key: cord-309242-ilsupfl8 authors: Schuchat, Anne; Tappero, Jordan; Blandford, John title: Global health and the US Centers for Disease Control and Prevention date: 2014-07-02 journal: Lancet DOI: 10.1016/s0140-6736(14)60570-5 sha: doc_id: 309242 cord_uid: ilsupfl8 nan Anne Schuchat, Jordan Tappero, John Blandford Why is an article about global health included in a special issue on health in the USA? About half the produce that Americans consume is cultivated in other countries, 60 million Americans travel or work outside the USA, and most patients with measles and tuberculosis in the USA acquired their infection elsewhere. Emerging diseases, globalisation of foods and medicines, the rise in antimicrobial resistance, and the ease with which pathogens can be manipulated for good or harm increase each nation's vulnerability and interdependence. The Centers for Disease Control and Prevention (CDC) has engaged in global health for more than 60 years. Although tackling infectious disease threats has been a constant, the agency has also provided humanitarian assistance in natural disasters, refugee crises, and famines; improved child survival; and strengthened scientifi c measurement of health metrics. CDC's workforce includes more than 300 internationally deployed public health professionals in addition to around 1330 locally employed staff working in about 60 countries (fi gure). CDC's global health strategy aims to: achieve optimum health eff ects; strengthen global health capacity; improve global health security; and strengthen the organisation's capacity. 1 This report describes selected programmes that illustrate these goals. Leveraging the strengths of the US-implementing agencies for a whole-of-government approach, the US President's Emergency Plan for AIDS Relief (PEPFAR) targets resource-constrained countries that are hardest hit by the HIV epidemic. CDC has played a central role in PEPFAR since its inception, bringing more than 30 years of experience of work in HIV/AIDS. CDC staff work with peers in Ministries of Health and other host country entities to implement eff ective national programmes in HIV care and treatment, tuberculosis-HIV integration, maternal and child health, HIV prevention, and HIV counselling and testing. Through PEPFAR, CDC is also strengthening public health systems through focused investments in local workforce capacity and health systems that are essential to the scale-up and sustainability of priority PEPFAR programmes and to the strengthening of the broader public health system. For example, growing HIV treatment pro grammes were shown to be positively correlated with increased rates of facility deliveries by non-HIV infected women. 2 In late 2011, President Obama and then-Secretary of State Hillary Clinton advanced the vision of an AIDS-free generation, defi ned as almost complete elimination of vertical transmission of HIV, greatly reduced incidence of sexual transmission of HIV in adults and adolescents, and universal access to antiretroviral therapy (ART) to people who become infected. President Obama announced in December, 2011, ambitious new targets for priority evidence-based interventions that were to be realised in just 2 years' time: PEPFAR, in 2013, was committed to directly support 6 million patients receiving treatment, an increase of 50% over the previous target; provision of therapy to 1·5 million pregnant women to prevent vertical infection of HIV; and to cumulatively reach 4·7 million men with voluntary medical male circumcisions. 3, 4 CDC and its partners worked to make these bold targets a reality. PEPFAR has directly supported 6·7 million patients receiving treatment; provided more than 1·5 million pregnant women with antiretroviral prophylaxis to prevent mother-to-child transmission of HIV during the preceding 2 years; and with cumulative support of 4·2 million medical male circumcisions, was on track to achieve that target by the end of 2013. 5 CDC implemented an innovative approach to prevent mother-to-child transmission of HIV in Malawi by working with the Ministry of Health and local partners. 6 The new approach, called Option B+, off ers all pregnant or breastfeeding women infected with HIV lifelong ART. 1 year after this approach was implemented in 2011, the number of HIV-positive pregnant and breastfeeding women receiving ART increased by more than 700%, from 1257 to 10 663. Option B+ not only reduces motherto-child transmission to less than 5% but also maintains the mother's health, provides lifelong reduction of HIV transmission to uninfected sexual partners, and prevents mother-to-child transmission in future pregnancies. Other African and Caribbean countries are now initiating this approach. Although each country must weigh the potential eff ect and costs of Option B+ in reaching the goal of elimination of mother-to-child HIV transmission, this approach could overcome barriers such as inadequate immunological testing capacity, substantial distances between antenatal clinic and ART-initiation sites, and human resource constraints. 6 Further, CDC and the US Health Resources and Services Administration initiated the Track 1·0 programme in 2004, to rapidly scale up ART delivery initially through US-based partners. 7 In its fi rst phase, PEPFAR was undertaken as an emergency response to provide accelerated access to crucial, lifesaving services and programmes. With PEPFAR's reauthorisation in 2008, CDC worked to further strengthen programme sustainability, country stewardship, and local implementation of core programmes. CDC worked with Ministries of Health to transition service delivery of HIV/ AIDS care and treatment to local stewardship in 13 countries. As of February, 2012, these countries had contracts or awards in place with indigenous partners to establish local country ownership of their ART programmes. The transition of treatment programmes to indigenous partners is consistent with CDC's approach across programme areas of working through partner Ministries of Health and other local entities. 61% of CDC's PEPFAR programme funding goes through indigenous entities, and this share should continue to grow as CDC provides the technical support and capacity building to maintain continuity and quality of treatment services. CDC's infl uenza programme contributes to strengthened global health security. Infl uenza viruses spread rapidly without respect to geographical borders. Control of disease caused by these viruses requires accurate laboratory detection, epidemiological response, and development and delivery of appropriately targeted vaccines and other countermeasures. Eff orts that focus on seasonal infl uenza strengthen preparedness for pandemics. Addressing avian infl uenza has assumed greater priority since emergence of H5N1 8 and more recently H7N9 infl uenza viruses. 9 The CDC is the National Infl uenza Center for the USA and one of fi ve WHO International Collaborating Centers for surveillance, epidemiology, and control of infl uenza. CDC scientists participate in strain selection for seasonal vaccines and prepare candidate vaccine virus strains for vaccine manufacturers. Since the emergence of cases of H5N1 avian infl uenza in people more than a decade ago, CDC has expanded support to and collaborations on infl uenza with dozens of countries. After a local outbreak in 1997 in Hong Kong, 10,11 avian H5N1 infl uenza resurfaced in 2003, initiating a decade of major epizootics aff ecting birds in Asia, northern Africa, and Europe, prompting intensifi ed national, regional, and global responses. 12 To date, animal-to-human transmission has caused nearly 400 human fatalities, and millions of poultry have been culled in aff ected areas. The CDC contributed to a comprehensive US Government response to H5N1 avian infl uenza. It established cooperative agreements with ministries of health in more than 30 countries to strengthen capacity for epidemiological response, laboratory detection, and emergency preparedness; seconded staff to WHO, World Animal Health Organization, and UN Food and Agriculture Organization; collaborated on vaccine and diagnostic studies with the US National Institutes of Health, the Food and Drug Administration, the Biomedical Research and Advanced Development Authority, academic investigators, and industry; and established a strategic national stockpile of antiviral drugs and other emergency supplies. By April, 2009, when CDC fi rst detected a novel strain of infl uenza A H1N1, CDC had already enhanced capacity for pandemic response. An Infl uenza Reagent Repository facilitated the surge in laboratory testing in the USA and other countries. CDC shipped reagents for the detection of novel 2009 H1N1 infl uenza virus beginning May 1, 2009 . 13 In addition to 1500 kits shipped to public health laboratories in all 50 states, 1400 diagnostic kits were shipped to laboratries in 153 countries. CDC's investments in strengthening countries' surveillance for severe acute respiratory illness (SARI) 14 provided recognition of severe disease in many countries caused by the new infl uenza strain and helped to monitor changes in clinical severity that might signal viral mutations of concern. In 2013, the SARI surveillance systems monitored the spread of the new Middle East respiratory syndrome (MERS) coronavirus. On March 31, 2013, Chinese authorities reported to WHO their detection of a novel H7N9 avian infl uenza virus that caused severe pneumonia in three people in Shanghai and Anhui. 9,15 From Oct 1, 2013, to March 12, 2014, 384 human cases and 123 deaths had been reported by China's National Health and Family Planning Commission, and the novel virus had been isolated from live bird markets. 16 The Chinese rapidly completed whole genome sequencing of several viral isolates, posted their sequence data, closed live bird markets in several cities, and initiated targeted culling of birds. The virus is of low pathogenicity in poultry, and subclinical avian infection has complicated animal control eff orts. Although no sustained human-to-human transmission has occurred, it is too early to be certain of the full eff ect that this novel virus will have on human or animal populations. The Chinese authorities responded rapidly and shared information about human disease and genetic sequence data openly. 17 The US CDC has collaborated with China's infl uenza scientists and public health authorities for decades. CDC provided substantial technical assistance, several visiting scientists from China completed training and research projects in Atlanta, and senior scientists from the US CDC provided onsite technical support in China. A major milestone was achieved in 2010, when China was designated as the fi fth WHO International Collaborating Center for Reference and Research on Infl uenza in human beings. China is also the location of one of CDC's Global Disease Detection (GDD) Regional Centers. At GDD sites, US CDC epidemiology, laboratory, and veterinary staff work closely with counterparts from the ministries of health to strengthen early detection and response to public health threats. China also hosts a Field Epidemiology Training Program (FETP), at which a US CDC Resident Advisor works closely with epidemiology trainees in a 2 year programme modelled after the CDC's elite Epidemic Intelligence Service. In recognition of these broad partnerships, China designates national, provincial, and district public health departments as CDCs. Infl uenza events highlight the importance of strengthening global health security worldwide. Emerging threats such as avian infl uenza or severe acute respiratory syndrome can occur anywhere. 18 Acceleration of improvements in the capacity for each nation to protect its own citizens and detect and report public health threats of international concern promptly to the global community is urgently needed. 19 CDC's experience in Haiti addresses how programmes designed for health eff ect can strengthen capacity and improve preparedness for health security threats. On Jan 12, 2010, a devastating earthquake struck Port-au-Prince, Haiti, killing an estimated 230 000 people, injuring 300 000 more, displacing more than 20% of the country's 10 million residents, and destroying much of the capital's infrastructure. 20 The public health response benefi ted from CDC's partnership with the Ministry of Public Health and Population (MSPP), and the administrative and non-governmental organisation implementation platforms established under PEPFAR in 2002. 20 HIV services recovered to baseline rapidly. 21 Yet an urgent need remained to strengthen reportable disease surveillance because of overcrowding and poor living conditions, 22, 23 expand capacity to identify reportable pathogens at the national public health laboratory, 24 and train a public health workforce. The US Government committed more than US$3 billion in new funds for post-earthquake relief, recovery, and reconstruction; facilitated MSPP's rapid detection of Vibrio cholerae within days of its introduction; and contributed to an eff ective emergency response 20 to the worst national cholera epidemic in the modern era. 25 After these back-to-back crises, in early 2011 MSPP, CDC, and other organisations identifi ed seven measurable public health eff ect goals to transform health services and disease outcomes. 26 With the aim to achieve an AIDS-free generation, in 2011, MSPP and PEPFAR-Haiti expanded HIV counselling and testing sites for pregnant women, implemented a case management programme for all HIV-infected women to reduce loss to follow-up, and in 2012 adopted the B+ option that provides all HIV-infected pregnant and breastfeeding women with lifelong ART irrespective of CD4 cell count. 6, 27 HIV testing of pregnant women has increased by 74%, from 128 540 in 2010, to 223 626 in 2013. 28 The proportion of identifi ed HIVinfected pregnant women who received prophylaxis or ART increased from 61% to 92% during this period. 28 Since the earthquake, overall access to ART has nearly doubled; 29, 30 in 2013, more than 75% of all eligible HIVinfected Haitians were receiving ART. 28 From Oct 20, 2010, to April 28, 2014, Haiti reported 701 961 cases of cholera and 8555 deaths. 31 The inadvertent introduction of cholera, which had not been seen in Haiti in more than a century, accounted for 57% of the reported global cholera burden in 2010 and 2011. 25 Although the annual case fatality rate has been sustained at the international standard of 1% or less since 2011, elimination will need substantial investment in infrastructure to address inadequate access to improved drinking water (62%) and sanitation (24%). 32 outbreaks, and use data to drive public health policy. CDC has helped to establish 50 FETPs that have trained nearly 3000 graduates from 69 countries. The world is more interconnected than ever, and weak links in public health capacity anywhere can have profound eff ects at distant locations. Governments have responsibilities to their citizens and other nations to detect problems rapidly, communicate promptly, and respond eff ectively. The CDC focuses on the protection of Americans and improvements in the health and capacity of people worldwide through partnerships with ministries of health, other US Government agencies, non-governmental organisations, and multilateral organisations. The goal of these eff orts is to improve health and strengthen capacity while striving for a world more secure from emerging threats. AS contributed to the overall planning and writing of the manuscript, the literature search, and the development of the fi gure. JT contributed to the writing of the manuscript, the literature search, and the development of the fi gure. JB contributed to the writing of the manuscript and the literature search. We declare no competing interests. Human infection with highly pathogenic avian infl uenza A (H5N1) virus: review of clinical issues Detecting 2009 pandemic infl uenza A (H1N1) virus infection: availability of diagnostic testing led to rapid pandemic response Infl uenza surveillance in 15 countries in Africa Emergence of avian infl uenza A (H7N9) virus causing severe human illness-China Human infections with the emerging avian infl uenza A H7N9 virus from wet market poultry: clinical analysis and characterisation of viral genome Global concerns regarding novel infl uenza A (H7N9) virus infections Moving forward to 2014: global IHR (2005) implementation International Health Regulations-what gets measured gets done Lessons learned during public health response to cholera epidemic in Haiti and the Dominican Republic Recovery of HIV service provision post-earthquake Launching a National Surveillance System after an earthquake-Haiti Rapid establishment of an internally displaced persons disease surveillance system after an earthquake-Haiti Public health in Haitichallenges and progress Cholera surveillance during the Haiti epidemic-the fi rst 2 years Cautious optimism on public health progress in post-earthquake Haiti Prevention of mother-to-child transmission of HIV and the health-related Millennium Development Goals: time for a public health approach UNAIDS. UNAIDS Report on the global AIDS epidemic 2010 UNAIDS. 2013 UNAIDS Report on the global AIDS epidemic Ministère de la Santé Publique et de la Population daily reports on the cholera epidemic in Haiti The cure for choleraimproving access to safe water and sanitation World Health Organization, UNICEF. World Health Organization/ UNICEF Joint Monitoring Programme (JMP) for Water Supply and Sanitation PEPFAR programs linked to more deliveries in health facilities by African women who are not infected with HIV Voluntary medical male circumcision: an HIV prevention priority for PEPFAR Progress in voluntary medical male circumcision service provision-Kenya Shared responsibility-strengthening results for an AIDS-free generation Impact of an innovative approach to prevent mother-to-child transmission of HIV-Malawi Scale-up of HIV treatment through PEPFAR: a historic public health achievement Isolation of avian infl uenza A(H5N1) viruses from humans-Hong Kong Human infection with a novel avianorigin infl uenza A (H7N9) virus Human infl uenza A H5N1 virus related to a highly pathogenic avian infl uenza virus Update: isolation of avian infl uenza A (H5N1) viruses from humans-Hong Kong, 1997-1998 We thank Ezra Barzilay, Sally Ezra, Barbara Marston, and Ann Moen for assistance with manuscript and fi gure preparation; and Harold Jaff e and Tom Frieden for review of the manuscript. The fi ndings and conclusions of this report are those of the authors and do not necessarily refl ect the offi cial position of the Centers for Disease Control and Prevention.