Bibliometric profile of the global scientific research on methanol poisoning (1902-2012).

BACKGROUND: Methanol poisoning is on the rise and has been associated with high morbidity and mortality; it has resulted in growing research in the field of toxicology. The aim of this study was to reveal underlying patterns in scientific outputs related to methanol poisoning at the global level by evaluating different bibliometric indices.
METHODS: We searched for publications that contained specific words regarding methanol poisoning in Scopus database.
RESULTS: A total of 912 articles, with 8,317 citations and with an average of 9.1 citations per document, were retrieved on methanol poisoning, and the bulk of the articles were published from the USA (20.9%), followed by Spain (4.4%), Canada (4.3%), India (3.1%), and France (3.0%). The articles were published belonging to 57 countries. No data related to methanol poisoning were published from 155 (73.1%) out of 212 countries. Twenty-one documents (2.3%) were published in Clinical Toxicology, whereas 18 (2.0%) were published in The Lancet.
CONCLUSIONS: Scientific production related to methanol poisoning is increasing. articles have been published in a wide range of journals with a variety of subject areas, most notably clinical toxicology; and the country with the greatest production was the USA.

Introduction

Methanol, also known as methyl alcohol or carbinol, is a highly flammable colourless liquid that may be found in antifreeze solutions, model engine fuel, and solvents including methylated spirits. Methanol may also be produced as a secondary contaminant during the manufacture of ethanol-containing beverages, and high concentrations may be found in alcoholic drinks are by illicit distillation processes that are subject to poor quality control. Accidental methanol exposure may occur in large outbreaks as a result of contaminated alcoholic drinks, and several major outbreaks in developing countries have been associated with high morbidity and mortality [1,2].

Methanol is metabolised slowly by the liver. Toxicity is attributable to its metabolites and, therefore, may be delayed for up to several hours after ingestion. Early clinical features within the first few hours of ingestion include ataxia, dysarthria, nystagmus and reduced conscious level, and may resemble ethanol intoxiciation. Other features include headache, delirium, and vertigo [3]. As metabolite formation progresses, patients may develop a worsening metabolic acidosis and increasing clinical toxicity. Formate is a key metabolite that is capable of evoking optic nerve toxicity, and may cause visual impairment, blindness, with a classical ‘snow field’ pattern of visual loss [4,5]. Optic disc swelling and diminished pupillary light responses may occur. Other recognised features of severe toxicity include seizures, metabolic acidosis with a raised anion gap, acute pancreatitis, hyperglycaemia, cardiac failure, and acute renal failure. In patients that survive, blindness is often permanent, and there may be persistent extrapyramidal neurological features accompanied by subcortical white matter changes demonstrable on magnetic resonance imaging [3].

A number of key strategies exist for managing acute methanol poisoning. Firstly, ethanol competitively inhibits the metabolism of methanol by alcohol dehydrogenase, thereby limiting the formation of toxic metabolites. Alternatively, fomepizole is capable of inhibiting alcohol dehydrogenase and may allow more effective prevention of metabolite formation than ethanol administration. In addition, haemodialysis is an important strategy for removal of methanol and its toxic metabolites, whilst also allowing correction of metabolic acidosis [6].

Methanol poisoning is on the rise [7-10]. Today’s, ethanol poisoning is a distinct multidisciplinary field of research involving all those disciplines that have experienced the greatest increases in healthcare science production such as emergency medicine [11,12], or ophthalmology [13,14], or clinical toxicology [7,8]. Although several bibliometric studies have been conducted to explore factors associated with research activity in toxicology field [15-25], no such bibliometric analysis of the methanol poisoning in the literature has been previously performed. Despite such enormous scientific and legislative efforts to prevent the occupational poisoning in the chemical industry, many people are still exposed to hazardous poisons on a daily basis [26]. Bibliometric studies are increasingly being used for research evaluation in occupational poisoning field [25,27-33]. The main objective of this study was to reveal global scientific output related to methanol poisoning which can serve as guide for researchers in their respective scientific field.

Methods

Search strategy

For this analysis, a search of the SciVerse Scopus online database, a database is owned by Elsevier, was conducted. The Scopus database is an online scientific indexing service containing abstracts and citations for academic journal articles [34].

The keywords used to accomplish the purposes of our study were elected from previous review studies related to methanol poisoning [35,3,36,37]. The systematic search included the following keywords only included in the titles: (methanol or methyl alcohol or wood alcohol or wood spirits) AND (poison or poisoning or intoxication or toxicity or toxic or toxicology or toxicities). The relevant subject category “pharmacology, toxicology and pharmaceutics” in Scopus was used as a control to assess if research growth pattern in methanol poisoning matches that for the scientific research output. The ending date of the search was 31 December 2012. We elected to drop any 2013, and 2014 articles from our search because some of the latest publications from these years may not have been uploaded to the Scopus database by the time of our data collection. We excluded publications that were published as an erratum or, publications which were not related to methanol poisoning. Furthermore, books and book chapter (s) were excluded from analysis because Scopus database focuses on journal activity rather than investigating books and book chapter (s) about methanol poisoning through Scopus might encompass some false negative results. All analysis of citations was completed on 9th November, 2014. The resulting search was as follows: ((TITLE (methanol) OR TITLE (“methyl alcohol”) OR TITLE (“wood alcohol”) OR TITLE (“wood spirits”)) AND (TITLE (poison) OR TITLE (poisoning) OR TITLE (intoxication) OR TITLE (toxicity) OR TITLE (toxic) OR TITLE (toxicology) OR TITLE (toxicities)) AND PUBYEAR < 2013) AND (EXCLUDE (DOCTYPE, “er”) OR EXCLUDE (DOCTYPE, “ch”) OR EXCLUDE (DOCTYPE, “bk”)).

Indices of research productivity

The extracted data were used to generate the following information: year of publication, institutions, collaboration patterns, subject categories, names of publishing journals, and citations pattern. Bibliometric indicators were presented as rank order using the standard competition ranking (SCR). We consider only the ten top-ranked. The visibility and/or scientific impact of research output was assessed using h-index [38]. Furthermore, two other indicators were used for this purpose; the SCImago Journal Rank (SJR) Rank, and the impact factor (IF). The SJR or IF of a publication is not the ideal quality indicator, neither are the citations [39]. Both factors only represent the visibility and/or scientific impact [40]. Data were obtained according to the method proposed in previous bibliometric studies [41,42,22,43,20,24,44,23].

Statistical analysis

All statistical analyses were run with Microsoft Excel and version 15 of Statistical Package for Social Sciences (SPSS) program for analysis. Data presented as median, with interquartile range (IQR) in parentheses, or numbers, with percentages in parentheses. In order to assess the growth pattern of research output we performed a linear and an exponential regression for the trend in publication. Reliability of our method was assessed on a pilot sample (n = 100 documents) by two different researchers to check documents type and compare it with the primary sources (i.e. journals). The information regarding the 100 selected documents were independently assessed by SZ and SA. The Cohen’s kappa value between the two researchers was 0.942. It is suggested that more than 90% reliability should be reached [45-47]. This was an excellent agreement between the two observers and two methods, demonstrating that our method was valid.

Results

From 1902 to 2012, 912 methanol poisoning-related articles were published and indexed in the Scopus database. After screening, nineteen documents were found not related to methanol poisoning, one document was a book and two documents were errata and were excluded. The included documents were comprised of 680 (74.6%) original articles, 69 (7.6%) letters to the editor, 41 (4.5%) review articles, and 122 (13.4%) documents that were categorised as other types of publications such as conference paper, editorial, note, review and short survey. The percentage share of global methanol poisoning research output showed that research output was 11.1% in 1902 to 1962, 37.6% in 1963 to 1992, 21.3% in 1993–2002, and 30% in 2003–2012 (Figure 1). The annual number of publications related to methanol poisoning which were published in the past years (1902–2012) is shown in Figure 1. In order to examine the growing trend, linear and exponential models were applied. This trend, however, is best fit by an exponential model that yields a reduction in the slope of the growth curve (R2 = 0.77) relative to linear (R2 = 0.66) models. A total of 2,088,219 documents were retrieved by Scopus, which represents the total number of documents published globally in leading pharmacology, toxicology and pharmaceutical journals during the study period (1902–2012) according to the methodology stated. This means that the contribution of methanol poisoning to global pharmacology, toxicology and pharmaceutical research output is 0.04%. There was a statistically significant and strong positive correlation between the absolute numbers of published articles in methanol poisoning and numbers of published articles in pharmacology, toxicology and pharmaceutical science during the years of the study period (1902 – 2012); (r = 0.92, p < 0.001). The first article related to methanol poisoning in Scopus was published in The Lancet in 1902 [48]. English-language documents were the most prevalent, (n = 668; 73.2%) followed distantly by Spanish (n = 42; 4.6%), French (n = 37; 4.1%), and Russian-language documents (n = 25; 2.7%).

Figure 1

Number of published documents in the field of methanol poisoning and pharmacology, toxicology and pharmaceutical during the period 1902–2012.

All of the collected data were published from 57 countries. The USA ranked first in the methanol poisoning with 191 publications and 20.9% of the world production. The USA was followed by followed by Spain (4.4%), Canada (4.3%), India (3.1%), and France (3.0%); (Table 1). No data related to methanol poisoning were published from 155 (73.1%) out of 212 countries registered in World Bank online database [49].

Table 1

Research productivity, collaboration, and citation analysis stratified by country and presented as top 10 ranking

SCR a	Country	Articles (%)	h- index	Median (Q1–Q3) of citation	citation average	Collaborations with foreign countries	Number of documents with international authors
1st	USA	191 (20.9)	34	12 (2–27)	21.6	6	9
2nd	Spain	40 (4.4)	5	1 (0.0-4)	3.6	2	2
3rd	Canada	39 (4.3)	14	9 (2–20)	15.1	3	3
4th	India	28 (3.1)	7	2.5 (1–8.3)	5.9	NA	NA
5th	France	27 (3.0)	9	3 (0.0-16)	9.6	3	3
6th	Turkey	26 (2.9)	7	2.5 (0.0-8.5)	6.1	NA	NA
7th	Poland	25 (2.7)	10	4 (1–18.5)	8.9	NA	NA
8th	Belgium	23 (2.5)	12	13 (5–30)	14.3	2	1
9th	Norway	22 (2.4)	11	12 (1–41.3)	22	5	6
10th	Iran	19 (2.1)	6	2 (0.0-10)	7.3	3	1
10th	Germany	19 (2.1)	4	1 (0.0-4.0)	2.4	NA	NA

SCR = Standard Competition Ranking; USA = United States of America; UK = United Kingdom; Q1–Q3 = lower quartile – upper quartile; NA = not available.

aEqual countries have the same ranking number, and then a gap is left in the ranking numbers.

The total number of citations for all publications was 8,317, with a median (IQR) of 2 (0.0–10.0) and a mean of 9.1 citations. The highest median number (IQR) of citations was 13 (5–30) for Belgium, followed by 12 (2–27) for the USA and 12 (1–41.3) for Norway. The h-index of the retrieved articles was 42 (i.e. 42 articles had been cited at least 42 times). The highest h-index was 34 for the USA, followed by 14 for Canada. In addition, the highest number of collaborations for each country was achieved by the USA, with 6 countries, followed by 5 countries for Norway (Table 1).

Table 2 shows the top 10 journals in which methanol poisoning-related articles were published. Twenty-one documents (2.3%) were published in Clinical Toxicology, whereas 18 (2.0%) were published in The Lancet. Five journals from the top 10 ranking journals had SJR < 1. Only one journal in the top 10 ranking journals was not listed in the JCR 2013.

Table 2

Ranking of the top 10 journals in which articles related to methanol poisoning were published with their corresponding impact factors

SCR a	Journal	Frequency (%) b n = 912	IF c	SJR d	Subject Categories e
1st	Clinical Toxicology	21 (2.3)	3.122	1.129	Toxicology
2nd	Lancet	18 (2.0)	39.207	11.563	Medicine, General & Internal
3rd	American Journal of Ophthalmology	15 (1.6)	4.021	2.881	Ophthalmology
3th	Journal of Toxicology Clinical Toxicology	15 (1.6)	NA f	NA f	Toxicology
5th	Annals of Emergency Medicine	12 (1.3)	4.333	1.726	Emergency Medicine
6th	Veterinary and Human Toxicology	9 (1.0)	0.66	0.199	Toxicology; Veterinary
7th	Tidsskrift for Den Norske Laegeforening	7 (0.8)	NA	0.181	Medicineg
7th	Clinical Chemistry	7 (0.8)	7.768	2.395	Medical Laboratory Technology
7th	Medicina Intensiva	7 (0.8)	1.24	0.304	Critical Care Medicine
7th	Medical Journal of Australia	7 (0.8)	3.789	0.899	Medicine, General & Internal
7th	Biochemical Pharmacology	7 (0.8)	4.65	1.994	Pharmacology & Pharmacy
7th	Human and Experimental Toxicology	7 (0.8)	1.407	0.538	Toxicology

Abbreviations: SCR = Standard Competition Ranking; SJR = SCImago Journal Rank; NA = not available; IF = impact factor.

aEqual journals have the same ranking number, and then a gap is left in the ranking numbers.

bPercentage of publications for each journal by the total number of articles related to methanol poisoning.

cThe impact factor was reported according to the Institute for Scientific Information (ISI) journal citation reports (JCR) 2013.

dSJR was reported according to the SCImago Web site.

eSubject Categories was reported according to the ISI JCR 2013.

fContinued as: Clinical Toxicology.

gSubject Categories was reported according to the SCImago Web site.

Table 3 shows the most frequently cited articles related to methanol poisoning from 1902 to 2012 [3,50-56,4,57]. The first article that got the most citations was published in Medical Toxicology and Adverse Drug Experience in 1986, has received 227 citations, and the second article, was published in Journal of Toxicology-Clinical Toxicology in 2002, has got 222 citations. The number of articles without citations was 336, which corresponds to 36.8% of the total. The most cited documents in methanol poisoning were review articles. Table 4 lists the most prolific institutions with higher quantities of articles related to methanol poisoning. The most prolific institution was Uniwersytet Medyczny w Bialymstoku, Poland (2.4% of total publications), and University of Iowa, USA (0.8%), followed by Cliniques Universitaires Saint-Luc, Brussels, Belgium (1.6%), and Ulleval University Hospital, Norway (1.6%).

Table 3

Top 10 cited documents related to methanol poisoning in [3,50-56,4,57]

SCR	Authors and year of publication	Title	Source title	Cited by	Article type
1st	Jacobsen and McMartin 1986 [53]	Methanol and ethylene glycol poisonings. Mechanism of toxicity, clinical course, diagnosis and treatment	Medical Toxicology and Adverse Drug Experience	227	Review
2nd	Barceloux et al. 2002 [3]	American Academy of Clinical Toxicology practice guidelines on the treatment of methanol poisoning	Journal of Toxicology - Clinical Toxicology	222	Review
3rd	Brent et al. 2001 [51]	Fomepizole for the treatment of methanol poisoning	New England Journal of Medicine	197	Article
4th	Eells 2003 [52]	Therapeutic photobiomodulation for methanol-induced retinal toxicity	Proceedings of the National Academy of Sciences of the United States of America	172	Article
5th	Jacobsen and McMartin 1997 [54]	Antidotes for methanol and ethylene glycol poisoning	Journal of Toxicology - Clinical Toxicology	130	Review
6th	Liesivuori and Savolainen 1991 [56]	Methanol and formic acid toxicity: Biochemical mechanisms	Pharmacology and Toxicology	129	Review
7th	Tephly 1991 [57]	The toxicity of methanol	Life Sciences	115	Review
8th	McMartin et al. 1980 [4]	Methanol poisoning in human subjects. Role of formic acid accumulation in the metabolic acidosis	American Journal of Medicine	107	Article
8th	BENNETT Jr et al. 1953 [50]	Acute methyl alcohol poisoning: a review based on experiences in an outbreak of 323 cases.	Medicine	85	Article
10th	Kruse 1992 [55]	Methanol poisoning	Intensive Care Medicine	81	Review

Table 4

Top 10 most highly productive institutions that published articles related to methanol poisoning

SCR a	Institution	Country	No. of documents (%)
1st	Uniwersytet Medyczny w Bialymstoku	Poland	22 (2.4)
1st	University of Iowa	USA	22 (2.4)
3rd	Cliniques Universitaires Saint-Luc, Brussels	Belgium	15 (1.6)
3rd	Ulleval University Hospital	Norway	15 (1.6)
5th	Medical College of Wisconsin	USA	10 (1.1)
5h	United States Environmental Protection Agency	USA	10 (1.1)
5th	Tehran University of Medical Sciences	Iran	10 (1.1)
8th	Universiti Sains Malaysia	Malaysia	7 (0.8)
9th	University of Madras	India	6 (0.7)
9th	VA Medical Center	USA	6 (0.7)
9th	Yale University School of Medicine	USA	6 (0.7)
9th	University of Colorado School of Medicine	USA	6 (0.7)

Abbreviations: SCR = Standard Competition Ranking; USA = United States of America; UK = United Kingdom.

aEqual institutions have the same ranking number, and then a gap is left in the ranking numbers.

Discussion

The present study has demonstrated a number of characteristics of methanol poisoning research: the progressive growth of publications worldwide; research productivity of the most prolific institutions; the publication of articles in a wide variety of journals in various subject areas; scientific research productivity and collaboration patterns by country; and the citations received by the publications during the period 1902–2012. To analyse the research on methanol poisoning, the Scopus database, which is commonly used in bibliometric researches investigating scientific activity, was preferred and used in our study. The Scopus has numerous advantages over others, as it has a relatively large database that indexes a larger number of journals than PubMed and Web of Science [41,42,22,43,58].

The total publications linked to methanol poisoning were available in Scopus database between 1902 and 2012 showed that research productivity was low in the first decades but demonstrated an apparent increase in the late 1980s and early 1990s, with peak publications in 2012. Our study reveals evidence that research productivity related to methanol poisoning have followed the general development in scientific research output related to toxicology field [15-19,21-24]. In part, this productivity has been motivated by most recent interest in the outbreaks of methanol alcohol poisoning which have occurred in many countries during the last three decades [9,59-62,10,8]. Another explanation for this increase is that in the late 1990s the U.S. Food and Drug Administration (FDA) granted formal approval of fomepizole for the treatment of methanol poisoning [63].

Some of the results are similar to those found in previous bibliometric studies in other fields [23,44,24], mainly the fact that the USA leads scientific production at global level and the international collaboration networks, also have the highest citation rates [64,23]. In the current study, the average citation rate for methanol poisoning publications was 9.1 citations per article. This also accords with our earlier observations, which showed that the average citation rate for other toxicology fields was similar to or higher than the average citation of documents published in methanol poisoning [23,41]. In a relatively small discipline such as toxicology, the impact factors of journals related to toxicology are generally lower compared with those in other scientific disciplines broader, such as clinical medicine and greatly lower than hot research areas like genetics and molecular biology [65,43,66-68,19]. Additionally, case studies in poisoning are usually poorly cited [69].

The most interesting finding was that international collaboration networks in our study are somewhat lesser than that found in previous bibliometric studies with different field [23,44]. Previous studies have revealed the significance of international collaboration, which enhances the quality of the research by increasing citations rate [70-72]. Furthermore, collaborative research allows scientists to participate for the development of new policy for controlling methanol outbreaks to decrease morbidity and mortality associated with such outbreaks [10]. Our study demonstrated that research activity related to methanol poisoning was low or not available in most countries. Additionally, the research output related to methanol poisoning was deviated to developed countries. These findings demonstrate more support for data from a previous study documented that toxicology field is underrepresented in developing countries [22], despite the higher occurrence of methanol and certain other poisonings in these countries [73]. An international working group has previously shown that collection of data concerning poisoning cases is inconsistent, and accurate comparison of rates or clinical severity between nations is not feasible [74].

The ten most prolific countries that were published in methanol poisoning includes new nations different from the familiar other scientific productivity ranking [75]. Particularly, the existing data demonstrated that Turkey and Iran have been the major research contributors from the Middle East. Countries with rapidly growing socio-economies, which results in more funds for conducting research [76,77], contribute to the increasing number of publications regarding methanol poisoning. Furthermore, population size is one of the most important factors related to research productivity such as in India. In addition, the tragedy story of methanol outbreaks in Turkey and Iran that resulted in large morbidity and mortality associated with such outbreaks [78,73] may elucidate why more research has focused on methanol poisoning since that time.

The clinical toxicology Journal, formerly Clinical Toxicology, has published the greatest number of publications related methanol poisoning, which is logical because it is specific for the poisoning. In addition, it is notable that most of articles have been published in high-impact journals, such as Lancet. As shown, the papers were published both in toxicological and non-toxicological subject areas, such as emergency medicine; ophthalmology; medicine, general and internal; and pharmacology and pharmacy journals, which reveals the contribution and collaboration of many researchers from different subject areas. This type of collaboration is essential in a poisoning treatment such as methanol poisoning, which needs integrated, multidisciplinary research areas among various biomedical scientists. Regarding the visibility and/or scientific impact of publications, in current study the number of documents without citations represents 36.8% of the total. The percentage of documents without citations found in other bibliometric studies varies widely. A previous study documented that in cardiovascular research, 34.3% of documents remain without citations [79]. Moreover, the same study found that documents without citations in the field of multiple sclerosis represented 14.88% of the total [79]. In our study, the most cited documents in methanol poisoning were review articles. As well as, review articles, tend to get more citations than others [80,81].

The present study is not without limitations, most of which were acknowledged by the authors in previous similar studies [82,24,79,42,44,23,22,43]. First, because we used only the Scopus database to search publications, therefore, data published in non-Scopus were not included. However, the advantages of Scopus database (i.e. most reliable service for publications and citations) should not be forgotten. Another limitation of this study is that we included only terms as keywords in the title, thus the results being incomprehensible. An original article might have been presented as conference abstracts and it was not possible to exclude these duplicates. In addition, our study does not focus particularly on research articles only, which some would argue to have been favorable, because we suppose our search approach gives a better indication of overall interest in the field of methanol poisoning.

Conclusion

The most imperative conclusions in this study are: 1) there has been an obvious increase in the total number of papers published in the field of methanol poisoning, verifying the importance of worldwide research on this topic; 2) articles have been published in a wide range of journals with a variety of subject areas, mostly in clinical toxicology; and finally 3) internationally collaborated articles were more prevalent with the USA. An increase in international collaboration would lead to increase quality of publications due to the sharing of ideas and workloads. Gaps from most countries have been identified in the literature that has implications for future research. The potential for more collaboration is argued to gain a better understanding of the status of methanol poisoning in most worldwide countries from the viewpoint of epidemiological data, and treatment practices.