by Colin Brown, The Conversation
Ebola virus disease was first discovered in the Democratic Republic of the Congo in 1976, and by 2013 had caused about 20 recorded outbreaks across East and Central Africa. These had been restricted to rural areas and confined to small clusters of villages. In each case containment was achieved within a few months and after fewer than 500 confirmed cases. The world assumed that Ebola was too efficient at killing its hosts, doomed to quickly burn out wherever it arose.
The 2014 West African outbreak has changed everything. It was the “Black Swan” – the inevitable consequence we did not foresee. As we head into mid-January 2015, there have been more than 21,000 reported cases spread across nearly every region in three adjacent countries, and more than 8,000 people are known to have died.
Cases have cropped up in the US, Mali, Senegal and Nigeria. Patients have been treated across Western Europe. Until early November 2014, there was no sign of a reduction in transmission and case numbers were rising exponentially. As we wrote in the journal Tropical Doctor, though numbers are now slowing in Guinea and Liberia, there is still an increase in cases in Sierra Leone where 500 healthcare workers have died. There is no certainty the other affected countries will not again see an upsurge in new cases.
Estimates of how many people could be affected have varied widely and included projections of up to 1.4m, or up to 25,000 cases per day by mid-January 2015. This was a dramatic increase since the World Health Organisation (WHO) projected a maximum of 20,000 cases in August 2014, highlighting how difficult it is to predict the future epidemic direction, though organisations such as Médecins Sans Frontières highlighted their concern as early as March 2014.
Current expert opinion suggests that an overall decline will be likely in the next few months, however the “tail” of the epidemic curve will be protracted and punctuated by many smaller, localised outbreaks.
Mathematical modelling is challenging and cannot easily account for conflict, mass movement of people, or breakdown of civil society, but though the very high case numbers may not be reached, one thing is certain: this will be a terrifyingly large outbreak, something never before faced on a global scale.
Same but more virulent virus
Given Ebola’s appearance in a setting thought solely home to Lassa Fever, there was initial speculation that this was a different virus than had been seen before. The same – but different: more virulent, more transmissible.
Modelling now firmly places the current outbreak strain as belonging to the Zaire strain (EBOV), with entry into the West African animal population around the mid-2000s from central Africa. One discrete contact with one infected animal is responsible for all the disease seen.
Deadly interaction. Ahmed Jallanzo/EPA
Early analysis of some 80 samples from Sierra Leone shows that in one month, 400 mutations were identified. It is unclear if those mutations carry any fitness advantage, or whether this epidemic will evolve differently than those seen before. Currently, Zaire Ebola in West Africa is not behaving differently to what has previously been seen. There is no change in route of transmission, no suggestion of aerosolised spread, no gross differences in disease presentation.
Therefore we know the measures required to control this outbreak: contact tracing, adequate testing and isolation, onward referral for treatment, communications with communities, improved logistics to support a fragile health system. These are the stalwarts of public health control across the last decades.
Why did the situation get so bad?
We cannot attribute the failure of early containment on differences in virulence or transmission of the virus. The reasons for lack of control are complex, multi-factorial and open to debate. Emergence was in Guéckédou, a remote and difficult-to-access area in West Africa, with porous borders across the three post-conflict nations most affected: Guinea, Liberia and Sierra Leone.
As with much of Africa, these boundaries were European-drawn and do not correlate with different community identities or languages. Radio messages were initially in official languages only. Spread between countries was likely.
In this region, where availability of mainstream healthcare was already severely limited, the care of unwell individuals is vastly different to that available in the West. Sick relatives are nursed at home by family members, and further care is often sought from traditional healers, unofficial providers and private pharmacies rather than government health facilities.
Peripheral health units are only equipped to diagnose and treat malaria, pregnancy and a few other key conditions, and if patients do go to hospital, in many settings there is a lack of basic equipment such as gloves, aprons, running water and soap. The number of trained healthcare professionals of all cadres is very low.
Additionally, there is huge stigma associated with Ebola, similar to those seen in the early years of HIV care. The present Ebola outbreak began very close to where civil war erupted in Sierra Leone in 1991, and trust in the government in this region is low. Although acceptance of Ebola is rapidly increasing, there was initially disbelief about its existence, and conspiracy theories about population control were prominent and sometimes roused by media.
This constellation of palpable fear and deep mistrust inhibited early engagement and sound communication about the threat of Ebola. It was understandable, therefore, that families were reluctant to hand over their relatives to treatment centre staff wearing masks and suits. This is particularly true when there was a high likelihood of never seeing their loved ones or their bodies again.
Tensions rise in West Point, Monrovia. Ahmed Jallonzo/EPA
These factors have all increased the risk of transmission of Ebola, both in the community and within hospitals, and lead to a delayed and disjointed response both in-country and internationally. By keeping family members at home to die, burial practices involving body preparation and touching by mourners further facilitated spread.
Early in the outbreak, families also buried their own dead due to insufficient staff to bury bodies safely. Given that many of these factors are present in the settings of Uganda and the Democratic Republic of Congo, where previous outbreaks have centred, the emergence of a disease thousands of miles from where it had been seen previously also contributed to spread. Lassa Fever is endemic and may have led to a false sense of security among healthcare workers regarding the transmissibility and mortality associated with viral haemhorragic fevers. Furthermore, wearing full personnel protective equipment in a humid environment comes with considerable difficulties, with differing opinions on which option is best to use. Safely incinerating waste in the rainy season brings its own challenges.
There is general agreement that a sufficient early international response, when traditional control strategies of case isolation, contact tracing and geographical containment were feasible, were not forthcoming. The WHO were slow to deploy experts, not appreciating the potential seriousness from the outset. Approaches used in smaller outbreaks were followed, and institutions were slow to adapt to new models of care. There was an initial dearth of organisations willing to deploy clinical staff to the field and many traditional health non-governmental organisations withdrew their in-country staff. Fear led to delays as they adapted to the disease. And unlike Severe Acute Respiratory Syndrome (SARS), major travel routes with potential spread into the West were not affected. The world watched but did not engage.
Novel therapeutics are on the horizon. TKM-Ebola, ZMapp, Favipiravir, Brincidofovir and other novel agents are being fast-tracked by regulatory authorities and rolled out for testing in clinical settings.
Convalescent plasma (using blood plasma from Ebola survivors) – long thought useful in a variety of viral illnesses including SARS, influenza, Crimea-Congo haemhorragic fever – offers a potential treatment option that can be delivered locally using modified existing transfusion services. Any reduction in circulating and replicating the virus may allow the body vital time to produce immunity; however this has not proved effective for Lassa Fever and needs to be evaluated formally.
There are three major vaccine developments underway, entering Phase I and II trials, likely eligible for roll-out by early 2015. However, though these offer hope for the future, they are unlikely to shape the control efforts of this outbreak. Earlier trial intervention was hampered by a lack of ability to conduct research given the burden of treatment needs, so we’re still waiting for evidence of their effectiveness from the field. Simple treatment interventions such as aggressive electrolyte replacement and treatment using anti-diarrhoea agents remain untested.
What can be done now?
The only human-to-human transmission of Ebola occurs via direct contact with body fluids of an infected individual. Importantly, the chance of transmission is greatly increased in the advanced stages of the disease, when diarrhoea, vomiting and bleeding can occur and viral load is high. Disease control is therefore aimed at interrupting this transmission and consists of early case identification and testing, effective isolation and contact tracing. None of these were reliably being achieved early in the outbreak: cases were identified in the late stages when substantial exposure had occurred; testing suspects took several days to perform; treatment centres were at capacity; and contact tracing was disorganised.
What was needed in West Africa was a multifaceted international response, integrating different agencies and spanning all affected countries, with the cornerstones of disease control at its heart. As case numbers grew, and more regions were affected, achieving a coordinated response became increasingly difficult. Each new case exponentially increased the workload for clinical and public health staff; hence every case and every day compounded and threatened to overwhelm any response, especially where a fragmented health service was already present.
Hope is on the horizon. We are seeing a redoubling of efforts along with disease spread – international agencies and regional funders have ramped up their response, there are money and material human resources being deployed daily. Governments are stepping up to the challenge. As well as financial commitment, logistical assistance is paramount. Armed forces, who have the responsiveness and capacity to stage a meaningful intervention, are being deployed to deliver infrastructure, logistics and engineering support. In Sierra Leone, holding and treatment centres are being built apace, staffed by local workers with technical support and oversight from international agencies. Most importantly, this response is happening now.
We’re building a robust model of care at King’s Sierra Leone Partnership, which aims to help build Sierra Leone’s health system by strengthening training, clinical services, policy and research. One way we’re doing this is by building units in existing healthcare facilities for testing and holding, allowing these centres to stay open for care of other health needs: paediatric vaccination, maternal care, HIV management. Onward referral to dedicated treatment centres keeps the existing infrastructure and prevents fragmentation of care.
In addition to tried-and-tested control methods, the seriousness of this outbreak represents an opportunity for using new approaches if potential harms and benefits are properly considered. For example, the employment of Ebola survivors as “patient champions” has been proposed, both in advocacy and clinical work within communities and hospitals.
Nurse Abdul Rahman Sanu survived Ebola in Hastings, Sierra Leone, and has returned to work. #ISurvivedEbola, CC BY
Once numbers begin to fall, complacency must not set in. Control efforts must be maintained until every case has been treated.
Looking to the future
In the event that Ebola is brought under control in West Africa over the coming months, it is paramount to remember how badly damaged the remaining health infrastructure will be. As is the case with humanitarian disasters, there has been a crippling effect on other programmes for communicable and non-communicable diseases alike.
In Sierra Leone we recently observed a reversal of steps to improve health since the civil war ended 12 years ago. Other activity essential to a functioning democracy such as food supply, security, industry (particularly mining) and trade sectors are facing significant challenges. A response that strengthens these institutions in addition to control efforts is needed.
Ever since its discovery, it has been appreciated that Ebola poses a serious risk to global public health. Infectious diseases represent a global threat, not just to those within the country or region of emergence. With the current increase in the movement of people (rural to urban, within countries and across borders), this risk will inevitably increase. While the current priority should be to contain the present outbreak, there is a great need to plan for prevention of future events. The development of an international response group tasked with immediate assessment of and initial response to emerging pathogens is needed, backed by sufficient international political will, clinical expertise and funding. This needs to be agile and responsive, with clear chains of command, and able to engage early.
We may have been fortunate to have avoided an outbreak of this scale before now. Will we be ready next time? And will we succeed now? The upcoming months will be vital in determining the direction of the response. Time is not on our side, but the will and effort is now here for the humanitarian catastrophe of our time. Let it continue.
This article was co-written with Paul Arkell and Sakib Rokadiya, volunteer doctors with the King’s Sierra Leone Partnership
This article was originally published on The Conversation. Read the original article.
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