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Central and Eastern European Special Issue

Published online by Cambridge University Press:  09 October 2014

Levente Littvay*
Affiliation:
Central European University, Budapest, Hungary
Julia Métneki
Affiliation:
National Institute for Health Development, Budapest, Hungary
Ádám D. Tárnoki
Affiliation:
Department of Radiology and Oncotherapy, Semmelweis University, Budapest, Hungary
Dávid L. Tárnoki
Affiliation:
Department of Radiology and Oncotherapy, Semmelweis University, Budapest, Hungary
*
address for correspondence: Levente Littvay, Central European University, Nádor u. 9, Budapest 1051, Hungary. E-mail: [email protected]

Extract

From November 16–19, 2014, twin researchers of the world will descend on the lovely city of Budapest, Hungary for the 3rd World Congress on Twin Pregnancy, held in conjunction with the 15th Congress of the International Society of Twin Studies (ISTS). It is the first time a Central and Eastern European country will host the congress. On this occasion, we were honored by the request from the editor of Twin Research and Human Genetics, Nick Martin, to put together a special issue highlighting twin research conducted in Central and Eastern Europe (CEE).

Type
Guest Editorial
Copyright
Copyright © The Author(s) 2014 

From November 16–19, 2014, twin researchers of the world will descend on the lovely city of Budapest, Hungary for the 3rd World Congress on Twin Pregnancy, held in conjunction with the 15th Congress of the International Society of Twin Studies (ISTS). It is the first time a Central and Eastern European country will host the congress. On this occasion, we were honored by the request from the editor of Twin Research and Human Genetics, Nick Martin, to put together a special issue highlighting twin research conducted in Central and Eastern Europe (CEE).

This task turned out to be more difficult than it seems at first glance. The integration of this community in the ISTS is inadequate, to say the least. Just to be able to send out a call, many hours of work went into finding the few dozen names from current and former members and authors who have published in the journal in this field from the CEE region. Beyond published articles in Twin Research and Human Genetics and membership of the ISTS, the poor integration of this community is further highlighted by the fact that when the journal published its third special issue on twin registries of the world, only one registry from the region was included. This was the Hungarian Twin Registry (Littvay et al., Reference Littvay, Métneki, Tárnoki and Tárnoki2013). Prior special issues on registries contained no work from the region.

The situation is hardly an ISTS-specific phenomenon. Many other research communities are also not immune to the circumstances that lead to infrequent membership and insufficient publishing of articles. For example, one of the guest editors of this issue, Levi Littvay, is spearheading similar CEE integration efforts with the International Society of Political Psychology. Since the end of communism, research support in the region has rapidly diminished. The post-communist countries experienced a severe brain drain at the time. Even today, national research support appears as though it was loose change in the car seat cushion in comparison to the resources Western researchers have access to. High conference registration fees, society memberships, and even publication fees obviously count on researchers’ grant support. Unfortunately, for regions blessed with fewer resources, these constitute a severe barrier to entry. This being said, the ISTS has long been helping researchers from the region without adequate grant support, for example, by charging a reduced membership fee.

But the beauty of twin research is that it does not necessarily take money to build a twin registry and conduct high-quality research. The inspiring stories of Nick Martin and Lindon Eaves (and probably many others) going door to door, talking to twins one by one and convincing them to participate in research, taught us that hard work, the love of twin studies, and a good research idea substitute perfectly for the lack of financial resources. And because of this, the region is far from being the twin research wasteland it appears at first glance. There is high-quality, although quite sporadic, work present in the literature. An article in this issue by Oniszczenko and Dragan (Reference Oniszczenko and Dragan2014) reviews their work in Poland. Not present in this special issue is the work by Ana Butkovic, Denis Bratko and colleagues of the Zagreb Twin Registry, which highlights the kind of door-to-door work mentioned above leading to excellent research (Bratko & Butkovic, Reference Bratko and Butkovic2007; Bratko et al., Reference Bratko, Butkovic and Chamorro-Premuzic2010; Butkovic et al., Reference Butkovic, Vukasovic and Bratko2014). Klára Vítková Rulíková, as the head of The Czech Association of Twins and Multiple Birth Clubs, has regularly organized the international twin conferences in Prague, providing the possibility of genetic studies in young twins and multiples. Nancy Segal and Adam and David Tarnoki were also invited to this congress in 2011 and 2012, which was held in the Czech Parliament. The Hungarian Twin Registry was contacted recently by Professor Rafal Ploski, Department of Medical Genetics, Warsaw Medical University, Poland, about starting a project on whole genome/exome sequencing and genomewide methylation analyses in pairs of monozygotic twins discordant for chronic diseases which may have a genetic basis.

We also conducted a search for twin registries, associations and publications in this region; however, only some small twin and multiple associations, mainly for youth (such as the Czech one), were found (Figure 1).

FIGURE 1 Distribution of twin registries, clubs/associations, and published twin studies in Central Eastern Europe.

There is a twin club consisting of young twin pairs in Kosice, Slovakia (www.dvojcata.kat.cz), but there is no twin registry in the country; as mentioned above, this is similar to the Czech Republic. However, more twin clubs have been identified in cities such as Prague, Ostrava, and Plzen (www.dvojcata.org, www.dvojcata-asociace.cz, www.dvojcata.net/klub-dvojcat, www.dvojcata-ostrava. webnode.cz, www.dvojcata-plzen.bluefile.cz). In Poland, there have been some sporadic research articles on twins (Jedrusik et al., Reference Jedrusik, Januszewicz, Busjahn, Wocial, Ignatowska-Switalska, Strelau and Januszewicz2004; Kempińska, Reference Kempińska2006; Oniszczenko & Jakubowska, Reference Oniszczenko and Jakubowska2005), and a twins’ festival has been organized in Szczecin since 1997, though it is not held on a regular basis. As discussed above, there is a Zagreb twin cohort in Croatia. In addition, a twin festival was organized in Omis in 2007 and 2008. There have been no further twin research/gathering activities identified in other CEE countries. An interesting article was published recently about a small village of only 4,000 people, not far from the borders of Hungary, Slovakia, and Romania, called Velikaya Kopanya, where 58 twin pairs live. Ukranian scientists have explored whether the effect of the local drinking water can influence the high rate of twins, or whether the genetic isolation might be responsible for the phenomenon (Merkusheva, Reference Merkusheva2010). Needless to say, the list of twin organizations is far from complete.

When reigniting twin studies in Hungary in the mid-2000s, we were incredibly lucky to build on a strong foundation established by Júlia Métneki and Andrew Czeizel (Czeizel et al., Reference Czeizel, Pazonyi, Métneki and Tomka1979; Reference Czeizel, Métneki and Dudás1994; Métneki & Czeizel, Reference Métneki and Czeizel1987; Métneki et al., Reference Métneki, Czeizel, Flatz and Flatz1984). While the registry of twin and multiple births faded shortly after the end of communism, the volunteer registries were easy to revive and grow through recruitment at twin meet-ups and media coverage of our scientific research. When we started in 2006, we were already able to publish research in abstract books or in low impact topical medical journals (Jermendy et al., Reference Jermendy, Horváth, Littvay, Steinbach, Jermendy, Tárnoki and Osztovits2011a; Reference Jermendy, Littvay, Steinbach, Jermendy, Tárnoki, Tárnoki, Métneki and Osztovits2011b; Tarnoki et al., Reference Tarnoki, Tarnoki, Metneki and Dakay2007; Reference Tarnoki, Tarnoki, Stazi, Medda, Cotichini, Fagnani and Berczi2010; Reference Tarnoki, Tarnoki, Stazi, Medda, Cotichini, Fagnani and Garami2011). Today, we are able to publish articles in mid-to-higher-level journals, clearly highlighting the benefits of investments of CEE twin research (Molnár et al., Reference Molnár, Tárnoki, Tárnoki, Kulcsár, Littvay, Garami and Nádasy2013; Tarnoki et al., Reference Tarnoki, Baracchini, Tarnoki, Lucatelli, Boatta, Zini and Schillaci2012; Reference Tarnoki, Tarnoki, Bogl, Medda, Fagnani, Nisticò and Pietiläinen2013). Of note, collaboration with other twin registries and researchers, such as the Italian Twin Registry (thanks to the continuous support of the head, Professor Maria Antonietta Stazi, and her colleagues) and Professor Kirsi Pietiläinen from the University of Helsinki, Finland, has made our work smoother. While the Hungarian registry is small (650 twin pairs or multiplets, 50% MZ, 50% DZ, 14 triplets, two quadruplet, 70% female, mean age 34 ± 22 years), it is constantly growing. In our 2013 introduction of the registry, these numbers were: 310 adult twin pairs or multiplets (65% MZ, 35% DZ, six triplets, one quadruplet, 70% female, mean age 44 ± 16 years; Littvay et al., Reference Littvay, Métneki, Tárnoki and Tárnoki2013). We counter the limitation of small samples by conducting, for example, radiological research or studies on rare diseases or special devices where small sample sizes are common. Our studies are underpowered and the results show only broad notions of heritability and environmental impact (with very wide confidence intervals); they are also novel and innovative, offering a first insight into the world of heritability for fields that may have thought little about the question. The number of researchers who want to collaborate with us are growing by the day as well, despite early warnings by some peers that this twin research will probably not yield a single impact factor, suggesting we (Adam and David Tarnoki) should look elsewhere if we ever want to receive a PhD.

Undeterred, today we are honored to be helping with the organization of the first Twins Congress in the region and, along with the abstracts of the conference, presenting a diverse set of articles on twin research from CEE and Hungary. First, Pári (Reference Pári2014) presents a historical and demographic overview of twin births in Hungary, followed by Kosinska-Kaczynska et al.'s (Reference Kosinska-Kaczynska, Szymusik, Bomba-Opon, Madej, Oleszczuk, Patro-Malysza and Wielgos2014) Polish multicentric study on late prematurity in twins. Next is Hegedűs et al.'s (Reference Hegedűs, Pári, Drjenovszky and Kónya2014) sociological assessment of what advantages being a twin brings, followed by Molnár et al.'s (Reference Molnár, Kovács, Apor, Tárnoki, Tárnoki, Horváth and Merkely2014) case study of multiple valve disease found in triplets. Finally, Oniszczenko and Dragan's (Reference Oniszczenko and Dragan2014) review of twin research in Poland is followed by an original article by Toth et al. (Reference Toth, Racz, Tarnoki, Tarnoki, Szekelyhidi, Littvay and Nemeth2014), assessing the genetic covariance between central corneal thickness and anterior chamber volume. The special issue is concluded by Vlckova et al.'s (Reference Vlckova, Hancarova, Drabova, Slamova, Koudova, Alanova and Sedlacek2014) gene expression study highlighting that the most modern forms of twin research are present in the region and conducted to the highest standards.

References

Bratko, D., & Butkovic, A. (2007). Stability of genetic and environmental effects from adolescence to young adulthood: Results of Croatian longitudinal twin study of personality. Twin Research and Human Genetics, 10, 151157.CrossRefGoogle ScholarPubMed
Bratko, D., Butkovic, A., & Chamorro-Premuzic, T. (2010). The genetics of general knowledge: A twin study from Croatia. Personality and Individual Differences, 48, 403407.CrossRefGoogle Scholar
Butkovic, A., Vukasovic, T., & Bratko, D. (2014). Sleep duration and personality in Croatian twins. Journal of Sleep Research, 23, 153158.CrossRefGoogle ScholarPubMed
Czeizel, A. E., Métneki, J., & Dudás, I. (1994). Higher rate of multiple births after pericoceptional vitamin supplementation. New England Journal of Medicine, 23, 16871688.CrossRefGoogle Scholar
Czeizel, E., Pazonyi, I., Métneki, J., & Tomka, M. (1979). The first five years of the Budapest Twin Register. Acta Geneticae Medicae et Gemellologiae, 28, 7376.CrossRefGoogle ScholarPubMed
Hegedűs, R., Pári, A., Drjenovszky, Z., & Kónya, H. (2014). Zygosity- and gender-based comparison of twins’ attitudes towards twinship. Twin Research and Human Genetics, 17, 376382.CrossRefGoogle Scholar
Jedrusik, P., Januszewicz, A., Busjahn, A., Wocial, B., Ignatowska-Switalska, H., Strelau, J. C., … Januszewicz, W. (2004). The effects of genetic factors on selected indicators of the activity of the sympathoadrenal system and the renin-angiotensin-aldosterone system in twins. Kardiologia Polska, 61, 423429.Google ScholarPubMed
Jermendy, G., Horváth, T., Littvay, L., Steinbach, R., Jermendy, Á.L., Tárnoki, Á. D., … Osztovits, J. (2011a). Genetikai és környezeti tényezők szerepe a kardiometabolikus kockázati tényezők alakulásában: ikervizsgálatok eredményei. [Role of genetic and environmental factors in the development of cardiometabolic risk factors: results of twin studies]. Metabolizmus, 9, 304309.Google Scholar
Jermendy, G., Littvay, L., Steinbach, R., Jermendy, A., Tárnoki, A., Tárnoki, D., … Métneki, J., & Osztovits, J. (2011b). Heritability of the risk factors for the metabolic syndrome: A twin study. Orvosi Hetilap, 152, 12651271. [Hungarian]CrossRefGoogle ScholarPubMed
Kempińska, A. (2006). An attempt to determine the variability of thermal phenotypes in monozygotic twins. Annales Academiae Medicae Stetinensis, 52, 2934. [Polish]Google ScholarPubMed
Kosinska-Kaczynska, K., Szymusik, I., Bomba-Opon, D., Madej, A., Oleszczuk, J., Patro-Malysza, J., … Wielgos, M. (2014). Late prematurity in twins: Polish multicenter study. Twin Research and Human Genetics, 17, 369375.CrossRefGoogle ScholarPubMed
Littvay, L., Métneki, J., Tárnoki, A. D., & Tárnoki, D. L. (2013). The Hungarian Twin Registry. Twin Research and Human Genetics, 16, 185189.CrossRefGoogle ScholarPubMed
Merkusheva, D. (2010, January 7). Ukraine's twin town revels in special status. Retrieved from http://news.bbc.co.uk/2/hi/europe/8444321.stmGoogle Scholar
Métneki, J., & Czeizel, A. (1987). Griseofulvin teratology. Lancet, 1, 1042.CrossRefGoogle ScholarPubMed
Métneki, J., Czeizel, A., Flatz, S. D., & Flatz, G. (1984). A study of lactose absorption capacity in twins. Human Genetics, 67, 296300.CrossRefGoogle ScholarPubMed
Molnár, A. Á., Kovács, A., Apor, A., Tárnoki, Á. D., Tárnoki, D. L., Horváth, T., … Merkely, B. (2014). Case report of multiple valve disease found in triplets. Twin Research and Human Genetics, 17, 383389.CrossRefGoogle ScholarPubMed
Molnár, A. A., Tárnoki, Á. D., Tárnoki, D. L., Kulcsár, Z., Littvay, L., Garami, Z., … Nádasy, G. L. (2013). Heritability of venous biomechanics. Arteriosclerosis, Thrombosis and Vascular Biology, 33, 152157.CrossRefGoogle ScholarPubMed
Oniszczenko, W., & Dragan, W. L. (2014). From twins to genetic polymorphisms: Behavioural genetic research in Poland. Twin Research and Human Genetics, 17, 390396.CrossRefGoogle ScholarPubMed
Oniszczenko, W., & Jakubowska, U. (2005). Genetic determinants and personality correlates of sociopolitical attitudes in a Polish sample. Twin Research and Human Genetics, 8, 4752.CrossRefGoogle Scholar
Pári, A. (2014). Main characteristics of Hungarian twin and multiple births in the official statistics. Twin Research and Human Genetics, 17, 359368.CrossRefGoogle ScholarPubMed
Tarnoki, A. D., Baracchini, C., Tarnoki, D. L., Lucatelli, P., Boatta, E., Zini, C., … Schillaci, G. (2012). Evidence for a strong genetic influence on carotid plaque characteristics: An international twin study. Stroke, 43, 31683172.CrossRefGoogle Scholar
Tarnoki, A. D., Tarnoki, D. L., Bogl, L. H., Medda, E., Fagnani, C., Nisticò, L., … Pietiläinen, K. H. (2013). Association of body mass index with arterial stiffness and blood pressure components: A twin study. Atherosclerosis, 229, 388395.CrossRefGoogle ScholarPubMed
Tarnoki, A. D., Tarnoki, D. L., Metneki, J., & Dakay, M. (2007). Heredity of susceptibility to weather changes among twin brothers and sisters. Archives of Hungarian Medical Association of America, 15, 19.Google Scholar
Tarnoki, A. D., Tarnoki, D. L., Stazi, M. A., Medda, E., Cotichini, R., Fagnani, C., … Berczi, V. (2010). Twins can help to prevent atherosclerosis disease. Findings of International Twin Study 2009. Biopolymers and Cell, 26, 50.Google Scholar
Tarnoki, A. D., Tarnoki, D. L., Stazi, M. A., Medda, E., Cotichini, R., Fagnani, C., … Garami, Z. (2011). Twins lead to the prevention of atherosclerosis. Preliminary findings of International Twin Study 2009. Journal for Vascular Ultrasound, 35, 6171.CrossRefGoogle Scholar
Toth, G. Z., Racz, A., Tarnoki, A. D., Tarnoki, D. L., Szekelyhidi, Z., Littvay, L., … Nemeth, J. (2014). Genetic covariance between central corneal thickness and anterior chamber volume: A Hungarian twin study. Twin Research and Human Genetics, 17, 397404.CrossRefGoogle ScholarPubMed
Vlckova, M., Hancarova, M., Drabova, J., Slamova, Z., Koudova, M., Alanova, R., … Sedlacek, Z. (2014). Monozygotic twins with 17q21.31 microdeletion syndrome. Twin Research and Human Genetics, 17, 405410.CrossRefGoogle ScholarPubMed
Figure 0

FIGURE 1 Distribution of twin registries, clubs/associations, and published twin studies in Central Eastern Europe.