One Health: navigating plague in Madagascar amidst COVID-19.

BACKGROUND: Africa sees the surge of plague cases in recent decades, with hotspots in the Democratic Republic of Congo, Madagascar, and Peru. A rodent-borne scourge, the bacterial infection known as plague is transmitted to humans via the sneaky bites of fleas, caused by Yersinia pestis. Bubonic plague has a case fatality rate of 20.8% with treatment, but in places such as Madagascar the mortality rate can increase to 40-70% without treatment. MAIN TEXT: Tragedy strikes in the Ambohidratrimo district as three lives are claimed by the plague outbreak and three more fight for survival in the hospitals, including one man in critical condition, from the Ambohimiadana, Antsaharasty, and Ampanotokana communes, bringing the total plague victims in the area to a grim to five. Presently, the biggest concern is the potential plague spread among humans during the ongoing COVID-19 pandemic. Effective disease control can be achieved through training and empowering local leaders and healthcare providers in rural areas, implementing strategies to reduce human-rodent interactions, promoting water, sanitation and hygiene practices (WASH) practices, and carrying out robust vector, reservoir and pest control, diversified animal surveillance along with human surveillance should be done to more extensively to fill the lacunae of knowledge regarding the animal to human transmission. The lack of diagnostic laboratories equipped represents a major hurdle in the early detection of plague in rural areas. To effectively combat plague, these tests must be made more widely available. Additionally, raising awareness among the general population through various means such as campaigns, posters and social media about the signs, symptoms, prevention, and infection control during funerals would greatly decrease the number of cases. Furthermore, healthcare professionals should be trained on the latest methods of identifying cases, controlling infections and protecting themselves from the disease. CONCLUSIONS: Despite being endemic to Madagascar, the outbreak's pace is unparalleled, and it may spread to non-endemic areas. The utilization of a One Health strategy that encompasses various disciplines is crucial for minimizing catastrophe risk, antibiotic resistance, and outbreak readiness. Collaboration across sectors and proper planning ensures efficient and consistent communication, risk management, and credibility during disease outbreaks.

A historical review of pandemics with a dermatological perspective

We present a literature review of dermatology features in historical pandemics. A pandemic is an epidemic occurring worldwide, or over a very wide area, crossing international boundaries and affecting a large number of people. Smallpox was the first documented pandemic, around 10 000 BC, spread by the inhalation of airborne droplets. A few days after an initial high fever, headache and fatigue, a mucocutaneous maculopapular eruption appeared, which then developed pustules and erosions. The last outbreak occurred in the USA in 1949. Smallpox was eradicated in 1980, following a vaccination programme. Mycobacterium tuberculosis is the causative agent of tuberculosis (TB), an ongoing global pandemic. The earliest documentations were 3300 years ago. In 2020, the World Health Organization (WHO) provisionally estimated 1.5 million deaths globally. Most commonly affecting the lungs, cutaneous TB may present with inflammatory papules, plaques, suppurative nodules and chronic ulcers. Requiring long, complex antibiotic regimens, multidrug resistant TB is an increasing problem. Now extremely rare, yet still with recent outbreaks in 2021 in Madagascar, bubonic plague arrived in Europe in 1346 causing 75-200 million deaths. It is caused by the bacterium Yersinia pestis, transmitted through fleas that have fed on infected rodents. Clinical features include papules, pustules, ulcers and eschars, tender lymphadenopathy and systemic symptoms, and it responds to antibiotics. Syphilis, caused by the bacterium Treponema pallidum, is sexually transmitted. The first known outbreak was during warfare in 1494-5 in Naples, Italy. In 2020, the WHO estimated that, globally, seven million people had new infections. Primary syphilis typically produces a painless, genital ulcer (or chancre). Secondary syphilis presents with a nonitchy, maculopapular erythema over the trunk, palms and soles. Early recognition and antibiotic treatment usually lead to good outcomes. Estimated by the WHO to affect 37.7 million people in 2020, HIV is thought to have mutated from simian immunodeficiency virus by the 1960s in sub-Saharan Africa, spreading to the Caribbean and USA by the late 1960s. Initial symptoms include a fever, headache and lymphadenopathy. Dermatological features are common, including opportunistic cutaneous infections, nonspecific exanthemas, seborrhoeic dermatitis and Kaposi sarcoma. Advances in antiretroviral therapies mean people with HIV can have an excellent prognosis, although the WHO estimated in 2020 that more than 200 000 people with HIV died from concomitant TB. Since 2019, COVID-19 has had a considerable global impact on healthcare. With more than 300 million cases and 5.5 million deaths to date, some services have been overwhelmed owing to large case numbers, variable vaccine uptake, workplace changes to reduce transmission and staff shortages. Cutaneous features include perniosis, urticarial, purpuric, vesicular or maculopapular eruptions. Pandemics throughout history have been repeatedly shown to present with an element of skin involvement. We can utilize this to promote education and early recognition of these features, to facilitate diagnosis and raise awareness of the potential complications of serious diseases.

Differentiating infectious from non-infectious respiratory disease in the cat and dog

This paper describes the clinical signs and use of differential laboratory diagnostic techniques (computed tomography, cytology, histopathology, antigen/antibody detection and polymerase chain reaction) for infectious (viral, bacterial, fungal and parasitic) and non-infectious (inflammatory/immune mediated, neoplastic, cardiac, malformation, foreign body, smoke inhalation, aspiration of caustic material, non-cardiogenic, pulmonary oedema, traumativ, pneumothorax, pulmonary contusions and idiopathic) causes of respiratory diseases in cats and dogs in Ontario, Canada.

Historical epidemics and the effects of COVID-19 restrictions on human health

In historical and prehistoric times, various pathogens from human origin or from animals to humans have affected millions of people as diseases such as plague, smallpox, and tularemia. It is known that epidemic diseases played a role in the historical records on the way to the collapse of the Hittite state. There are many records of epidemics in ancient Greek and Roman states. Geographical discoveries have opened up new opportunities for the spread of diseases. The corona virus epidemic, which emerged in China at the end of 2019 and spread from there to the whole world, was named COVID-19 by the World Health Organization. It causes problems in many parts of the body in addition to the respiratory tract. COVID-19 has become the biggest epidemic of recent years, affecting millions of people. Restrictions against COVID-19 have raised concerns about health problems in people as well as economy. Psychological problems, anxiety and sleep disorders related to decreased sociality have been reported in many studies. Possible problems due to inactivity are areas where more data can be revealed in the future. The purpose of this review is to gather historical information on past outbreaks and present some of the selected effects of the current Covid-19 outbreak on human health.

Treatment with Fluticasone Propionate Increases Antibiotic Efficacy during Treatment of Late-Stage Primary Pneumonic Plague.

Severe and late-stage pneumonias are often difficult to treat with antibiotics alone due to overwhelming host inflammatory responses mounted to clear infection. These host responses contribute to pulmonary damage leading to acute lung injury, acute respiratory distress syndrome, and death. In order to effectively treat severe and late-stage pneumonias, use of adjunctive therapies must be considered to reduce pulmonary damage when antimicrobial agents can be administered. Pneumonic plague, a severe pneumonia caused by inhalation of Yersinia pestis, is a fatal disease that causes death within 6 days without antibiotic intervention. Late-stage pneumonic plague is difficult to treat, as antibiotics must be delivered within 24 h after onset of symptoms to be effective. Here, we use a murine model of primary pneumonic plague to examine how host inflammatory responses impact antibiotic treatment of late-stage pneumonic plague. We developed a murine infection model demonstrating the poor outcomes associated with delayed delivery of antibiotics. We show that pretreatment of mice with intranasal fluticasone propionate increased the efficacy of delayed antibiotic delivery and enhanced murine survival. Mice receiving fluticasone propionate also showed decreased bacterial burden and reduced inflammatory pathology in the lungs. Further, we show that treatment and survival correlated with decreased levels of interleukin-6 (IL-6) and reduced neutrophil infiltration to the lungs. This work demonstrates how host inflammatory responses complicate treatment of late-stage pneumonic plague and suggests that targeting of host inflammatory responses may improve treatment of severe, late-stage pneumonia.

Special issue: Pandemic special. (Special Issue: Especial de pandemias.) [Spanish]

This special issue contains 6 articles discussing epidemics in the history of Latin America. Specifically, topics include: smallpox in Santiago, Concepcion, and Santafe during 1782-1807;epidemics and state health in Santiago de Chile;the bubonic plague of 1903-1905 and COVID-19 in the southern Andean region of Peru;the remembrance of Spanish flu in Bogota in during the COVID-19 pandemic;health care during crises;and a chronicle of a pandemic before its arrival in Brazil, 1957.

Summary of global surveillance data of infectious diseases in December 2021

In December 2021, a total of 64 infectious diseases were reported globally, affecting 228 countries and regions. Except for influenza, the top five infectious diseases affecting greatest number of countries and regions were corona virus disease 2019 (COVID-19, 228), measles (29), dengue fever (28), cholera (12) and chikungunya fever (9). The top five infectious diseases with highest case fatality rates were Ebola virus disease (81.8%), Middle East respiratory syndrome (34.4%), yellow fever (22.0%), Lassa fever (20.0%) and plague (10.8%). The top five infectious diseases with greatest number of deaths were COVID-19, malaria, measles, dengue fever and cholera. The prevalent infectious diseases in Asia were COVID-19 and dengue fever, the prevalent infectious diseases in Africa were COVID-19, cholera, yellow fever, plague, Lassa fever, poliomyelitis, malaria and measles, the prevalent infectious diseases in America were COVID-19, dengue fever, chikungunya fever and Zika virus disease, the prevalent infectious disease in Europe was COVID-19.

Summary of global surveillance data of infectious diseases in November 2021

In November 2021, a total of 65 infectious diseases were reported globally, affecting 226 countries and regions. Except for influenza, the top five infectious diseases affecting greatest number of countries and regions were Corona virus disease 2019 (COVID-19, 226), dengue fever (31), measles (21), poliomyelitis (11) and cholera (10). The top five infectious diseases with highest case fatality rates were Ebola virus disease (81.8%), Lassa fever (18.6%), yellow fever (15.3%), meningitis (7.9%) and plague (7.6%). The top five infectious diseases with greatest number of deaths were COVID-19, malaria, cholera, dengue fever and yellow fever. The prevalent infectious diseases in Asia were COVID-19 and dengue fever, the prevalent infectious diseases in Africa were COVID-19, Ebola virus disease, cholera, yellow fever, Lassa fever, poliomyelitis, malaria and measles, the prevalent infectious diseases in America were COVID-19, dengue fever, chikungunya fever and Zika virus disease, the prevalent infectious disease in Europe were COVID-19 and West Nile fever.

Summary of global surveillance data of infectious diseases in September 2021

In September 2021, a total of 63 infectious diseases were reported globally, affecting 226 countries and regions. Except for influenza, the top five infectious diseases affecting greatest number of countries and regions were Corona virus disease 2019(COVID-19, 226), dengue fever (28), measles (26), West Nile fever (10) and cholera (9). The top five infectious diseases with highest case fatality rates were Nipah virus disease (100.0%), Middle East respiratory syndrome (34.4%), Lassa fever (20.3%), plague (20.0%) and meningitis (15.8%). The top five infectious diseases with greatest number of deaths were COVID-19, malaria, cholera, meningitis and dengue fever. The prevalent infectious diseases in Asia were COVID-19 and dengue fever, the prevalent infectious diseases in Africa were COVID-19, cholera, plague, yellow fever, Lassa fever, poliomyelitis, malaria and measles, the prevalent infectious diseases in America were COVID-19, dengue fever and chikungunya fever, the prevalent infectious disease in Europe were COVID-19 and West Nile fever.

Risk assessment of public health emergencies concerned in the mainland of China, September 2021

Objective: To assess the risk of public health emergencies, both the indigenous ones and the imported ones, which might occur in the mainland of China in September 2021.

Microorganisms as Shapers of Human Civilization, from Pandemics to Even Our Genomes: Villains or Friends? A Historical Approach.

Universal history is characterized by continuous evolution, in which civilizations are born and die. This evolution is associated with multiple factors, among which the role of microorganisms is often overlooked. Viruses and bacteria have written or decisively contributed to terrible episodes of history, such as the Black Death in 14th century Europe, the annihilation of pre-Columbian American civilizations, and pandemics such as the 1918 Spanish flu or the current COVID-19 pandemic caused by the coronavirus SARS-CoV-2. Nevertheless, it is clear that we could not live in a world without these tiny beings. Endogenous retroviruses have been key to our evolution and for the regulation of gene expression, and the gut microbiota helps us digest compounds that we could not otherwise process. In addition, we have used microorganisms to preserve or prepare food for millennia and more recently to obtain drugs such as antibiotics or to develop recombinant DNA technologies. Due to the enormous importance of microorganisms for our survival, they have significantly influenced the population genetics of different human groups. This paper will review the role of microorganisms as "villains" who have been responsible for tremendous mortality throughout history but also as "friends" who help us survive and evolve.

Annotation of Potential Vaccine Targets and Design of a Multi-Epitope Subunit Vaccine against Yersinia pestis through Reverse Vaccinology and Validation through an Agent-Based Modeling Approach.

Yersinia pestis is responsible for plague and major pandemics in Asia and Europe. This bacterium has shown resistance to an array of drugs commonly used for the treatment of plague. Therefore, effective therapeutics measurements, such as designing a vaccine that can effectively and safely prevent Y. pestis infection, are of high interest. To fast-track vaccine development against Yersinia pestis, herein, proteome-wide vaccine target annotation was performed, and structural vaccinology-assisted epitopes were predicted. Among the total 3909 proteins, only 5 (rstB, YPO2385, hmuR, flaA1a, and psaB) were shortlisted as essential vaccine targets. These targets were then subjected to multi-epitope vaccine design using different linkers. EAAK, AAY, and GPGPG as linkers were used to link CTL, HTL, and B-cell epitopes, and an adjuvant (beta defensin) was also added at the N-terminal of the MEVC. Physiochemical characterization, such as determination of the instability index, theoretical pI, half-life, aliphatic index, stability profiling, antigenicity, allergenicity, and hydropathy of the ensemble, showed that the vaccine is highly stable, antigenic, and non-allergenic and produces multiple interactions with immune receptors upon docking. In addition, molecular dynamics simulation confirmed the stable binding and good dynamic properties of the vaccine-TLR complex. Furthermore, in silico and immune simulation of the developed MEVC for Y. pestis showed that the vaccine triggered strong immune response after several doses at different intervals. Neutralization of the antigen was observed at the third day of injection. Conclusively, the vaccine designed here for Y. pestis produces an immune response; however, further immunological testing is needed to unveil its real efficacy.

Beating the Bio-Terror Threat with Rapid Antimicrobial Susceptibility Testing.

A bioterror event using an infectious bacterium may lead to catastrophic outcomes involving morbidity and mortality as well as social and psychological stress. Moreover, a bioterror event using an antibiotic resistance engineered bacterial agent may raise additional concerns. Thus, preparedness is essential to preclude and control the dissemination of the bacterial agent as well as to appropriately and promptly treat potentially exposed individuals or patients. Rates of morbidity, death, and social anxiety can be drastically reduced if the rapid delivery of antimicrobial agents for post-exposure prophylaxis and treatment is initiated as soon as possible. Availability of rapid antibiotic susceptibility tests that may provide key recommendations to targeted antibiotic treatment is mandatory, yet, such tests are only at the development stage. In this review, we describe the recently published rapid antibiotic susceptibility tests implemented on bioterror bacterial agents and discuss their assimilation in clinical and environmental samples.

History of the Plague: An Ancient Pandemic for the Age of COVID-19.

During the fourteenth century, the bubonic plague or Black Death killed more than one third of Europe or 25 million people. Those afflicted died quickly and horribly from an unseen menace, spiking high fevers with suppurative buboes (swellings). Its causative agent is Yersinia pestis, creating recurrent plague cycles from the Bronze Age into modern-day California and Mongolia. Plague remains endemic in Madagascar, Congo, and Peru. This history of medicine review highlights plague events across the centuries. Transmission is by fleas carried on rats, although new theories include via human body lice and infected grain. We discuss symptomatology and treatment options. Pneumonic plague can be weaponized for bioterrorism, highlighting the importance of understanding its clinical syndromes. Carriers of recessive familial Mediterranean fever (FMF) mutations have natural immunity against Y. pestis. During the Black Death, Jews were blamed for the bubonic plague, perhaps because Jews carried FMF mutations and died at lower plague rates than Christians. Blaming minorities for epidemics echoes across history into our current coronavirus pandemic and provides insightful lessons for managing and improving its outcomes.