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02 January 2024 | Story Leonie Bolleurs
UFS scientists contribute to the battle against cancer
From top left, moving clockwise: Dr Nerina van der Merwe, Dr Osayande Evbuomwan, Prof Alicia Sherriff, Profs Andreas Roodt and Alice Brink.

Cancer stands as a prominent contributor to deaths worldwide, with a big impact on families and communities. Prostate cancer is one of the leading causes of mortality in the world. The recent diagnoses of cervical cancer are 10 702 annually, with 5 870 patients passing away. Female breast cancer surpassed lung cancer as the most commonly diagnosed cancer in 2020 (American Cancer Society), representing 11,7% of all cancer cases, making it the fifth leading cause of cancer mortality worldwide. Researchers at the university are doing their part in the fight against cancer.

Treating prostate cancer

In July 2021, Dr Osayande Evbuomwan, Senior Lecturer and Medical Specialist in the Department of Nuclear Medicine, along with a team of university doctors, initiated patient treatment using radioligand therapy (RLT). This targeted nuclear medicine therapy delivers high radiation levels precisely to cancer cells, minimising damage to normal organs and tissue, a benefit not typically provided by conventional therapies.

It was the first time that Lutetium 177 PSMA – a type of PRRT – has been used to treat patients with metastatic castrateresistant prostate cancer (MCRPC) in the Free State, providing hope when standard treatments and conventional therapy are not an option. This treatment generally enhances quality of life, slows disease progression, and extends overall survival, with minimal side effects.

All three patients treated with Lu 177 PSMA so far have completed at least four therapy cycles and tolerated it well. The first two patients, while initially responding well, sadly passed away due to unrelated causes. The third case stands out as the most successful, responding excellently to seven treatment cycle and remaining in good health.

Dr Evbuomwan recently also obtained a license for a more effective therapy, AC 225 PSMA, as an alternative to Lu 177 PSMA.

Precise cervical cancer therapy

Medical personnel at the Universitas Academic Hospital also became the first in Southern Africa to use interstitial brachytherapy as a method for treating cervical cancer. Prof Alicia Sherriff, Head of the Department of Oncology, explains that brachytherapy – a form of internal radiation therapy – places the radiation source near or inside the cancer. “Precise delivery of curative doses to the cancer protects surrounding organs such as the bladder, rectum, and small bowel,” she explains.

Three to five weekly brachytherapy sessions under conscious sedation usually begins after two weeks of daily external beam radiation. On brachytherapy days, external beam radiation is not administered. “The intracavitary brachytherapy applicators are placed within the cervix and uterus and deliver high doses locally, but for surrounding tissue infiltration, additional needles are inserted via the Venezia applicator, delivering high-dose radiation while sparing organs,” says Prof Sherriff.

Their work aligns with the broader goals of the university and its commitment to advancing health care in the region by ensuring the continued growth of their skills and technology, while applying these skills to improve the possibility of disease control, cure or palliation with quality of life.

Familial breast and ovarian cancer testing

Dr Nerina van der Merwe, a principal medical scientist in the Division of Human Genetics, and colleagues are engaged in breast cancer research. They are involved in translational research using new technologies that, once validated as a first-tier diagnostic test, could revolutionise genetic testing for familial breast and ovarian cancer in South Africa when used in conjunction with genetic counselling. This parallel application is ideally suited for primary hospitals and rural clinics, as it will dramatically increase accessibility and uptake of genetic testing in rural areas.

By performing first-tier genetic testing at a community clinic, patients no longer have to be transported to tertiary hospitals for testing, and more patients and related family members who are unaware of a familial predisposition will be reached. “By warning unaffected related individuals about their potential increased risk, we can play a part in the earlier detection or diagnosis of patients, improving their cancer survival rate,” states Dr Van der Merwe.

Patenting cancer research

Prof Andreas Roodt, a retired Distinguished Professor in the Department of Chemistry, and colleagues – particularly Prof Alice Brink and co-worker Prof Roger Alberto from the University of Zurich – have published widely on the chemistry of radiopharmaceutical models. Since the 2000s, the world has introduced the concept of ‘theranostics,’ which involves the use of a single compound for both cancer detection and therapy. “These compounds contain a radioisotope that provides internal radiation for cancer detection (diagnostic) and a second part for treatment,” explains Prof Roodt.

Their research enables the high-yield preparation of compounds containing multiple isotopes often present in very low concentrations. “This allows combining diagnostic isotopes such as technetium-99m (used in >80% of diagnostic patient studies worldwide) with therapeutic radioisotopes, such as rhenium-186 (used for bone cancer therapy), with ease. Many therapeutic radioisotopes do not have good diagnostic radiation; thus, by combining the two types of radioisotopes in one medicine, the oncologist can now clearly see where the therapeutic part is going and apply more effective treatment,” he says.

News Archive

Music lecturer’s innovative app is a first in South Africa
2014-07-24

Dr Frelét de Villiers, lecturer at the Odeion School of Music (OSM) at the University of the Free State (UFS), is in the process of developing an innovative interactive mobile music application – Notes&Fun.

Notes&Fun is being designed to assist aspirant pianists. It will support beginners with notation and rhythmic patterns.

The app will display single notes, phrases or rhythmical patterns on the phone or tablet and then apply the built-in microphone to measure the frequency of the notes played on the piano itself. It will indicate whether you’ve played correctly, or if you have made a mistake, the correct note will be displayed. Notes&Fun consists of multiple levels, each with a practise and test mode that gradually increases in difficulty and complexity. As opposed to existing apps, Notes&Fun is conceptualised with immediate pitch detection and is applied with a real (acoustic) piano.

For the pilot phase of this initiative, the developing company Maxxor in Cape Town will create a demo app which can be downloaded for testing purposes and general feedback. Once the developing company and innovator are satisfied with the first phase, the product will be marketed vigorously on social media. The initial app will be free, but subsequent levels will need to be purchased. The developers will start a Facebook page where users of the app can add their latest scores and compete with other users. Initially the app will only be available on the Google Play Store due to the fact that more people own Android devices than Apple products. Once the product has proven to be financially viable, the developers will adapt it for the Mac App Store as well.

“The beauty of this app is that music has a universal language, so it can be marketed internationally and I am privileged to have the institutional support from the UFS Technology Unit regarding the judicial process and developing process of the product,” Dr De Villiers said.

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