NOT MEDICAL ADVICE.  For information only. In an emergency, call your local emergency number immediately.

Mpox in depth.

Last reviewed: June 2025 · Source: WHO/CDC · Not medically reviewed

From obscure Central African endemic disease to 2022 global emergency — and a 2024 WHO PHEIC driven by the more severe Clade I variant spreading beyond DRC.

Pathogen
MPXV (Orthopoxvirus)
Family
Poxviridae
First Human Case
1970 (DRC)
Reservoir
Rodents, primates
Global Cases (2022+)
>95,000
Deaths
>200
CFR Clade IIb
<0.1%
CFR Clade I
1–10%
Incubation
5–21 days
Vaccine
JYNNEOS; ACAM2000

Overview

Mpox (monkeypox) is a viral zoonotic disease causing a distinctive pustular rash. Caused by Monkeypox virus (Poxviridae, Clade I or IIb), it spreads through close physical contact with infectious rash, bodily fluids, or respiratory secretions. Key symptoms: fever, swollen lymph nodes, muscle aches, and a rash that progresses from macules to pustules. Case fatality rates range from below 0.1% (Clade IIb in high-income settings) to up to 10% (Clade I in Central Africa).

Mpox was first identified in humans in 1970 in a 9-month-old boy in the DRC. For decades it was considered a rare zoonosis of Central and West Africa. This changed dramatically in May 2022, when mpox began spreading rapidly across Europe, the Americas, and other regions — leading the WHO to declare it a PHEIC on 23 July 2022 (lifted February 2023). Over 95,000 cases were confirmed in 110+ countries.

In August 2024, the WHO declared a second mpox PHEIC, driven by Clade Ib — a new Clade I subvariant in the DRC showing enhanced human-to-human transmission, spreading to Uganda, Rwanda, Burundi, and Kenya. Clade Ib has a significantly higher case fatality rate than Clade IIb and disproportionately affects children and immunocompromised individuals.

History & Origin

Monkeypox was first identified in monkeys kept for research in 1958 — though rodents are the primary natural reservoir. The first human case was identified in 1970 in a child in DRC. The withdrawal of smallpox vaccination following eradication in 1980 (which provided ~85% cross-protection against mpox) has increased population susceptibility. In 2022, WHO renamed the disease "mpox" to replace stigmatizing language.

The 2003 US outbreak (70+ cases from prairie dogs imported from Africa) was the first outside Africa. The 2022 global outbreak was driven by a distinct Clade IIb lineage acquiring mutations enhancing human-to-human spread, initially amplified in international sexual networks at gatherings in Europe.

Transmission

  • Animal-to-human: Direct contact with blood, body fluids, or skin lesions of infected animals (rodents, primates). Handling or consuming insufficiently cooked bushmeat in endemic regions.
  • Human-to-human (close contact): Direct contact with skin lesions, body fluids, respiratory secretions, or contaminated materials (bedding, clothing). Requires close physical contact.
  • Sexual transmission: The 2022 outbreak demonstrated efficient sexual transmission through direct contact with genital lesions. Mpox lesions anywhere on the body are infectious throughout the entire lesion lifecycle (until all scabs fall off).
  • Mother to child: Vertical transmission (congenital mpox) documented — high risk of severe disease in newborns.
  • Fomites: The poxvirus can survive on surfaces for weeks; contaminated objects can transmit virus.

Symptom Timeline

Incubation period: 5–21 days (most commonly 6–13 days). A person is infectious from onset of symptoms until ALL scabs fall off.

Day 1–5: Prodromal Phase
  • Fever, headache, backache, myalgia, profound fatigue
  • Lymphadenopathy (swollen lymph nodes) — distinctive feature differentiating mpox from chickenpox and smallpox
  • Sore throat, nasal congestion (especially with oropharyngeal lesions)
Day 1–4 After Fever: Rash Onset
  • Rash appears — often starting on face then spreading to palms, soles, oral mucosa, genitalia, trunk
  • Rash progression: macule → papule → vesicle → pustule → crust. All stages may be present simultaneously.
  • Lesions are deep-seated, firm, and may be very painful
  • In the 2022 outbreak: genital, anal, and perianal lesions were often the primary manifestation; few and atypical lesions common
  • Proctitis (rectal inflammation) causing severe rectal pain — associated with anal exposure
  • Ocular involvement (keratitis) can cause vision loss if untreated
Resolution (Day 14–28)
  • Scabs fall off; skin lesions heal — person no longer infectious once ALL scabs fallen and healthy skin reformed
  • Scarring may occur, especially with secondary bacterial infection
  • Full illness duration: typically 2–4 weeks
  • Severe disease (immunocompromised, Clade I): extensive necrotic lesions, pneumonia, encephalitis, sepsis

Diagnosis

  • PCR (mpox-specific): Gold standard. Swabs from lesion fluid or crusts. Clade identification requires sequencing.
  • Clinical diagnosis: Characteristic rash + lymphadenopathy + epidemiological link is strongly suggestive.
  • Blood tests: Leukocytosis, elevated CRP common in systemic disease.

Treatment

  • Tecovirimat (TPOXX): FDA-approved antiviral active against orthopoxviruses including MPXV. Used under EUA/compassionate use for severe mpox. 14-day oral course. Benefit most clear in immunocompromised patients.
  • Brincidofovir: Alternative antiviral for severe disease; IV formulation.
  • Supportive care: Pain management (lesions are very painful — consider prescription analgesics); wound care; antibiotics for secondary bacterial infection; trifluridine eye drops for ocular mpox.
  • Isolation: Full lesion isolation (home or hospital) until all scabs fall off — typically 2–4 weeks.

Prevention & Vaccines

  • JYNNEOS (Imvamune/Imvanex): Two-dose live attenuated Modified Vaccinia Ankara vaccine (~85% efficacy). FDA-approved for smallpox and mpox. Recommended for high-risk individuals. Post-exposure vaccination within 4 days may prevent disease; within 14 days may reduce severity.
  • ACAM2000: Older smallpox vaccine with ~85% cross-protection; contraindicated in immunocompromised, pregnant women, eczema patients.
  • Infection control: Avoid close contact with anyone with unexplained new rash; use condoms; reduce number of sexual partners during outbreaks; PPE for healthcare workers.

Global Impact

The 2022 mpox global outbreak confirmed mpox as a sexually transmissible disease capable of spreading in global sexual networks. Over 95,000 cases in 110+ countries, with low mortality (~0.1% CFR) in immunocompetent individuals in high-income countries. Rapid JYNNEOS deployment, behaviour change, and community-led responses controlled the outbreak in high-income countries.

The 2024 Clade I emergency in Central Africa is far more severe. Clade Ib MPXV has a CFR of 3–10% and disproportionately affects children under 5. Vaccine supplies are severely inadequate relative to need in DRC and neighbouring countries. The spread of Clade Ib to East Africa represents a significant escalation of the global mpox situation.

History: From Obscure Zoonosis to Global Outbreak

Mpox was first identified in 1958 in laboratory monkeys in Denmark — giving it the historical (and now changed) name "monkeypox" — though rodents are the primary reservoir, not monkeys. The first human case was identified in 1970 in a 9-year-old boy in the DRC (then Zaire). For decades, mpox remained a rare zoonotic disease confined to Central and West Africa, with periodic outbreaks in DRC, Republic of Congo, and Nigeria.

The disease received limited international attention until 2003, when a US outbreak was traced to imported Gambian giant pouched rats infecting prairie dogs sold as pets — 47 confirmed US cases, no deaths. The 2017 Nigeria outbreak (200+ cases) was the largest in decades and introduced a now-dominant clade IIb lineage. In May 2022, mpox suddenly appeared in multiple non-endemic countries simultaneously — with over 100,000 cases globally in 2022 from a predominantly sexually transmitted outbreak in networks of men who have sex with men (MSM), triggering WHO's PHEIC declaration in July 2022.

Clade I vs Clade II: Critical Differences

FeatureClade I (Central Africa)Clade IIb (2022 global outbreak)
Geographic originDRC, Central AfricaWest Africa → global
Case fatality rate1–10% (endemic context)<0.1% (2022 global)
Clade Ib (2024)Emerging: sexual transmission, high CFR in DRCN/A
Pediatric impactHigh — children major proportion of casesLow — predominantly adults
Transmission routeZoonotic + household contactPredominantly sexual (MSM networks)
Rash distributionCentrifugal (face, palms, soles)Genital/perianal predominant
PHEICWHO PHEIC Aug 2024 (Clade Ib outbreak)WHO PHEIC Jul 2022 (ended May 2023)

Virology & Pathophysiology

Monkeypox virus (MPXV) is a double-stranded DNA virus of the genus Orthopoxvirus (family Poxviridae). It is closely related to variola virus (smallpox), vaccinia (used in smallpox vaccine), and cowpox. The MPXV genome (~197 kb) encodes ~190 proteins, including immune evasion factors that help the virus evade innate and adaptive immune responses. Two main MPXV clades exist: Clade I (formerly Congo Basin clade) and Clade II (formerly West Africa clade), further subdivided into IIa and IIb.

Pathogenesis: Entry is through skin abrasions, mucosal surfaces, or respiratory tract. After local replication and lymph node spread, primary viremia seeds liver and spleen. Secondary viremia spreads virus to skin, causing the characteristic centrifugal rash progression (from face to trunk to extremities in classic presentation). The rash progresses through stages: macule → papule → vesicle → pustule → crust. Lesions are typically deeper and more uniform at the same stage than varicella (chickenpox). Pro-inflammatory cytokines drive fever and systemic symptoms. Secondary bacterial infection of skin lesions is a common complication.

Treatments & Post-Exposure Prophylaxis

Antivirals

  • Tecovirimat (TPOXX, ST-246): FDA-approved (2018) for smallpox; used under IND/EAP for mpox. VP37 inhibitor blocking viral egress. Most widely used antiviral in 2022 outbreak. Efficacy data from RCTs still emerging — PALM-007 trial (DRC Clade I) did not show mortality benefit; community-based studies suggest symptom duration reduction in mild Clade IIb.
  • Brincidofovir: Prodrug of cidofovir; FDA-approved for smallpox. Available for severe mpox; renal toxicity limits use.
  • Cidofovir: Broad-spectrum antiviral; limited to severe or immunocompromised cases due to nephrotoxicity.
  • Vaccinia immunoglobulin (VIG): Used for severe cases, immunocompromised patients, or vaccine complications.

Vaccines

  • Jynneos (Imvamune/Imvanex, Bavarian Nordic): Attenuated Modified Vaccinia Ankara (MVA) — non-replicating. Two-dose regimen (28 days apart). FDA-approved for mpox and smallpox in adults. Preferred due to safety profile (no replication; safe in immunocompromised). 66–89% effectiveness against mpox in 2022 outbreak studies.
  • ACAM2000: Replicating vaccinia virus; FDA-approved for smallpox; single-dose; provides rapid protection but has more adverse effects; used in some settings.
  • Post-exposure prophylaxis (PEP): Jynneos within 4 days of exposure can prevent disease; within 14 days can attenuate severity. Pre-exposure prophylaxis (PrEP) recommended for high-risk groups in endemic regions.

Sexual Transmission & 2022 Outbreak Dynamics

The 2022 global mpox outbreak represented a major shift in transmission dynamics. Prior outbreaks were primarily zoonotic (animal-to-human) or household contact (skin lesion, respiratory secretions, fomites). In 2022, the virus spread efficiently through sexual networks — primarily in MSM communities globally — with genital, anal, and oral lesions as the primary presentation, consistent with sexual transmission. The 2022 outbreak demonstrated MPXV can sustain prolonged human-to-human chains of sexual transmission.

Molecular analysis showed the 2022 Clade IIb strains had accumulated an unusually high number of APOBEC3 (host immune enzyme) signature mutations — suggesting the virus had been circulating in humans for some time before detection. This was a fundamentally different epidemiology from classic African mpox outbreaks.

Country-Specific Information

Frequently Asked Questions

The rash progresses: macule (flat spot) → papule (raised bump) → vesicle (fluid blister) → pustule (pus-filled) → crust (scab). Lesions are deep-seated, firm, and often painful — unlike chickenpox. They may appear on face, hands, genitals, or anywhere. A person is infectious until all scabs fall off.
Yes. JYNNEOS (two doses, 4 weeks apart) is ~85% effective. Post-exposure vaccination within 4 days may prevent disease. Recommended for high-risk individuals including those with multiple sexual partners and healthcare workers caring for mpox patients.
Clade I (particularly Clade Ib) is more severe than Clade IIb (2022 global outbreak strain). CFR 3–10% vs <0.1%. Clade Ib was declared a WHO PHEIC in August 2024 due to spread in DRC and East African countries, with enhanced human-to-human transmission and higher child mortality.
A person with mpox is infectious from symptom onset until ALL skin lesion scabs have fallen off and healthy skin has reformed — typically 2–4 weeks. Full isolation must be maintained throughout this period. Lesion fluid is highly infectious; do not touch, burst, or pick lesions.
Mpox causes swollen lymph nodes (chickenpox does not); mpox lesions are deeper, firmer, and more uniform in stage; mpox is caused by a poxvirus while chickenpox is caused by varicella-zoster virus. Mpox lesions are generally more painful and take longer to resolve.
No, but they are related. Both are caused by orthopoxviruses. Smallpox (variola virus) was declared eradicated in 1980 and is far more lethal (CFR 30%). Mpox causes a milder illness in most people, with CFR 0.1% for Clade IIb (2022 global outbreak) and up to 1–10% for Clade I (Central Africa). Smallpox vaccines (Jynneos, ACAM2000) cross-protect against mpox — this is why older adults vaccinated against smallpox before 1980 have some residual immunity to mpox.
You are contagious from when symptoms begin until all lesions have fully healed and new skin has formed — typically 2–4 weeks. Isolation during this period is essential. Do not share towels, bedding, or clothing. In 2022, some cases had longer infectious periods with persistent lesions; HIV-positive individuals with low CD4 counts may have prolonged contagious periods. Sexual activity should be avoided until all lesions have completely healed.
Theoretically possible but very rare. MPXV can infect some mammals — rodents (prairie dogs, Gambian giant pouched rats) were the source of 2003 US outbreak from imported animals. Domestic pets (dogs, cats) can rarely be infected from their owners as documented in France 2022 (dog infected by an HIV-positive owner). The risk of transmission from domestic pets to humans or vice versa in a household context appears low based on available data.
Mpox lesions are distinctive: they start as flat red spots (macules), progress to raised bumps (papules), then fluid-filled blisters (vesicles), then pus-filled lesions (pustules), and finally crust/scab before healing. All lesions are typically at the same stage simultaneously (unlike chickenpox). In the 2022 global outbreak, lesions predominantly appeared on the genitals, anus, inner thighs, or mouth. In classic African presentations, lesions typically start on the face and spread to the trunk, palms, and soles. Lesions are often painful (especially genital lesions) and can be deep.
There is no single "cure," but mpox is generally self-limiting in immunocompetent individuals — lesions heal within 2–4 weeks with supportive care. For severe disease or high-risk individuals, tecovirimat (TPOXX) is the main antiviral option. Supportive care includes pain relief (paracetamol/NSAIDs), wound care for skin lesions (antiseptic washes, dressings), eye care for ocular lesions, and antibiotics for secondary bacterial infections. Most people recover fully.

Sources & Citations

Mitjà O et al. "Epidemiological, virological, and clinical characteristics of mpox." Nature Medicine, 2023.

Mpox Diagnosis

  • PCR (gold standard): Swab of skin lesion exudate or crust — most sensitive and specific. Blood PCR less sensitive. WHO-referenced orthopoxvirus generic PCR followed by MPXV-specific PCR. Determines clade (Clade I vs II) for epidemiological response.
  • Electron microscopy: Can visualize poxvirus particles (brick-shaped, ~200–300 nm); does not differentiate MPXV from other poxviruses.
  • IgM/IgG serology: Cross-reactive with other orthopoxviruses (vaccinia, cowpox); not useful in vaccinated individuals; used for seroprevalence studies.
  • Clinical diagnosis: In outbreak context, classic rash presentation (single-stage pustular lesions, palms and soles) is highly specific; rash on genitals/perianal in 2022 outbreak also characteristic.
  • Differential diagnosis: Chickenpox (varicella) — lesions in multiple stages simultaneously; genital herpes — fewer lesions, cluster on genitals only; hand-foot-mouth disease — vesicular, different age group; syphilis — variable rash, serology diagnostic.

Mpox in Children & Vulnerable Populations

Children (Clade I DRC Context)

In the DRC, children under 15 account for the majority of Clade I mpox cases and deaths. In endemic areas, children are infected through zoonotic contact (hunting, handling forest animals) and household transmission. Clade I causes more severe disease in children than Clade IIb — severe rash, ocular involvement, and opportunistic secondary infections are more common in pediatric cases with malnutrition or HIV. Zabdeno+Mvabea (the two-dose vaccine regimen) is approved for children ≥1 year and is being deployed in DRC.

Immunocompromised Individuals

People with HIV — particularly those with CD4 counts <200 — experience more severe mpox, disseminated rash, atypical presentations (necrotic lesions, encephalitis), and higher mortality. In the 2022 outbreak, nearly 50% of hospitalized mpox patients in some settings had HIV. Antiretroviral therapy (ART) reduces mpox severity in HIV+ individuals. Tecovirimat may be prioritized for immunocompromised patients with severe mpox.

Pregnancy

Mpox in pregnancy is associated with adverse outcomes including preterm delivery, stillbirth, and congenital mpox. WHO recommends pregnant women avoid close contact with confirmed mpox cases. Jynneos vaccine safety data in pregnancy are limited; vaccination during pregnancy may be considered on a case-by-case basis in high-risk scenarios.

Global Mpox Response: 2022 Outbreak Lessons

The 2022 global mpox outbreak provided important lessons for epidemic response:

  • Community trust: Partnerships with LGBTQ+ community organizations and health advocates were critical for efficient vaccine deployment and reducing stigma; parallel to HIV epidemic response lessons
  • Nomenclature: WHO renamed "monkeypox" to "mpox" in November 2022 to address stigmatizing connotations and avoid associations with African countries or monkeys — the animal is not the primary reservoir
  • Vaccine equity: The 2022 outbreak exposed deep inequities in vaccine access — high-income countries rapidly secured Jynneos supplies while DRC (endemic for Clade I) had limited access. Gavi vaccine access programs for Clade I outbreak now established.
  • Sexual health integration: Mpox vaccination integrated into sexual health clinic services; PrEP (HIV pre-exposure prophylaxis) clinics used as outreach points for mpox vaccination in MSM communities
  • Genomic surveillance: Rapid sharing of MPXV sequences on GISAID enabled regularly updated tracking of outbreak lineages and detection of novel Clade Ib emergence in 2024

Related Diseases

Key Terms: Mpox

  • MPXV: Monkeypox virus — the causative orthopoxvirus of mpox disease
  • Orthopoxvirus: A genus of poxviruses including variola (smallpox), vaccinia, cowpox, and monkeypox viruses; double-stranded DNA viruses with characteristic "brick-shaped" appearance
  • Clade I: Central African (Congo Basin) mpox clade; higher CFR (1-10%); primarily zoonotic and household transmission; subclade Ib emerging as sexually transmitted 2024
  • Clade IIb: The lineage responsible for the 2022 global outbreak; predominantly sexually transmitted in MSM networks; lower CFR (<0.1%)
  • Jynneos (Imvamune): Modified Vaccinia Ankara (MVA)-based mpox and smallpox vaccine; non-replicating; two doses; preferred for immunocompromised and those at risk; FDA-approved for adults
  • Tecovirimat (TPOXX): An antiviral drug that inhibits the VP37 protein needed for viral egress; FDA-approved for smallpox; used under compassionate use / EUA for mpox
  • APOBEC3: A host cell DNA-editing enzyme that introduces C-to-T mutations in viral DNA as part of innate immunity; the 2022 Clade IIb strain showed accelerated APOBEC3 signature mutations suggesting prolonged human adaptation
  • Smallpox immunity: Prior smallpox vaccination (before 1980 eradication) provides significant cross-protection against mpox due to orthopoxvirus antigen similarity; people vaccinated against smallpox before 1980 have partial mpox immunity
  • Post-exposure prophylaxis (PEP): Jynneos given within 4 days of a known mpox exposure to prevent disease; within 14 days to attenuate severity
  • MSM: Men who have sex with men — the population disproportionately affected by the 2022 global Clade IIb mpox outbreak, driven by sexual network transmission dynamics

More Mpox Questions

Mpox lesions progress through distinct stages: macule (flat red spot) → papule (raised bump, firm) → vesicle (fluid-filled blister, clear fluid) → pustule (pus-filled, white/yellow, cloudy center) → crust (dried scab). Lesions at the same stage simultaneously is a key feature distinguishing mpox from chickenpox (varicella), where lesions are in multiple stages at once. Mpox lesions are typically deeper and firmer than chickenpox blisters.
Yes — fomite transmission (via contaminated objects or surfaces) is a documented transmission route for mpox. Virus can survive on clothing, bedding, towels, and surfaces for extended periods. During the 2022 outbreak, contaminated bedding in shared-use accommodation and sex venues was implicated in some transmissions. All items (clothing, bedding, towels) used by an infected person should be washed separately at high temperature. Surfaces in the home of a confirmed case should be cleaned and disinfected.
The gold standard is PCR testing of a skin lesion swab (exudate or crust from a pustular lesion). Lesion swabs give the highest viral loads. Throat swab or blood PCR are less sensitive but used when lesions are not accessible. PCR can confirm MPXV and determine clade (I vs II). Electron microscopy can visualize poxvirus particles but cannot differentiate MPXV from other poxviruses. Clinical diagnosis based on characteristic rash in a compatible epidemiological context is often the starting point; laboratory confirmation is essential.
No — mpox and COVID-19 are completely unrelated viruses. MPXV is a large DNA poxvirus; SARS-CoV-2 is a small RNA coronavirus. They have no evolutionary relationship and do not interact. The 2022 mpox global outbreak happened to occur during the COVID-19 era, leading to some public confusion, but the diseases are distinct in virology, transmission, clinical features, and epidemiology.
Isolation continues until all skin lesions have fully healed — all crusts have fallen off and new skin has formed underneath. This typically takes 2-4 weeks from illness onset. You remain potentially infectious throughout this period. During isolation: stay at home, avoid close physical contact with others, do not share utensils, bedding, or towels. Seek medical care if lesions worsen, fever is high, you have difficulty breathing, or lesions appear infected (increasing redness, warmth, pus with bad smell).
In the DRC (Clade I endemic region), yes — children under 15 account for the majority of cases and deaths. In the 2022 global outbreak (Clade IIb), the demographic was predominantly adults in MSM networks. Children can be infected through household contact with a case, including from a parent or caregiver. Pediatric mpox severity in Clade I appears higher, possibly due to malnutrition, HIV, and lack of prior smallpox immunity (all children born after 1980 are smallpox-unvaccinated). Zabdeno + Mvabea is approved for children ≥1 year.

Epidemiology at a Glance: Mpox

RegionBurdenNotes
DRC (Clade I endemic)20,000+ cases in 2023; highest annual burden globally; Clade Ib surge in South Kivu 2024Children disproportionately affected; conflict limits response; sexual transmission of Clade Ib now documented
2022 Global (Clade IIb)99,000+ confirmed cases across 116 countries; 99% in MSM networksFirst sustained non-African mpox epidemic; Europe and North America bore most cases
USA (2022–2024)32,000+ cases (2022 peak); declining after vaccine rollout and behavior changeCalifornia, New York, Illinois most affected states; Jynneos vaccine expanded from HHS stockpile
Europe (2022)~30,000 cases; UK, Germany, Spain, France most affectedRapid containment through community vaccination and behavior change in MSM networks
DRC Clade Ib (2024)New PHEIC declared August 2024; spreading to neighboring countries (Uganda, Rwanda, Kenya)Clade Ib spreading sexually in adult networks AND through household contact; children also affected
Africa overall (2024)>5,000 cases/deaths (unprecedented); PHEIC prompted emergency vaccine mobilizationMassive vaccine equity gap — DRC had minimal Jynneos access despite being epicenter

Mpox Prevention Checklist

  • Know your risk: Current high-risk groups include men who have sex with men (MSM) with multiple partners, and people in active outbreak areas with known case exposure. Risk is low for general public in non-endemic countries.
  • Vaccination (Jynneos): Two-dose series (28 days apart) for high-risk individuals. Contact your local health department or sexual health clinic. Pre-exposure vaccination recommended for MSM with multiple partners in areas with ongoing Clade IIb transmission.
  • Reduce skin-to-skin contact with unknown individuals — especially if they have unexplained rash, lesions, or have been diagnosed with mpox. Mpox spreads by direct contact with lesions, secretions, and respiratory droplets at close range.
  • Isolate if you develop symptoms: Fever + rash (anywhere on body, but especially genitals/perianal) in someone with recent exposure — isolate at home, contact your healthcare provider, and avoid close physical contact with others.
  • Bedding/clothing hygiene: Wash bedding, towels, and clothing used by an infected person separately at high temperature. Disinfect surfaces with household disinfectant.
  • In endemic regions (DRC and neighbors): Avoid contact with wild animals (rodents, primates); avoid bushmeat; cook all meat thoroughly; avoid contact with sick or dead animals.

Mpox: WHO Guidance Highlights

WHO declared the second mpox PHEIC in August 2024 (the first was July 2022–May 2023) specifically due to the emergence of Clade Ib in DRC spreading into neighboring African countries (Uganda, Rwanda, Kenya, Burundi). WHO Director-General Tedros Adhanom Ghebreyesus cited the rapid geographic spread, potential for further international spread, the severity of the new Clade Ib strain (higher CFR than Clade IIb), and the severe vaccine access inequity (DRC had almost no Jynneos access) as the basis for the declaration. The PHEIC triggered emergency mobilization of vaccine donations and international financial support.
Yes. WHO officially renamed "monkeypox" to "mpox" in November 2022. Both names are temporarily acceptable during a transition period, but "mpox" is the preferred WHO designation. The renaming addresses stigmatization concerns (the old name implied African origin and associated the disease with monkeys, which are not the primary reservoir). The scientific name of the virus remains Monkeypox virus (MPXV) in formal taxonomy.
VirusWatch Editorial Team — Researched and written by the VirusWatch editorial team using WHO and CDC public data · Last reviewed: May 2025

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Informational only — not medical advice. This page summarizes WHO and CDC data for educational purposes. VirusWatch is not a healthcare provider. If you feel unwell, contact a licensed physician. In an emergency, call your local emergency number.

Vaccine Rollout & Equity Challenges

The 2022 global mpox outbreak exposed significant vaccine equity gaps. The only approved mpox vaccine (JYNNEOS/Imvamune/Imvanex) was produced by Bavarian Nordic, a single manufacturer with limited global capacity. High-income countries secured the majority of doses while African nations — including those with endemic Clade I mpox — received minimal supply.

For the 2024 Clade I outbreak declared a PHEIC in August 2024, WHO mobilized emergency vaccine donations. Key developments:

Bavarian Nordic received WHO prequalification and expanded manufacturing partnerships to increase supply for future outbreaks.

Mpox in Children

In Central Africa, mpox historically affected children most severely due to waning smallpox immunity (vaccination ended ~1980) and frequent animal exposure. Children under 8 years have consistently shown higher case fatality rates in DRC data. The 2024 Clade Ib strain showed particular severity in children under 15:

Stigma & Mental Health

The 2022 outbreak was initially associated predominantly with gay and bisexual men, leading to significant stigmatization — both of affected communities and of anyone with mpox. Public health messaging struggled to balance clear transmission risk communication without reinforcing harmful stereotypes. Key lessons applied in the 2024 Clade I response:

Additional Frequently Asked Questions

How long are mpox lesions contagious?
Individuals are infectious from the onset of symptoms until all lesions have fully crusted over and the scabs have fallen off — typically 2–4 weeks total. The scabs themselves can contain live virus. People should remain isolated until complete skin healing. Unlike chickenpox, mpox scabs should not be picked as this prolongs the infectious period and increases scarring risk.
Can mpox cause long-term complications?
Most people recover fully within 2–4 weeks. Potential complications include secondary bacterial infections of lesions (requiring antibiotics), corneal scarring from ocular lesions (risking permanent vision loss), pneumonia, encephalitis, and myocarditis (rare). Severe scarring from extensive lesions can cause permanent skin changes. People with HIV or other immunosuppression face higher risk of prolonged or severe disease.
Is the 2024 Clade I outbreak linked to the 2022 global outbreak?
No — they are genetically distinct. The 2022 global outbreak was Clade IIb, spreading predominantly through sexual networks. The 2024 Clade Ib outbreak in DRC and neighboring countries represents a separate viral lineage that evolved from Central African Clade I strains, with enhanced human-to-human transmissibility compared to historical Clade I but through different contact patterns including household and healthcare exposure, not primarily sexual transmission.

Key Statistics at a Glance

Metric Value
2022 global outbreak cases95,000+ in 110+ countries
2022 outbreak CFR<0.1% (high-income countries); ~3% (endemic regions)
Clade I CFR (historical)up to 10%
Incubation period3–17 days (typically 6–13 days)
Infectious periodFrom symptom onset until all scabs fall off (~2–4 weeks)
Approved vaccineJYNNEOS (2-dose, subcutaneous or intradermal)
Antiviral treatmentTecovirimat (TPOXX) — under expanded access/IND

Mpox Diagnosis

Clinical diagnosis is challenging — mpox lesions can resemble chickenpox, syphilis, herpes, and other skin conditions. Laboratory confirmation is essential for public health response:

WHO provides a list of national reference laboratories capable of orthopoxvirus PCR. During outbreak periods, many countries expanded testing to dermatology clinics and sexual health services to reduce barriers to testing.

Post-Exposure Prophylaxis (PEP)

JYNNEOS vaccine administered within 4 days of exposure (up to 14 days for partial protection) reduces the risk of developing mpox. PEP is recommended for:

Medical Information Notice

This page is produced by the VirusWatch Editorial Team and reviewed against peer-reviewed medical literature and official guidance from WHO, CDC, ECDC, and national health authorities. Information reflects the state of scientific knowledge at the publication date and is updated regularly.

VirusWatch content is for public health education only and does not constitute medical advice, diagnosis, or treatment recommendations. If you have symptoms of any disease described on this site, consult a qualified healthcare provider promptly. Do not delay seeking professional medical care based on information read here.

For health emergencies, contact your local emergency services or go to the nearest emergency department.

Sources & Further Reading

Frequently Asked Questions: Vaccination & Prevention

Does the old smallpox vaccine protect against mpox?
Yes, substantially. Historical data from DRC studies show that smallpox vaccination provides approximately 85% protection against mpox. People vaccinated against smallpox before 1980 (when routine vaccination ended) retain significant cross-protective immunity. However, this immunity wanes over decades. This explains why mpox incidence has risen as the unvaccinated population (born after ~1978) has grown. The current JYNNEOS vaccine uses a newer, safer modified vaccinia Ankara (MVA) strain.
What is intradermal JYNNEOS dosing and why does it matter?
During the 2022 outbreak, vaccine supply shortages led the US FDA to authorize a fractional intradermal dose (1/5 the standard 0.5mL subcutaneous dose). Immunogenicity studies showed similar immune responses with the intradermal route, effectively multiplying available doses fivefold. This strategy was critical to expanding vaccination access during a period of high demand and limited supply. Most routine JYNNEOS vaccination now returns to the standard subcutaneous 2-dose regimen.
Can you get mpox if you have been vaccinated?
Breakthrough infections are possible but rare. JYNNEOS provides approximately 66–86% protection against infection (lower for Clade I variants, which the vaccine was not specifically designed for). Vaccinated individuals who do get infected typically experience significantly milder disease with fewer lesions, shorter illness duration, and lower hospitalization risk. Two-dose series is required for full protection; one dose provides partial protection.

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Summary

Mpox has transformed from an obscure African zoonosis into a globally recognized public health concern in just a few years. Two distinct outbreaks — the 2022 Clade IIb global epidemic and the 2024 Clade I African resurgence — demonstrate how the same pathogen can spread through entirely different transmission networks. Vaccination, surveillance, and community-centered response remain the pillars of control. With improved diagnostics and growing vaccine availability, the tools to contain mpox exist — deployment equity is the remaining challenge.

Mpox at a Glance: Who Is at Highest Risk?

Risk varies substantially by geography and context:

General population risk in non-endemic countries with no active outbreak is very low. Monitor WHO and national health authority updates to assess current local risk levels before considering vaccination or behavior change.

Mpox Research Frontiers

The 2022 and 2024 mpox emergencies accelerated research that had been largely neglected for decades:

Mpox Summary

Mpox emerged as a global concern after decades of neglect following smallpox eradication. The 2022 Clade IIb outbreak demonstrated that mpox could spread efficiently through global sexual networks, while the 2024 Clade I resurgence in Central Africa showed that the original, more virulent lineage was not going away. The world now manages two simultaneous mpox epidemics with different drivers, different risk populations, and different countermeasure needs.

Vaccination with JYNNEOS has proven effective and the 2022 outbreak was controlled — largely through community-led response, behavior change, and expanding vaccine access. The equity challenge of getting vaccines to DRC and neighboring countries in sufficient quantity to address the Clade I outbreak remains the defining challenge of the 2024–2025 response. Mpox is preventable and the tools exist; the gap is political will and logistical commitment.

Mpox Global Distribution (2024–2025)

Clade IIb: low-level ongoing transmission in many countries that experienced the 2022 outbreak, primarily among men who have sex with men (MSM) who remain unvaccinated. Clade I: DRC (epicenter), Burundi, Rwanda, Uganda, Kenya — first sustained detection outside Central Africa. Both clades co-circulate; distinguishing them requires sequencing. WHO declared Clade I a PHEIC in August 2024, the second mpox PHEIC declaration in two years.

Mpox Treatment in Practice

Most mpox cases are self-limiting and managed with supportive care at home. Treatment escalation follows clinical severity:

Mpox Contact Tracing

Effective contact tracing was a cornerstone of the 2022 outbreak response. Key elements:

Related: Ebola · COVID-19 · DRC & Mpox · Blog: Mpox Guide 2025

📊 Data Sources & Freshness
Primary sourceWHO Mpox Dashboard
Source URLhttps://www.who.int/publications/m/item/multi-country-outbreak-of-mpox--external-situation-report
Update frequencyHourly refresh
Last checkedJune 2025
LimitationCases may be underreported. Data reflects official reports only.