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14 June 2019 | Story Eloise Calitz
University Consortium Launch
From left: Prof Francis Petersen, Rector and Vice-Chancellor, University of the Free State; Prof Pagollang Motloba, Chairperson of the Universities Consortium Steering Committee (Sefako Makgatho Health Sciences University); Ms Montseng Margaret Ts’Iu, MEC, Department of Health in the Free State Province; and Mr Dan Mosia, Project Management Unit, Wits Health Consortium and member of the UFS Council.
Access to health care is important to all South Africans. Improved delivery of health-care services and employment of health-care graduates is one of the key priorities of the Universities Consortium. To achieve this, the National Department of Health (NDoH) – through a closed bid – invited universities with health-science faculties to bid for the testing of contracting mechanisms in the public health-care sector.

The bid brought six universities together to form the Universities Consortium. Through a collaborative approach, they will implement the newly developed service-delivery model.  Within the next three years, the consortium aims to impact the communities they serve in a positive way by providing much needed health-care services across the nine provinces.

The Universities Consortium comprises:

University of the Witwatersrand, Johannesburg
Sefako Makgatho Health Sciences University
University of Fort Hare
University of Pretoria
Nelson Mandela University
University of the Free State

The launch

The launch of the consortium was held on 6 June 2019 in the Centenary Complex at the University of the Free State in Bloemfontein. This provided an opportunity for fruitful engagements with representatives from the consortium. The launch was attended by the MEC of Health in  the Free State Province, Ms Montseng Margaret Ts’lu, who welcomed the commitment of the universities in the consortium and thanked them for lending a helping hand to make sure that government succeed in providing these health services.

Prof Francis Petersen, Rector and Vice-Chancellor of the UFS, said the role of the university is to educate, train, and do continuous research to keep up to date with developments in various disciplines in order to enable positive change in the quality of life in our society. "Our knowledge should be used to impact our communities," Prof Petersen said. He further stated that it would be important that the ideas generated would provide much needed access to health care for all South Africans.

 The purpose of the Universities Consortium

1. The Universities Consortium will support national health delivery by assisting in the employment of graduates providing services while they complete their statutory internships/community service period.  
2. The consortium will also provide administrative and technical support to the NDoH. 
3. Universities will train professionals in accredited facilities.
4. The Universities Consortium proposed an operating model that will ensure the placement of health professionals in academic primary-care complexes.  
5. To align with the objectives of the NHI Bill 2018, the model envisages the academic primary-care complex as a contracting unit to promote sustainable, equitable, appropriate, efficient, and effective public funding for the purchasing of health-care services.
6. Wits Health Consortium (WHC), a wholly owned company of the University of the Witwatersrand, will support the Universities Consortium with key project management, financial, and administrative support for the duration of the project.

One of the key drivers of success for the Universities Consortium is collaboration and the effective implementation of this model. In the long term, the model will have a significant impact on health-care service delivery and job creation in this sector.

WATCH: NHI Universities Consortium Launch

News Archive

What do diamonds, chocolates, bugs and almost 30 Nobel Prizes have in common? Crystallography
2014-10-15

 

Some of the keynote speakers and chairpersons at the third world summit in the International Year of Crystallography (in Africa) were, from the left, front: Profs Abdelmalek Thalal (Morocco), Prosper Kanyankogote (University of Kinshasa, Democratic Republic of the Congo); Habib Bougzala (Tunisia), Santiago Garcia-Granda (IUCr, University Oviedo, Spain), Michele Zema (IYCr 2014, Italy/UK) and Dr Jean-Paul Ngome-Abiaga (UNESCO, Paris, France); back: Dr Thomas Auf der Heyde (Acting Director-general, South African Department of Science and Technology); Dr Petrie Steynberg (SASOL) and Prof André Roodt (UFS, host).

Photo: Marija Zbacnik
The third world summit in the International Year of Crystallography (in Africa) was hosted by Prof André Roodt, Head of the Department of Chemistry and President of the European Crystallographic Association,  at the University of the Free State in Bloemfontein.

A declaration with and appeal to support crystallography and science across Africa, was signed.

When one mentions 'Crystallography', or more simply 'crystals', what comes to mind? Diamonds? Perhaps jewellery in general? When thinking of crystals and Crystallography, you will need to think much bigger. And further – even to Mars and back.

Crystallography refers to the branch of science that is concerned with structure and properties of crystals. The obvious examples would include cut diamonds, gemstones such as amethysts, and ‘simple’ crystals such as selenite and quartz.

But have you thought about the irritating brown scales at the bottom of your kettle? The sand in your shoes? The salt over your lamb chops or the sugar in your coffee? All crystals. From egg shells to glucose, from bugs and insecticides to additives in food – even the compounds in chocolate – all fall under the close scrutiny of Crystallography.

The breakthroughs this field of science has produced have led to almost 30 Nobel Prizes over the years.

Determining the structure of DNA by crystallography was arguably one of the most significant scientific events of the 20th century. Different diseases have been cured or slowed by medicines obtained based on crystallographic studies. These include certain cancers, HIV/Aids, Tuberculosis and Malaria. Biological Crystallography enables the development of anti-viral drugs and vaccines.

This field of science influences our daily lives in virtually immeasurable ways. Here are but a few areas of study and development Crystallography contributes to:

•    LCD displays;
•    cellular smartphones;
•    insects and insecticides;
•    additives and products in foods;
•    improved effectiveness and security of credit cards;
•    new materials to preserve energy;
•    better gasoline with less by-products;
•    identify colour pigments used in paintings from the old masters, indicating if it’s an original or an imitation; and
•    beauty products such as nail polish, sun-block, mascara and eye shadow.

Crystallography is also currently used by the Curiosity Rover to analyse the substances and minerals on Mars.

Crystals and Crystallography form an integrated part of our daily lives – from bones and teeth to medicines and viruses, from chocolates to the blades in airplane turbines. Even down to the humble snowflake.


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