Monkeypox: From A Neglected Tropical Disease to a Public Health Threat
Abstract
:1. Introduction
2. Monkeypox: A Neglected Tropical Disease
3. Monkeypox: A Public Health Threat
4. Conclusions
Author Contributions
Funding
Institutional Review Board Statement
Informed Consent Statement
Data Availability Statement
Acknowledgments
Conflicts of Interest
References
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Year | Developments |
---|---|
1958 | Monkeypox virus discovered in captive Macaca fascicularis monkeys |
1970 | First recognized case of human monkeypox in a 9-month-old child in DRC |
1970–1979 | Forty-seven human monkey cases reported in West and Central Africa, 81% of them in DRC |
1981–1986 | WHO monitoring project of human monkeypox in DRC |
1996 | Sudden increase in the number of human monkeypox cases reported in DRC, after a period of 10 years of persistent decrease in the number of cases |
2003 | First outbreak of human monkeypox outside its endemic region, registered in the USA, and indirectly related to various rodent species infected imported from West Africa |
2017 | The largest outbreak of human monkeypox on record in West Africa, ongoing in Nigeria |
2018–2019 | Linked with the Nigeria 2017 outbreak, imported cases of human monkeypox were registered in the United Kingdom, Israel, and Singapore |
2022 | Human monkeypox outbreaks occur in several countries outside endemic areas, mainly in Europe and North America. WHO determined this new outbreak a Public Health Emergency of International Concerns. First report of transmission of monkeypox virus from an infected human to an animal (a companion dog) |
Rodents | Carnivores | Insectivores | Non-Human Primates |
---|---|---|---|
Prairie dog | Dog | Hedgehog Shrew | Monkey Ape |
Squirrel | |||
Marmot | |||
Groundhog | |||
Chinchilla | |||
Giant-pouched rat |
Former Classification | New Classification | Geographic Distribution | Clinical Outcomes | Case Fatality Rate |
---|---|---|---|---|
Congo Basin clade | Clade I | Central African and Western African outbreaks and localized spillover events in global north countries from both human and non-human host | More clinically severe, with higher mortality rates and exhibited increased transmissibility | >10% |
Western African clade | Clade IIa | Associated with milder infection, lower mortality rates, and reduced transmissibility | <1% | |
Clade IIb | 2017–2019 outbreaks from the UK, Israel, Nigeria, USA, and Singapore, and 2022 global outbreak from a human host | Ongoing outbreak currently under investigation |
Characteristics | Monkeypox | Smallpox | Chickenpox |
---|---|---|---|
Virus | Monkeypox virus | Variola virus | Varicella-zoster virus |
Fever | 1–3 days before rash | 1–3 days before rash | 1–2 days before rash |
Rash | Rash often in one stage of development; slow development; lesions denser on the face, and present on palms and soles | Rash often in one stage of development; slow development; lesions denser on the face and in mucous membranes of the nose and mouth, and present on palms and soles | Rash often in multiple stages of development; rapid development; lesions denser on the trunk and absent on palms and soles |
Lymphadenopathy | Present | Absent | Absent |
Death | Up to 10% | Up to 30% | Rare |
Tests | Disease Stage | Suitable Samples | Description |
---|---|---|---|
NAAT (PCR) | Febrile stage | Oropharyngeal swab or/and EDTA blood | Detects DNA MPXV and identifies the viral clade. NAAT can be generic to OPXV or specific to MPXV |
Rash stage | Skin lesion material a | ||
Immunohistochemistry (antigen detection) | Rash stage | Skin lesion material | Uses an antibody directed against an OPXV antigen and proves the presence of a current infection. Not specific for MPXV |
Viral culture/isolation | Rash stage | Skin lesion material | Detects viral particles. Requires facilities, appropriate expertise, and skills. Time and resource intensive. Not specific for MPXV |
Electron microscopy | Rash stage | Skin lesion material or viral culture | Identify virus morphology. Requires facilities, appropriate expertise, and skills. Time and resource intensive. Not specific for MPXV |
Serological analysis for specific antibodies (IgM and IgG antibody detection) | Rash stage | Serum or plasma (two samples, at 21 days apart, first sample collected during the first week of illness) | Uses an antigen directed against the antibody but has a limited diagnostic value because it proves a current or past infection/vaccination. Not specific for MPXV |
Recovery |
Country | Cases | Country | Cases |
---|---|---|---|
United States of America | 24,363 | Netherlands | 1221 |
Spain | 7083 | Portugal | 908 |
Brazil | 7019 | Italy | 837 |
France | 3898 | Belgium | 757 |
Germany | 3570 | Chile | 728 |
United Kingdom | 3552 | Switzerland | 502 |
Peru | 2091 | Austria | 304 |
Colombia | 1653 | Nigeria | 277 |
Mexico | 1367 | Argentina | 265 |
Canada | 1363 | Israel | 250 |
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Antunes, F.; Cordeiro, R.; Virgolino, A. Monkeypox: From A Neglected Tropical Disease to a Public Health Threat. Infect. Dis. Rep. 2022, 14, 772-783. https://doi.org/10.3390/idr14050079
Antunes F, Cordeiro R, Virgolino A. Monkeypox: From A Neglected Tropical Disease to a Public Health Threat. Infectious Disease Reports. 2022; 14(5):772-783. https://doi.org/10.3390/idr14050079
Chicago/Turabian StyleAntunes, Francisco, Rita Cordeiro, and Ana Virgolino. 2022. "Monkeypox: From A Neglected Tropical Disease to a Public Health Threat" Infectious Disease Reports 14, no. 5: 772-783. https://doi.org/10.3390/idr14050079
APA StyleAntunes, F., Cordeiro, R., & Virgolino, A. (2022). Monkeypox: From A Neglected Tropical Disease to a Public Health Threat. Infectious Disease Reports, 14(5), 772-783. https://doi.org/10.3390/idr14050079