Search Results (162)

Background/Objective: While no human monkeypox (MPXV) infections have been reported in Palestine, the rapid global increase in cases, including in neighboring countries, necessitates proactive public health preparedness. This study aimed to assess Palestinians’ willingness to receive MPXV vaccination and to identify associated predictors in the context of a potential outbreak. Methods: A cross-sectional online survey was conducted in September 2024. The questionnaire gathered data on participants’ sociodemographic characteristics, risk perceptions, Vaccine Trust Indicator (VTI) scores, vaccination history, and willingness to receive an MPXV vaccine. Bivariate analyses were performed using Pearson’s chi-square test, and a multivariate logistic regression model was employed to identify the determinants of MPXV vaccination willingness. Results: The overall willingness to receive MPXV vaccination was low (28.8%). Key findings included significant public misconceptions and concerns: 33% of respondents believed that natural immunity from infection was sufficient, while 43% expressed concerns about potential adverse effects, similar to those associated with COVID-19 vaccines. Furthermore, nearly 60% of participants stated they would decline a free MPXV vaccine. Multivariate analysis revealed that prior COVID-19 vaccination (aOR = 3.07, p < 0.05), a moderate VTI score (aOR = 6.65, p < 0.05), and prior influenza vaccination (aOR = 4.00, p < 0.05) were significant predictors of MPXV vaccination willingness. Willingness to pay for the vaccine also positively influenced vaccination intent. One of the common misconceptions found was the belief that having received a smallpox vaccination prior reduces the need for an MPXV vaccination. Conclusions: The willingness to receive an MPXV vaccine in Palestine is suboptimal. Prior vaccination behaviors and general trust in vaccines are key determinants of acceptance. These findings underscore the critical need for public health strategies focused on strengthening trust in vaccine efficacy and safety, along with targeted health education to enhance community preparedness for a potential MPXV outbreak. Full article

Human mpox, caused by the mpox virus, is a reemerging viral zoonosis that has gained global attention due to recent Clade IIb outbreaks outside of Africa, as well as ongoing Clade Ia and Ib outbreaks in the Democratic Republic of Congo (DRC) and surrounding regions. Since the start of these outbreaks in 2022, approximately 160,000 people have been affected across more than 100 countries. People with human immunodeficiency virus (HIV; hereafter referred to as PWH) have been disproportionately affected, accounting for approximately 50% of all cases. Mpox is typically a self-limiting illness causing smallpox-like symptoms lasting 2–4 weeks, which can cause significant pain and morbidity. People with uncontrolled or advanced HIV face an elevated risk of severe mpox, secondary complications, and worse outcomes. Vaccination with second- and third-generation vaccinia-based smallpox vaccines has emerged as an important tool in mpox prevention, alongside behavioural modification to mitigate risk. However, only the third-generation, live-attenuated, non-replicating vaccine, modified vaccinia Ankara (MVA-BN [Bavarian Nordic]), is approved for use in PWH. Real-world estimates suggest that two doses of MVA-BN administered as pre-exposure prophylaxis confers vaccine effectiveness in the range of 66–90%. Additionally, MVA-BN has been widely demonstrated to have an acceptable safety profile. This narrative review explores the changing epidemiology, clinical manifestations, and outcomes of mpox in PWH. We also summarise evidence from the Clade IIb outbreaks on the effectiveness and safety of MVA-BN among PWH. Despite progress in our understanding, knowledge gaps persist regarding vaccine performance in individuals with advanced immunosuppression. Furthermore, due to the emergent nature of outbreaks in the DRC and surrounding areas, limited information is available regarding implications for PWH in the context of Clade Ia and Ib. We aim to provide healthcare providers, community stakeholders, and researchers with a foundational understanding of mpox in PWH and the role of MVA-BN in mpox prevention among this group, while highlighting areas of uncertainty. These insights may be helpful in the planning of future research and to inform strategies for the prevention and management of mpox among PWH, particularly those with advanced or uncontrolled HIV. Full article

Monkeypox virus (MPXV), a zoonotic Orthopox virus endemic to West and Central Africa, causes mpox disease. Although Ghana had no confirmed human cases before 2022, the 2003 U.S. mpox outbreak was traced to rodents exported from Ghana, suggesting potential undetected exposure in the local population. This study assessed mpox exposure prior to the emergence of Clade IIb in humans. We tested 457 serum samples collected across 14 regions of Ghana using a commercial anti-MPXV IgG ELISA. These samples comprised 365 archived sera from 2021 SARS-CoV-2 surveillance and 92 sera from suspected mpox cases during the 2022 outbreak. Multivariable logistic regression was performed to examine associations between MPXV seropositivity and demographic factors, including age, sex, region, urban/rural status and inferred smallpox vaccination status. Overall MPXV seroprevalence was 6.6%. Participants from the Western Region had significantly increased odds of seropositivity (aOR = 6.70, 95% CI: 1.75–25.62, p = 0.005), whereas those from Greater Accra had decreased odds (aOR = 0.28, 95% CI: 0.09–0.90, p = 0.033). The findings suggest localized MPXV circulation or repeated zoonotic spillover may have occurred undetected, challenging the prevailing assumption that Ghana was unaffected by human mpox prior to 2022, underscoring the importance of strengthened surveillance and preparedness in Ghana. Full article

The World Health Organization (WHO) declared the mpox (MPX) outbreak a public health emergency of international concern (PHEIC) on 23 July 2022, and 14 August 2024, respectively, underscoring the confirmed and concerning global spread of the disease. A gap exists in our fundamental understanding of the mpox virus (MPXV), despite its genetic relatedness to the variola virus (VARV). This knowledge deficit is evident in the performance of current medical countermeasures; vaccines and antiviral therapies adapted from smallpox programs demonstrate only partial efficacy and are constrained by issues of safety and suboptimal effectiveness against MPXV. In this context, the development of MPX-specific vaccines and antiviral drugs has become a critical priority in the global effort to combat MPX. However, MPXV employs multiple strategies to evade host immune responses, such as producing specific and poxvirus homologous proteins that suppress both innate immunity (including the six principal innate immune signaling pathways and antiviral strategies, notably the interferon [IFN] pathway) and adaptive immunity, thereby complicating vaccine and drug development. Insights from research on vaccinia virus (VACV) and VARV may inform the investigation of MPXV pathogenesis and immune evasion mechanisms. Drawing on relevant scientific literature, this review systematically examines key aspects of MPX infection, pathogenicity, and immune evasion, as well as the coordination between innate and adaptive immune responses. Furthermore, this review elucidates the current application and deployment landscape of the three principal therapeutics and three major vaccines for MPX, aiming to provide a theoretical foundation for future research and development of vaccines and targeted antiviral agents. Full article

Global efforts to eradicate smallpox—an Orthopoxvirus infection—began in the mid-20th century, with the last naturally occurring case reported in 1977. This was achieved through global solidarity efforts that expanded the smallpox eradication vaccination program. Approximately 50 years following the cessation of mass smallpox vaccination and in the absence of access to a sustainable boosting program, the population immunologically naïve to Orthopoxviruses has increased significantly. With increasing global movements and travels, we argue that the emergence of two back-to-back yet distinct mpox epidemics in the 21st century is a sign of humanity’s lost herd immunity to Orthopoxviruses. This needs concerted efforts to restore. Full article

The 2022 global mpox outbreak, caused by clade IIb of the monkeypox virus (MPXV), prompted emergency use authorisation of the Modified Vaccinia Ankara–Bavarian Nordic (MVA-BN) vaccine, previously approved for smallpox prevention. Understanding immune responses to the MVA-BN vaccine is critical to inform both current and future mpox vaccine policy, particularly amid reports of breakthrough infections in vaccinated persons, uncertainty about the durability of vaccine-induced protection, and the emergence of further outbreaks of mpox from different viral clades, including the clade I-driven public health emergency of international concern. MVA-BN elicits binding and neutralising antibody, memory B cells, and T cell responses. Immune responses vary by host factors, prior orthopoxvirus exposure, and dosing regimens. While seroconversion is generally robust, circulating antibody titres often wane rapidly, particularly in vaccinia-naïve and/or immunocompromised individuals, including people with HIV. Vaccine-induced neutralising antibody responses to MPXV are frequently lower than to vaccinia virus, and their role in protection remains ill-defined. In contrast, T cell responses appear more sustained and may support long-term immunity in the absence of persistent antibody titres. This narrative review synthesises current evidence on the immunogenicity and durability of MVA-BN vaccination, highlights challenges in assay interpretation, and outlines key research priorities, including the need to explore correlates of protection, booster strategies, and next-generation vaccine design. Full article

Background: Immunization is a highly effective intervention for controlling over 20 life-threatening infectious diseases, significantly reducing both morbidity and mortality rates. One notable achievement in vaccination efforts was the global eradication of smallpox, which the World Health Assembly declared on 8 May 1980. Additionally, there has been a remarkable 99.9% reduction in wild poliovirus cases since 1988, decreasing from more than 350,000 cases that year to just 30 cases in 2022. Objectives: The objective of this review was to assess the effects of various interventions designed to increase vaccination uptake among adults. Search Methods: A thorough search was conducted in the CENTRAL, Embase Ovid, Medline Ovid, PubMed, Web of Science, and Global Index Medicus databases for primary studies. This search was conducted in August 2021 and updated in November 2024. Selection Criteria: Randomized trials were eligible for inclusion in this review, regardless of publication status or language. Data Analysis: Two authors independently screened the search outputs to select potentially eligible studies. Risk ratios (RR) with 95% confidence intervals (CI) were calculated for each randomized controlled trial (RCT). A meta-analysis was conducted using a random-effects model, and the quality of the evidence was assessed using the GRADE approach. Main Results: A total of 35 randomized controlled trials met the inclusion criteria and were included in this review, with the majority conducted in the United States. The interventions targeted adults aged 18 and older who were eligible for vaccination, involving a total of 403,709 participants. The overall pooled results for interventions aimed at increasing influenza vaccination showed a risk ratio of 1.41 (95% CI: 1.15, 1.73). Most studies focused on influenza vaccination (18 studies), while the remaining studies examined various other vaccines, including those for hepatitis A, COVID-19, hepatitis B, pneumococcal disease, tetanus, diphtheria, pertussis (Tdap), herpes zoster, and human papillomavirus (HPV). The results indicate that letter reminders were slightly effective in increasing influenza vaccination uptake compared to the control group (RR: 1.75, 95% CI: 0.97, 1.16; 6 studies; 161,495 participants; low-certainty evidence). Additionally, participants who received education interventions showed increased levels of influenza vaccination uptake compared to those in the control group (RR: 1.88, 95% CI: 0.61, 5.76; 3 studies; 1318 participants; low-certainty evidence). Furthermore, tracking and outreach interventions also led to an increase in influenza vaccination uptake (RR: 1.87, 95% CI: 0.78, 4.46; 2 studies; 33,752 participants; low-certainty evidence). Conclusions: Letter reminders and educational interventions targeted at recipients are effective in increasing vaccination uptake compared to control groups. Full article

Co-infections of Orthopoxviruses (OPVs), such as vaccinia virus (VACV) and monkeypox virus (MPXV), and the human immunodeficiency virus (HIV) can be associated with severe outcomes. Serro’s dairy region, located in Minas Gerais, southeastern Brazil, is an endemic area for VACV, where zoonotic outbreaks affect rural communities. This epidemiological context is especially relevant for at-risk populations, such as people living with HIV (PLHIV). This study aimed to assess the presence of neutralizing antibodies (NAbs) against OPV in PLHIV in this endemic setting. Serum samples were collected from 177 PLHIV in treatment at the specialized service between December 2021 and August 2022. VACV and MPXV NAbs were measured using the plaque reduction neutralization test (PRNT) and VACV-infected cells. The overall occurrence of OPV NAbs was 27.7%. NAbs were higher in individuals born before 1980 (53.3%) than those born after 1980 (1.1%). Among anti-VACV-seropositive individuals, 40.8% also had MPXV NAbs, suggesting cross-immunity. These findings indicate the circulation of VACV in PLHIV and highlight the increased susceptibility to OPV infections among individuals born after the cessation of smallpox vaccination. The results reinforce the importance of continued surveillance of OPV, especially in endemic regions and vulnerable populations. Full article

Lyssaviruses are RNA viruses in the Family Rhabdoviridae, Genus Lyssavirus. They represent the causative agents of acute, progressive encephalitis, known historically as rabies. Regardless of specific etiology, their collective viral morphology, biochemistry, pathobiology, associated clinical signs, diagnosis, epizootiology, and management are essentially the same. Despite centuries of clinical recognition, these quintessential neurotropic agents remain significant pathogens today, with substantive consequences to agriculture, public health, and conservation biology. Notably, the singular morbidity caused by lyssaviruses is incurable and constitutes the highest case fatality of any viral disease. All warm-blooded vertebrates are believed to be susceptible. The dog is the only domestic animal that serves as a reservoir, vector, and victim. In contrast, felids are effective vectors, but not reservoirs. All other rabid domestic species, such as livestock, constitute spillover infections, as a bellwether to local lyssavirus activity. Frequently, professional confusion abounds among the veterinary community, because although the viral species Lyssavirus rabies is inarguably the best-known representative in the Genus, at least 20 other recognized or putative members of this monophyletic group are known. Frequently, this is simply overlooked. Moreover, often the ‘taxonomic etiology’ (i.e., ‘Lyssavirus x’) is mistakenly referenced in a biopolitcal context, instead of the obvious clinical illness (i.e., ‘rabies’). Global consternation persists, if localities believe they are ‘disease-free’, when documented lyssaviruses circulate or laboratory-based surveillance is inadequate to support such claims. Understandably, professional chagrin develops when individuals mistake the epidemiological terminology of control, prevention, elimination, etc. Management is not simple, given that the only licensed veterinary and human vaccines are against rabies virus, sensu lato. There are no adequate antiviral drugs for any lyssaviruses or cross-reactive biologics developed against more distantly related viral members. While representative taxa among the mammalian Orders Chiroptera, Carnivora, and Primates exemplify the major global reservoirs, which mammalian species are responsible for the perpetuation of other lyssaviruses remains a seemingly academic curiosity. This zoonosis is neglected. Clearly, with such underlying characteristics as a fundamental ‘disease of nature’, rabies, unlike smallpox and rinderpest, is not a candidate for eradication. With the worldwide zeal to drive human fatalities from canine rabies viruses to zero by the rapidly approaching year 2030, enhanced surveillance and greater introspection of the poorly appreciated burden posed by rabies virus and diverse other lyssaviruses may manifest as an epidemiological luxury to the overall global program of the future. Full article

Poxvirus infections, particularly those caused by the monkeypox virus, have emerged as significant public health threats. Ocular manifestations constitute a severe potential clinical complication associated with these infections, potentially resulting in permanent visual impairment in afflicted patients. This review aimed to examine the clinical spectrum of ocular manifestations associated with mpox and other poxvirus infections and to evaluate current management strategies alongside emerging therapeutic interventions and prevention strategies. A comprehensive literature search was performed across major databases to identify studies reporting ocular involvement in poxviral infections. Ocular involvement in poxviral infections ranges from mild conjunctivitis and eyelid lesions to severe keratitis with potential vision loss. Mpox-related ocular manifestations are more prevalent in unvaccinated and immunocompromised individuals. Although early antiviral intervention and supportive care are critical, clinical outcomes vary considerably across viral clades. Emerging evidence indicates that tecovirimat may reduce lesion severity, although its impact on accelerating recovery remains limited. Moreover, vaccine strategies, particularly the MVA-BN (JYNNEOS) vaccine, appear to decrease ocular complications, despite regional disparities in access and implementation. Ocular complications pose a significant clinical challenge in mpox and related poxviral infections. This review highlights the need for early diagnosis and integrated treatment approaches that combine antiviral therapy, supportive care, and targeted vaccination. Further research is essential to refine treatment protocols and assess the long-term outcomes in diverse patient populations. Full article

Background: The recent global outbreak with clade IIb and the concurrent emergence of clade I mpox virus in Africa show that mpox is a challenging problem. MVA-BN induces low-level mpox-neutralizing antibody responses that wane rapidly. This study was conducted to compare the mpox immunity induced by a replication-competent smallpox vaccine and non-replicating MVA-BN. Methods: Stored sera (n = 302) and PBMCs (n = 244) collected pre-vaccination and at five post-vaccination time points in MVA-BN and six post-vaccination time points in Dryvax clinical trials were used. Antibody titers that neutralized at least 50% of mpox in cell culture were determined by the focus reduction neutralization test (FRNT) 50, and the mpox-specific T cell responses were measured using an IFN-γ ELISPOT assay. Results: The peak geometric fold rise (95% CI) (i.e., the maximum GMFR across all study visits) in the mpox FRNT50 for subcutaneous (SC) MVA-BN, intradermal (ID) MVA-BN, and Dryvax was 22.1 (8.3, 59.1), 18.5 (8.0, 43.1), and 245.8 (100.4, 601.6), respectively. The GMFR at day 180 post-vaccination for MVA-BN (SC), MVA-BN (ID), and Dryvax was 2.4, 2.7, and 64, respectively. The mean (95% CI) peak number of mpox-specific IFN-γ-producing SFCs was 127 (43.1, 238.3), 87.3 (46, 137), and 61.2 (44.3, 77.7) for MVA-BN (SC), MVA-BN (ID), and Dryvax, respectively. On day 180, the mean SFCs in the three groups decreased to 10.8 (−34.4, 3.8), 3.3 (−6.2, 18.6), and 2.2 (−9, 12.5), respectively. Conclusions: The peak mpox-neutralizing antibody titer was >10-fold lower in MVA-BN recipients compared to those who received a replication-competent smallpox vaccine, and the level at day 180 was >20 times lower in MVA-BN recipients. MVA-BN induced similar or higher T cell responses. Full article

Monkeypox (mpox) is a zoonotic disease (zoonose) caused by the monkeypox virus (MPXV). MPXV, a member of the Orthopoxviridae family, is categorized into two clades, Central Africa (I) and West Africa (II), each of which is further subdivided into subclades a and b. Clade I generally causes more serious illness and higher mortality rates, while Clade II results in milder illness. Historically, mpox epidemics were localized to specific regions and countries in Africa. Since 2022, the mpox epidemic, fueled by MPXV Clade IIb, has swiftly spread across various nations and regions, jeopardizing public health and safety. However, starting in 2024, Clade Ib gradually replaced Clade IIb. The notable genetic variation in Clade Ib may provide MPXV with new opportunities to evade the immune system and adapt to hosts. According to the World Health Organization (WHO), from 1 January 2022, to 24 November 2024, there were 117,663 confirmed cases and 2 probable cases, resulting in 263 deaths across 127 Member States in all six WHO regions. As of 9 January 2025, 12 countries outside Africa have reported imported MPXV Clade Ib cases, with secondary cases emerging in the United Kingdom, Germany, and China. Due to the incomplete development of a vaccine specifically for MPXV, the smallpox vaccine remains in use for preventing mpox or for emergency vaccination post-exposure. Therefore, the persistent spread of mpox is still a major concern, requiring greater awareness and vaccination efforts in populations at high risk. This paper aims to summarize the etiological characteristics, epidemic situation, and vaccine prevention efforts for mpox, offering a reference for managing this serious epidemic and ensuring effective scientific prevention and control. Full article

Newborns are born with an immature immune system, making them susceptible to infections early in life. Human milk provides essential nutrients and immunological factors that support infant immunity. Maternal vaccination during lactation has the potential to enhance these benefits by triggering an immune response in the mother, potentially extending protection to her child. However, lactating individuals are often excluded from vaccine trials, leading to uncertainties about vaccine safety and efficacy during the postpartum period. This study critically evaluates the effectiveness of vaccines in enhancing the immune-supporting properties of human milk and assesses their safety and efficacy for lactating mothers and their infants. By examining potential benefits alongside safety concerns, we aim to provide a comprehensive understanding of postpartum vaccination’s impact on maternal and infant health. We utilized large-language models (LLMs) to enhance the review process and performed a structured literature search across Ovid/Medline, Embase, and Clarivate Analytics using terms like “breastfeeding”, “postpartum”, and “vaccination”. A three-stage screening process involving human and LLM-assisted evaluation focused on postpartum vaccines and their implications for maternal and infant health. We identified 73 studies covering vaccines against COVID-19, cholera, influenza, pertussis, pneumococcal, rabies, polio, rotavirus, rubella, varicella, typhoid, smallpox, and yellow fever. Most vaccines, such as those for COVID-19 and influenza, appear safe and effective for postpartum use without requiring precautionary measures. However, caution is advised with vaccines such as the yellow fever vaccine, where temporary breastfeeding cessation is recommended. Overall, this review underscores the compatibility of most vaccines with lactation and suggests its benefits for both mother and infant. Full article

Mpox (formerly known as monkeypox), the major public health concern of 2022, has elicited much attention globally. In addition to the usual symptoms observed in smallpox virus infections, infected mothers were found to hold a possible risk of transmission to newborns during delivery. This review aimed to summarize recent clinical trials that involved antiviral therapy, vaccines, immunoglobulin therapy, and other pharmacological interventions specifically for treating infected pregnant women. A comprehensive search was performed using databases such as PubMed, Google Scholar, and Medline to find appropriate disease management strategies. Amongst the vaccines and antivirals being used for treatment, vaccines such as Modified Vaccinia Ankara (MVA/MVA-BN) and Lister clone 16-medium pocket size-8 (LC16m8), while prophylactically effective, have been deemed unsafe for pregnant and lactating females. Antivirals like Tecovirimat, on the other hand, are considered to be a better alternative, but they are not without risks that may outweigh the potential benefits. Additionally, efforts to reduce maternal and fetal complications include administering the MVA-BN vaccine and awareness campaigns regarding herd immunity. Therefore, necessary precautions, prophylactic vaccinations in high-risk outbreak regions, and symptomatic treatment in pregnant and lactating females currently appear to be more feasible approaches against the mpox virus. Full article