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Theranostics in the fight against cancer

25 April 2022 | Story Elsabé Brits

Andre Roodt and Alice Brink — Prof Andreas Roodt and Prof Alice Brink are two of the inventors of the ‘Multinuclear complexes and their preparation patent.

According to the World Health Organisation (WHO), cancer is a leading cause of death worldwide, accounting for nearly 10 million deaths in 2020, or nearly one in six. The most common cancers are breast, lung, colon, rectum, and prostate cancers. There is a constant need to provide methods to diagnose and treat cancer-related tumours. Current research strategies focus on eliminating cancer cells with the minimum damage to surrounding healthy cells.

A limitation of current technologies is that they are mostly based on the separate identification of cancer (diagnostic), followed by treatment (therapy) using chemotherapy and/or radiotherapy. To fit both needs at the same time and with similar or identical compounds, the principle of theranostic medicine was identified. This concept employs both diagnosing (by imaging) cancer and delivering therapy (treatment) simultaneously, which has been receiving increased attention internationally.

Collaborating with the University of Zurich
A University of the Free State (UFS) team, together with a team from the University of Zürich, conducted exciting research in this area and filed a patent titled ‘Multinuclear complexes and their preparation’. The patent was granted in South Africa and by the European Patent Office. It is being validated in selected European countries. The patent is pending in the USA, Japan, Hong Kong, and India. The inventors from the UFS are Prof Andreas Roodt, Prof Alice Brink, Dr Pennie Mokolokolo, and Dr Vincent Dumisani Kama. The approach that their technology takes is to enable the synthesis of a multinuclear compound/s, which may contain different pre-selected radioisotopes, to allow both imaging and therapy to the cancer site(s) with one and the same metal-organic complex.

So far, high-yield production of compounds has been successfully innovated, which contain both an imaging (in particular the widely utilised imaging isotope Technetium-99m) and therapeutic (typically the therapeutic isotope Rhenium-186) radioactive isotope(s), optionally carrying an additional cytotoxic agent. (Chemotherapy uses anti-cancer [cytotoxic] drugs to destroy cancer cells.)

Nuclear medicine technologies
In the next phase of the research, a lead compound portfolio of four to five model pharmaceuticals containing these metal nuclides with appropriate directing groups to target cancer sites will be designed and constructed. A number of these entities are known and can be introduced through different techniques. These will then undergo full characterisation and efficacy evaluation in biological models (in vitro), followed by extensive animal and human trials.

The technology will be delivered as a product or service in the way that current nuclear medicine technologies are delivered.

The fact that this product(s) contains both imaging and therapeutic radionuclides or cytotoxic modalities, enables detailed tracking of the pharmaceutical and monitoring of the tumours' response to the therapy. Not directly related to the patent, but an asset to it, is the fact that the incorporation of rhenium with a high atomic number (Z = 75) opens the additional opportunity to utilise the multinuclear compounds also as radiosensitisers. Synergistic effects, enhancing the therapeutic efficacy, can thus be expected in combination with radiotherapy.

The UFS would like to partner with a pharmaceutical company working in the field of nuclear medicine to commercialise this technology. Interested parties can contact Ravini Moodley at MoodleyR5@ufs.ac.za

News Archive

Four modernised controlled environment cabinets inaugurated

2006-07-27

Photographed in a controlled environment cabinet were at the back from the left: Mr Adriaan Hugo (head of the UFS Electronics and Mechanisation Division), Prof Herman van Schalkwyk (Dean: Faculty of Natural and Agricultural Sciences at the UFS) and Prof Koos Terblans (lecturer at the UFS Department of Physics). In front is Mr Koos Uys (engineering consultant from Experto Designa who helped with the cooling systems of the cabinets).
Photo: Leonie Bolleurs

Different look for research in controlled circumstances at the UFS

Research in controlled circumstances at the University of the Free State (UFS) turned a new page today with the inauguration of four modernised controlled environment cabinets of the Department of Soil, Crop and Climate Sciences.

“The controlled environment cabinets, which are situated next to the glass houses on the eastern side of the Agriculture Building on the Main Campus in Bloemfontein, were installed in the early 1980’s. The cabinets, used for research purposes in controlled circumstances by the UFS for many years, became dysfunctional and needed to be repaired and put into use again,” said Prof Herman van Schalkwyk, Dean: Faculty of Natural and Agricultural Sciences at the UFS.

“The cabinets are used by the agronomics, horticulture and soil science divisions of the Department of Soil, Crop and Climate Sciences to control factors such as the temperature, the intensity and quality of light, synthesis and humidity. This is done 24 hours a day, with hourly intervals,” said Prof Van Schalkwyk.

The cabinets are ideally suited to determine the joint and separate effects of these factors on the growth of plants. The adaptability of plants to climate can also be investigated under controlled circumstances. All of this leads to a better understanding of the growth and development process of plants, more specifically that of agricultural crops.

“The effect of these environmental factors on the effectiveness of insect killers such as fungus killers, insecticide and weed killers can also be investigated and can help to explain the damage that is sometimes experienced, or even prevent the damage if the research is timeously,” said Prof Van Schalkwyk.

A new cabinet can cost between R2-3 million, depending on the degree of sophistication. “Although controlled environment cabinets have been used for agricultural research for a long time, it has become costly to maintain them and even more impossible to purchase new ones,” said Prof Van Schalkwyk.

According to Prof Van Schalkwyk the cabinets were re-built by die UFS Electronics and Mechanisation Division. Some of the mechanisms were also replaced and computerised.

“The re-building and mechanisation of the cabinets were funded by the faculty and because the work was done by our own staff, an amount of about R1 million was saved. The maintenance costs will now be lower as the cabinets are specifically tailor made for our research needs,” said Prof Van Schalkwyk.

Where all monitoring was done manually in the past, the cabinets can now be controlled with a computer. This programme was designed by Prof Koos Terblans from the UFS Department of Physics.

According to Prof Van Schalkwyk the modernisation of the cabinets is part of the faculty’s larger strategy to get its instruments and apparatus up to world standards. “With this project we have proved that we can find a solution for a problem ourselves and that there are ways to get old apparatus functional again,” said Prof Van Schalkwyk.

Media release
Issued by: Lacea Loader
Media Representative
Tel: (051) 401-2584
Cell: 083 645 2454
E-mail: loaderl.stg@mail.uovs.ac.za
26 July 2006

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