Advancements in Life Sciences

Background: The identification of individual is important for both legal and humanitarian reasons. It is of great importance because every individual exists as an entity in a society and is dealt with as such by the legal system. The most commonly used method for identification is fingerprinting which relies on the uniqueness of ridges present on thumbs and fingers. These are unique in arrangements and remain constant throughout an individual’s life. Fingerprints of no two individuals are same even if they are twins. The power of discrimination of the basis of fingerprinting is about one in 64 billion. The study was designed to carry out analysis of fingerprints from mono and dizygotic twins and to differentiate them on the basis of fingerprinting.

Methods: This was a prospective cross-sectional study carried out among 30 pairs of twins including 17 pair of monozygotic twins and 13 pair of dizygotic twins. After taking an informed expressed consent, the participants were asked to press their individual fingers on the stamp pad. They were asked to then put and roll the stamped finger onto an A4 size paper on which blocks for each finger were already made. Both left and right hands were fingerprinted and with the help of magnifying glass, different types were identified including Arches, Composite type, Loops and Whorls. SPSS software was used for data analysis.

Results: There was 7.6% of Arch type, 6.1% of tented arches, 1.5% of plain arches, 62.32% of loops, 6.66% of double loop, and 3.83% of central pocket loop, 44.83% of ulnar loop, 7% of radial loop, 0.83% of accidental loop, 29.93% of whorls, 9% of plain whorl and 20.1% of central the pocket whorl.

Conclusion: When the left and right thumbs are compared with each other using eight (8) points, there are matches on the first six (6) points, matching percentage for each of these pairs of fingers is 75%. But when the both fingers were rotated on 180° and compared, the matching percentage was 87.5%. These 8 points fingerprinting can be used to distinguish twins.

Keywords: Fingerprint; Identification; Twin; Monozygotic; Dizygotic 

Tan X, Bhanu B. Fingerprint matching by genetic algorithms. Pattern Recognition, (2006); 39(3): 465-477.

Indi TS, Raut SD. Biometric Feature Based Person Unique Identification System. International Journal of Computer Applications, (2012); 51(13): 7-12.

Keogh E. An Overview of the Science of Fingerprints. Anil Aggrawal's Internet Journal of Forensic Medicine & Toxicology, (2013); 14(1).

Derbyshire SW. DNA and destiny: Nature and nurture in human behavior. BMJ, (1997); 314(7087): 1137.

Treloar SA. Entwined Lives: Twins and what they tell us about Human BehaviorNancy L Segal, Dutton: New York, 396 pp, 1999, US $27.95 ISBN 0525 94465 6. Twin Research and Human Genetics, (1999); 2(4): 291-292.

Jain AK, Prabhakar S, Pankanti S. On the similarity of identical twin fingerprints. Pattern Recognition, (2002); 35(11): 2653-2663.

Sharma A, Sood V, Singh P, Sharma A. Dermatoglyphics: A review on fingerprints and their changing trends of use. CHRISMED Journal of Health and Research, (2018); 5(3): 167.

Jain AK, Prabhakar S, Pankanti S. Twin test: On discriminability of fingerprints; 2001. Springer. pp. 211-217.

Mishra KN, Srivastava P, Agrawal A, Garg R, Singh A. Minutiae fusion based framework for thumbprint identification of identical twins. International Journal of Intelligent system and application, (2014); 84-

Mateen RM, Tariq A (2019) Crime scene investigation in Pakistan: a perspective. Elsevier.

Igbigbi PS, Msamati BC. Palmar and digital dermatoglyphics of indigenous black Zimbabweans. Medical Science Monitor, (2002); 8(11): CR757-CR761.

Gangadhar M, Rajasekhara Reddy K. Finger dermatoglyphics of Adikarnatakas: a scheduled caste population of Mysore City, Karnataka. Man in India, (2003); 83(1-2): 183-193.

Purkait R. Fingerprint Classification: A comparative study among Mundas and Lodhas. JMFT, (2003); 14(1): 31-32.

Binorkar SV, Kulkarni AB. Study on the fingerprint pattern and gender distribution in and around Nanded district of Maharashtra state. Eur J Forensic Sci Jan-Mar, (2017); 4(1): 1.

Srihari S, Lam S, Govindaraju V, Srihari R, Hull J. Document image understanding. Center of Excellence for Document Analysis and Recognition, State University of New York at Buffalo. (2008).

Gungadin S. Sex determination from fingerprint ridge density. Internet Journal of Medical Update, (2007); 2(2); 1-4.

Nayak VC, Rastogi P, Kanchan T, Yoganarasimha K, Kumar GP, et al. Sex differences from fingerprint ridge density in Chinese and Malaysian population. Forensic science international, (2010); 197(1-3): 67-69.

Jantz RL. Sex and race differences in finger ridge‐count correlations. American journal of physical anthropology, (1977); 46(1): 171-176.

Gutiérrez-Redomero E, Alonso C, Romero E, Galera V. Variability of fingerprint ridge density in a sample of Spanish Caucasians and its application to sex determination. Forensic Science International, (2008); 180(1): 17-22.