A systematic review to identify novel clinical characteristics of monkeypox virus infection and therapeutic and preventive strategies to combat the virus

Emerging variants of Mpox virus and tecovirimat resistance: Genomic insights and implications for treatment strategies

Mpox is a zoonotic viral infection caused by the monkeypox virus (MPXV) genus Orthopoxvirus. The MPXV, possesses a large and complex double-stranded DNA genome, encoding approximately 190 genes. The virus has gained attention due to recent outbreaks and the emergence of resistant variants. MPXV exists in two distinct clades: Central African (Clade I) and West African (Clade II), with Clade I being more virulent. Genomic surveillance has revealed significant mutations across MPXV lineages, with Clade IIb, responsible for the 2022 outbreak, exhibiting rapid adaptation through APOBEC3-mediated deamination associated with sustained human-to-human transmission. The recent outbreak of highly mutated Clade 1b MPXV (hMpox-1) strain was associated with increased human-to-human transmission, underscoring the importance of monitoring viral mutations to track diversity and identify resistance to antiviral therapies. Tecovirimat, an antiviral drug authorized for treating Mpox, targets the F13L protein involved in viral egress. However, the rise of MPXV variants resistant to tecovirimat, linked to mutations in the F13L gene, presents a growing challenge. Mutations in the F13L gene, such as H238Q, A288P, A290V, D294V, P243S, N267D, A295E, I372N, and A184T, have been linked to resistance, reducing tecovirimat's efficacy. Therefore, understanding the Clade-specific mutation patterns and genomic adaptations offers crucial insights into the mechanisms driving resistant variant emergence to inform targeted therapeutic and vaccine development strategies, ensuring effective containment of future Mpox outbreaks. This review highlights the genomic diversity of MPXV, its implications for antiviral resistance, and strategies to enhance treatment effectiveness, particularly in vulnerable populations.

Ocular manifestations of mpox

PURPOSE OF REVIEW

To highlight the clinical features of mpox with an emphasis on ocular manifestations and to review treatment options for this re-emerging infectious disease.

RECENT FINDINGS

Ocular involvement of mpox varies by clade. The most recent 2022 outbreak appears to be associated with fewer conjunctivitis cases compared to previous outbreaks. However, the ocular findings occurring during this newly emerging clade can be visually threatening and include cases of keratitis, rapidly progressing scleritis, and necrotizing periorbital rashes.

SUMMARY

Ocular mpox is an important clinical feature of systemic mpox virus (MPXV) infection. Heightened clinical suspicion allows for a timely diagnosis and the initiation of antiviral treatment, when appropriate. Randomized clinical trials for mpox systemic and ocular treatment efficacy are lacking. Prior clinical experience with smallpox and in-vitro mpox data support the use of systemic antivirals such as tecovirimat, cidofovir, brincidofovir and topical use of trifluridine in ocular mpox management, though treatment-resistant infection can occur and portend a poor prognosis.

Clinical and Epidemiological Characteristics of the 2022 Mpox Outbreak in Spain (CEME-22 Study)

Background

We conducted a multicentric national study (SEIMC-CEME-22), to describe the clinical and epidemiological profile of the mpox outbreak in Spain, including the management of the disease.

Methods

This was a retrospective national observational study conducted by Sociedad Española de Enfermedades Infecciosas y Microbiología Clínica (SEIMC) and Foundation SEIMC-GESIDA. We included patients with a confirmed mpox diagnosis before 13 July 2022, and attended at the Spanish health network (the early phase of the outbreak). Epidemiological, clinical, and therapeutic data were collected.

Results

Of a total of 1472 patients from 52 centers included, 99% of them were cisgender men, mostly middle-aged, and 98.6% were residents in Spain. The main suspected route of transmission was sexual exposure, primarily among MSM. Occupational exposure was reported in 6 patients. Immunosuppression was present in 40% of patients, mainly due to human immunodeficiency virus (HIV). Only 6.5% of patients had been vaccinated against orthopoxvirus. Virus sequencing was performed in 147 patients (all B.1 lineage). Rash was the most frequent symptom (95.7%), followed by fever (48.2%), adenopathies (44.4%) myalgias (20.7%), proctitis (17%), and headache (14.7%). Simultaneously diagnosed sexually transmitted infections included syphilis (n = 129), gonococcal infection (n = 91), HIV (n = 67), chlamydia (n = 56), hepatitis B (n = 14), and hepatitis C (n = 11). No therapy was used in 479 patients (33%). Symptomatic therapies and antibiotics were used in 50% of cases. The most used therapy regimens were systemic corticoids (90 patients), tecovirimat (6 patients), and cidofovir (13 patients). Smallpox immunoglobulins were used in 1 patient. Fifty-eight patients were hospitalized, and 1 patient died.

Conclusions

Mpox outbreak in Spain affected primarily middle-aged men who were sexually active and showed a high rate of HIV infection. A range of heterogeneous therapeutics options was performed.

Mpox (formerly monkeypox): pathogenesis, prevention, and treatment

In 2022, a global outbreak of Mpox (formerly monkeypox) occurred in various countries across Europe and America and rapidly spread to more than 100 countries and regions. The World Health Organization declared the outbreak to be a public health emergency of international concern due to the rapid spread of the Mpox virus. Consequently, nations intensified their efforts to explore treatment strategies aimed at combating the infection and its dissemination. Nevertheless, the available therapeutic options for Mpox virus infection remain limited. So far, only a few numbers of antiviral compounds have been approved by regulatory authorities. Given the high mutability of the Mpox virus, certain mutant strains have shown resistance to existing pharmaceutical interventions. This highlights the urgent need to develop novel antiviral drugs that can combat both drug resistance and the potential threat of bioterrorism. Currently, there is a lack of comprehensive literature on the pathophysiology and treatment of Mpox. To address this issue, we conducted a review covering the physiological and pathological processes of Mpox infection, summarizing the latest progress of anti-Mpox drugs. Our analysis encompasses approved drugs currently employed in clinical settings, as well as newly identified small-molecule compounds and antibody drugs displaying potential antiviral efficacy against Mpox. Furthermore, we have gained valuable insights from the process of Mpox drug development, including strategies for repurposing drugs, the discovery of drug targets driven by artificial intelligence, and preclinical drug development. The purpose of this review is to provide readers with a comprehensive overview of the current knowledge on Mpox.

Emergency department approach to monkeypox

BACKGROUND

Monkeypox (mpox) is a viral infection that is primarily endemic to countries in Africa, but large outbreaks outside of Africa have been historically rare. In June 2022, mpox began to spread across Europe and North America, causing the World Health Organization (WHO) to declare mpox a public health emergency of international concern. This article aims to review clinical presentation, diagnosis, and prevention and treatment strategies on mpox, providing the basic knowledge for prevention and control for emergency providers.

METHODS

We conducted a review of the literature using PubMed and SCOPUS databases from their beginnings to the end of July 2023. The inclusion criteria were studies on adult patients focusing on emerging infections that described an approach to a public health emergency of international concern, systematic reviews, clinical guidelines, and retrospective studies. Studies that were not published in English were excluded.

RESULTS

We included 50 studies in this review. The initial symptoms of mpox are non-specific: fever, malaise, myalgias, and sore throat. Rash, a common presentation of mpox, usually occurs 2-4 weeks after the prodrome, but the presence of lymphadenopathy may distinguish mpox from other infections from the Poxviridae family. Life-threatening complications such as pneumonia, sepsis, encephalitis, myocarditis, and death can occur. There are documented co-occurrences of human immunodeficiency virus (HIV) and other sexually transmitted infections that can worsen morbidity.

CONCLUSION

The initial presentation of mpox is non-specific. The preferred treatment included tecovirimat in patients with severe illness or at high risk of developing severe disease and vaccination with two doses of JYNNEOS. However, careful history and physical examination can raise the clinicians' suspicion and point toward a prompt diagnosis. There are different modalities to prevent and treat mpox infection.