В статье представлен анализ исследований в области дерматоглифики по установлению роли наследственности в проявлении гребневых паттернов. Дерматоглифические паттерны, часто используемые в криминалистике, являются ценными в диагностике многих заболеваний, связанных с хромосомальными или генетическими нарушениями. Как показывают достижения последних лет в области исследования генома человека, имеется явная связь показателей дерматоглифики с генетическими параметрами, в частности, с полиморфизмом конкретных генов. Несмотря на небольшое количество исследований в данной области, выявленные положительные связи могут быть полезными в создании скрининговых методов на основе дерматоглифики для выявления комплекса генетических полиморфизмов, связанных как с развитием заболеваний, так и спортивными достижениями.
Ушбу мақолада дерматоглифика соҳасига оид тароқсимон нақшларнинг пайдо бўлишидаги ирсиятнинг роли ҳақидаги тадқиқотлар таҳлил қилинган. Криминалистика соҳасида тез-тез ишлатилувчи дерматоглифик нақшлар хромосомал ёки генетик касалликларга ташҳис қўйишда аҳамияти катта. Сўнгги йиллардаги инсон геномини таҳлил қилиш борасида эришилган ютуқлар туфайли дерматоглифик кўрсаткичлар билан генетик кўрсаткичлар орасидаги, хусусан, маълум генлар полиморфизми билан боғлиқлик долзарб бўлиб қолмоқда. Саноқли илмий мақолалардаги маълумотларга кўра, аниқланган ижобий боғлиқлик касалликлар ривожланиши ва спортдаги ютуқлар билан боғлиқ генетик полиморфизм мажмуини аниқлаш учун дерматоглификага асосланган скрининг усулларини яратишда муҳим эканлигини кўрсатади.
В статье представлен анализ исследований в области дерматоглифики по установлению роли наследственности в проявлении гребневых паттернов. Дерматоглифические паттерны, часто используемые в криминалистике, являются ценными в диагностике многих заболеваний, связанных с хромосомальными или генетическими нарушениями. Как показывают достижения последних лет в области исследования генома человека, имеется явная связь показателей дерматоглифики с генетическими параметрами, в частности, с полиморфизмом конкретных генов. Несмотря на небольшое количество исследований в данной области, выявленные положительные связи могут быть полезными в создании скрининговых методов на основе дерматоглифики для выявления комплекса генетических полиморфизмов, связанных как с развитием заболеваний, так и спортивными достижениями.
The article presents the analysis of the research in the field of dermatoglyphics, in particular on the establishment of the role of heredity in the manifestation of comb patterns. Dermatoglyphic patterns, often used in forensic analysis, are valuable in diagnosing many diseases associated with chromosomal or genetic disorders. As recent achievements in the field of the human genome study show, there is a clear connection between dermatoglyphic indicators and genetic parameters, in particular, with the polymorphism of specific genes. Dispite a small amountof research in this area, the positive relationships may be useful in creating the screening methods based on dermatoglyphics to identify a complex of genetic polymorphisms associated with both the development of diseases and achievements in sports.
№ | Muallifning F.I.Sh. | Lavozimi | Tashkilot nomi |
---|---|---|---|
1 | Abdurashid A.H. | Tibbiyot fanlari doktori, yetakchi ilmiy xodim | Milliy qoshidagi Respublika sport tibbiyoti ilmiy-amaliy markazi O'zbekiston Respublikasi Olimpiya qo'mitasi |
2 | Mavlyanov I.R. | Tibbiyot fanlari doktori, bosh ilmiy xodim | Milliy qoshidagi Respublika sport tibbiyoti ilmiy-amaliy markazi O'zbekiston Respublikasi Olimpiya qo'mitasi |
3 | Rahimova N.M. | PhD, mudir laboratoriya | Milliy qoshidagi Respublika sport tibbiyoti ilmiy-amaliy markazi O'zbekiston Respublikasi Olimpiya qo'mitasi |
4 | Kurganov S.K. | Kichik ilmiy xodim | Milliy qoshidagi Respublika sport tibbiyoti ilmiy-amaliy markazi O'zbekiston Respublikasi Olimpiya qo'mitasi |
№ | Havola nomi |
---|---|
1 | Kumbnani H.K. Dermatoglyphics: A Review. Antropologist Special. 2007. (3):285–295. |
2 | Latti B.R., Kalburge J.V. Palmistry in Dentistry. J.Adv. Med. Dent. Scie. 2013; 1(2):25–33. |
3 | Ramani P., Abhilash P.R., Sherlin H.J. et al. Conventional Dermatoglyphics-Revived concept: a review. Int.Journ. of Pharma and Bio Scie. 2011; 3(2):446–458. |
4 | Stephen M. Stigler Galton and Identification by Fingerprints. Genetics 1995; 140:857-860. |
5 | Penrose L.S., Ohara P.T. The development of the epidermal ridges. J. Med. Genet. 1973; 10(3):201–208. |
6 | Manfredini M., Breschi M., Mazzoni S. Spouse selection by health status and physical traits. Sardinia, 1856–1925. Am. J. Phys. Anthropol. 2010; 141(2):290–296. |
7 | Samani S. Important criteria for spouse selection in a sample of Iranian youth. Psychol Rep. 2007; 100(1):59–65. |
8 | Samani S., Ryan B.A. Spouse selection: important criteria and age preferences of an Iranian sample. Psychol. Rep. 2008; 103(2):535–544. |
9 | Machado J.F., Fernandes P.R., Roquetti R.W., Filho J.F. Digital dermatoglyphic heritability differences as evidenced by a female twin study. Twin Res Hum Genet. 2010; 13:482–489 |
10 | Asen D. Secrets in fingerprints: clinical ambitions and uncertainty in dermatoglyphics. CMAJ2018; 190:E597- 599. |
11 | Xiao Yang, JinXiaojun, Zhou Yixuan, Liu Hui. Genetic rules for the dermatoglyphics of human fingertips and their role in spouse selection: a preliminary study. Springerplus. 2016;5(1):1396. |
12 | Navit S., Chadha D., Khan S.A.et al. The mystery of handprints: Assesment and correlation of dermatoglyphics with early childhood caries a case-control study. J ClinDiagn Res. 2015; 9:ZC44–ZC48. |
13 | Cartwright J. Labyrinthine Turing pattern formation in the cerebral cortex. Journal of theoretical biology. 2002; 217(1):97–103. |
14 | Kapral R., Showalter K. Chemical waves and patterns. Vol.10. Kluwer Academic Pub; 1995. |
15 | Asen D. ‘Dermatoglyphics’ and race after the Second World War: the view from East Asia. In: Manning P., Savelli M., editors. Global transformations in the life sciences, 1945–1980. Pittsburgh: University of Pittsburgh Press; 2018. |
16 | Cummins H., Talley C., Platou R.V. Palmar dermatoglyphics in mongolism. Pediatrics. 1950; 5(2):241–248. |
17 | Miller F.A. Dermatoglyphics and the persistence of ‘mongolism’: networks of technology, disease and discipline. Soc. Stud. Sci. 2003; 33:75-94. |
18 | Wright D. Down’s: the history of a disability. New York: Oxford University Press; 2011. |
19 | Matsukura T. Studies on the inheritance of fingerprints. Med. J. Osaka Univ. 1967; 18:227-268. |
20 | Golembo-Smith S., Walder D.J., Daly M.P. et al. The presentation of dermatoglyphic abnormalities in schizophrenia: a meta-analytic review. Schizophr Res. 2012; 142(1–3):1–11. |
21 | Martin J.H., Jessell T.M. Modality coding in the somatic sensory system. In Principles of Neural Science, 1991; 3-rd edn (ed. Kandel ER, Schwartz JH, Jessell TM), pp. 341-352. Norwalk, CT: Appleton & Lange. |
22 | Medland S.E., Loesch D.Z., Mdzewski B.et al.Linkage analysis of a model quantitative trait in humans: finger ridge count shows significant multivariate linkage to 5q14.1. PLoS Genet. 2007;3:1736–1744. |
23 | Eslami N., Jahanbin A., Ezzati A. et al. Can dermatoglyphics be used as a marker for predicting future malocclusions. Electron Physician? 2016;8:1927–1932. |
24 | Harika D.J., Sridevi E., Sankar A.J. Dermatoglyphic Analysis in Parents with Cleft Children: A Comparative Study Contemp Clin Dent. 2018; 9 (Suppl 2):S291–S298. |
25 | Neha M., Kalpana B., Dayashankar RJ.B., Radhika C. Comparison of dermatoglyphic traits and dental anomalies associated with cleft lip or cleft lip and palate patients with normal healthy children. J Indian Soc Pedod Prev Dent. 2013;31(4):260–264. |
26 | Planas S., Andreu-Fernández V., Martín M. et al. Dermatoglyphics in children prenatally exposed to alcohol: Fluctuating asymmetry (FA) as a biomarker of alcohol exposure. Early Hum Dev. 2018;127:90–95. |
27 | Alfred T., Ben-Shlomo Y., Cooper R. et al. ACTN3 Genotype, Athletic Status, and Life Course Physical Capability: Meta-Analysis of the Published Literature and Findings from Nine Studies. Hum Mutat. 2011;32(9):1008–1018. |
28 | Wijerathne BTB, Meier R.J., Agampodi T.C., Agampodi S.B. Dermatoglyphics in hypertension: a review. J Physiol Anthropol. 2015;34(1):29 |
29 | Igbigbi P., Msamati B., Ng’ambi T. Plantar and digital dermatoglyphic patterns in Malawian patients with diabetes, hypertension and diabetes with hypertension. International Journal of Diabetes and Metabolism. 2000;9:24–31. |
30 | Yohannes S., Alebie G., Assefa L. Dermatoglyphics in diabetes: a prospective diagnostic aid & early preventive tool. Practical Diabetes. 2015;32(2):1–3. |
31 | Zvi Shamir E., Levy A., Cassan S.M.et al. Do biometric parameters of the hand differentiate schizophrenia from other psychiatric disorders? A comparative evaluation using three mental health modules. Psychiatry Res. 2015;228:425–430. |
32 | Madhavi D., Dorairaj S., Dorairaj SSJ, Kommuru H. Dermatoglyphic Study in Breast Carcinoma Patients. International Journal of Science and Research. 2016;5:837–840. |
33 | Metovic А., Musanovic J., Alicelebic S. et al. Predictive Analysis of Palmar Dermatoglyphics in Patients with Breast Cancer for Small Bosnian-Herzegovinian Population. Med. Arch. 2018;72(5):357–361. |
34 | Ezzati A., Batoei F., Jafari S.A. et al. Dermatoglyphic patterns in cystic fibrosis children. Iran J Pediatr. 2014;24(5):609–616. |
35 | Vedat Sabanciogullari, Seyda Cevik, Kezban Karacan et al. Dermatoglyphic features in patients with multiple sclerosis. Neurosciences (Riyadh). 2014;19(4):281–285. |
36 | Chakravathy P.G., Shirali A., Chowta K.N. et al. A «Handy» tool for hypertension prediction: Dermatoglyphics. Indian Heart J. 2018;70 Suppl 3:S116-S119. |
37 | Lixin Sun, Weilin Xue, Jun Liet al. Palm dermatoglyphs and interleukin-4 receptor polymorphisms in asthma. Biomed Rep. 2017;6(1):21–26. |
38 | Yao J., Zhou B., Zhang et al. A new tumor suppressor LncRNA ADAMTS9-AS2 is regulated by DNMT1 and inhibits migration of glioma cells. Tumor Biol. 2014;35:7935–7944. |
39 | Chavarri-Guerra Y., Soto-Perez-de-Celis E. Images in clinical medicine. Loss of fingerprints. N. Engl. J. Med. 2015;372:e22. |
40 | Sen J., Kanchan T., Mondal N.A. comparison of palmar dermatoglyphics in two ethnic Indian populations of north Bengal, India. J Forensic Sci. 2011;56:109–117. |
41 | Абрамова Т.Ф. Пальцевая дерматоглифика и физические способности. Диссертация на соискание ученой степени д.б.н. М., 2003. |
42 | Ahmetov I.I., Fedotovskaya O.N. Current Progress in Sports Genomics.Adv.Clin. Chem. 2015;70:247-314. |
43 | Ghosh A., Mahajan P.B. Can genotype determine the sports phenotype? A paradigm shift in sports medicine. J. Basic Clin Physiol Pharmacol. 2016;27(4):333-339. |
44 | Ahmetov I.I., Egorova E.S., Gabdrakhmanova L.J., Fedotovskaya O.N. Genes and Athletic Performance: An Update. Med Sport Sci. 2016;61:41-54. |
45 | Lopez-Leon S., Tuvblad C., Forero D.A.Sports genetics: the PPARA gene and athletes' high ability in endurance sports. A systematic review and meta-analysis. Biol Sport. 2016;33(1):3-6. |
46 | Ma F., Yang Y., Li X. et al. The association of sport performance with ACE and ACTN3 genetic polymorphisms: a systematic review and meta-analysis. PloSONe. 2013;8:e54685. |
47 | Yan X., Papadimitriou I., Lidor R., Eynon N. Nature versus Nurture in Determining Athletic Ability. Med Sport Sci. 2016;61:15-28. |
48 | Моссэ И.Б., Гончар А.Л., Жур К.В. и др. Сравнение генотипов спортсменов разной специализации по комплексу генов спортивной успешности // Молекулярная и прикладная генетика. – 2012. – Т.13. – С.19–24. |
49 | Mahajan A.A., Gour K.K., Thakare A.E. The dermatoglyphic patterns in patients of bronchial asthma – a qualitative study. Int J Biol Med Res. 2011;2:806–807. |
50 | Xue W., Han W., Zhou Z.S. ADAM33 polymorphisms are associated with asthma and a distinctive palm dermatoglyphic pattern. Mol. Med. Rep. 2013;8:1795–1800. |