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19 January 2022 | Story Dr Bekithemba Dube | Photo Supplied
Dr Bekithemba Dube
Dr Bekithemba Dube, Senior Lecturer: School of Education Studies and Programme Head: Foundation and Intermediate Phase, University of the Free State

Opinion article by Dr Bekithemba Dube, Senior Lecturer: School of Education Studies and Programme Head: Foundation and Intermediate Phase, University of the Free State.
Mmusi Maimane’s view on the need to increase the South African pass rate from 30% to 50% has received mixed response from various stakeholders. Among them are the teachers’ organisations, including the National Professional Teachers’ Organisation of South Africa (Naptosa) and the South African Democratic Teachers’ Union (Sadtu). These two organisations stated that Maimane was using the country’s education system as a “national campaign for his political ambitions” (City Press, 10 Jan 2022). In response to the teachers’ unions, Maimane noted that “Teacher unions have always rejected the idea of continuous teacher assessments. Our argument is that we need to ask better of our teachers so that they are not passing pupils at 30%. So, of course the unions are going to try and defend their position because it will reflect badly on some of their members, which is not a reflection of all their members.” The conversations between the teachers’ organisations and Mmusi Maimane indicate ambivalence about the reciprocal relations between politics and education. The conversations also highlight how political influence can either build or destroy an education system. A basic observation of moving subject pass rate from 30% to 50% (depending on how one interprets it) generates conflict rather than a collective approach to addressing the pressing curriculum issues in South Africa. This article, informed by post-colonial theories, and more particularly the concept of the third space (first space being Maimane, second space being teachers’ unions, and third space where I believe the two should operate from to reconfigure relevant curriculum in South Africa), seeks to unpack the two conversations in relation to pass/subject rate in South Africa in the international context and to zero in on an argument for the need to configure the curriculum with best practice.

Unpacking Maimane’s comments

Unpacking Maimane’s comments, he raises five issues in his argument for moving subject pass rate from 30% to 50%, namely the country’s developmental aspiration; motivated, qualified, and ambitious teachers; global economy; and finally, better pay for teachers. Summing up his observation, he notes that “education is the way out of this economic mess. The 4IR economy requires specified hard skills. Our teachers are the frontline workers in the quest for economic prosperity. We must reward good teachers. We must remove bad teachers and attract new talent”. The premise of his thinking touches on crucial elements that are pertinent for the South African child in relation to the global competitors and economic emancipation. There is a sense from his sentiment that educating a child is not only for South Africa, but that this child should be equally competitive with his or her peers in the global market. Thus, telling the world that our subject pass rate is 30% is a mockery of our education system. It brings a false sense among learners that if one gets 30% for a subject, he or she has passed the subject, but a combination of all subjects with 30% cannot make one secure university placement. Thus, the critical question to which the Department of Basic Education should respond is what the rationale is behind a 30% subject pass? What does this 30% reflect on South African education compared to international standards? What harm is there to move from a 30% to 50% pass rate? Once these questions have been answered, perhaps new conversations can emerge, and the discussions will come from an informed position.

Interestingly, the unions’ response to Maimane’s comments is premised on an inadequate explanation of what exactly is meant by 30%. The response does not address other issues raised by Maimane, such as development of the country, motivated, qualified, and ambitious, global economy, and surprisingly, the issue of salaries. However, Maimane’s sentiments are seen as coming from someone with a dying political life and using education as political oxygen for survival. What if Maimane’s comments were from someone belonging to the ANC, and not the DA or EFF – would it have gone this far? Again, why is the response targeted at his person and political affiliation rather than contextualising his argument in light of global trends of academic excellence in the quest to improve economic zones? What is the difficulty or harm in moving from 30% to 50% subject/overall pass rate? The response to these questions will be of interest in shaping educational conversations in South Africa. While the unions are entitled to their positions as representatives of teachers, it is prudent to also see the damage that a 30% subject pass rate or overall pass rate is causing to learners, such as failure to access university and compete with their international counterparts. 

30% is a reflection of a failed curriculum practice

Cognisant of the foregoing, moving into the third space as suggested above is critical. This is a place where all people involved in the issue meet at a neutral space to juxtapose the trajectories of education. To begin the conversation in the third space, an acknowledgement is necessary that education is key to any development, and a compromise on this has an everlasting impact on national building. Once this is understood, the educational stakeholders can enter into honest conversations about the relevance of 30%, as none of us as parents would be happy with a 30% subject pass rate. From my angle, the 30% is a reflection of a failed curriculum practice, not only in South Africa, but in most African countries with nationalised education systems. Narrowing this to South Africa while also applicable to other African countries, is an indication that we have detained learners for 12 years, and to please learners and parents, we comfort them with a 30% subject pass rate. Third space allows us to interrogate such a practice in order to map best practices for our children, economy, and contribution to humanity through education. To me, 30% is an indication that some learners are not supposed to be doing the curriculum that is forced on them in schools. The CAPS document as a ‘one-size-fits-all’ curriculum is no longer relevant, rather a fluid and contextualised CAPS is now required. The latter speaks of a curriculum that does not seek to channel learners through one avenue, such as passing Grade 12 and going to university. There is a need for a curriculum that does not detain learners in subjects in which they have no interest or are not capable of doing. Rather, various courses – not subjects – should be introduced alongside the main curriculum practices. Critical courses, which are in short supply in South Africa, should be taught as early as Grade 7 as a course where a learner can be awarded a diploma for a critical skill of their choice. This means bringing some TVET courses to basic education, such as building, welding, civil engineering, manufacturing, entrepreneurship, software engineering, among other courses. This would allow learners to get recognised qualifications along with their Grade 12 results, cognisant that some learners with passion and good skills in some courses mentioned above may not have access to TVET colleges and universities because of a 30% subject pass rate. The foregoing requires a revamp of the education system so that after 12 years of basic education, learners have something practical to show rather than having all learners moving in one direction and getting nothing at the end of Grade 12. I am of the view that an increase from 30% to 50% is indispensable, desirable, and doable and above all, that TVET courses should be taught from Grade 7 to 12, so that learners with an interest in practical subjects have recognised courses for their livelihood, even if they do not perform very well in Grade 12.
 

News Archive

Research contributes to improving quality of life for cancer patients
2016-11-21

Description: Inorganic Chemistry supervisors  Tags: Inorganic Chemistry supervisors

Inorganic Chemistry supervisors in the Radiopharmacy
Laboratory during the preparation of a typical complex
mixture to see how fast it reacts. Here are, from the left,
front: Dr Marietjie Schutte-Smith, Dr Alice Brink
(both scholars from the UFS Prestige
Scholar Programme), and Dr Truidie Venter (all three
are Thuthuka-funded researchers).
Back: Prof André Roodt and Dr Johan Venter.
Photo: Supplied

Imagine that you have been diagnosed with bone cancer and only have six months to live. You are in a wheelchair because the pain in your legs is so immense that you can’t walk anymore – similar to a mechanism eating your bones from the inside.

You are lucky though, since you could be injected with a drug to control the pain so effective that you will be able to get out of the wheelchair within a day-and-a-half and be able to walk again. Real-life incidents like these provide intense job satisfaction to Prof André Roodt, Head of Inorganic Chemistry at the University of the Free State (UFS). The research, which is conducted by the Inorganic Group at the UFS, contributes greatly to the availability of pain therapy that does not involve drugs, but improves the quality of life for cancer patients.

The research conducted by the Inorganic Group under the leadership of Prof Roodt, plays a major role in the clever design of model medicines to better detect and treat cancer.

The Department of Chemistry is one of approximately 10 institutions worldwide that conducts research on chemical mechanisms to identify and control cancer. “The fact that we are able to cooperate with the Departments of Nuclear Medicine and Medical Physics at the UFS, the Animal Research Centre, and other collaborators in South Africa and abroad, but especially the methodology we utilise to conduct research (studying the chemical manner in which drugs are absorbed in cancer as well as the time involved), enhances the possibility of making a contribution to cancer research,” says Prof Roodt.

Technique to detect cancer spots on bone
According to the professor, there are various ways of detecting cancer in the body. Cancer can, inter alia, be identified by analysing blood, X-rays (external) or through an internal technique where the patient is injected with a radioactive isotope.

Prof Roodt explains: “The doctor suspects that the patient has bone cancer and injects the person with a drug consisting of an isotope (only emits X-rays and does no damage to tissue) that is connected to a phosphonate (similar to those used for osteoporosis). Once the drug is injected, the isotope (Technetium-99m) moves to the spot on the bone where the cancer is located. The gamma rays in the isotope illuminate the area and the doctor can see exactly where treatment should be applied. The Technetium-99m has the same intensity gamma rays as normal X-rays and therefore operates the same as an internal X-ray supply.” With this technique, the doctor can see where the cancer spots are within a few hours.

The same technique can be used to identify inactive parts of the brain in Alzheimer patients, as well as areas of the heart where there is no blood supply or where the heart muscle is dead.

Therapeutic irradiation of cancer
For the treatment of pain connected with cancer, the isotope Rhenium-186 is injected. Similar to the manner in which the Technetium-99m phosphonate compound is ingested into the body, the Rhenium-186 phosphonate travels to the cancer spots. Patients thus receive therapeutic irradiation – a technique known as palliative therapy, which is excellent for treating pain. A dosage of this therapy usually lasts for about two months.

The therapy is, however, patient specific. The dosages should correspond with the occurrence and size of cancer spots in the patient’s body. First, the location of the cancer will be determined by means of a technetium scan. After that, the size of the area where the cancer occurs has to be determined. The dosage for addressing total pain distribution will be calculated according to these results.

Technique to detect cancer spots on soft tissue
Another technique to detect cancer as spots on bone or in soft tissue and organs throughout the body is by utilising a different type of irradiation, a so-called PET isotope. The Fluor-18 isotope is currently used widely, and in Pretoria a machine called a cyclotron was produced by Dr Gerdus Kemp, who is a former PhD graduate from the Inorganic Research Group. The F-18 is then hidden within a glucose molecule and a patient will be injected with the drug after being tranquillised and after the metabolism has been lowered considerably. The glucose, which is the ‘food' that cancer needs to grow, will then travel directly to the cancer area and the specific area where the cancer is located will thus be traced and ‘illuminated’ by the Fluor-18, which emits its own 'X-rays'.

In the late 80s, Prof Roodt did his own postdoctoral study on this research in the US. He started collaborating with the Department of Nuclear Medicine at the UFS in the early 90s, when he initiated testing for this research.

Through their research of more than 15 years, the Inorganic Group in the Department of Chemistry has made a major contribution to cancer research. Research on mechanisms for the detection of cancer, by designing new clever chemical agents, and the chemical ways in which these agents are taken up in the body, especially contributes to the development in terms of cancer therapy and imaging, and has been used by a number of hospitals in South Africa.

The future holds great promise
Prof Roodt and his team are already working on a bilateral study between the UFS and Kenya. It involves the linking of radio isotopes, as mentioned above, to known natural products (such as rooibos tea), which possess anti-cancer qualities.

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