Affiliation:
1. ERCİYES ÜNİVERSİTESİ ANATOMİ ANABİLİM DALI
2. ORDU UNIVERSITY
Abstract
Aim: The morphometry of skeletal remains is of importance to anatomists, forensic experts, and anthropologists. One of the most preferred skeletal remains is the cranium. Orbital morphometry in the cranium and cranium allows us to have information about parameters such as age, gender and lineage. This study was carried out to seek an answer to the question of whether cranium sizes can be estimated from orbital sizes.
Material and Methods: In the study, 21 dry skulls belonging to the were used. Length and width measurements of the cranium and orbit were made. A precision digital caliper was used for measurements.
Results: The ratio of the diameters of the cranium and orbit was calculated as 4.56 on the sagittal axis and 3.35 on the transverse left axis and these ratios were accepted as a related ratio (RR). OrbitRR values were calculated by converging the orbit to the cranium in RR ratios. Statistical validity (Bland Altman Plot) and reliability (Intraclass Correlation Coeffidency) analyzes were performed to evaluate the agreement between the measurements. There was no statistically significant difference between OrbitRR and cranium diameters (p>0.05). Since there was no statistical difference, validity and reliability analysis was performed. It was observed that there was statistical validity between OrbitRR and cranium diameter in the sagittal and transverse axis. In the reliability analysis results, low agreement (r=0.405) was detected in the sagittal (r=0.391) and transverse axis (0.30
Publisher
Medical Records - International Medical Journal
Subject
Colloid and Surface Chemistry,Physical and Theoretical Chemistry
Reference23 articles.
1. Krogman WM, Iscan MY. The human skeleton in forensic medicine. Springfield, USA: Charles C. Thomas. 1986:18-70.
2. Yerli Y, Özkoçak V, Koç F. New approaches ın forensıc anthropology ıdentıfıcatıon studıes. Internatıonal journal of socıal, humanıtıes and admınıstratıve scıences. JOSHAS J. 2021;7:846-56.
3. Pires LAS, Teixeira AR, Leite TFO, et al. Morphometric aspects of the foramen magnum and the orbit in Brazilian dry skulls. Int J Med Res Health Sci. 2016;5:34-42.
4. Bass WM. Missouri Archaeological Society. Human osteology: a laboratory and eld manual. 5th ed. Columbia (MO): Missouri Archaeological Society. 2005.
5. Gnosh R, Chowdhuri S, Maity S. Sexual dimorphism in Right and Left orbital fossa measurements from adult human skulls from an eastern Indian population. J Forensic Sci Med. 2019;79:118-81.