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Monkeypox: what is it and what do we need to know?

07 June 2022 | Story Prof Felicity Burt, Prof Dominique Goedhals and Dr Charles Kotzé

Prof Felicity Burt, Dr Charles Kotze and Prof Dominique Goedhals — From the left; Prof Felicity Burt, Dr Charles Kotzé and Prof Dominique Goedhals.

Opinion article by Prof Felicity Burt , Prof Dominique Goedhals , Division of Virology at the University of the Free State (UFS), and Dr Charles Kotzé, National Health Laboratory Service (NHLS), Universitas Academic Hospital.

The recent COVID-19 pandemic has certainly highlighted the importance of vigilance and awareness of emerging diseases with public health implications. The monkeypox virus has recently made headlines, after the detection of more than 200 cases in geographically distinct regions. On 13 May, the World Health Organisation (WHO) was notified of human cases of the monkeypox disease occurring in the United Kingdom, outside of the known endemic region.

Exported cases have been detected previously and usually occur sporadically. In contrast, within the past two weeks, human cases have been confirmed in at least 21 countries, including various European countries, the United Kingdom, Israel, the Canary Islands, Canada and the United States, and Australia. The initial case appears to have been a traveller from Nigeria. Sequence data may help to determine if there have been multiple exportations from West Africa.

What is monkeypox and what do we know

What is monkeypox and what do we know about the aetiologic agent? Monkeypox is the name given to a disease caused by the monkeypox virus, a zoonotic pathogen endemic in Central and West Africa and responsible for cases of the disease in the endemic region, with occasional exported cases in travellers. The virus was initially identified in 1958 in monkeys housed at a research laboratory in Denmark, and the name monkeypox was derived from the appearance of lesions and the occurrence in monkeys. The first human case was identified 52 years ago in the Democratic Republic of the Congo. Since then, human monkeypox cases have been reported in several other Central and West African countries: Cameroon, the Central African Republic, Ivory Coast, the Democratic Republic of the Congo, Gabon, Liberia, Nigeria, Republic of the Congo, and Sierra Leone. The first monkeypox outbreak outside of Africa was in the United States of America in 2003 and was linked to contact with infected prairie dogs imported as exotic pets. Since then, there have been various small, contained outbreaks outside of Africa that have mostly been linked to the importation of the virus from African countries.

The virus is related to the smallpox virus, which was eradicated in the 1970s by vaccination. Although belonging to the same family of viruses as the smallpox virus, the disease caused by monkeypox is less severe, with fewer fatalities. Unlike smallpox, which carries a case fatality rate of 30%, the case fatality rate in monkeypox is low (estimated at 3-6% in more recent outbreaks). There are two clades of the monkeypox virus: the West African clade and the Congo Basin (Central African) clade. In this outbreak, all of the cases have been linked to the West African clade of the monkeypox virus.

Transmission occurs from animal to human, and from human to human, through close contact with lesions, body fluids, and contaminated materials. The virus enters the body through the respiratory tract, mucous membranes, or broken skin. The disease begins with non-specific symptoms such as fever, headache, muscle pains, and swollen lymph nodes. This is followed by the typical skin rash, which progresses through stages known as macules, then papules, vesicles, pustules, and lastly crusts or scabs. Lesions can also occur on mucous membranes such as the mouth, eye, and genital area. The infectious period lasts through all stages of the rash, until all the scabs have fallen off. There are a number of other infectious and non-infectious conditions that need to be differentiated; therefore, individuals presenting with these symptoms will need to consult their doctor to determine whether a diagnosis of monkeypox needs to be considered. In the current outbreak, a number of the cases in the United Kingdom and Europe have been detected in men who have sex with men, during visits to sexual health clinics. This pattern of spread has not previously been described and it remains to be determined whether the spread has occurred through close person-to-person contact or through sexual transmission.

Vaccination against smallpox virus offers 85% protection against monkeypox

To date, no cases have been detected in South Africa, but the recent global spread of the severe acute respiratory syndrome coronavirus 2 (SARS_CoV-2) highlights the ability of pathogens to spread. The National Institute for Communicable Diseases (NICD) in Johannesburg offers a specialised diagnostic service for the monkeypox virus, using molecular assays and electron microscopy.

Vaccination against the smallpox virus is believed to offer 85% protection against monkeypox, hence older persons should have some protection; however, vaccination against smallpox was phased out globally following the eradication of smallpox during the 1970s. A more recently developed vaccine against monkeypox is available but has very limited availability. No specific antivirals are available with proven efficacy in clinical trials.

While the monkeypox virus can be spread via the respiratory route, this occurs in the form of large droplets, rather than aerosol transmission, which is seen with SARS-CoV-2 (causing COVID-19). Aerosols are smaller particles that can remain suspended in the air for prolonged periods, facilitating the transmission of SARS-CoV-2. Monkeypox is therefore less contagious than COVID-19, as close contact is required for longer periods. For this reason, many experts around the world predict that this outbreak will not spread like SARS-CoV-2. The importation of monkeypox to South Africa is a definite possibility, because South Africa is a significant economic and travel hub for Africa. Previous outbreaks of monkeypox in non-endemic areas have been interrupted by contact tracing and isolation, which was very effective in controlling further spread. Heightened vigilance is therefore needed for the early detection of such cases.

News Archive

Eye tracker device a first in Africa

2013-07-31

31 July 2013

Keeping an eye on empowerment

"If we can see what you see, we can think what you think."

Eye-tracking used to be one of those fabulous science-fiction inventions, along with Superman-like bionic ability. Could you really use the movement of your eyes to read people's minds? Or drive your car? Or transfix your enemy with a laser-beam?

Well, actually, yes, you can (apart, perhaps, from the laser beam… ). An eye tracker is not something from science fiction; it actually exists, and is widely used around the world for a number of purposes.

Simply put, an eye tracker is a device for measuring eye positions and eye movement. Its most obvious use is in marketing, to find out what people are looking at (when they see an advertisement, for instance, or when they are wandering along a supermarket aisle). The eye tracker measures where people look first, what attracts their attention, and what they look at the longest. It is used extensively in developed countries to predict consumer behaviour, based on what – literally – catches the eye.

On a more serious level, psychologists, therapists and educators can also use this device for a number of applications, such as analysis and education. And – most excitingly – eye tracking can be used by disabled people to use a computer and thereby operate a number of devices and machines. Impaired or disabled people can use eye tracking to get a whole new lease on life.

In South Africa and other developing countries, however, eye tracking is not widely used. Even though off-the-shelf webcams and open-source software can be obtained extremely cheaply, they are complex to use and the quality cannot be guaranteed. Specialist high-quality eye-tracking devices have to be imported, and they are extremely expensive – or rather – they used to be. Not anymore.

The Department of Computer Science and Informatics (CSI) at the University of the Free State has succeeded in developing a high-quality eye tracker at a fraction of the cost of the imported devices. Along with the hardware, the department has also developed specialised software for a number of applications. These would be useful for graphic designers, marketers, analysts, cognitive psychologists, language specialists, ophthalmologists, radiographers, occupational and speech therapists, and people with disabilities. In the not-too-distant future, even fleet owners and drivers would be able to use this technology.

"The research team at CSI has many years of eye-tracking experience," says team leader Prof Pieter Blignaut, "both with the technical aspect as well as the practical aspect. We also provide a multi-dimensional service to clients that includes the equipment, training and support. We even provide feedback to users.

"We have a basic desktop model available that can be used for research, and can be adapted so that people can interact with a computer. It will be possible in future to design a device that would be able to operate a wheelchair. We are working on a model incorporated into a pair of glasses which will provide gaze analysis for people in their natural surroundings, for instance when driving a vehicle.

"Up till now, the imported models have been too expensive," he continues. "But with our system, the technology is now within reach for anyone who needs it. This could lead to economic expansion and job creation."

The University of the Free State is the first manufacturer of eye-tracking devices in Africa, and Blignaut hopes that the project will contribute to nation-building and empowerment.

"The biggest advantage is that we now have a local manufacturer providing a quality product with local training and support."

In an eye-tracking device, a tiny infra-red light shines on the eye and causes a reflection which is picked up by a high-resolution camera. Every eye movement causes a change in the reflection, which is then mapped. Infra-red light is not harmful to the eye and is not even noticed. Eye movement is then completely natural.

Based on eye movements, a researcher can study cognitive patterns, driver behaviour, attention spans, even thinking patterns. A disabled person could use their eye-movements to interact with a computer, with future technology (still in development) that would enable that computer to control a wheelchair or operate machinery.

The UFS recently initiated the foundation of an eye-tracking interest group for South Africa (ETSA) and sponsor a biennial-eye tracking conference. Their website can be found at www.eyetrackingsa.co.za.

“Eye tracking is an amazing tool for empowerment and development in Africa, “ says Blignaut, “but it is not used as much as it should be, because it is seen as too expensive. We are trying to bring this technology within the reach of anyone and everyone who needs it.”

Issued by: Lacea Loader
Director: Strategic Communication

Telephone: +27 (0) 51 401 2584
Cell: +27 (0) 83 645 2454
E-mail: news@ufs.ac.za
Fax: +27 (0) 51 444 6393

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