key: cord-0997287-3d6annaw authors: Casulli, Adriano title: New global targets for NTDs in the WHO roadmap 2021–2030 date: 2021-05-13 journal: PLoS Negl Trop Dis DOI: 10.1371/journal.pntd.0009373 sha: 099cd74ab5f94af2bc441ebae31427050933f5cf doc_id: 997287 cord_uid: 3d6annaw The second World Neglected Tropical Diseases (NTDs) Day was celebrated on 30 January 2021. To mark the occasion, the World Health Organization (WHO) launched its roadmap for NTDs for the period 2021 to 2030, which is aimed at increasing prevention and control of these too-long neglected diseases. Described here is a global overview on past achievements, current challenges, and future prospects for the WHO NTDs roadmap 2021–2030. � Adapted from https://www.who.int/teams/control-of-neglected-tropical-diseases the success in reducing the health, social, and economic burden of NTDs can be attributed to the historical implementation of integrated programmes of mass drug administration (MDA, also referred to as preventive chemotherapy) focusing on single use or combination of mainly 5 drugs (albendazole or mebendazole, ivermectin, praziquantel, and azithromycin) targeting major soil-transmitted helminthiases (STHs; ascariasis, trichuriasis, ancylostomiasis, necatoriasis), lymphatic filariasis, onchocerciasis, schistosomiasis, and trachoma. More recently, it has been noted that MDA might have collateral benefits on other conditions such as strongyloidiasis, scabies, loiasis, mansonelliasis, foodborne trematodiases, taeniasis, and yaws [9] . Since 2011, over 20 billion doses of quality-assured medicines for MDA were donated by the pharmaceutical companies to endemic countries to support control and elimination of NTDs, and more than 1 billion people/year have been treated for at least one disease for 5 consecutive years (2015 to 2019) [10] . Only in 2019, 2.7 billion treatments by means of MDA were delivered for NTDs [10] . In this context, WHO estimated that 500 million fewer people were in need of interventions in 2019 compared to 2010, with 42 countries having eliminated at least one of the 20 prioritized NTDs [11] . Thanks to scale-up of interventions and progress made during the last decades, there are now 5 NTDs whose eradication, elimination, or elimination as a public health problem is on the horizon: dracunculiasis, gambiense form of Human African Trypanosomiasis (HAT), lymphatic filariasis, trachoma, and yaws. Dracunculiasis is, in theory, not far from eradication, with only 54 human cases reported in 4 countries in 2019 and 24 cases reported until end of November 2020 [12] . However, the recent finding of a genetically identical Guinea worm population, which infect both human and dogs, seems to rise complications in this public health effort [13] . During 2012 to 2019, thanks to improved surveillance, case detection, treatment, and vector control, the annual number of human HAT (mainly the gambiense form) has dropped from over 7,000 cases to 980. A prevalence reduction of 74% of lymphatic filariasis was achieved during the period 2000 to 2018 [14] , thanks to support by the Global Programme to Eliminate Lymphatic Filariasis (GPELF). Lymphatic filariasis has now been eliminated as a public health problem in 17 countries and trachoma in 10 countries [11] . Between 2002 and 2020, the implementation of the SAFE strategy for trachoma has decreased by 91% the population requiring antibiotics, facial cleanliness, and environmental improvement for this disease [15] . For yaws, a new eradication strategy based on community interventions, also known as Morges strategy, was launched in 2012 after the finding that a single dose of oral azithromycin is at least as efficacious as intramuscular penicillin in achieving cure [16, 17] . Onchocerciasis has further reduced its burden during the period 2005 to 2017 under the African Programme for Onchocerciasis Control (APOC). In the Americas, transmission interruption was verified by WHO in 4 Latin American countries, with low levels of transmission persisting in Brazil and Venezuela [18, 19] . The main goal for the control of the 2 major forms of schistosomiasis (intestinal and urogenital) is to reach by means of praziquantel MDA, more than 75% treatment coverage of school-aged children, at-risk adults, and communities living in highly endemic areas [20] . In 2019, 77.8 million people (64.9 million school-aged children and 12.9 million adults) were treated by MDA for schistosomiasis, corresponding to 34.6% of those in need [21] . STHs are among the most common NTDs. Up to now, more than 3.3 billion benzimidazole tablets (albendazole or mebendazole) have been distributed to school-aged children, reaching a coverage level of 60% between 2008 and 2018 [22] and averting over 40% of the disabilityadjusted life years (DALYs) lost annually in children in 2015 [23] . MDA integrated campaigns with albendazole and mebendazole were successful in reducing disease prevalence of ascariasis while less effective against hookworm infections (ancylostomiasis, necatoriasis) and trichuriasis. In principle, such low efficacy can be partly overcome by combining either oxantel pamoate or ivermectin [24] . Although human deaths associated to dog-mediated rabies (95% of all-deaths from rabies) are estimated at around 23,500 to 59,000 per year, mostly children younger than 15 years living in Asia and Africa, elimination was achieved in Canada, Western Europe (in 2019, only Poland and Romania were reporting cases in European Union), USA, Japan, and substantial decrease in Latin American countries [25] [26] [27] . The highly committed "Zero by 30" global strategic plan to eliminate dog-mediated rabies is now in place, with the aim of guiding effective use of vaccines, medicines, and technologies, and generating both evidence-based guidance and highquality data for control [28] . Since 2010, total number of new leprosy cases declined by 27% after most endemic countries reached its elimination (defined as a prevalence rate of <1 case on treatment /10,000 population) as a public health [29] . Since 2012, the number of reported cases of visceral leishmaniasis has slightly decreased globally and fallen significantly in Bangladesh, India, and Nepal, where the disease is targeted for elimination as a public health problem [30] . A better access to diagnosis and treatment, coupled with aggressive vector control strategies and elimination initiative in Asia, has led to these results; nevertheless, human conflicts and increased competence of vectors due to global warming have seen the rise of leishmaniasis in many areas, particularly the Middle East and East Africa [30] . During the last decade, the need for surgery for Buruli ulcer (mainstay of treatment before 2005) has declined by 50%, thanks to the availability of an 8-week antibiotic combination therapy [31] . More recently, an open-label Phase III randomized trial supported by WHO demonstrated that Buruli ulcer is curable with an 8-week course of oral rifampicin plus extendedrelease clarithromycin, the latter drug replacing intramuscular streptomycin that is painful and potentially ototoxic; in addition, surgery is not required in these patients [32] . Sensible but less effective gains were obtained for some other NTDs, globally or in some specific geographic areas such as Latin America or Asia-Pacific region. Although vector control efforts progress in the Southern Cone of South America, challenges remain in the global fight against Chagas disease, which still affects around 6 to 8 million people worldwide, the vast majority in Latin America but also expanding in southern USA and Europe, mainly as nonvectorial transmission. Only 2 medicines are currently available for the treatment of Chagas disease (benznidazole and nifurtimox), both of which present serious side effects; in addition, their efficacy has been proved only during the early acute phase of infection, while benefits in the chronic phase are questionable. In fact, the BENEFIT randomized study demonstrated that benznidazole administered after the onset of chronic Chagas cardiomyopathy does not alter the progression of heart disease, neither decrease mortality rate [33] . New drug association, drug repositioning, research of new drug, and therapeutic vaccine are under evaluation for Chagas disease [34, 35] . When comparing Global Burden of Disease (GBD) data from 2000 to 2017, NTDs such as foodborne trematode infections, dengue, and echinococcosis are increasing in Asia-Pacific region by 21%, 109%, and 59%, respectively [36] . Such huge insurgence of dengue in Asia is not unexpected since this arbovirus infection is rising worldwide due to the increase of urbanization in the tropics, adaptation of the main vector to urban environments, and climate changes [37] . Similarly, zoonotic cestodes such as taeniasis/cysticercosis, cystic echinococcosis, and alveolar echinococcosis are considered the first, second, and third most relevant foodborne parasitic diseases at the global level [38] . Irrespective of that, these neglected helminths are losing ground, since a limited portfolio of antiparasitic drugs is available, while less and not systematic efforts have been globally sustained during the past years. MDA campaigns with praziquantel were previously conducted against taeniasis/cysticercosis in Latin American countries (Ecuador, Guatemala, Mexico, Peru), Asia (Lao People's Democratic Republic, Nepal), and Africa (Tanzania and Madagascar) [39] . More recently, a three-phase large eradication programme combining human/porcine MDA and vaccination of pigs in Peru clearly demonstrated that elimination of taeniasis/cysticercosis at population level can be achieved [40] . Despite that, neurocysticercosis remains a major cause of acquired epilepsy and onset of seizure in developing countries [39] . Cystic and alveolar echinococcosis are prevalent in worldwide pastoral and rural communities, including medium-high income countries [41] . Apart from a few recent insights in the ultrasound-based prevalence study and disease fine-mapping analysis from large areas for cystic and alveolar echinococcosis, little advances were done for improving their clinical management, diagnostics, and benzimidazolic drugs which are only parasitostatic [4, 42, 43] . After the historical island-based elimination of cystic echinococcosis (Iceland, New Zealand, and Tasmania), and although a few decades ago a recombinant vaccine (Eg95) targeting the sheep intermediate host was developed, few gains have been obtained at continental level for its control [44] . To overcome the almost total absence of randomized controlled clinical trials, an international clinical register on cystic echinococcosis has been created, aiming at prospectively answer specific clinical questions for the management of patients [45] . Ninety percent reduction in the number of people in need of treatment against NTDs, 75% reduction in DALYs related to NTDs, 100 countries having eliminated at least 1 NTD and at least 2 NTDs eradicated in the world. These are the overarching impact-oriented global targets set by WHO in the road map for NTDs 2021-2030 to achieve the Sustainable Development Goals (SDGs) [11] . This new WHO roadmap was developed through an extensive global consultation with NTDs stakeholders that began in 2018 and culminated in the endorsement of the document by 194 Member States at the 73rd World Health Assembly in November 2020 [46] . WHO roadmap 2021-2030 also describes the integrated approaches needed to achieve these targets through cross-cutting activities built on 3 pillars: (1) accelerate actions aiming at reducing incidence, prevalence, morbidity, disability, and death due to NTDs by means of scientific advances, filling gap knowledge in research, providing new interventions and effective, standardized, and affordable diagnostics. (2) Intensify cross-cutting approaches by the integrated delivery of interventions that are common to several NTDs, mainstreaming them within national health systems in the context of universal health coverage, and enhancing coordination among stakeholders and related programmes such as WASH or vector control. Examples of these targets include: 75% reduction of deaths due to vector-borne NTDs, 75% MDA-integrated treatment coverage index, 40 countries adopting skin NTDs strategies, and 100% access to basic water supply, sanitation, and hygiene. (3) Change operating models and culture to facilitate countries to take ownership of their NTD programmes. Examples of these targets include: 90% of endemic countries, collecting and reporting data on NTDs disaggregated by gender. In the new road map, each NTD is differently targeted for eradication (dracunculiasis and yaws), interruption of transmission (HAT-gambiense form, leprosy, onchocerciasis), elimination as a public health problem (Chagas disease, HAT-rhodesiense form, visceral leishmaniasis, lymphatic filariasis, rabies, schistosomiasis, STHs, trachoma), and control (Buruli ulcer, dengue and chikungunya, echinococcosis, foodborne trematode infections, cutaneous leishmaniasis, mycetoma, chromoblastomycosis and other deep mycoses, scabies and other ectoparasitoses, snake bite envenoming, taeniasis, and cysticercosis). Primary and secondary targets have been identified for each NTD [11] . MDA remains a fundamental pillar for the concomitant control and elimination of NTD syndemics which should therefore have been managed as synergistic epidemics. Nevertheless, the dark side of these interventions relies on the potential onset of (particularly anthelmintic) drug resistance that in the future may jeopardize all these global efforts [47] [48] [49] . How to limit the environmental contamination of these drugs to avoid the insurgence of resistance is a relevant question, which has been too little debated in the scientific community. To circumvent this problem, new formulations and combination of more effective, soluble, age group-targeted drugs are in the pipeline (Box 2). In parallel, global health efforts should focus on core preventive interventions such as new vaccines production aiming at the interruption of the transmission rather than curative interventions, and new diagnostic tools for early diagnosis and monitoring of drug resistance. Frontrunners vaccines for dengue, schistosomiasis, leishmaniasis, Chagas disease, and • Patent on new enantiopure and racemic anthelmintic formulations of soluble "salts of compounds having benzimidazolic structure" in preclinical studies onchocerciasis are advancing in clinical trials, and some will be licensed soon [34, [50] [51] [52] [53] . WHO has also established an NTD Diagnostic Technical and Advisory Group (DTAG) to provide advice on diagnostics for control programmes and develop target product profiles for priority diagnostics [54] . All these to be integrated into future MDA campaigns. Moreover, the ongoing coronavirus disease 2019 (COVID-19) pandemic in tropical and subtropical areas might jeopardize these developments on NTDs. The long wave of COVID-19 is having an impact not only in terms of coinfections between SARS-CoV-2 and all pathogens causing NTDs but also on delay or suspension of MDA and other community-based activities such as health facility services, control programmes, early diagnosis, drug supply, routine surveillance, and population-based surveys [55] . The main public health consequences of these disruptions due to COVID-19 might be identified as an increased mortality and morbidity associated to NTDs and delays in achieving the goals set for the 2021-2030 roadmap on NTDs. On top of all this, a challenging question was raised at the beginning of this pandemic, whether COVID-19 would be the next NTD [56] . According to "People's Vaccine Alliance," such question would be reasonable, since it has been estimated that 90% of people from low-income countries would not have access to vaccines against COVID-19 in 2021, while 14% of the world population represented by rich countries have already optioned 53% production of the more promising vaccines [57] . To overcome this vaccine nationalism, the COVAX partnership co-led by the triumvirate Vaccine Alliance (Gavi), the Coalition for Epidemic Preparedness Innovations (CEPI), and WHO is aiming at unbalancing this prediction, providing equitable access to vaccines at 2 billion people for the end of 2021 [58] . To conclude, WHO leads the way of this set of global interventions against NTDs, but it is up to Member States, donors, NGOs, academia, pharmaceutical and diagnostic companies, multilateral organizations, disease experts, implementing partners, and all other stakeholders to align their strategies under the "NTD brand" umbrella and take actions towards their prevention, control, elimination, and eradication. All these programmatic actions underpinning the end of the NTDs are based on the ethical principle that all lives have equal value. In this context, universal health coverage for the bottom billion affected by NTDs remains a global challenge for the years to come. Ninth report of the Strategic and Technical Advisory Group for Neglected Tropical Diseases (STAG-NTDs) What constitutes a neglected tropical disease? PLoS Negl Trop Dis Spread of vector-borne diseases and neglect of Leishmaniasis Prevalence of abdominal cystic echinococcosis in rural Bulgaria, Romania, and Turkey: a cross-sectional, ultrasound-based, population study from the HERACLES project Neglected infections of poverty in the United States of America Southern Europe's Coming Plagues: Vector-Borne Neglected Tropical Diseases Epidemiological surveillance of schistosomiasis outbreak in Corsica (France): Are animal reservoir hosts implicated in local transmission? From importation to autochthonous transmission: Drivers of chikungunya and dengue emergence in a temperate area Collateral Benefits of Preventive Chemotherapy-Expanding the War on Neglected Tropical Diseases Neglected tropical diseases: treating more than one billion people for the fifth consecutive year Ending the neglect to attain the Sustainable Development Goals: a road map for neglected tropical diseases 2021-2030 Dracunculiasis eradication: intensifying surveillance amid continued zero human cases in Ethiopia and Mali Population genomic evidence that human and animal infections in Africa come from the same populations of Dracunculus medinensis Available from: Global programme to eliminate lymphatic filariasis: progress report Available from: Thirteenth meeting of the WHO Strategic and Technic al Advisory Group for Neglected Tropical Diseases Single-dose azithromycin versus benzathine benzylpenicillin for treatment of yaws in children in Papua New Guinea: an open-label, non-inferiority, randomised trial Modeling Treatment Strategies to Inform Yaws Eradication. Emerg Infect Dis PLOS Neglected Tropical Diseases: Ten years of progress in neglected tropical disease control and elimination Moxidectin: an oral treatment for human onchocerciasis Schistosomiasis-Assessing Progress toward the 2020 and 2025 Global Goals Available from: Summary of global update on implementation of preventive chemotherapy against neglected tropical The global progress of soil-transmitted helminthiases control in 2020 and World Health Organization targets for 2030 Preventive chemotherapy to control soil-transmitted helminthiasis averted more than 500 000 DALYs in 2015 Efficacy and reinfection with soiltransmitted helminths 18-weeks post-treatment with albendazole-ivermectin, albendazole-mebendazole, albendazole-oxantel pamoate and mebendazole. Parasit Vectors The global burden of disease study 2013: What does it mean for the NTDs? Substantial reductions in rabies, but still a lot to be done Prevention of human rabies: a challenge for the European Union and the European Economic Area New global strategic plan to eliminate dog-mediated rabies by 2030 Global leprosy (Hansen disease) update, 2019: time to step-up prevention initiatives Efficacy of the combination rifampin-streptomycin in preventing growth of Mycobacterium ulcerans in early lesions of Buruli ulcer in humans Rifampicin and clarithromycin (extended release) versus rifampicin and streptomycin for limited Buruli ulcer lesions: a randomised, open-label, non-inferiority phase 3 trial Randomized Trial of Benznidazole for Chronic Chagas' Cardiomyopathy A therapeutic vaccine prototype induces protective immunity and reduces cardiac fibrosis in a mouse model of chronic Trypanosoma cruzi infection Current trends in the pharmacological management of Chagas disease The rise or fall of neglected tropical diseases in East Asia Pacific Challenges and opportunities in controlling mosquito-borne infections Available from: Multicriteria-based ranking for risk management of food-borne parasites Taenia solium Cysticercosis and Its Impact in Neurological Disease Cysticercosis Working Group in Peru. Elimination of Taenia solium Transmission in Northern Peru Recognising the substantial burden of neglected pandemics cystic and alveolar echinococcosis Epidemic cystic and alveolar echinococcosis in Kyrgyzstan: an analysis of national surveillance data Cystic and alveolar echinococcosis: Successes and continuing challenges Echinococcosis: Control and Prevention The European Register of Cystic Echinococcosis, ERCE: state-of-the-art five years after its launch. Parasit Vectors Available from: Seventy-third World Health Assembly https://www. who.int/about/governance/world-health-assembly/seventy-third-world-health-assembly Efficacy of Anthelminthic Drugs and Drug Combinations Against Soil-transmitted Helminths: A Systematic Review and Network Meta-analysis Is anthelmintic resistance a concern for the control of human soil-transmitted helminths? PCR-RFLP screening of polymorphisms associated with benzimidazole resistance in Necator americanus and Ascaris lumbricoides from different geographical regions in Brazil The Onchocerciasis Vaccine for Africa-TOVA-Initiative Advancing the Development of a Human Schistosomiasis Vaccine Challenges in prevaccination screening for previous dengue infection Leishmania Vaccines Entered in Clinical Trials: A Review of Literature Available from: Report of the first meeting of the WHO Diagnostic Technical Advisory Group for Neglected Tropical Diseases Neglected tropical diseases: impact of COVID-19 and WHO's response Will COVID-19 become the next neglected tropical disease? Covid-19: Many poor countries will see almost no vaccine next year, aid groups warn Available from: COVAX: Working for global equitable access to COVID-19 vaccines