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10 September 2020 | Story Barend Nagel | Photo Barend Nagel
There is a notable quote by one of the most prolific and influential composers ever, that says: 

“The music is not in the notes,
but in the silence in between.”
- Wolfgang Amadeus Mozart

Mozart’s proclamation is relevant, now more than ever. In many cases, we may not realise that those who are more silent than others are most likely faced with adversity in terms of their mental health.

To counteract this silence, UFS Clinical Psychologist, Angela Vorster from the School of Clinical Medicine, devised the UFS Medical Students ‘Unplugged’ initiative as part of a larger campaign. Vorster says the campaign creates an opportunity to encourage students to reconnect with their soulful side.

“Each year we choose a mental-health issue and focus our theme on raising awareness – e.g. suicide awareness.” This year’s theme is ‘In my blood’ depression and anxiety awareness. Sadly, the 2020 ‘Unplugged’ event had to be cancelled due to the unfortunate (and mentally taxing) circumstances we are currently facing around the globe. Nonetheless, Vorster’s evident compassion and benevolence towards individuals’ mental health did not allow the pandemic to discourage her from finding innovative ways of keeping harmony.

“Once we all returned to a 'new normal', I invited our students to submit recordings of their music. This then became a channel of its own on YouTube – and we could not be prouder of our musically talented students.” According to Vorster, research and literature have established that music has a significant impact on relieving emotional distress and improving our moods. “It became evident during therapy sessions how important music is in helping our students express their emotions, relax, and also engage their creativity,” says Vorster.

With Mental Health Month inching it’s way closer, and World Suicide Prevention Day on 10 September, we should all embrace the ‘magic’ of music and the positive effects it has on our psychological and mental well-being. So, turn up the volume and defeat the silence in your life with your favourite music. Play an instrument, turn up the volume on your iPod, sing in the shower, or watch the UFS Students ‘Unplugged’ videos on YouTube; allow music to heal your ‘silences in between’.

 


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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