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30 August 2022 | Story André Damons | Photo André Damons
UFS Nuclear Medicine
The team of doctors in the Department of Nuclear Medicine behind the success story are, from the left (standing): Dr Osayande Evbuomwan, nuclear medicine specialist and Senior Lecturer; Dr Gerrit Engelbrecht, Clinical Head of the Department of Nuclear Medicine at the UFS; and Dr Walter Endres, nuclear medicine registrar. In front is Dr Tebatso Tebeila, nuclear medicine registrar.

The University of the Free State (UFS) Department of Nuclear Medicine is proud to announce the successful treatment outcome of a patient with metastatic castrate-resistant prostate cancer (MCRPC) – an advanced stage of prostate cancer – by using Lutetium 177 PSMA (Lu-177 PSMA) therapy. This was initially a case of advanced stage prostate cancer, which had failed first-line chemotherapy, leaving little or no other treatment options.

This is a proud and happy moment for the department and the UFS, which started this treatment just over a year ago. The university and the Free State province are now joining other South African medical universities, such as the University of Pretoria, and other provinces in using this method to treat MCRPC patients. Lutetium 177 PSMA (Lu-177 PSMA) therapy is used on MCRPC patients who are not eligible for chemotherapy or have failed first- or second-line chemotherapy.

Dr Gerrit Engelbrecht, Clinical Head of the Department of Nuclear Medicine at the UFS, says the department is proud to be able to offer this treatment option to some of these patients. “It is a big win for the Free State and our oncology patients to be able to offer these expert services.” The UFS and Universitas Academic Hospital have now been able to join up with other academic institutions and hospitals in other provinces to offer these services. So far, three patients have been offered this therapeutic option, with the third patient currently undergoing his treatment.

Funds and equipment for proper treatment selection are needed

The expertise is no longer an issue for the UFS, as Dr Osayande Evbuomwan, nuclear medicine specialist and consultant, was trained and exposed to this therapy at the University of the Witwatersrand during his training as a nuclear medicine resident. Current registrars in the Department of Nuclear Medicine at the UFS are also being trained in the application of this treatment modality. However, proper patient selection is key in the management of these cases with Lu 177 PSMA. Without a PET/CT camera, it is challenging to appropriately select the patients who are most likely to respond to this therapy. This is an example of how PET/CT is crucial in the management and monitoring of oncology patients.

Both Drs Engelbrecht and Evbuomwan hope that the training of more registrars will increase their department’s capacity to treat more patients. They also hope that funds will be made available to acquire a much-needed PET/CT camera, which will greatly assist them in identifying the correct patients in need of this treatment. 

With the permission of the patient, the images above show the dramatic treatment response following Lu-177 PSMA therapy. The images on the left show widespread bone disease from the prostate cancer, including the skull. The images on the right show the dramatic response after completing four cycles of Lu 177 PSMA, with the normal excretion of the radiotracer seen in the liver, kidneys, and bladder.


Treatment puts the department, UFS, and hospital on the map

According to Dr Evbuomwan, the ability to administer this treatment puts the department, the UFS, and the hospital on the map, alongside other top universities within and outside the country. Says he: “It also creates an avenue for us to gather data for training, research purposes, and publications. We are now able to offer a promising, safe, and highly efficacious therapy for patients with MCRPC in the Free State. Some of these patients will no longer have to travel to other provinces to receive this treatment.”


“We are also well aware that not every patient will respond this way; however, proper patient selection is key in identifying responders – an area that is still being researched. We also do not know how long these patients will have their disease under control after the treatment. Nuclear medicine’s greatest cancer therapy success story is the treatment of well-differentiated thyroid cancer with radioactive iodine.” 

“After treatment, most of these patients remain cancer-free for a very long period of time, if not for life. With continuing research in the field of MCRPC radioligand therapy, we aim to improve the treatment modality, hopefully getting it to the success level of thyroid cancer therapy.”

 

News Archive

#Women'sMonth: Save the children
2017-08-10

Description: Trudi O'Neill Tags: : rotaviruses, young children, Dr Trudi O’Neill, Department of Microbial, Biochemical and Food Biotechnology, vaccine 

Dr Trudi O’Neill, Senior lecturer in the Department of
Microbial, Biochemical and Food Biotechnology.
Photo: Anja Aucamp

Dr Trudi O’Neill, Senior lecturer in the Department of Microbial, Biochemical and Food Biotechnology, is conducting research on rotavirus vaccines.

Dr O’Neill was inspired to conduct research on this issue through her fascination with the virus. “The biology of rotaviruses, especially the genome structure and the virus’ interaction with the host, is fascinating.”

“In fact, it is estimated that, globally, ALL children will be infected with rotavirus before the age of five, irrespective of their socio-economic standing. However, infants and young children in poor countries are more vulnerable due to inadequate healthcare. The WHO estimates that approximately 215 000 deaths occur each year. This roughly equates to eight Airbus A380 planes, the largest commercial carrier with a capacity of approximately 500 seats, filled with only children under the age of five, crashing each week of every year.”

Alternative to expensive medicines 
“Currently, there are two vaccines that have been licensed for global use. However, these vaccines are expensive and poor countries, where the need is the greatest, are struggling to introduce them sustainably. It is therefore appealing to study rotaviruses, as it is scientifically challenging, but could at the same time have an impact on child health,” Dr O’Neill said.

The main focus of Dr O’Neill’s research is to develop a more affordable vaccine that can promote child vaccination in countries/areas that cannot afford the current vaccines.

All about a different approach 

When asked about the most profound finding of her research, Dr O’Neill responded: “It is not so much a finding, but rather the approach. My rotavirus research group is making use of yeast as vehicle to produce a sub-unit vaccine. These microbes are attractive, as they are relatively easy to manipulate and cheap to cultivate. Downstream production costs can therefore be reduced. The system we use was developed by my colleagues, Profs Koos Albertyn and Martie Smit, and allows for the potential use of any yeast. This enables us to screen a vast number of yeasts in order to identify the best yeast producer.”

Vaccination recently acquired a bad name in the media for its adverse side effects. As researcher, Dr O’Neill has this to say: “Vaccines save lives. By vaccinating your child, you don’t just protect your own child from a potentially deadly infection, but also other children in your community that might be too young to be vaccinated or have pre-existing health problems that prevents vaccination.” 

A future without rotavirus vaccination?

Dr O’Neill believes a future without rotavirus vaccination will be a major step backwards, as the impact of rotavirus vaccines has been profound. “Studies in Mexico and Malawi actually show a reduction in deaths. A colleague in Mozambique has commented on the empty hospital beds that amazed both clinicians and scientists only one year after the introduction of the vaccine in that country. Although many parents, mostly in developed countries, don’t have to fear dehydrating diarrhoea and potential hospitalisation of their babies due to rotavirus infection anymore, such an infection could still be a death sentence in countries that have not been able to introduce the vaccine in their national vaccination programmes,” she said. 

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