |
13.28 |
10 |
50 |
Clinical Outcomes After SMILE and Femtosecond Laser-Assisted LASIK for Myopia and Myopic Astigmatism: A Prospective Randomized Comparative Study |
Liu M |
2016 |
83 |
16.6 |
1 |
PY – publication year, CN – number of citations, ACpY – average citation per year, AS – altmetric score
The article with the highest AS in the top 50 list was “Dry Eye Disease after Refractive Surgery Comparative Outcomes of Small Incision Lenticule Extraction versus LASIK”. When patients decide to undergo laser treatment, they have to deal with potential post-treatment side effects in addition to the treatment itself. Therefore, we believe that the comparative outcomes of dry eye disease after SMILE and LASIK treatments have more social interaction. However, the most cited article was “Small incision corneal refractive surgery using the small incision lenticule extraction (SMILE) procedure for the correction of myopia and myopic astigmatism: results of a 6-month prospective study”. This suggests that academics may be more interested in the latest technology treatment techniques such as SMILE in refractive surgery.
In our current study, the most cited articles were in the “Journal of Cataract and Refractive Surgery”. The journals with the highest average AS were the “British Journal of Ophthalmology” and “Survey of Ophthalmology”, and the journal with the highest average CN was “Ophthalmology”. In the top 50 list, the most studied topic in refractive surgery was SMILE. Although the SMILE laser, a relatively new method, compared with other refractive laser procedures, is the most studied topic by researchers, the most cited topic was “toric IOL”, and the topics with the most AS were “toric IOL” and “trifocal IOL”. This indicates that the toric IOL implantation procedure, a suitable option for patients with corneal astigmatism unsuitable for laser correction and who want spectacle independence, is of interest to researchers and the public. In addition, we believe that trifocal IOL implantation, which is a suitable procedure for patients in the presbyopic age group with near, intermediate, and distance vision who want spectacle independence, has received much attention in recent years, because of its increasing popularity and social impact AS.
In the field of refractive surgery, topics of interest to scientists may not be of interest to the general public. In our current study, 3 articles did not have AS. Similarly, Şener et al. performed an Altmetric analysis of articles on uveitis, and 9 articles did not have AS [15]. Again, in the study by Bulut et al., in which they performed an Altmetric analysis of articles on glaucoma, 8 articles did not have AS [16]. As the social importance and popularity of the article’s topic increases, Altmetric activity also increases. In a study evaluating the Altmetric analysis of the 100 most cited articles on Covid 19, which was very popular during the pandemic period, the average Altmetric value was found to be 3 246 ±3 795 (85–16 548) [17].
When the AS values of the top 50 articles in our current study were evaluated by year of publication, the AS values of the articles were higher than in the previous 5 years. We believe that this situation is due to the increasing activity in social networks on the Internet in recent years.
Our current study found no significant correlation between AS and CN, but there was a weak correlation between AS and ACpY. Similarly, in a study conducted in Ophthalmology journals in the field of retina, the authors reported no significant correlation between AS and CN, but a weak correlation between AS and AcpY [18]. In contrast to our study, a study that evaluated articles in general medical and ophthalmic journals on glaucoma found a significant positive correlation between AS, CN, and AcpY [16]. General medical journals have a higher AS than branch journals [19]. Therefore, AS was low in our current study, which included only articles in ophthalmic journals. Articles on a technical topic such as refractive surgery may have attracted less social attention. A weak correlation between AS and CN was reported in a study that performed an Altmetric analysis of articles on Radiology [20].
Limitations of our study are the small number of articles, the inclusion of only English-language articles, using single-search terms, and using time filters. Since almost all articles on refractive surgery are published in Ophthalmology journals, general journals are not included in our current study. Since general journals receive more AS than branch journals, this can also be considered as a limitation of our study. Our current study is the first study in which an Altmetric analysis of “Refractive Surgery” articles was performed.
CONCLUSIONS
Our study provides useful information about which procedures attract more attention in refractive surgery. AS is insufficient, compared with traditional metrics, to show the scientific value of articles on refractive surgery. AS is influenced by social media platforms that are open to the use of not only researchers but also of society. Therefore, it cannot provide objective results. However, AS can be used to supplement traditional metrics and can be improved to provide more reliable results.
Mustafa Berhuni, MD
Batıkent mah 9005 no street 4/3
Gaziantep
E-mail: mustafaberhuni@gmail.com
Submitted to the editorial board: January 24, 2024
Accepted for publication: February 7, 2024
Zdroje
- Lou L, Yao C, Jin Y, Perez V, Ye J. Global Patterns in Health Burden of Uncorrected Refractive Error. Invest Ophthalmol Vis Sci. 2016;57(14):6271-6277.
- Kim TI, Alió Del Barrio JL, Wilkins M, Cochener B, Ang M. Refractive surgery. Lancet. 2019;393(10185):2085-2098.
- O’Brart DP. Excimer laser surface ablation: a review of recent literature. Clin Exp Optom. 2014;97(1):12-17.
- Hersh PS, Brint SF, Maloney RK, et al. Photorefractive keratectomy versus laser in situ keratomileusis for moderate to high myopia. A randomized prospective study. Ophthalmology. 1998;105(8):1512-1523.
- Ang M, Mehta JS, Chan C, Htoon HM, Koh JC, Tan DT. Refractive lenticule extraction: transition and comparison of 3 surgical techniques. J Cataract Refract Surg. 2014;40(9):1415-1424.
- Moshirfar M, McCaughey MV, Reinstein DZ, Shah R, Santiago-Caban L, Fenzl CR. Small-incision lenticule extraction. J Cataract Refract Surg. 2015;41(3):652-665.
- Dong Z, Zhou X, Wu J, et al. Small incision lenticule extraction (SMILE) and femtosecond laser LASIK: comparison of corneal wound healing and inflammation. Br J Ophthalmol. 2014;98(2):263-269.
- Nuzzi R, Tridico F. Comparison of visual outcomes, spectacles dependence and patient satisfaction of multifocal and accommodative intraocular lenses: innovative perspectives for maximal refractive-oriented cataract surgery. BMC Ophthalmol. 2017;17(1):12.
- Alio JL, Plaza-Puche AB, Férnandez-Buenaga R, Pikkel J, Maldonado M. Multifocal intraocular lenses: An overview. Surv Ophthalmol. 2017;62(5):611-634.
- Kessel L, Andresen J, Tendal B, Erngaard D, Flesner P, Hjortdal J. Toric Intraocular Lenses in the Correction of Astigmatism During Cataract Surgery: A Systematic Review and Meta-analysis. Ophthalmology. 2016;123(2):275-286.
- Huang D, Schallhorn SC, Sugar A, et al. Phakic intraocular lens implantation for the correction of myopia: a report by the American Academy of Ophthalmology. Ophthalmology. 2009;116(11):22442258.
- What does Altmetric do? Accessed December 1, 2022. Available from: http://www.altmetric.com/whatwedo.php
- García-Villar C. A critical review on altmetrics: can we measure the social impact factor? Insights Imaging. 2021;12(1):92.
- Trueger NS, Thoma B, Hsu CH, Sullivan D, Peters L, Lin M. The Altmetric Score: A New Measure for Article-Level Dissemination and Impact. Ann Emerg Med. 2015;66(5):549-553.
- Sener H, Evereklioglu C, Horozoglu F. An Analysis of the 50 MostCited “Uveitis” Articles Published Between 2010-2020 From a Bibliographic and Altmetric Perspective. Cureus. 2022;14(10):e29930.
- Bulut E, Celebi ARC, Dokur M, Dayi O. Analysis of trending topics in glaucoma articles from an altmetric perspective. Int Ophthalmol. 2021;41(6):2125-2137.
- Borku Uysal B, Islamoglu MS, Koc S, Karadag M, Dokur M. Most notable 100 articles of COVID-19: an Altmetric study based on bibliometric analysis. Ir J Med Sci. 2021;190(4):1335-1341.
- Sener H, Polat OA. Altmetric analysis of the most-cited 100 articles on the retina published between 2010 and 2020. Retina. 2022;42(2):283-289.
- Polce EM, Kunze KN, Farivar D, et al. Orthopaedic Randomized Controlled Trials Published in General Medical Journals Are Associated With Higher Altmetric Attention Scores and Social Media Attention Than Nonorthopaedic Randomized Controlled Trials. Arthroscopy. 2021;37(4):1261-1270.
- Rosenkrantz AB, Ayoola A, Singh K, Duszak R Jr. Alternative Metrics (“Altmetrics”) for Assessing Article Impact in Popular General Radiology Journals. Acad Radiol. 2017;24(7):891-897.
Štítky
OphthalmologyČlánok vyšiel v časopise
Czech and Slovak Ophthalmology
2024 Číslo Ahead of print
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