Latest News Archive

Please select Category, Year, and then Month to display items
Categories
UFS News Media Release Research
Years
2019 2020 2021 2022 2023 2024 2025
Months
January February March April May June July August September October November December
Previous Archive
12 December 2024 | Story André Damons | Photo André Damons
Dr Innocensia Mangoato
Dr Innocensia Mangoato graduated on Tuesday (10 December 2024) with degree Doctor of Philosophy with specialisation in pharmacology at the Faculty of Health Sciences’ December graduation ceremony. Here she is with her supervisor and mentor Prof Motlalepula Matsabisa, Director of the University of the Free State (UFS) Department of Pharmacology.

A lecturer and researcher from the University of the Free State (UFS) Department of Pharmacology hopes her research into the use of cannabis in reversing anticancer drug resistance is a step forward into treating various cancers especially in Southern Africa.

Dr Innocensia Mangoato graduated on Tuesday (10 December 2024) with the degree Doctor of Philosophy with specialisation in pharmacology at the Faculty of Health Sciences’ December graduation ceremony. She started her career as a research scientist in the area of African traditional medicines in 2018 and her research received both national and international recognition.

“It’s an amazing (feeling to graduate today). My PhD journey was smooth and beautiful and with mentorship of Prof (Motlalepula) Matsabisa, who groomed me well, I did not shed a tear,” said Dr Mangoato. Dr Gudrun S Ulrich-Merzenich from the University of Bonn in Germany, was her co-supervisor with Prof Matsabisa.

According to the graduation programme, Dr Mangoato, Lecturer and Researcher in the UFS Department of Pharmacology, with her thesis titled Investigating the anticancer and possible resistant reversal effects of cannabis sativa l. extracts in cervical cancer cell lines and modulation of ABC transporters comprehensively explored the therapeutic potential of Cannabis sativa L. in overcoming drug resistance in cervical cancer using in vitro and network pharmacology approaches.

A step forward for treating various cancers

The research looked at the chemical fingerprints and pharmacological targets of C. sativa L. extracts, highlighting its antiproliferative properties against normal non-cancerous cells, cervical cancer cells and the cisplatin-resistant cervical cancer cells. Through PCR analysis, distinct gene expression profiles were identified, revealing the potential effects of combination treatments to counteract cisplatin resistance by downregulating genes associated with drug transporters and crucial signalling pathways. This work provides valuable insights into innovative therapeutic strategies for improving cervical cancer treatment, highlighting new avenues for overcoming resistance and enhancing treatment efficacy though the possible use of plant extracts.

“I hope my research takes a step forward in treating various cancers – especially gynaecology cancers in the Southern Hemisphere in Africa. Hopefully the research can later transcend into clinical trials and hopefully influence more policymakers. We also hope to further develop cannabis to be used as an adjuvant therapy for those drugs that are failing to treat cancer,” says Dr Mangoato, who was the recipient of the Women in Science Master’s Student in 2018.

Her graduation was also a proud moment for Prof Matsabisa, an expert in traditional African medicine, who was like a father to her during her studies. “Prof identified me from my honours degree and walked this journey with me. He has been a great mentor, a father and an amazing supervisor.”

Dr Mangoato says she will for now focus on research only and helping and monitoring upcoming researchers, especially female researchers as there is a scarcity of them her field. 

News Archive

Nuclear Medicine on the forefront of cancer research
2017-07-10

Description: Nuclear Medicine on the forefront of cancer research Tags: Nuclear Medicine, cancer research, Dr Je’nine Horn-Lodewyk’s, tumour detection method, cancer, Department of Nuclear Medicine 

Dr Je’nine Horn-Lodewyk’s tumour detection method
could be the cost-effective breakthrough needed to decrease
the mortality rate in breast cancer patients.
Photo: Anja Aucamp

The field of Nuclear Medicine in South Africa and the rest of the world are expanding rapidly due to the development of hybrid cameras and new radiopharmaceuticals. These developments have a huge impact on the diagnosis and therapy of cancer.

The most advanced of these cameras, Positron emission tomography combined with normal CTs (PETCT), are not yet widely available in South Africa due to the cost of the cameras and the radiopharmaceuticals. A more cost-effective alternative can be of great benefit. To achieve this, the focus should be on developing new radiopharmaceuticals that can be used with the current cost-effective gamma cameras, according to University of the Free State researcher, Dr Je’nine Horn-Lodewyk from the Department of Nuclear Medicine.

Fluorodeoxyglucose (18F-FDG), a radiolabelled glucose analogue, is currently the radiopharmaceutical most commonly used in PET/CT imaging for mainly oncology indications. Although it is considered the gold standard for imaging in several malignancies, it does have certain disadvantages. An 18F-FDG PET/CT diagnostic imaging study can cost between R25 000 and R35 000 for a single patient in the private sector. The 18F-FDG is also more radioactive, which requires much stricter handling and shielding to avoid high radiation dosages to staff and patients.

Successful research potential innovative solution
In the search for the ideal radiopharmaceutical for tumour detection, the South African National Nuclear Energy Corporation (Necsa) developed a local synthesis process for ethylenedicysteine-deoxyglucose (EC-DG). EC-DG is also a glucose analogue similar to FDG. They succeeded in labelling the compound with Technetium-99-metastable-pertechnetate (99mTcO4-), the most common nuclear medicine isotope used for approximately 95% of nuclear medicine procedures, creating 99mTc-EC-DG.

In partnership with Dr Horn-Lodewyk, this compound was successfully used in various animal models and clinical scenarios, resulting in approval by the Medicine Control Council to use it in a human study. Research is also planned in order to investigate diagnostic accuracy in other cancers like lymphoma.  The end result of this research can produce a radiopharmaceutical that is cost effective, does not require the use of costly specialised equipment, has no significant side-effects, no special patient preparation, renders late imaging possible, and has decreased radiation risks.

Dr Horn-Lodewyk is grateful for the support of her mentor, Prof Anton Otto, as well as Dr Gert Engelbrecht, Head of the Department of Nuclear Medicine, Prof Jan Rijn Zeevaart from North-West University’s Preclinical Drug Development Platform and Necsa, and Judith Wagener from Necsa. This innovative research would also not have been possible without the financial assistance of Dr Glen Taylor and Eleanor van der Westhuizen in the Directorate of Research Development.

Economic and Management Sciences

Education

Health Sciences

The Humanities

Law

Natural and Agricultural Sciences

Theology and Religion

Open Distance Learning

Business School

We use cookies to make interactions with our websites and services easy and meaningful. To better understand how they are used, read more about the UFS cookie policy. By continuing to use this site you are giving us your consent to do this.

Accept