Masters Degrees (Anatomy)
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Browsing Masters Degrees (Anatomy) by Author "Harrichandparsad, Rohen."
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Item An anatomical investigation of intracranial meningiomas.(2021) Anirudh, Ezra Earl.; Lazarus, Lelika.; Harrichandparsad, Rohen.Meningiomas are generally benign, highly vascularised, slow-growing tumours arising from the arachnoid cap cells of the arachnoid villi. The clinical presentation of these tumours is usually location dependant due to the vast expanse covered by the meninges. Resection of a meningioma is generally performed after preoperative embolisation. A feeder vessel is selected and embolised in an attempt to reduce excessive blood loss and postoperative complications. However, embolisation requires a sound knowledge of the vasculature of the meninges since these vessels supply portions of the cranial nerves. Literature consulted have investigated anatomical features of meningioma’s; however, there is a scarcity of studies investigating patients specifically referred for preoperative embolisation. Therefore, this study aimed to investigate the anatomical features, namely the location, histology, volume and vascularity of intracranial meningiomas referred for preoperative embolisation. This entailed using Magnetic resonance imaging (MRI), Digital subtraction angiography (DSA), and the histological reports obtained from the data bank at the central regional hospital in Durban, South Africa. A retrospective chart review yielded 103 patients that met the inclusion criteria, of which 98 patients (subset 1) presented with a single meningioma and 5 patients (subset 2) presented with multiple meningiomas. The average age of patients (at the time of diagnosis) was reported within the 40–49-year group and primarily within the female population (subset 1: 67.3%; subset 2: 80%). The benign grade of meningiomas was reported as the most common (70.4%), of which the meningothelial subtype (48%) was predominant. Meningiomas were mostly observed within the supratentorial region (subset 1: 57.2%; subset 2: 91.7%) with almost equal incidences in subset 1 and a majority on the right side in subset 2. Regarding tumour volume, subset 1 revealed the largest meningiomas within the supratentorial region (90.9 cm3), and subset 2 revealed an average tumour volume of 43.9 cm3. In terms of meningioma vascularity, within the supratentorial region, the external carotid arteries were noted to be a common primary feeder vessel, for the skull base region the primary arterial supply is the internal carotid artery. This study provides insight into the anatomical basis of intracranial meningiomas within a select South African population as it has introduced a novel methodology of meningioma vascularity. This may assist endovascular surgeons in assessing the feeder vessel contributions of meningiomas and understand the prevalence of these anatomical parameters in this population.Item Anterior synostotic plagiocephaly: a quantitative analysis of craniofacial features using computed tomography.(2021) Mohan, Nivana.; Lazarus, Lelika.; Madaree, Anil.; Harrichandparsad, Rohen.Anterior synostotic plagiocephaly (ASP) is caused by the premature fusion of one coronal suture, which results in severe craniofacial asymmetry that can be challenging to correct. The various methods of the surgical procedures, as well as the distinctive facial characteristics of ASP, have been well documented. However, there is a paucity of literature pertaining to the quantitative analysis of the craniofacial features that are affected in ASP. This study used preoperative computed tomography (CT) scans to document and compare the morphometry of the anterior cranial fossa (ACF), orbit, and ear on the ipsilateral (synostotic) and contralateral (non-synostotic) sides in a select South African population of patients diagnosed with ASP. The dimensions of the ACF, orbit and the position of the ear on the ipsilateral and contralateral sides were measured using a set of anatomical landmarks on two-dimensional (2D) CT scans of 18 consecutive patients diagnosed with non-syndromic ASP. The differences between the ipsilateral and contralateral sides were computed and expressed as a percentage of the contralateral side. The findings of this study revealed that there was side-to-side asymmetry in the ACF, orbit, and ear. All ACF parameters decreased significantly (t-test; p<0.001) on the ipsilateral side when compared to the contralateral side, resulting in the volume of the ACF being the most affected (-27.7%). In terms of the orbit, on the ipsilateral side, the length-infraorbital rim (IOR), height, and surface area parameters increased significantly (t-test; p<0.001), with the height being the most affected (24.6%). The remaining orbital parameters (length-supraorbital rim (SOR), breadth and volume) decreased significantly (t-test; p<0.001), with the length-SOR parameter being the most affected (-10.8%). Furthermore, the ipsilateral SOR was noted to be displaced more cranially by an average of 3.89mm from the contralateral SOR. With regards to the position of the ipsilateral ear, it was found to be displaced anteriorly (9.33mm) and caudally (5.87mm) from the contralateral ear. This study augments the existing literature by providing actual values to corroborate the hallmark characteristics of ASP. These measures may help surgeons plan the technique and extent of surgical correction of the affected craniofacial structures during corrective surgery as it will provide them with an indication of the extent of the deformity on the ipsilateral side as compared to the contralateral side. The results of this study have the potential to propose a grading system in ASP patients according to severity of the condition if the sample size is increased.Item Scaphocephaly in a select South African population: a morphometric analysis of the cranial fossae and ventricular access points.(2021) Bisetty, Vensuya.; Lazarus, Lelika.; Madaree, Anil.; Harrichandparsad, Rohen.Scaphocephaly is a cranial deformity that results from premature fusion of the sagittal suture and is characterized by an elongated and narrowed skull. Patients with this condition present with varying clinical features including frontal bossing and occipital protrusion. This study comprised two subsets, analysing different aspects related to this cranial deformity. Most morphological and morphometrical studies in patients with scaphocephaly focus on the cranial vault. Literature on the morphometry of the cranial base and its fossae in these patients is sparse. Therefore, the first subset aimed to analyse and compare the morphometry of the cranial fossae in patients with scaphocephaly. Due to varying cranial morphology among patients with these deformities, ventricular access using conventional techniques is often a challenge. Although ventricular access may not be frequently required in paediatric scaphocephalic patients, it is vital that an ideal location of the access points be established for safe ventricular catheterization. Accordingly, the second subset aimed to document the morphometry of Kocher’s and Frazier’s points in scaphocephalic patients using known craniometric and surface anatomical landmarks. Dimensions of the anterior, middle and posterior cranial fossae (ACF, MCF and PCF) were measured using select anatomical landmarks on computed tomography (CT) scans of 24 consecutive patients diagnosed with scaphocephaly between 2014 and 2020, and 14 non-affected/ normal paediatric patients selected as controls. Parameters of Kocher’s and Frazier’s points were measured in relation to known cranial surface anatomical landmarks on scans of the scaphocephalic patients utilized in subset 1. The study found that ACF and PCF are most affected in scaphocephalic patients, with elongation along the anteroposterior (AP) plane (lengths) (ACF, p=0.041 and PCF, p=0.018). Minimal changes were observed in the transverse plane (widths) in scaphocephaly versus non-affected/normal controls. Regarding subset 2, Kocher’s point was located between 91.6mm and 140mm posterior to the nasion, and between 20.5mm and 34.6mm lateral to the midline in patients with scaphocephaly. Frazier’s point was located between 60.9mm and 82.8mm superior to the inion, and 25.9mm and 41.4mm lateral to the midline. Parameters measured in the AP plane were found to be more affected than those measured lateral from the midline. This study contributes to the literature by providing novel morphometric data based on a select South African population. Data obtained could aid craniofacial surgeons in understanding which cranial fossa is most affected in scaphocephaly and to what extent, to decide on the most appropriate method of treatment. Additionally, the study concluded that the traditional landmarks used for ventricular access are relatively unreliable in scaphocephalic patients. This study provides data for neurosurgical consideration regarding ventricular catheterization procedures in patients with scaphocephaly.