Cholera vaccination in Haiti: evidence, ethics, expedience.
Hinman, Alan R. ; Farmer, Paul ; Papers, Jean-William 等
The cholera epidemic in Haiti will be a year old in October and is
far from under control. As cases spiked across the country during the
summer rainy season, the ranks of cholera relief workers grew thin. Too
few patients reach healthcare facilities with enough time to be sure
that treatment--simple rehydration in most cases--can restore them to
health. Access to clean water and to modern sanitation is dwindling. We
must redouble existing efforts at cholera prevention and
care--case-finding and treatment, water and sanitation projects,
education and surveillance--while simultaneously integrating vaccination
into die ongoing response. Even prior to this epidemic it was clear that
waterborne pathogens posed great risks to communities across the
country, including those not affected directly by the January 2010
earthquake. All steps to protect Haiti's vulnerable population
needed, and still need, to be taken.
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One of these steps is vaccination. Oral cholera vaccines have been
proven safe, effective, and deliverable in resource-poor epidemic
settings. They can help protect poor communities that lack clean water
and modern sanitation, and they bring collective as well as individual
benefits. There is no evidence to suggest, as some have warned, that
adding vaccination to the cholera response would take resources from
other pillars of prevention and care, such as case-finding, treatment,
and water and sanitation efforts. Yet, cholera vaccines remain
unavailable in Haiti to date. We propose a vaccine demonstration in
urban and rural Haiti, with a discussion of ethical considerations and
possible objections. The Haitian cholera epidemic is the largest the
world has seen in recent history; Haiti deserves nothing less than a
comprehensive, integrated response using all of the tools in the
armamentarium, including oral cholera vaccine.
Background
Founded in the aftermath of the largest and most successful slave
revolt in history, modern-day Haiti is marred by extreme poverty,
political unrest, a high burden of disease, and weak infrastructure.
Haiti's chronic afflictions were exacerbated when a magnitude 7.0
earthquake devastated its capital, Port-au-Prince, and the surrounding
regions on January 12, 2010, killing an estimated 220,000 people and
displacing some 1.3 million more. Massive rescue and relief efforts
ensued: UN agencies, multilateral organizations, bilateral aid agencies,
and nongovernmental organizations rushed from around the world to help.
These relief efforts averted substantial suffering and death, and the
outpouring of solidarity--an estimated 50 percent of American households
donated to the earthquake relief and recovery efforts--was heartening.
But acute relief did little to address the profound deficiencies of
Haiti's public health infrastructure, and the often chaotic and
splintered response to the quake complicated the situation in other
ways. To help realize lasting improvements, NGOs and international aid
groups must work with and be coordinated by the government, the only
institution charged with providing rights to all Haitian citizens.
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As aid workers shifted from immediate rescue and relief to the
longer road of reconstruction, challenges such as providing safe
shelter, food, clean water, and sanitation in the IDP camps remained.
Today, nearly 600,000 people still live in internally displaced persons
(IDP) camps, which fill most of the open spaces in the beleaguered
capital. Before the earthquake, Haiti had poor health indices, including
the highest infant (57/1,000) and maternal mortality (620/100,000) rates
in the region, and one of the lowest immunization rates in the world (53
percent). Now, pathologies that often crop up among displaced
populations, such as diarrhea and respiratory infections, have become
common in the IDP camps and elsewhere in the ruined city. Water is no
longer provided for free in most IDP camps, increasing the risk of
outbreaks of waterborne disease. But there have been notable
achievements, too. Prostheses and wheelchairs have become more common,
although, as before the quake, long-term rehabilitation and follow up
was limited; ongoing efforts to control HIV and tuberculosis continue,
and seem to have prevented the spike in new infections that some had
predicted. Thanks to effective immunization efforts in Haiti and
elsewhere in the Western Hemisphere, measles did not play the same
deadly role after the earthquake as it has in many other similarly
disrupted settings.
Although the quake brought new attention, and new-resources, to
Haiti's "acute-on-chronic" health problems, emergency
relief could not replace public health infrastructure. The great
majority of those living in rural regions have never enjoyed access to
potable water; in 2001 the Water Poverty Index named Haiti the most
water-insecure country out of the 147 that were ranked. In March 2011,
with a million people still unhoused, the US Centers for Disease Control
and Prevention (CDC) predicted that cholera was "very unlikely to
occur." But in late October, ten months after the earthquake, a
surge of patients with profuse watery diarrhea presented themsleves at
healthcare facilities in the Artibonite River basin. Cholera, never
previously documented on Haitian soil, had come to Haiti.
The waterborne bacterium Vibrio cholerae causes profuse, watery
diarrhea in an estimated 3 million to 5 million people worldwide each
year, killing more than 100,000 of them. Typically spread by ingestion
of contaminated water or food, the disease may have been introduced in
Haiti when untreated human waste from a camp housing peacekeepers from
cholera-endemic countries leaked into the Artibonite River. Laboratory
analysis of a sample from central Haiti revealed that the strain active
in Haiti is practically identical to strains circulating in South Asia.
Cholera is frequently imported into non-endemic areas without causing
outbreaks of disease, but in this case widespread use of river water for
drinking, bathing, and washing--in the absence of safe water
supplies--facilitated the spread of cholera throughout the Artibonite
basin and, before long, the whole of Haiti. The lack of immunity in the
population made individuals especially vulnerable to infection.
Within weeks, cholera spread throughout the country's ten
departments. As of September 18, the Haitian health ministry reported
452,189 cases and 6,334 deaths (and these are official figures, which
almost certainly underreport the actual number of cases and deaths). The
initial case-fatality rate of 7 percent--among the highest recorded in
recent history--has dropped to 1.7 percent nationally, though regions
vary between 0.8 percent and 7.7 percent. But the disease is far from
under control: after a decline in cases from January to April of 2011,
there was a resurgence of cases across the country' beginning in
May. Such seasonal variation in incidence--rising in the rainy season,
falling somewhat in the dry season--is likely to continue as cholera
becomes endemic in Haiti. Now, more than 600 new cases, and more than 10
deaths, are reported every day, making this the largest cholera epidemic
the world has seen in decades. On the western third of Hispaniola,
cholera seems here to stay.
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Cholera Prevention and Care
Comprehensive and integrated prevention and care can curb the
spread of cholera and the suffering and death it causes, even in
settings with minimal medical infrastructure. Active case finding and
treatment with oral rehydration and/or (for moderate and severe cases)
intravenous rehydration and antibiotics can bring case-fatality rates
well below one percent. Building water treatment systems and providing
point-of-use purification technologies can substantially reduce
transmission, as can improving waste management and installing modern
sanitation infrastructure. National surveillance and education campaigns
can increase the efficacy of these interventions. Finally, safe and
effective oral cholera vaccines exist and could be delivered alongside
the other components of prevention and care. To date, however,
vaccination campaigns have not been rolled out in Haiti. During any
epidemic of cholera, we should deploy all tools in the medical and
public health arsenal. During the epidemic in Haiti, the largest in
recent history and one that shows no signs of slowing, vaccination is an
essential complementary intervention as water and sanitation
infrastructure are strengthened in the long term.
Cholera Vaccines
Older cholera vaccines were injectable, caused local side effects,
and produced limited protection for a short period. But two oral cholera
vaccines, Dukoral (~US$6/dose) and Shanchol (~US$1.85/dose), developed
in the last two decades, are easier to administer and offer
approximately 70 percent protection for two to three years after two
doses given two weeks apart. Observed so-called "herd
immunity" effects suggest that additional community-level
protection would come with large-scale immunization. Cross-country
studies that include herd immunity indicate the cost effectiveness of
cholera vaccination in resource-poor settings. Both vaccines have been
successfully administered to hundreds of thousands of persons in
multiple randomized controlled trials, and have excellent safety
profiles. But oral cholera vaccines are not magic bullets: Dukoral has
the disadvantage of requiring ingestion of 150 ml of a buffer solution
(75 ml for children 2-5 years of age) at the time of vaccination.
Refrigerated storage is recommended for both vaccines, though ongoing
studies are testing their stability at higher temperatures. Currently
there are only an estimated 400,000 doses of both vaccines available,
but production could be ramped up rapidly with increased demand.
Increasingly, global health policymakers have endorsed the use of
oral cholera vaccines in endemic and epidemic settings. In March 2010,
the WHO endorsed vaccination in conjunction with other control
priorities in endemic settings: it suggested local health authorities
consider integrating reactive vaccination with treatment, water, and
sanitation efforts in epidemic settings depending on health
infrastructure. In April of 2011, the WHO's Strategic Advisory
Group of Experts on Immunization (SAGE) launched a working group on
vaccination in humanitarian emergencies. Their report concluded that
"not vaccinating [in Haiti] may have cost lives and represents a
lost opportunity to gather more experience in responding to outbreaks in
non-endemic situations as well as innovative use of vaccination
strategies to control outbreaks." Most recently, in July, the
Technical Advisory Group (TAG) of the Pan-American Health Organization
(PAHO), the regional arm of the WHO, suggested that "cholera
vaccination be considered as an important complementary tool for the
control and prevention of cholera on the island of La Hispaniola."
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Current Proposal
To examine the efficacy of integrating vaccination into the ongoing
response to cholera in Haiti, the authors and a group of Haitian and
American colleagues working in government ministries, aid agencies,
multilateral organizations, nongovernmental organizations, and research
universities have proposed an urban and rural vaccine pilot using the
200,000 available doses of Shanchol. Although its health system was
weakened by the 2010 earthquake, Haiti could accommodate a large-scale
demonstration of reactive vaccination because there are sufficient
health providers--nurses, doctors, pharmacists, community health
workers--in country to deliver the two-dose course effectively. GHESKIO,
an NGO, would run the urban pilot in the Port-au-Prince slum Cite de
Dieu; Zanmi Lasante (the Haitian branch of Partners In Health) would run
the rural pilot in Bocozel, located in the Artibonite River valley. The
Haitian Ministry of Health would supervise the project, along with
external cholera experts and public health officials. If this
demonstration were deemed successful, we would suggest the production of
cholera vaccine be ramped up to supply a larger campaign across
Haiti--integrated, perhaps, with ongoing childhood immunization
efforts--and the development of a global strategy (possibly including a
stockpile) for prevention and control of endemic and epidemic cholera
around the world. Strengthening the immunization program and creating an
international stockpile would be intended consequences of the pilot
roll-out.
The Ethics of Cholera Vaccination in Haiti
Should this demonstration project move forward? If it proves
effective, should the government of Haiti and international partners
implement a nationwide vaccination campaign? Ethical principles, such as
"do no harm" and patient autonomy, can help answer these
questions and also guide program design.
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"Do no harm"--primum non nocere, in Latin--is a
cornerstone of medicine and public health. Before assuring that a
vaccine will benefit individuals, we must be certain that it will do
them no harm. Many health interventions have side effects; patients must
be aware of any risks associated with a vaccine, and must decide, along
with their health care providers, that the expected benefits outweigh
potential harm.
According to the WHO, Shanchol is a safe vaccine with no
significant side effects. A number of randomized controlled trials have
confirmed the safety of the vaccine on hundreds of thousands of people
in South Asia, Southeast Asia, and Africa. Most recently, from
February-April of 2011, 263,737 doses of Shanchol were delivered in
Dhaka, Bangladesh and no adverse events have been recorded.
In addition to ensuring that individual participants would not face
harmful side effects, a vaccine campaign must be careful not to disrupt
or have adverse consequences on families or communities. For example,
could, as some have suggested, a demonstration project that vaccinates
only a specific population trigger resentment among those who are not
vaccinated? Experience suggests this would not be the case: previous
clinical trials of oral cholera vaccine, and of other vaccines and
medical interventions, have not commonly led to such social frictions,
even though they have not included everyone. Indeed, the introduction of
a novel diagnostic or preventative or therapeutic invariably occurs in
stages, with blanket coverage a rare achievement except in the case of a
few vaccines. A demonstration project is the first step toward a
universal vaccination campaign. If successful, vaccine production could
be increased and delivery scaled nationwide.
In addition to avoiding harmful consequences, a vaccine
demonstration must be designed to maximize potential benefits for its
participants. Abundant evidence suggests that Shanchol is effective in
endemic and epidemic settings. Protection begins 7-10 days after
receiving the second dose and lasts at least 2-3 years. After an
epidemic in Vietnam, on open, controlled trial using an earlier variant
of the vaccine found 66 percent protective efficacy for people of all
ages 8-10 months after receiving two doses; three to five years after
vaccination, protection remained at 50 percent. A randomized controlled
trial in Kolkata, India, that vaccinated 31,932 people in 2006 found a
67 percent protective efficacy during an interim report two years after
vaccine courses were completed. In addition to protecting individuals
who are immunized, large-scale vaccination confers further
protection--herd immunity--on the general population. By reducing the
number of people who become infected, vaccination decreases production
of viable cholera organisms deposited into the environment through fecal
contamination.
The WHO has not fully recommended reactive use of cholera
vaccine--that is, vaccinating during an ongoing epidemic--but recent
studies suggest efficacy in epidemic settings, especially when
integrated with the other pillars of prevention and care. A case-control
study of reactive vaccination during an outbreak in Vietnam found a
protective efficacy of 76 percent. A modeling exercise suggested that,
if widespread vaccination had been launched during the 2008-2009
Zimbabwe epidemic, 40 percent of both cases and deaths could have been
averted. Two recent models of the epidemic in Haiti have predicted
substantial benefits from vaccination: one estimated that 10 percent
coverage would avert 63,000 cases and 900 deaths; the other estimated
that 30 percent coverage would lead to a 55 percent reduction in cases.
The positive results of these past vaccination campaigns and modeling
exercises makes a strong case that cholera vaccination would
significantly help, not hurt, populations that receive it.
In addition to "do no harm," the principle of autonomy
demands that health interventions not encroach on the self-determination
of individuals. Participants in vaccination campaigns must not he
coerced, nor should extravagant claims of efficacy be made. All must be
free to decline participation without fear of retribution. Providing
sufficient and balanced information about the vaccine to potential
participants, many of whom may be illiterate, is a precondition of
autonomous decision-making. Maintaining privacy with respect to the
decision to participate is also necessary to safeguard
participants' autonomy. That said, a lack of access to effective
vaccines during the world's largest cholera outbreak must also be
seen as an ethical challenge. We are doing harm by failing to act.
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Vaccination and Social Justice
In addition to principles from medical ethics--autonomy and
"do no harm," for example--an honest appraisal of the cholera
epidemic in Haiti must consider global inequities, such as the lack of
access to the fruits of modern medicine among poor communities around
the globe. The poor quite literally embody many of the ethical
challenges inherent in medicine and public health. For example, the
question of rationing health care--a political flashpoint in discussions
of US healthcare reform--reaches its logical end when considering the
gap in access to healthcare between the rich and poor worlds. Each year
OECD countries spend about US$4,000 on healthcare per person {the United
States spends more than US$8,000); low-income countries spend an
estimated US$27 per person. At times the disjuncture between debates
within medical ethics and the pathologies of poverty brings to mind
George Bernard Shaw's Pygmalion: "Have you no morals?"
the governor asks, to which Doolittle answers: "Can't afford
them, governor. Neither could you if you was as poor as me."
Social justice grapples with inequities in the distribution of
resources, including those dedicated to health care. For example, John
Rawls' "difference principle," which has been extended by
Thomas Pogge and others to a global level, demands preferential
treatment of the most disadvantaged members of society. Is it just,
Pogge asks, that an estimated 18 million people around the world die
prematurely front poverty-related causes every year? We live in a world
in which pathogens move freely across borders while the fruits of
medical research, including vaccines, arc blocked at customs. Cholera is
a poignant example of this contradiction: the disease was introduced in
Haiti from without, yet not all of the tools in the armamentarium are
available to protect Haitians from infection.
Cholera prevention and care ought to follow the contours of
Rawls' difference principle; that is, caregivers ought to make a
preferential option for the poor. Invariably, the poorest members of
society bear the highest burden of disease while having the least access
to medical care, prevention services, clean water, and modern
sanitation. Cholera fatalities occur when people lack access to simple
rehydration; it is no surprise that the vast majority of the more than
6,000 Haitians who have perished in the cholera epidemic were extremely
poor before they became sick. Aggressive case-finding and prompt
treatment can bring case-fatality rates below one percent. Strengthening
water and sanitation infrastructure can slow the spread of cholera and
prevent epidemics of waterborne disease in the future. No private or NGO
initiatives can replace a robust public water supply. However,
rebuilding the water and sanitation systems in Haiti will take resources
and time, and an estimated 600 Haitians contract cholera every day.
Integrating vaccination into the cholera response could provide poor,
vulnerable Haitians with some degree of protection from cholera
infection. Vaccination campaigns could target the places in which water
and sanitation infrastructure is weakest: urban slums and rural areas.
In other words, integrating vaccination into the ongoing cholera
response could provide the greatest benefits to those least well off.
Because only 200,000 closes of Shanchol are currently available,
some have argued that it isn't fair to protect some people if you
can't protect everyone. (20 million doses would be needed to
vaccinate the entire population.) We believe this logic is specious and
circular Shantha has only produced only 200,000 doses of Shanchol
because there is insufficient demand for more; there is insufficient
demand because the 200,000 available doses are too few for a large
immunization campaign, and so forth. The proposed demonstration could be
a way to break the cycle: if deemed successful, the Haitian government
and international partners could order more doses, Shantha could
increase production, and the vaccination campaign could be scaled up
nationally.
Such "limited good" arguments are, in this case, more a
manifestation of neglect than a legitimate cause for concern. It was not
difficult to predict the explosive spread of cholera back in late
October of 2010, and had vaccines been ordered then, millions of doses
would currently be available. Millions of doses can still rapidly be
made available if we order them. The moral point is that Haitians lack
access to an affordable, safe, and effective vaccine that could protect
them from a debilitating and sometimes deadly illness that was
unwittingly introduced by relief workers seeking to help after the
earthquake.
Conclusion
One unintended consequence of the injunction to "do no
harm" is a bias towards inaction among the institutions that govern
the landscape of global health. If an organization does nothing, it is
unlikely to be blamed for hurting anyone. The tendency of bureaucracies
to attend to their own self-perpetuation as much as they attend to their
stated goals, as sociologist Max Weber noted, compounds this inertia.
Bill Foege, who masterminded smallpox eradication in India, noted that
"we frequently worry about the problems of commission, but we fail
to even think about the greater harm that gets done through the problems
of omission." The cost of inaction is high when attempting to
control an explosively infectious disease like cholera. Had a
large-scale vaccination campaign begun soon after cholera hit Haiti in
late October 2010, perhaps large numbers of cholera cases and fatalities
could have been averted. Perhaps also healthcare providers would not be
spending millions of dollars every month treating patients admitted with
severe watery diarrhea.
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Some uncertainty' is endemic to the field of medicine and
public health. We can never know everything about an intervention, and
the consequences--favorable and unfavorable--it will have among
individuals and populations before delivering it. Foege said, "If
we had to wait until we could be absolutely certain that we could
eliminate smallpox, then we never would have been able to do it.
HIV/AIDS came along and it would so have complicated the eradication
process that it might have become impossible." Integrating
vaccination into the ongoing response to cholera in Haiti is the ethical
and expedient thing to do. Although its healthcare system was weakened
by the 2010 earthquake, Haiti could accommodate a large-scale
vaccination campaign because there are still large immunologically naive
populations, and there are sufficient healthcare providers in country to
deliver the two-dose course effectively. If the demonstration were
deemed successful, we would suggest production of cholera vaccine be
ramped up for use across Haiti--perhaps in conjunction with childhood
immunization programs--and in other countries (and possibly for the
development of a global stockpile). Yellow fever and meningococcal
vaccine stockpiles have helped reduce the incidence of those diseases,
and a cholera vaccine stockpile could be developed in the same way: a
coalition of donors guarantee the purchase of necessary doses;
manufacturers expand production capacity; and healthcare providers
integrate vaccination with delivery of care and other prevention
services.
By mid-October 2011, one year after cholera hit Haiti, nearly 7,000
Haitians will have perished in the epidemic. But next year, and the year
after that, need not continue this grim trajectory. Our response must be
comprehensive and integrated; we must move rapidly, and together.
ALAN R. HINMAN (1), PAUL FARMER (2), (3), (4), JEAN-WILLIAM PAPERS
(5), (6), LOUISE C. IVERS (2), (3), (4) FERNET LEANDRE (4), (7),
JONATHAN L. WEIGEL (2), (4), MARK L. ROSENBERG (1)
AFFILIATED INSTITUTIONS:
(1) The Task Force for Global Health, Decatur, GA; (2) Department
of Global Health and Social Medicine, Harvard Medical School, Boston,
MA; (3) Division of Global Health Equity, Brigham and Women's
Hospital, Boston, MA; (4) Partners In Health, Boston, MA; (5) Center for
Global Health, Weill Cornell Medical College, New York, NY; (6) GHESKIO
Centre, Port-au-Prince, Haiti; (7) Zanmi Lasante (Partners In Health),
Cange, Haiti.
