1.Geometric morphometric analysis of mandibular symphysis in Class III skeletal base
Kui Fei TEO ; Murshida Marizan NOR ; Alizae Marny MOHAMED ; Helmi Mohd Hadi PRITAM
Anatomy & Cell Biology 2022;55(4):433-440
This study aimed to investigate the general mandibular symphysis (MS) shape variation among Class III skeletal base, using geometric morphometric analysis. Pre-treatment lateral cephalometric radiographs of 254 patients aged 11–40 years old, with Class III skeletal base (ANB <1o ) and lower incisor angle (<99o ) were included. Nine-landmarks with x and y coordinates were identified on MS using TPSDig2 software, then exported into Morpho J for shape and statistical analysis. Principal component analysis showed that three main shape dimensions with a total variance of 74.6% represented the majority variation of samples. Procrustes Anova showed the shape of MS in Class III skeletal base to be mainly influenced by gonial angle, incisor inclination and sex (P<0.0001). Canonical variate analysis showed that high gonial angle groups had significantly narrower and elongated MS whereas low gonial angle groups had wider, bulbous and rounded MS (P<0.0001). The ratio of alveolar part to basal part was 1:5 in low gonial angle and 2:3 in high gonial angle. Males had significantly taller MS with narrower B point area compared to females (P<0.0001). Retroclined incisors exhibited taller and retroclined alveolar parts (P<0.0001). The shape of MS in Class III skeletal base varied at the alveolar part, basal part or both and it is influenced by gonial angle, incisor inclination and sex. Hence, understanding the shape variation of MS is important to aid orthodontic treatment planning.
2.Distribution of frontal sinus pattern amongst Malaysian population: a skull radiograph study
Nur Damia IWANI ZULKIFLEE ; Mansharan Kaur CHAINCHEL SINGH ; Aspalilah ALIAS ; Helmi Mohd HADI PRITAM ; Eric CHUNG ; Rani SAKARAN ; Nurul Hannim ZAIDUN ; Choy Ker WOON
Anatomy & Cell Biology 2022;55(3):294-303
Frontal sinus has unique anatomical features that are distinct to every population. However, the distribution of frontal sinus patterns has yet to be explored in the Malaysian population. This study aimed to describe the distribution of frontal sinus patterns among adult Malaysians. 409 adult Malaysian posteroanterior skull radiographs, consisting of 200 males and 209 females of Malay, Chinese, and Indian races aged between 20–69 years old, were included in the study. The frontal sinus patterns were classified according to total and percentage of presence or absence of frontal sinus, symmetry or asymmetrical (right or left dominant), unilateral absence (right or left), bilateral absence, and lobulation. The findings showed that bilateral presence of frontal sinus is common, in 95.4% of individuals and bilateral absence was noted in 2.7% individuals. Unilateral absence was found in 2.0% of individuals. Asymmetrical frontal sinus was observed in 54.5% of population meanwhile 40.8% showed symmetrical frontal sinus. The majority of individuals, regardless of sex, race, and age, possessed 1 to 3 lobes on both sides of the frontal sinus. The findings suggest that the frontal sinus is highly asymmetric, and the absence of the frontal sinus is rare. This morphological variation provides an insight into the landmarking placement for measurement during forensic application and assists neurosurgeons in surgical procedure to avoid breaching of the frontal sinus.
3.Sex estimation using subpubic angle from reconstructed three-dimensional computed tomography pelvic model in a contemporary Malaysian population
Siti Hanum Mohd ALI ; Normaliza OMAR ; Mohamed Swarhib SHAFIE ; Nik Azuan Nik ISMAIL ; Helmi HADI ; Faridah Mohd NOR
Anatomy & Cell Biology 2020;53(1):27-35
Research in forensic anthropology is recent in Malaysia due to limited access to documented skeletal collections. However, advanced imaging techniques provide virtual bone samples for use in morphometric studies to establish population-specific standards by virtual anthropology. This study examined sexual dimorphism in the subpubic angle using a three-dimensional computed tomography model of the pelvis, in a contemporary Malaysian population. The sample comprised multidetector computed tomography (MDCT) scans of 50 male and 50 female adults. Segmentation of the MDCT scans was performed using 3D Slicer, and four landmarks were acquired using Stratovan Checkpoint for the subpubic angle measurement. The technical error of measurement (TEM), relative TEM, and coefficient of reliability (R) exhibited high reliability in measurements. Results showed that the subpubic angle in males was 68.6°±7.6° and in females 87.4°±6.5°. The subpubic angle in females was significantly larger than in males (P<0.001). Inverse correlation was found between the subpubic angle and age, in both males (r=–0.449, P<0.01) and females (r=–0.385, P<0.01). The overall accuracy of sex estimation using the subpubic angle was 94% (P<0.001). The subpubic angle, with a demarcating point of 78.6°, showed a sensitivity and specificity of 94% in the classification of female individuals. In conclusion, sex estimation using the subpu bic angle is highly accurate, with a high degree of expected sensitivity and specificity in the Malaysian population.
4.Two-Dimensional Geometric Morphometric Method on Frontal Sinus for Race Estimation: A Lateral Skull Radiograph Study
Nur Damia Iwani Zulkiflee ; Mansharan Kaur Chainchel Singh ; Aspalilah Alias ; Helmi Hadi ; Eric Chung ; Choy Ker Woon
Malaysian Journal of Medicine and Health Sciences 2024;20(No.1):134-142
Introduction: Race estimation of unknown individual is essential in forensic investigation. The resiliency of frontal
sinus makes it a potential tool for biological profiling, particularly in cases where fragmented skeleton persists. Geometric morphometrics is an efficient way to characterise shape. However, the use of frontal sinus to identify race of
Malaysians is yet to be investigated. This research employed a two-dimensional (2D) geometric morphometric to
examine the morphological differences of the frontal sinus among the major races in Malaysia. Methods: Lateral skull
radiographs which comprising of 453 adult Malaysian (151 Malays, Chinese and Indian respectively) were used. The
2D landmarks of eight were placed on the digitalized radiographs and 2D geometric morphometric analysis was
performed using MorphoJ software. Results: Procrustes ANOVA revealed a significantly different frontal sinus shape
(p-value < 0.05) between races. Canonical variate analysis showed significantly different frontal sinus morphology
(p-value < 0.05) between Malay and Indian as well as Chinese and Indian. Discriminant function analysis with
cross-validation demonstrated a 57.4% accuracy rate. Conclusion: This population-specific study based on frontal
sinus of Malaysians using the 2D geometric morphometric, though less reliable, sheds new light on the potential
applicability of this method for race estimation purpose.