Your search keyword '"Ogoina, Dimie"' showing total 24 results

1. Mpox outbreaks in Africa constitute a public health emergency of continental security.

Author

Ndembi N, Folayan MO, Ngongo N, Ntoumi F, Ogoina D, El Rabbat M, Okwo-Bele JM, and Kaseya J

Subjects

Humans, Africa epidemiology, Disease Outbreaks prevention & control, Public Health, Mpox, Monkeypox epidemiology

Abstract

Competing Interests: We declare no competing interests.

Published

2024

2. The surge of mpox in Africa: a call for action.

Author

Nachega JB, Sam-Agudu NA, Ogoina D, Mbala-Kingebeni P, Ntoumi F, Nakouné E, Njouom R, Lewis RF, Gandhi M, Rosenthal PJ, Rawat A, Wilson LA, Kindrachuk J, Liesenborghs L, Mills EJ, Preiser W, Rimoin AW, Sullivan NJ, Peeters M, Delaporte E, Baxter C, Harrison L, Hermans MP, Mohr EL, Gonsalves G, Ndembi N, Zumla A, and Muyembe-Tamfum JJ

Subjects

Humans, Africa, Mpox, Monkeypox epidemiology

Abstract

Competing Interests: JBN is supported by the US National Institutes of Health (grant numbers NIH/FIC 1R25TW011217-01, NIH/FIC 1D43TW010937-01A1, NIH/FIC D43TW011827-01A1, NIH/FIC 1R21TW011706-0, and NIH/NIAID 5U01AI096299-13). FN and AZ are codirectors of the Pan-African Network on Emerging and Re-Emerging Infections funded by the European and Developing Countries Clinical Trials Partnership (EDCTP) within the EU Horizon 2020 Framework Programme. FN and AZ also acknowledge support from the EDCTP Central Africa Clinical Research Network. AZ is a UK National Institute for Health Research senior investigator, and a Mahathir Science Award and EU-EDCTP Pascoal Mocumbi Prize laureate. JJM-T holds National Institutes of Health National Institute of Allergy and Infectious Diseases grants (number 75N91019D00024-P00001-759102000025-5). JK is supported by grant funding from the Canadian Institutes of Health Research and International Development Research Centre (grant numbers MRR-184813 and PPE-185821). ELM is supported by the US National Institutes of Health (grant number 1R01AI182082-01). All other authors declare no competing interests. We thank John L Johnson for critical review and helpful advice. The views and conclusions in this Personal View are those of the authors and do not necessarily represent the views of their institutions.

Published

2024

3. Ending the neglect of paediatric, maternal, and congenital mpox.

Author

Sam-Agudu NA and Ogoina D

Subjects

Child, Humans, Family, Mpox, Monkeypox

Abstract

Competing Interests: NAS-A reports funding from the European Commission to her institution to conduct mpox studies in Nigeria. DO declares no competing interests.

Published

2024

4. Clinical review of human mpox.

Author

Ogoina D, Damon I, and Nakoune E

Subjects

Pregnancy, Child, Animals, Humans, Female, Zoonoses, Africa epidemiology, HIV Infections complications, HIV Infections epidemiology, Mpox, Monkeypox, Exanthema epidemiology

Abstract

Background: Historically, human mpox was predominantly a zoonotic disease occurring more frequently in rural children in Africa and characterized by a largely self-limiting febrile centrifugal monomorphic rash illness. However, the 2022 mpox global outbreak has shown that the disease is changing in many ways, including sustained human-to-human transmission via sexual contact, novel clinical presentations, and adverse associations between mpox and advanced HIV., Objectives: The aim of this paper is to review the traditional and emerging clinical aspects of human mpox and provide updated information on the clinical course and outcome of the disease., Sources: We searched electronic databases including PubMed and Google Scholar and identified relevant published literature on mpox., Content: The clinical presentation of human mpox is influenced by the route of infectious exposure, the strain and dose of the infecting virus, and the host immune system. Exposure to the virus can result in sub-clinical or clinical diseases of variable severity. Infections caused by clade I viral strains are more severe than class IIa and IIb strains, which are associated with a milder febrile rash illness, and with anogenital skin lesions in clade IIb infections. Most cases of mpox recover entirely within 2-4 weeks after onset of illness and a few develop skin-related sequelae. Overall, people with advanced HIV infection, children <5 years of age, and pregnant women may present with more severe disease and higher case fatalities., Implications: The continued endemicity of the classical mpox in Africa, the emergence of a new clinical form of the disease during the 2022 global outbreak, and the adverse associations between advanced HIV and mpox have implications for the surveillance, clinical diagnosis, and management of human mpox., (Copyright © 2023 European Society of Clinical Microbiology and Infectious Diseases. All rights reserved.)

Published

2023

5. Clinical characteristics and predictors of human mpox outcome during the 2022 outbreak in Nigeria: a cohort study.

Author

Ogoina D, Dalhat MM, Denue BA, Okowa M, Chika-Igwenyi NM, Yusuff HA, Christian UC, Adekanmbi O, Ojimba AO, Aremu JT, Habila KL, Oiwoh SO, Tobin EA, Johnson SM, Olaitan A, Onyeaghala C, Gomerep SS, Alasia D, Onukak AE, Mmerem J, Unigwe U, Falodun O, Kwaghe V, Awang SK, Sunday M, Maduka CJ, Na'uzo AM, Owhin SO, Mohammed AA, and Adeiza MA

Subjects

Adult, Female, Male, Humans, Nigeria epidemiology, Cohort Studies, Disease Outbreaks, Mpox, Monkeypox epidemiology, Chickenpox, Herpes Zoster, Varicella Zoster Virus Infection, Exanthema, HIV Infections complications, HIV Infections drug therapy, HIV Infections epidemiology

Abstract

Background: Research from sub-Saharan Africa that contributes to our understanding of the 2022 mpox (formerly known as monkeypox) global outbreak is insufficient. Here, we describe the clinical presentation and predictors of severe disease among patients with mpox diagnosed between Feb 1, 2022, and Jan 30, 2023 in Nigeria., Methods: We did a cohort study among laboratory-confirmed and probable mpox cases seen in 22 mpox-treatment centres and outpatient clinics across Nigeria. All individuals with confirmed and probable mpox were eligible for inclusion. Exclusion criteria were individuals who could not be examined for clinical characterisation and those who had unknown mortality outcomes. Skin lesion swabs or crust samples were collected from each patient for mpox diagnosis by PCR. A structured questionnaire was used to document sociodemographic and clinical data, including HIV status, complications, and treatment outcomes from the time of diagnosis to discharge or death. Severe disease was defined as mpox associated with death or with a life-threatening complication. Two logistic regression models were used to identify clinical characteristics associated with severe disease and potential risk factors for severe disease. The primary outcome was the clinical characteristics of mpox and disease severity., Findings: We enrolled 160 people with mpox from 22 states in Nigeria, including 134 (84%) adults, 114 (71%) males, 46 (29%) females, and 25 (16%) people with HIV. Of the 160 patients, distinct febrile prodrome (n=94, 59%), rash count greater than 250 (90, 56%), concomitant varicella zoster virus infection (n=48, 30%), and hospital admission (n=70, 48%) were observed. Nine (6%) of the 160 patients died, including seven (78%) deaths attributable to sepsis. The clinical features independently associated with severe disease were a rash count greater than 10 000 (adjusted odds ratio 26·1, 95% CI 5·2-135·0, p<0·0001) and confluent or semi-confluent rash (6·7, 95% CI 1·9-23·9). Independent risk factors for severe disease were concomitant varicella zoster virus infection (3·6, 95% CI 1·1-11·5) and advanced HIV disease (35·9, 95% CI 4·1-252·9)., Interpretation: During the 2022 global outbreak, mpox in Nigeria was more severe among those with advanced HIV disease and concomitant varicella zoster virus infection. Proactive screening, management of co-infections, the integration and strengthening of mpox and HIV surveillance, and preventive and treatment services should be prioritised in Nigeria and across Africa., Funding: None., Competing Interests: Declaration of interests We declare no competing interests., (Copyright © 2023 Elsevier Ltd. All rights reserved.)

Published

2023

6. Mpox in pregnancy: Management, risks and challenges in Africa and lessons from the COVID-19 pandemic.

Author

Ubom AE, Oiwoh SO, Ajiboye AD, Nyeche S, Appiah-Kubi A, Sokunbi AE, Mbiiza CM, Olanrewaju FO, Ighorodje EE, Akinkugbe A, Okoeguale J, Ojo OD, Unwaha EA, Oriji PC, Adebawojo TO, Ekwebalam OP, Okwaraoha TI, Ijarotimi OA, Eifediyi RA, Okogbenin SA, Okwor T, Ikimalo JI, Kuti O, Fasubaa OB, and Ogoina D

Subjects

Female, Humans, Pregnancy, Africa epidemiology, COVID-19, Pandemics prevention & control, Risk Management, Mpox, Monkeypox epidemiology, Pregnancy Complications, Infectious epidemiology

Abstract

Data on mpox in pregnancy are currently limited. Historically, only 65 cases in pregnancy have been reported globally since mpox was discovered in 1958. This includes 59 cases in the current outbreak. Vertical transmission was confirmed in one patient. Pregnant women are at high risk of severe disease owing to immunological and hormonal changes that increase susceptibility to infections in pregnancy. African women appear to be at higher risk of mpox infection and adverse outcomes in pregnancy for epidemiological and immunologic reasons, in addition to the background high rates of adverse feto-maternal outcomes in the region. This risk is potentially heightened during the COVID-19 pandemic due to the possibility of mpox virus exportation/importation as a result of the lifting of movement restrictions and trans-border travels between countries affected by the current outbreak. Furthermore, coinfection with mpox and COVID-19 in pregnancy is possible, and the clinical features of both conditions may overlap. Challenges of diagnosis and management of mpox in pregnancy in Africa include patients concealing their travel history from healthcare providers and absconding from/evading isolation after diagnosis, shortage of personal protective equipment and polymerase chain reaction testing facilities for diagnosis, vaccine hesitancy/resistance, and poor disease notification systems. There is a need for local, regional and global support to strengthen the capacity of African countries to address these challenges and potentially reduce the disease burden among pregnant women in the continent., (© 2023 International Federation of Gynecology and Obstetrics.)

Published

2023

7. Human Mpox in People Living with HIV: Epidemiologic and Clinical Perspectives from Nigeria.

Author

Iroezindu MO, Crowell TA, Ogoina D, and Yinka-Ogunleye A

Subjects

Humans, Nigeria epidemiology, Public Health, Antiviral Agents, HIV Infections drug therapy, HIV Infections epidemiology, Mpox, Monkeypox, Sexual and Gender Minorities

Abstract

Sub-Saharan Africa (SSA) is disproportionately affected by mpox and HIV. We described epidemiologic trends and clinical experiences in the management of mpox in people living with HIV (PLWH) in Nigeria and further examined how the rapidly accumulating body of knowledge from the 2022 global mpox outbreak might be explored to improve mpox care in PLWH in SSA. During the 2017/2018 Nigerian mpox outbreak, we reported that 9/40 (22.5%) hospitalized mpox patients with known HIV status were PLWH. In the 2022 global mpox outbreak, 52% of confirmed mpox cases with known HIV status were PLWH, predominantly sexual and gender minority groups. However, substantial missing data on HIV status of confirmed mpox cases highlights a critical gap in HIV testing as a component of mpox management. Before 2022, sexual activity was not commonly linked to mpox transmission, but this was identified as a major driver of transmission during the 2022 mpox outbreak. Notable sexual history observed in Nigerian mpox patients in 2017/2018 suggests that the contribution of sexual activity in human-to-human mpox transmission might have been underappreciated for years. Our cohort of PLWH with mpox, predominantly individuals with advanced or uncontrolled HIV, were significantly more likely to experience severe mpox manifestations and prolonged disease compared with those without HIV. This contrasts with the generally less remarkable differences in mpox presentation between people with and without HIV in Western countries, an observation that can be at least partially explained by more stable HIV disease. The unavailability of mpox antiviral drugs and vaccines in SSA highlights global inequity in mpox response, which requires an urgent attention. As mpox countermeasures become available in SSA, lessons learned from their use in Western countries could provide important guidance for care providers in SSA. Public health measures to mitigate stigmatization in PLWH with mpox is also critical.

Published

2023

8. The international Unity study for antivirals against mpox is a blueprint for future epidemics.

Author

Telford E, Grinsztejn B, Olsen IC, Pulik N, Mentré F, Haviari S, Hentzien M, Ségéral O, Ekkelenkamp MB, Ogoina D, Strub-Wourgaft N, Diallo A, Yazdanpanah Y, and Calmy A

Subjects

Humans, Antiviral Agents therapeutic use, Mpox, Monkeypox

Published

2023

9. Can a single dose of Modified Vaccinia Ankara-Bavarian Nordic vaccine protect against mpox?

Author

Ogoina D and Strub-Wourgaft N

Subjects

Humans, Vaccinia virus, Vaccinia prevention & control, Mpox, Monkeypox, Smallpox Vaccine

Abstract

Competing Interests: DO is the President of the Nigerian Infectious Diseases Society. NSW declares no competing interests.

Published

2023

10. Mpox among Linked Heterosexual Casual Partners in Bayelsa, Nigeria.

Author

Ogoina D and James HI

Subjects

Humans, Condoms, Heterosexuality, Nigeria, Sexual Behavior, Sexual Partners, HIV Infections epidemiology, HIV Infections prevention & control, Mpox, Monkeypox prevention & control

Published

2023

11. Monkeypox.

Author

Mitjà O, Ogoina D, Titanji BK, Galvan C, Muyembe JJ, Marks M, and Orkin CM

Subjects

Male, Humans, Homosexuality, Male, Pain, Antiviral Agents, Mpox, Monkeypox diagnosis, Mpox, Monkeypox epidemiology, Vaccinia, Sexual and Gender Minorities, Exanthema

Abstract

Monkeypox is a zoonotic illness caused by the monkeypox virus, an Orthopoxvirus in the same genus as the variola, vaccinia, and cowpox viruses. Since the detection of the first human case in the Democratic Republic of the Congo in 1970, the disease has caused sporadic infections and outbreaks, mainly restricted to some countries in west and central Africa. In July, 2022, WHO declared monkeypox a Public Health Emergency of International Concern, on account of the unprecedented global spread of the disease outside previously endemic countries in Africa and the need for global solidarity to address this previously neglected disease. The 2022 outbreak has been primarily associated with close intimate contact (including sexual activity) and most cases have been diagnosed among men who have sex with men, who often present with novel epidemiological and clinical characteristics. In the 2022 outbreak, the incubation period ranges from 7 days to 10 days and most patients present with a systemic illness that includes fever and myalgia and a characteristic rash, with papules that evolve to vesicles, pustules, and crusts in the genital, anal, or oral regions and often involve the mucosa. Complications that require medical treatment (eg, antiviral therapy, antibacterials, and pain control) occur in up to 40% of patients and include rectal pain, odynophagia, penile oedema, and skin and anorectal abscesses. Most patients have a self-limited illness; between 1% and 13% require hospital admission (for treatment or isolation), and the case-fatality rate is less than 0·1%. A diagnosis can be made through the presence of Orthopoxvirus DNA in PCRs from lesion swabs or body fluids. Patients with severe manifestations and people at risk of severe disease (eg, immunosuppressed people) could benefit from antiviral treatment (eg, tecovirimat). The current strategy for post-exposure prophylaxis or pre-exposure prophylaxis for people at high risk is vaccination with the non-replicating modified vaccinia Ankara. Antiviral treatment and vaccines are not yet available in endemic countries in Africa., Competing Interests: Declaration of interests CMO reports research grants and honoraria for travel, lectures, and advisory boards from Gilead Science, ViiV Healthcare, Janssen, MSD, and AstraZeneca, outside of the submitted work. All other authors report no competing interests., (Copyright © 2023 Elsevier Ltd. All rights reserved.)

Published

2023

12. Estimating the size of the monkeypox virus outbreak in Nigeria and implications for global control.

Author

Marwah A, Ogoina D, Au NH, Gibb NP, Portillo MT, Thomas-Bachli A, Demarsh PA, Bogoch II, and Khan K

Subjects

Humans, Nigeria epidemiology, Disease Outbreaks, Public Health, Monkeypox virus, Mpox, Monkeypox epidemiology

Abstract

Background: A multi-country outbreak caused by monkeypox virus (MPXV) has been unfolding across endemic and non-endemic countries since May 2022. Throughout April and May 2022, Nigeria reported 31 MPXV cases, of which 11 were confirmed via testing. In May 2022, three internationally exported cases of MPXV, presumed to have originated in Nigeria, were reported, suggesting that a larger than reported outbreak might be occurring in the country., Methods: We used previously established methods to estimate the true size of the MPXV outbreak in Nigeria. We estimated the incidence rate of exported MPXV cases among all outbound international air travellers from Nigeria during the time period of April and May 2022, using forecasted air traveller volumes. We then applied this incidence rate to the entire population of Nigeria during April and May 2022 assuming that the rate of infection was the same in Nigeria for both travellers and the resident population. Information on the subset of population that were considered to be travellers was obtained from the United Nations World Tourism Organization (UNWTO)., Results: We estimated that there were approximately 4000 (N = 4013; 95% CI: 828-11 728) active cases of MPXV in Nigeria in April and May 2022. This is approximately 360-fold greater than the confirmed number and approximately 130-fold greater than the reported number of cases in Nigeria., Conclusion: Our findings suggest that a larger outbreak than is appreciated may be ongoing in Nigeria. The observed international spread of MPXV offers important insights into the scale of the epidemic at its origin, where clinical detection and disease surveillance may be limited. These findings highlight the need to expand and support clinical, laboratory, and public health capacity to enable earlier detection of epidemics of international significance., (© International Society of Travel Medicine 2022. Published by Oxford University Press. All rights reserved. For Permissions, please e-mail: journals.permissions@oup.com.)

Published

2022

13. Human monkeypox virus infection in women and non-binary individuals during the 2022 outbreaks: a global case series.

Author

Thornhill JP, Palich R, Ghosn J, Walmsley S, Moschese D, Cortes CP, Galliez RM, Garlin AB, Nozza S, Mitja O, Radix AE, Blanco JL, Crabtree-Ramirez B, Thompson M, Wiese L, Schulbin H, Levcovich A, Falcone M, Lucchini A, Sendagorta E, Treutiger CJ, Byrne R, Coyne K, Meyerowitz EA, Grahn AM, Hansen AE, Pourcher V, DellaPiazza M, Lee R, Stoeckle M, Hazra A, Apea V, Rubenstein E, Jones J, Wilkin A, Ganesan A, Henao-Martínez AF, Chow EJ, Titanji BK, Zucker JE, Ogoina D, and Orkin CM

Subjects

Adult, Female, Humans, Male, Disease Outbreaks, Homosexuality, Male, Monkeypox virus, Young Adult, Middle Aged, Aged, Aged, 80 and over, Gender-Nonconforming Persons, Mpox, Monkeypox diagnosis, Mpox, Monkeypox epidemiology, Sexual and Gender Minorities

Abstract

Background: Between May and November, 2022, global outbreaks of human monkeypox virus infection have been reported in more than 78 000 people worldwide, predominantly in men who have sex with men. We describe the epidemiological and clinical characteristics of monkeypox virus infection in cisgender (cis) and transgender (trans) women and non-binary individuals assigned female sex at birth to improve identification and understanding of risk factors., Methods: International collaborators in geographical locations with high numbers of diagnoses of monkeypox virus infection were approached and invited to contribute data on women and non-binary individuals with confirmed monkeypox virus infection. Contributing centres completed deidentified structured case-report spreadsheets, adapted and developed by participating clinicians, to include variables of interest relevant to women and non-binary individuals assigned female at birth. We describe the epidemiology and clinical course observed in the reported infections., Findings: Collaborators reported data for a total of 136 individuals with monkeypox virus infection who presented between May 11 and Oct 4, 2022, across 15 countries. Overall median age was 34 years (IQR 28-40; range 19-84). The cohort comprised 62 trans women, 69 cis women, and five non-binary individuals (who were, because of small numbers, grouped with cis women to form a category of people assigned female at birth for the purpose of comparison). 121 (89%) of 136 individuals reported sex with men. 37 (27%) of all individuals were living with HIV, with a higher proportion among trans women (31 [50%] of 62) than among cis women and non-binary individuals (six [8%] of 74). Sexual transmission was suspected in 55 (89%) trans women (with the remainder having an unknown route of transmission) and 45 (61%) cis women and non-binary individuals; non-sexual routes of transmission (including household and occupational exposures) were reported only in cis women and non-binary individuals. 25 (34%) of 74 cis women and non-binary individuals submitted to the case series were initially misdiagnosed. Overall, among individuals with available data, rash was described in 124 (93%) of 134 individuals and described as anogenital in 95 (74%) of 129 and as vesiculopustular in 105 (87%) of 121. Median number of lesions was ten (IQR 5-24; range 1-200). Mucosal lesions involving the vagina, anus, or oropharynx or eye occurred in 65 (55%) of 119 individuals with available data. Vaginal and anal sex were associated with lesions at those sites. Monkeypox virus DNA was detected by PCR from vaginal swab samples in all 14 samples tested. 17 (13%) individuals were hospitalised, predominantly for bacterial superinfection of lesions and pain management. 33 (24%) individuals were treated with tecovirimat and six (4%) received post-exposure vaccinations. No deaths were reported., Interpretation: The clinical features of monkeypox in women and non-binary individuals were similar to those described in men, including the presence of anal and genital lesions with prominent mucosal involvement. Anatomically, anogenital lesions were reflective of sexual practices: vulvovaginal lesions predominated in cis women and non-binary individuals and anorectal features predominated in trans women. The prevalence of HIV co-infection in the cohort was high., Funding: None., Competing Interests: Declaration of interests We declare no competing interests., (Copyright © 2022 Elsevier Ltd. All rights reserved.)

Published

2022

14. Monkeypox and the health-care environment.

Author

Ogoina D and Ogunsola FT

Subjects

Animals, Humans, Monkeypox virus, Zoonoses, Mpox, Monkeypox

Abstract

Competing Interests: We declare no competing interests.

Published

2022

15. Intersecting HIV and mpox epidemics: more questions than answers.

Author

Girometti N, Ogoina D, Tan DHS, Pozniak A, and Klein MB

Subjects

Humans, Risk Factors, Epidemics, HIV Infections drug therapy, HIV Infections epidemiology, Mpox, Monkeypox epidemiology

Published

2022

16. Monkeypox: The consequences of neglecting a disease, anywhere.

Author

Tomori O and Ogoina D

Subjects

Animals, Global Health, Humans, Mpox, Monkeypox epidemiology, Mpox, Monkeypox prevention & control, Monkeypox virus, Neglected Diseases epidemiology, Neglected Diseases prevention & control, Neglected Diseases virology, Viral Zoonoses epidemiology, Viral Zoonoses prevention & control

Abstract

A disease anywhere can spread everywhere, if neglected.

Published

2022

17. Sexual history of human monkeypox patients seen at a tertiary hospital in Bayelsa, Nigeria.

Author

Ogoina D and Yinka-Ogunleye A

Subjects

Adult, Cross-Sectional Studies, Female, Humans, Male, Nigeria epidemiology, Sexual Behavior, Sexual Partners, Tertiary Care Centers, Ulcer, Young Adult, HIV Infections complications, Mpox, Monkeypox complications, Mpox, Monkeypox epidemiology

Abstract

Background: Human monkeypox (HMPX) is currently spreading outside endemic countries in Africa and the majority of those affected are gay and bisexual men within interconnected sexual networks. We investigated the sexual history of HMPX cases seen at a tertiary hospital in Bayelsa State during the 2017-2018 outbreak in Nigeria. Method: A cross-sectional study was conducted between 20 October 2017 and 2 January 2019 among adult confirmed/probable HMPX cases. A questionnaire was used to collect data on the sexual history of participants, including sexual contact in relation to the first symptom, and high-risk behaviours (HRB) such as a history of condomless casual sex, multiple sexual partners, and transactional sex. Results: Of 21 patients, 16 (76.2%) gave consent to participate in the study: age range of 22-43 years, 75% males, three (18.8%) HIV-1 positive, and 13 (81.2%) with genital ulcers. Nine (56.2%) of participants reported HRB, and all were male heterosexuals. Eight of the 16 participants (50%) reported having sex within a month before their first symptom, and five (62.5%) of this number reported HRB. There were two cases of sex with a partner with a non-genital rash, and a spouse who developed a vulval ulcer four days after sex with her husband. Conclusion: Our results support the role of sexual contact in the transmission of monkeypox among some confirmed cases from Nigeria. However, future elaborate studies are required to confirm if sexual behaviour and sexual transmission are associated with HMPX in Nigeria.

Published

2022

18. Sexual behaviours and clinical course of human monkeypox in Spain.

Author

Ogoina D

Subjects

Humans, Sexual Behavior, Spain, Mpox, Monkeypox

Published

2022

19. Clinical Course and Outcome of Human Monkeypox in Nigeria.

Author

Ogoina D, Iroezindu M, James HI, Oladokun R, Yinka-Ogunleye A, Wakama P, Otike-Odibi B, Usman LM, Obazee E, Aruna O, and Ihekweazu C

Subjects

Humans, Monkeypox virus, Nigeria epidemiology, Retrospective Studies, Exanthema, Mpox, Monkeypox epidemiology

Abstract

In a retrospective review of hospital records of 40 human monkeypox cases from Nigeria, the majority developed fever and self-limiting vesiculopustular skin eruptions. Five deaths were reported. Compared to human immunodeficiency virus (HIV)-negative cases, HIV type 1-coinfected cases had more prolonged illness, larger lesions, and higher rates of both secondary bacterial skin infections and genital ulcers., (© The Author(s) 2020. Published by Oxford University Press for the Infectious Diseases Society of America. All rights reserved. For permissions, e-mail: journals.permissions@oup.com.)

Published

2020

20. Human monkeypox - After 40 years, an unintended consequence of smallpox eradication.

Author

Simpson K, Heymann D, Brown CS, Edmunds WJ, Elsgaard J, Fine P, Hochrein H, Hoff NA, Green A, Ihekweazu C, Jones TC, Lule S, Maclennan J, McCollum A, Mühlemann B, Nightingale E, Ogoina D, Ogunleye A, Petersen B, Powell J, Quantick O, Rimoin AW, Ulaeato D, and Wapling A

Subjects

Ghana, Humans, Israel, London, Monkeypox virus, Nigeria, Singapore, Mpox, Monkeypox epidemiology, Mpox, Monkeypox prevention & control, Smallpox epidemiology, Smallpox prevention & control, Smallpox Vaccine adverse effects

Abstract

Smallpox eradication, coordinated by the WHO and certified 40 years ago, led to the cessation of routine smallpox vaccination in most countries. It is estimated that over 70% of the world's population is no longer protected against smallpox, and through cross-immunity, to closely related orthopox viruses such as monkeypox. Monkeypox is now a re-emerging disease. Monkeypox is endemic in as yet unconfirmed animal reservoirs in sub-Saharan Africa, while its human epidemiology appears to be changing. Monkeypox in small animals imported from Ghana as exotic pets was at the origin of an outbreak of human monkeypox in the USA in 2003. Travellers infected in Nigeria were at the origin of monkeypox cases in the UK in 2018 and 2019, Israel in 2018 and Singapore in2019. Together with sporadic reports of human infections with other orthopox viruses, these facts invite speculation that emergent or re-emergent human monkeypox might fill the epidemiological niche vacated by smallpox. An ad-hoc and unofficial group of interested experts met to consider these issues at Chatham House, London in June 2019, in order to review available data and identify monkeypox-related research gaps. Gaps identified by the experts included:The experts further agreed on the need for a better understanding of the genomic evolution and changing epidemiology of orthopox viruses, the usefulness of in-field genomic diagnostics, and the best disease control strategies, including the possibility of vaccination with new generation non-replicating smallpox vaccines and treatment with recently developed antivirals., Competing Interests: Declaration of Competing Interest The authors declare the following financial interests/personal relationships which may be considered as potential competing interests: Authors Elsgaard, Hochrein, Maclennan and Powell are employees of Bavarian Nordic, manufacturer of a vaccine registered as Jynneos for smallpox and monkeypox indications in the USA (Imvanex for smallpox only in Europe and Imvamune for smallpox only in Canada. Simpson works as a consultant for Bavarian Nordic., (Copyright © 2020.)

Published

2020

21. Outbreak of human monkeypox in Nigeria in 2017-18: a clinical and epidemiological report.

Author

Yinka-Ogunleye A, Aruna O, Dalhat M, Ogoina D, McCollum A, Disu Y, Mamadu I, Akinpelu A, Ahmad A, Burga J, Ndoreraho A, Nkunzimana E, Manneh L, Mohammed A, Adeoye O, Tom-Aba D, Silenou B, Ipadeola O, Saleh M, Adeyemo A, Nwadiutor I, Aworabhi N, Uke P, John D, Wakama P, Reynolds M, Mauldin MR, Doty J, Wilkins K, Musa J, Khalakdina A, Adedeji A, Mba N, Ojo O, Krause G, and Ihekweazu C

Subjects

Adult, Animals, Exanthema etiology, Female, Fever etiology, Humans, Male, Monkeypox virus isolation & purification, Nigeria epidemiology, Whole Genome Sequencing, Disease Outbreaks, Mpox, Monkeypox diagnosis, Mpox, Monkeypox epidemiology, Monkeypox virus genetics

Abstract

Background: In September, 2017, human monkeypox re-emerged in Nigeria, 39 years after the last reported case. We aimed to describe the clinical and epidemiological features of the 2017-18 human monkeypox outbreak in Nigeria., Methods: We reviewed the epidemiological and clinical characteristics of cases of human monkeypox that occurred between Sept 22, 2017, and Sept 16, 2018. Data were collected with a standardised case investigation form, with a case definition of human monkeypox that was based on previously established guidelines. Diagnosis was confirmed by viral identification with real-time PCR and by detection of positive anti-orthopoxvirus IgM antibodies. Whole-genome sequencing was done for seven cases. Haplotype analysis results, genetic distance data, and epidemiological data were used to infer a likely series of events for potential human-to-human transmission of the west African clade of monkeypox virus., Findings: 122 confirmed or probable cases of human monkeypox were recorded in 17 states, including seven deaths (case fatality rate 6%). People infected with monkeypox virus were aged between 2 days and 50 years (median 29 years [IQR 14]), and 84 (69%) were male. All 122 patients had vesiculopustular rash, and fever, pruritus, headache, and lymphadenopathy were also common. The rash affected all parts of the body, with the face being most affected. The distribution of cases and contacts suggested both primary zoonotic and secondary human-to-human transmission. Two cases of health-care-associated infection were recorded. Genomic analysis suggested multiple introductions of the virus and a single introduction along with human-to-human transmission in a prison facility., Interpretation: This study describes the largest documented human outbreak of the west African clade of the monkeypox virus. Our results suggest endemicity of monkeypox virus in Nigeria, with some evidence of human-to-human transmission. Further studies are necessary to explore animal reservoirs and risk factors for transmission of the virus in Nigeria., Funding: None., (Copyright © 2019 World Health Organization. Published by Elsevier Ltd. All rights reserved. Published by Elsevier Ltd.. All rights reserved.)

Published

2019

22. The 2017 human monkeypox outbreak in Nigeria-Report of outbreak experience and response in the Niger Delta University Teaching Hospital, Bayelsa State, Nigeria.

Author

Ogoina D, Izibewule JH, Ogunleye A, Ederiane E, Anebonam U, Neni A, Oyeyemi A, Etebu EN, and Ihekweazu C

Subjects

Child, Communications Media, Health Knowledge, Attitudes, Practice, Humans, Male, Nigeria epidemiology, Disease Outbreaks, Hospitals, Teaching, Hospitals, University, Mpox, Monkeypox epidemiology, Research Report

Abstract

Background: In September 2017, Nigeria experienced a large outbreak of human monkeypox (HMPX). In this study, we report the outbreak experience and response in the Niger Delta University Teaching Hospital (NDUTH), Bayelsa state, where the index case and majority of suspected cases were reported., Methods: In a cross-sectional study between September 25th and 31st December 2017, we reviewed the clinical and laboratory characteristics of all suspected and confirmed cases of HMPX seen at the NDUTH and appraised the plans, activities and challenges of the hospital in response to the outbreak based on documented observations of the hospital's infection control committee (IPC). Monkeypox cases were defined using the interim national guidelines as provided by the Nigerian Centre for Disease Control (NCDC)., Results: Of 38 suspected cases of HMPX, 18(47.4%) were laboratory confirmed, 3(7.9%) were probable, while 17 (18.4%) did not fit the case definition for HMPX. Majority of the confirmed/probable cases were adults (80.9%) and males (80.9%). There was concomitant chicken pox, syphilis and HIV-1 infections in two confirmed cases and a case of nosocomial infection in one healthcare worker (HCW). The hospital established a make-shift isolation ward for case management, constituted a HMPX response team and provided IPC resources. At the outset, some HCWs were reluctant to participate in the outbreak and others avoided suspected patients. Some patients and their family members experienced stigma and discrimination and there were cases of refusal of isolation. Repeated trainings and collaborative efforts by all stakeholders addressed some of these challenges and eventually led to successful containment of the outbreak., Conclusion: While the 2017 outbreak of human monkeypox in Nigeria was contained, our report reveals gaps in outbreak response that could serve as lessons to other hospitals to strengthen epidemic preparedness and response activities in the hospital setting., Competing Interests: The authors have declared that no competing interests exist.

Published

2019

23. Reemergence of Human Monkeypox in Nigeria, 2017.

Author

Yinka-Ogunleye A, Aruna O, Ogoina D, Aworabhi N, Eteng W, Badaru S, Mohammed A, Agenyi J, Etebu EN, Numbere TW, Ndoreraho A, Nkunzimana E, Disu Y, Dalhat M, Nguku P, Mohammed A, Saleh M, McCollum A, Wilkins K, Faye O, Sall A, Happi C, Mba N, Ojo O, and Ihekweazu C

Subjects

Animals, Child, Communicable Diseases, Emerging diagnosis, Communicable Diseases, Emerging transmission, Exanthema pathology, Exanthema virology, Humans, Male, Nigeria epidemiology, Population Surveillance, Communicable Diseases, Emerging epidemiology, Communicable Diseases, Emerging virology, Disease Outbreaks, Mpox, Monkeypox epidemiology, Mpox, Monkeypox virology, Monkeypox virus classification, Monkeypox virus genetics, Zoonoses

Abstract

In Nigeria, before 2017 the most recent case of human monkeypox had been reported in 1978. By mid-November 2017, a large outbreak caused by the West African clade resulted in 146 suspected cases and 42 laboratory-confirmed cases from 14 states. Although the source is unknown, multiple sources are suspected.

Published

2018

24. Genomic characterisation of human monkeypox virus in Nigeria.

Author

Faye O, Pratt CB, Faye M, Fall G, Chitty JA, Diagne MM, Wiley MR, Yinka-Ogunleye AF, Aruna S, Etebu EN, Aworabhi N, Ogoina D, Numbere W, Mba N, Palacios G, Sall AA, and Ihekweazu C

Subjects

Humans, Nigeria epidemiology, Disease Outbreaks, Genome, Viral, Genomics, Mpox, Monkeypox epidemiology, Mpox, Monkeypox virology, Monkeypox virus genetics

Published

2018