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23 September 2019 | Story Xolisa Mnukwa | Photo Barend Nagel
Prof Puleng LenkaBula
“I want to establish a paradigm shift from community engagement to engaged scholarship, which will transfer science between communities and form reciprocal collaborations in order to create new knowledge, research niche areas, influences, and support systems to aid innovative and progressive teaching and learning processes at the UFS.” – Prof LenkaBula
The University of the Free State (UFS) Vice-Rector: Institutional Change, Student Affairs, and Community Engagement, Prof Puleng LenkaBula, recently visited the Fulda University of Applied Sciences in Germany to discuss a possible future collaboration between the two institutions.

This was inspired by their multidisciplinary approach to higher-education courses, which she aims to facilitate at the UFS in order to pioneer critical thinking among students to ultimately bring about effective and innovative societal problem-solving in South Africa.

Fulda University is an exceptional higher-education institution with the ability to develop and transform itself to purposefully improve its infrastructure, the quality of students, and studies offered by the university. Their different degrees are structured to intersect with the requirements of the progressive European economic environment.

According to Prof LenkaBula, Fulda University is an outstanding institution specialising in applied sciences and theoretical studies, which set them apart from other universities in the advanced European higher-education system.

Prof LenkaBula believes that the prospect of developing joint master’s and/or doctoral degrees between the UFS and Fulda University would expose UFS students to high-quality international higher-education systems. This will ensure that our students are provided with essential skills to become globally competitive and relevant in their designated career fields, and to become strong contenders in an environment characterised by globalisation and the 4th Industrial Revolution (4IR).
She referred to the global exchange of knowledge systems between the UFS and Fulda University as an opportunity for the UFS to improve the university’s global rankings through learning and participating in international collaborative approaches in higher education. 

“In order for our university to cease being seen as an ivory tower, it must be involved in producing knowledge that is beneficial to socio-economic and political development – not only for South Africa, but also for the rest of the world,” said Prof LenkaBula.


News Archive

Mathematical methods used to detect and classify breast cancer masses
2016-08-10

Description: Breast lesions Tags: Breast lesions

Examples of Acho’s breast mass
segmentation identification

Breast cancer is the leading cause of female mortality in developing countries. According to the World Health Organization (WHO), the low survival rates in developing countries are mainly due to the lack of early detection and adequate diagnosis programs.

Seeing the picture more clearly

Susan Acho from the University of the Free State’s Department of Medical Physics, breast cancer research focuses on using mathematical methods to delineate and classify breast masses. Advancements in medical research have led to remarkable progress in breast cancer detection, however, according to Acho, the methods of diagnosis currently available commercially, lack a detailed finesse in accurately identifying the boundaries of breast mass lesions.

Inspiration drawn from pioneer

Drawing inspiration from the Mammography Computer Aided Diagnosis Development and Implementation (CAADI) project, which was the brainchild Prof William Rae, Head of the department of Medical Physics, Acho’s MMedSc thesis titled ‘Segmentation and Quantitative Characterisation of Breast Masses Imaged using Digital Mammography’ investigates classical segmentation algorithms, texture features and classification of breast masses in mammography. It is a rare research topic in South Africa.

 Characterisation of breast masses, involves delineating and analysing the breast mass region on a mammogram in order to determine its shape, margin and texture composition. Computer-aided diagnosis (CAD) program detects the outline of the mass lesion, and uses this information together with its texture features to determine the clinical traits of the mass. CAD programs mark suspicious areas for second look or areas on a mammogram that the radiologist might have overlooked. It can act as an independent double reader of a mammogram in institutions where there is a shortage of trained mammogram readers. 

Light at the end of the tunnel

Breast cancer is one of the most common malignancies among females in South Africa. “The challenge is being able to apply these mathematical methods in the medical field to help find solutions to specific medical problems, and that’s what I hope my research will do,” she says.

By using mathematics, physics and digital imaging to understand breast masses on mammograms, her research bridges the gap between these fields to provide algorithms which are applicable in medical image interpretation.

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