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UFS Experts
Ms Akani Baloyi is from the Disaster Management Training and Education Centre for Africa (DiMTEC) at the University of the Free State. | Dr Olivia Kunguma is from the Disaster Management Training and Education Centre for Africa (DiMTEC) at the University of the Free State. | Dr Arishka Kalicharan, Department of Basic Medical Sciences, UFS

 


Opinion article by Ms Akani Baloyi; Dr Olivia Kunguma, Disaster Management Training and Education Centre for Africa (DiMTEC) at the University of the Free State; and Dr Arishka Kalicharan, Department of Basic Medical Sciences, Faculty of Health Sciences, University of the Free State.

Since the 1800s, many countries globally have had a long history of cholera outbreaks, with several countries experiencing periodic outbreaks and the disease remaining a public health concern. In Africa, countries like Senegal, Malawi, Zimbabwe, the Democratic Republic of Congo, Tanzania and many more have suffered greatly from this water-borne plague.

South Africa is among these countries – one of its major outbreaks, in 2008, killed more than 65 people, with more than 12 000 cases reported. The outbreak spread from Musina in Limpopo to the other provinces. The spread of cholera from Musina was attributed to a 2008/2009 outbreak in Zimbabwe, which affected more than 98 000 people; this was a case of disease contagion.

The 2008/2009 Zimbabwe outbreak was rated the country and the world’s largest ever recorded. Due to its political and economic crises, thousands of Zimbabweans migrated to South Africa. The movement of people from Zimbabwe helped spread the disease, as it is highly contagious. Because South Africa also had its own political and economic issues, cholera started spreading like wildfire. Similarly to Zimbabwe, South Africa is struggling with service delivery by local authorities due to poor governance and corruption.

In an effort to improve Zimbabwe’s health  system after that outbreak, the United Nations donated almost $5 million. Despite such a big cash injection, the country’s health system is still not of a standard that can help mitigate and prevent cholera. The country still finds itself losing people due to cholera outbreaks.

The challenge in Africa is that decision-makers suffer from ‘reactive syndrome’, i.e. they wait for an outbreak before intiating activities like surveillance, health promotion, encouraging of laboratory testing, assessing and maintaining boreholes/ municipal water plants, and providing temporary emergency water, sanitation and hygiene. Only when an outbreak is already under way do they remember the existence of emergency and response plans, and then start updating them.

A recent cholera outbreak in Hammanskraal, north of Tshwane in Gauteng, South Africa, had claimed 23 lives by 28 May after residents were diagnosed with diarrhoeal disease due to cholera. In the neighbouring Free State, two deaths had been reported by 9 June.

It has become common knowledge that the main source of cholera infection is poor sanitation, lack of clean water, and contaminated food. But it is important to also know that most people exposed to the cholera bacterium do not get sick. They are unaware they have been infected, unless they start displaying symptoms such as diarrhoea, vomiting, and muscle cramps. Excessive diarrhoea can lead to dehydration, making it difficult for the body to perform basic functions. If left untreated, diarrhoea can be fatal.

The root causes are exacerbated by poor investment in public health and an unsettled political environment, in particular governance of municipalities and neglect of water treatment plants. The prevalence of this preventable infectious disease demands immediate attention from policymakers, health organisations, and society in general. Addressing the root causes, boosting preventative measures, and ensuring access to clean water and adequate healthcare services to eradicate cholera in South Africa is crucial.

How can we mitigate and prevent the spread of cholera?

While we lobby for policymakers or people who hold political power to be called to account and advocate for large-scale investment in establishing and maintaining water and sanitation facilities and the strengthening of public health community engagement, we need to consider some methods the public can explore.

Most infected people will have few to mild symptoms, which can be successfully treated with an oral rehydration solution. This solution replenishes the body’s fluid levels and can treat mild dehydration caused by diarrhoea, vomiting, or other medical conditions. Oral rehydration solutions can be made at home with the following ingredients:

  • 1 litre of preboiled water (an effective way to disinfect the water)
  • 6 level teaspoons of sugar (improves the absorption of electrolytes and water)
  • ½ teaspoon of salt (promotes water absorption, since there is significant fluid loss due to diarrhoea)
  • 1 tablespoon (or a palatable amount) of white vinegar (contains antimicrobial properties for preventing and treating infections)

This solution should be consumed after every loose stool, or as often as possible. If a child has been infected with the disease, in addition to the oral solution, give the child 20 mg (over 6 months of age) or 10 mg (under 6 months of age) zinc per day (tablet or syrup).

We should also always adhere to cost-effective habits such as routinely washing our hands and consuming preboiled water.

There are also three World Health Organisation (WHO) pre-approved oral cholera vaccines, namely Dukoral, Shanchol, and Euvichol-Plus. They all require two doses for full protection. These vaccines are available at the nearest clinic or hospital, and are relatively cost-effective.

Cholera and several other public health crises should not exist in the modern economy we are living in. Africa has the resources needed, including several medical interventions. Africa must address its issue regarding political leadership, which is its biggest challenge. There is an urgent need for proactiveness among our political leaders and government authorities which should see them take the lead in continuous multi-sectoral collaboration. They should invest in preparedness programmes that include training health workers and surveillance. And lastly, there is an urgent need for an accountability system for all the funds donated and invested towards improving a country’s healthcare system.

News Archive

First postgraduate degree in Forensic Genetics in Africa
2010-03-19

 
At the launch were, from the left, front: Ms Christa Swanepoel (Applied Biosystems), Ms Karen Ehlers (Department of Genetics, UFS), Dr Carolyn Hancock and Ms Vanessa Lynch (both from DNA Project). Middle row: Dr. Sphie Mukwana (Director: Biotech Forensics, Kenya), Mr Pierre Joubert (Director: SAPS Forensic Science Laboratory) and Prof. Johan Spies (Chairperson: Department of Genetics, UFS). Back row: Mr Izak van Niekerk (Southern Cross Biotechnologies) and Mr Loen Ehlers (National Prosecution Authority).
Photo: Stephen Collett


The Department of Genetics at the University of the Free State (UFS) recently launched the first postgraduate degree offered by a tertiary institution in Forensic Genetics in Africa.

“We are at the beginning of something special. The UFS has developed the programme with the aim of providing graduates with the skills and knowledge they would require to work in the field of forensic biology. These graduates will be the first group of professionals that have undergone tertiary training in order to assist in the resolution of crime through forensic science in South Africa. It has also put the UFS in the forefront of training of this nature,” said Prof. Johan Spies, the departmental chairperson.

According to Mr Pierre Joubert, Director at the Forensic Science Laboratory (FSL) in Pretoria, students trained in this programme would easily be employed by the FSL since they would have the appropriate applied and technical training in forensic science.

Currently the FSL has no personnel with degrees in forensic science in its employ. It employs B.Sc. graduates in the fields of microbiology, genetics, molecular biology and biochemistry as forensic analysts. These employees then go through an extensive supplementary training programme for about six months.

Dr Sophie Mukwana, Director of Biotech Forensics in Kenya, said the launch of this programme in South Africa would benefit African countries like Kenya which relied on the USA for this kind of training. She said they hoped to partner with the UFS in this venture.

Applied Biosystems and Southern Cross Biotechnology have donated the necessary equipment to the UFS for this training.

“It is not only important that students should see the equipment but they should also know how to operate it,” said Ms Vanessa Lynch, from the DNA Project.

The DNA Project, in conjunction with the FSL and the UFS, has developed the learning materials which will be presented at the UFS from 2011.

Media Release
Issued by: Mangaliso Radebe
Assistant Director: Media Liaison
Tel: 051 401 2828
Cell: 078 460 3320
E-mail: radebemt@ufs.ac.za  

19 March 2010
 

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