On the Use of Phylogeographic Inference to Infer the Dispersal History of Rabies Virus: A Review Study

Rabies is a neglected zoonotic disease which is caused by negative strand RNA-viruses belonging to the genus Lyssavirus. Within this genus, rabies viruses circulate in a diverse set of mammalian reservoir hosts, is present worldwide, and is almost always fatal in non-vaccinated humans. Approximately 59,000 people are still estimated to die from rabies each year, leading to a global initiative to work towards the goal of zero human deaths from dog-mediated rabies by 2030, requiring scientific efforts from different research fields. The past decade has seen a much increased use of phylogeographic and phylodynamic analyses to study the evolution and spread of rabies virus. We here review published studies in these research areas, making a distinction between the geographic resolution associated with the available sequence data. We pay special attention to environmental factors that these studies found to be relevant to the spread of rabies virus. Importantly, we highlight a knowledge gap in terms of applying these methods when all required data were available but not fully exploited. We conclude with an overview of recent methodological developments that have yet to be applied in phylogeographic and phylodynamic analyses of rabies virus.

Sir Marc Armand Ruffer, MD: The early years, 1878-1896

A founder of paleopathology, the study of disease in ancient human remains, Sir Marc Armand Ruffer, MD (1859-1917) served in Egypt, from 1896 to 1917, as a public-health administrator, epidemiologist, and pathologist. He was professor of Bacteriology at the Cairo Medical School, President of the Sanitary, Maritime, and Quarantine Council, member of the Indian Plague Commission, and author or co-author of 40 papers in palaeopathology. However, little is known of his early professional life, which encompassed his education, medical training, and research in England and France. The pre-Egyptian period, 1878 to 1896, was a time of extraordinary activity. Acquiring four academic Degrees at Oxford University and clinical experience at the University College Hospital, London (1878-1889), he was the clinical assistant of Louis Pasteur during the anti-rabies campaign (autumn 1889), interim President of the British Institute of Preventive Medicine (1893-1896), and immunology researcher (1890-1895), in London and Paris, under the guidance of Élie Metchnikoff (1845-1916). Ruffer developed the diphtheria antitoxin in Britain. In addition to a dissertation on hydrocephalus, he composed or co-authored 34 papers. A prolific writer, linguist, clinician, and administrator, he explored several medical sub-disciplines before concentrating on palaeopathology.

Rabies control in Europe: an overview of past, current and future strategies

Europe's step-by-step approach to tackling canine and wildlife-mediated rabies has proven that the disease can be controlled and eliminated at the animal source. A decade of development work and support by the European Union has resulted in a successful oral rabies vaccination campaign for foxes and raccoon dogs, and provided the blueprint for eliminating wildlife-mediated rabies. In this paper, the authors examine the historical stages of animal rabies control and its eventual elimination in parts of Europe, particularly Western Europe. In addition, they consider current control measures and predict future challenges, many of which are faced by the vast and sparsely populated, rabies-endemic areas of Eastern Europe.

Rabies control in North America - past, present and future

In the first half of the 20th century, rabies in dogs affected Canada, Mexico and the United States of America (USA). However, the role of wildlife in the transmission of the rabies virus was also recognised and outbreaks affecting both wildlife and domestic animals were documented. Canine rabies has since been eliminated from Canada and the USA, and is now only found sporadically in a few southern states of Mexico. Wildlife variant rabies viruses, found throughout the continent and geographically associated with specific reservoir species, have notable public and animal health, as well as economic, impacts. Early rabies control efforts included legislated dog management strategies and wildlife population reduction, which met with varying success. In the last 30 years, programmes for the control of rabies in dogs and wildlife have benefited from an 'Integrated Management Approach', combining education, vaccination (parenteral and oral), strategic population control, responsible pet ownership and effective stewardship of natural resources, in addition to cooperation and collaboration among local, national and international stakeholders. Looking ahead, the goal of eliminating specific wildlife virus variants will be challenged by the potential range expansion of reservoir species, due to climate change and other factors, and the risk of re-introducing eliminated virus variants. To be successful, programmes must be sustained and accompanied by advances in vaccines, enhanced distribution strategies, monitoring in the field and effective modelling of disease spread. They should also be informed by robust case surveillance, phylogenetics and an increased knowledge of vector ecology.

Rabies Outbreaks and Control during the Japanese Colonial Period in Korea

Rabies became one of the critical zoonoses in the modern urban environment since pet keeping culture became widespread in the Western countries in the 18th century. The sanitary policy against rabies was a forceful tool for the colonial rulers in the 19th century. This study describes the rabies outbreaks in the context of prevention methods, experts' engagement and the public response to the policies based on the statistics, regulations and newspaper articles on rabies in Korea during the Japanese colonial period. Based on the changes in the rabies policies, this study divides the time period into three phases. First phase (1905- 1914) was characterized with the first epizootics investigation in Korea in 1905 and the "Domestic dog control regulation" in 1909, which legitimated elimination of dogs without owners' name tags. In the second phase (1915-1926), rabies was designated as a reportable disease by the "Act on Prevention of Domestic Animal Infectious Diseases (1915)" and thousands of dogs were slaughtered every year for rabies prevention. In the third phase (1927-1945), vaccination for dogs became a main intervention. From 1927 to 1942, 760,515 dogs were vaccinated. However, the broad scale rabies control projects over these decades did not seem to decrease the outbreaks of rabies because they did not reflect the rabies situation in Korea. Furthermore, the rabies control policy of the Japanese colonial government was criticized by the public for its violence against dogs and humans, for causing conflicts between social classes, and for lack of understanding of traditional human-dog relationship.

In Memory of Dr. Mahmoud Bahmanyar, an International Researcher of the Pasteur Institute of Iran

In Iran and also throughout the world, Dr. Mahmoud Bahmanyar (1919-2007) is acknowledged as a well-known researcher mainly in the field of rabies and plague. As an expert of plague for the World Health Organization (WHO), he accomplished many missions in several countries such as India, Cambodia, Myanmar, Indonesia, Vietnam, Yemen, and Brazil. His research on rabies has played an important role leading to the successful combined use of immune-serum and anti-rabies vaccine for prevention of human rabies worldwide. He also conducted many studies in the field of typhus, relapsing fever, and polio. The present article aimed to review his activities.

Dog-Mediated Human Rabies Death, Haiti, 2016

Haiti has experienced numerous barriers to rabies control over the past decades and is one of the remaining Western Hemisphere countries to report dog-mediated human rabies deaths. We describe the circumstances surrounding a reported human rabies death in 2016 as well as barriers to treatment and surveillance reporting.

The history of rabies in the Western Hemisphere

Before the introduction of control programs in the 20th century, rabies in domestic dogs occurred throughout the Western Hemisphere. However, historical records and phylogenetic analysis of multiple virus isolates indicate that, before the arrival of the first European colonizers, rabies virus was likely present only in bats and skunks. Canine rabies was either rare or absent among domestic dogs of Native Americans, and first arrived when many new dog breeds were imported during the period of European colonization. The introduction of the cosmopolitan dog rabies lyssavirus variant and the marked expansion of the dog population provided ideal conditions for the flourishing of enzootic canine rabies. The shift of dog-maintained viruses into gray foxes, coyotes, skunks and other wild mesocarnivores throughout the Americas and to mongooses in the Caribbean has augmented the risk of human rabies exposures and has complicated control efforts. At the same time, the continued presence of bat rabies poses novel challenges in the absolute elimination of canine and human rabies. This article compiles existing historical and phylogenetic evidence of the origins and subsequent dynamics of rabies in the Western Hemisphere, from the era preceding the arrival of the first European colonizers through the present day. A companion article reviews the current status of canine rabies control throughout the Western Hemisphere and steps that will be required to achieve and maintain its complete elimination (Velasco-Villa et al., 2017).

The rise and fall of rabies in Japan: A quantitative history of rabies epidemics in Osaka Prefecture, 1914-1933

Japan has been free from rabies since the 1950s. However, during the early 1900s several large-scale epidemics spread throughout the country. Here we investigate the dynamics of these epidemics between 1914 and 1933 in Osaka Prefecture, using archival data including newspapers. The association between dog rabies cases and human population density was investigated using Mixed-effects models and epidemiological parameters such as the basic reproduction number (R0), the incubation and infectious period and the serial interval were estimated. A total of 4,632 animal rabies cases were reported, mainly in dogs (99.0%, 4,584 cases) during two epidemics from 1914 to 1921, and 1922 to 1933 respectively. The second epidemic was larger (3,705 cases) than the first (879 cases), but had a lower R0 (1.50 versus 2.42). The first epidemic was controlled through capture of stray dogs and tethering of pet dogs. Dog mass vaccination began in 1923, with campaigns to capture stray dogs. Rabies in Osaka Prefecture was finally eliminated in 1933. A total of 3,805 rabid dog-bite injuries, and 75 human deaths were reported. The relatively low incidence of human rabies, high ratio of post-exposure vaccines (PEP) and bite injuries by rabid dogs (minimum 6.2 to maximum 73.6, between 1924 and 1928), and a decline in the proportion of bite victims that developed hydrophobia over time (slope = -0.29, se = 3, p < 0.001), indicated that increased awareness and use of PEP might have prevented disease. Although significantly more dog rabies cases were detected at higher human population densities (slope = 0.66, se = 0.03, p < 0.01), there were fewer dog rabies cases detected per capita (slope = -0.34, se = 0.03, p < 0.01). We suggest that the combination of mass vaccination and restriction of dog movement enabled by strong legislation was key to eliminate rabies. Moreover, the prominent role of the media in both reporting rabies cases and efforts to control the disease likely contributed to promoting the successful participation required to achieve rabies elimination.

Electrotherapy in the treatment of patients affected by rabies: experiments conducted at the "Maggiore" hospital of Milan in 1865

During the nineteenth century, the scientific context of rabies treatment was weak due to the lack of the literature on specific nosology of the rabies disease, and unspecific and ineffective therapy approaches. Electrotherapy already represented an important therapeutic approach for nervous system diseases, although not specifically for rabies. In the present paper, the authors discuss the use of electrotherapy in the treatment of humans affected by rabies in an experimental study conducted at the Maggiore Hospital of Milan, with the aim of establishing the discovery of a possible specific therapy. By analyzing the printed scientific sources available in the Braidense Library of Milan, the authors describe four experiments conducted on patients of different ages. Symptoms and effects both during and after the electrotherapy are also highlighted. The experiments demonstrated that electricity is not an effective therapy in the treatment of rabies, being rather able to cause serious functional and organic alterations in all the patients. Analyzing the Milanese experiments, the authors reported specific Italian history of a scientific and medical approach to rabies at the end of the 18th century, which led to the promotion of health education, reinforced prevention strategies and opened the way to the vaccination era.

A Systematic Review of Human Bat Rabies Virus Variant Cases: Evaluating Unprotected Physical Contact with Claws and Teeth in Support of Accurate Risk Assessments

In the United States and Canada, the most recent documented cases of rabies have been attributed to bat rabies viruses (RABV). We undertook this systematic review in an effort to summarize and enhance understanding of the risk of infection for individuals who have been potentially exposed to a suspect or confirmed rabid bat. United States rabies surveillance summaries documented a total of 41 human bat-rabies virus variant verified non-transplant cases between 1990 and 2015. All cases were fatal. Seven (17.1%) of 41 cases reported a bite from a bat. Ten (24.3%) cases had unprotected physical contact (UPC); these included seven cases that had a bat land or crawl on them (contact with claws) and one case that touched a bat's teeth. Seven (17.1%) cases had probable UPC. Insectivorous bat teeth are extremely sharp and highly efficient for predation upon arthropod prey. Bats also have sharp claws on the end of their thumbs and feet. One of the most common bat RABV variants has an ability to replicate in non-neural cells. Questioning individuals about unprotected contact with bat teeth and claws (including a bat landing or crawling on a person) may help identify additional exposures.

Animal-associated exposure to rabies virus among travelers, 1997-2012

No demographic characteristics identified who might benefit most from pretravel counseling.

Among travelers, rabies cases are rare, but animal bites are relatively common. To determine which travelers are at highest risk for rabies, we studied 2,697 travelers receiving care for animal-related exposures and requiring rabies postexposure prophylaxis at GeoSentinel clinics during 1997–2012. No specific demographic characteristics differentiated these travelers from other travelers seeking medical care, making it challenging to identify travelers who might benefit from reinforced pretravel rabies prevention counseling. Median travel duration was short for these travelers: 15 days for those seeking care after completion of travel and 20 days for those seeking care during travel. This finding contradicts the view that preexposure rabies vaccine recommendations should be partly based on longer travel durations. Over half of exposures occurred in Thailand, Indonesia, Nepal, China, and India. International travelers to rabies-endemic regions, particularly Asia, should be informed about potential rabies exposure and benefits of pretravel vaccination, regardless of demographics or length of stay.

What you don't know about vaccines can hurt you

As physicians, we've all learned in detail about the science behind vaccinations, but I suspect few of us have been taught about the history of vaccinations. Sure, we all know that Dr. Jonas Salk developed the poliovirus vaccine, but I wasn't aware that he inoculated himself, his wife, and his three children with his then experimental vaccine. When our editorial committee decided to focus on vaccinations as our theme for this month's Greene County Medical Society's Journal, I perused the internet for interesting topics. I came across a fascinating website, historyofvaccines.org; this website is a project of the College of Physicians of Philadelphia, touted as being the oldest professional medical organization in the United States. I credit the majority of the information in this article to the above website and the rest to the National Institutes of Health (nih.gov) website; I trust that the information is valid and true, based on the agencies behind these websites. Below are some interesting tidbits about vaccine preventable diseases that I found noteworthy to pass on to our readers.

Progress towards eliminating canine rabies: policies and perspectives from Latin America and the Caribbean

Human rabies transmitted by dogs is considered a neglected disease that can be eliminated in Latin America and the Caribbean (LAC) by 2015. The aim of this paper is to discuss canine rabies policies and projections for LAC regarding current strategies for achieving this target and to critically review the political, economic and geographical factors related to the successful elimination of this deadly disease in the context of the difficulties and challenges of the region. The strong political and technical commitment to control rabies in LAC in the 1980s, started with the regional programme coordinated by the Pan American Health Organization. National and subnational programmes involve a range of strategies including mass canine vaccination with more than 51 million doses of canine vaccine produced annually, pre- and post-exposure prophylaxis, improvements in disease diagnosis and intensive surveillance. Rabies incidence in LAC has dramatically declined over the last few decades, with laboratory confirmed dog rabies cases decreasing from approximately 25 000 in 1980 to less than 300 in 2010. Dog-transmitted human rabies cases also decreased from 350 to less than 10 during the same period. Several countries have been declared free of human cases of dog-transmitted rabies, and from the 35 countries in the Americas, there is now only notification of human rabies transmitted by dogs in seven countries (Bolivia, Peru, Honduras, Haiti, Dominican Republic, Guatemala and some states in north and northeast Brazil). Here, we emphasize the importance of the political commitment in the final progression towards disease elimination. The availability of strategies for rabies control, the experience of most countries in the region and the historical ties of solidarity between countries with the support of the scientific community are evidence to affirm that the elimination of dog-transmitted rabies can be achieved in the short term. The final efforts to confront the remaining obstacles, like achieving and sustaining high vaccination coverage in communities that are most impoverished or in remote locations, are faced by countries that struggle to allocate sufficient financial and human resources for rabies control. Continent-wide cooperation is therefore required in the final efforts to secure the free status of remaining countries in the Americas, which is key to the regional elimination of human rabies transmitted by dogs.

Elimination of terrestrial rabies in Germany using oral vaccination of foxes

Oral rabies vaccination (ORV) has become the method of choice in fox rabies control in Europe. During the past three decades fox-mediated rabies virtually disappeared from Western and Central Europe. Following Switzerland, Germany was the second European country to launch ORV field trials on its territory in 1983. This paper provides a historical overview on the emergence of fox rabies in Germany; describing the basic principles and milestones of the German rabies eradication programme and presenting results of two decades of efforts to control the disease in foxes. Also, setbacks as well as country-specific differences and particularities on Germany's long way to rabies elimination in comparison to other European countries are addressed. Since the first field trials in Germany the number of rabies cases steadily decreased from 10 484 in 1983 to three cases recorded in 2006. On February 3rd 2006 the last case of terrestrial rabies in Germany was detected in a fox near the town of Mainz, Rhineland-Palatinate. In 2008, ORV ceased after 25 years and Germany was officially declared as free from terrestrial rabies. The German rabies eradication programme did cost approximately 100 million euro of which 37 million euro were covered by the EU. For the future, efforts should focus on maintaining a rabies free status by implementing measures to prevent reintroduction of terrestrial rabies from endemic countries.

The global history of rabies and the historian's gaze: an essay review

In reviewing three recent books on the history of rabies (hydrophobia), this essay explores ways in which historians can frame, or figure, global histories of this ancient and still-dreaded disease, focusing especially on problems of place, time, and agency.

[The first Pasteur stations in Russia]

The article considers the initial stage of organization of antirabic care of population of Russia. The history of organization in 1886 of the five initial Pasteur stations in Russia is presented The main directions of stations functioning and assessment of their activities is given.

Rabid epidemiologies: the emergence and resurgence of rabies in twentieth century South Africa

This article discusses the history of rabies in South Africa since the early twentieth century. It argues that rabies is a zoonotic disease that traverses rural and urban spaces, that transfers itself between wild and domestic animals and remains a potential threat to human life in the region. Scientists discovered an indigenous form of rabies, found primarily in the yellow mongoose, after the first biomedically confirmed human fatalities in 1928. Since the 1950s canine rabies, presumed to have moved southwards from across the Zambezi River, has become endemic also. South Africa is home to a comparatively large number of rabies strains and animal carriers, making it a particularly interesting case study. Environmental changes during the colonial and apartheid periods have helped to explain the increase in rabies cases since the mid-twentieth century. Moreover, developments in the biological and ecological sciences have provided insights into why the rabies virus has become endemic in certain wildlife species.

[Cultures of bacteriology in France, 1880-1900: bench and politics]

Iconic accounts of the "bacteriological revolution" presented it as a radical change in the understanding of the natural world. Scientist had discovered that human being shared their environment with billions of invisible living beings which shape life phenomena, health and disease. They also learned to cultivate and manipulate these invisible creatures. The domestication of microorganisms in the laboratory disarmed them as enemies and occasionally transformed them into allies. This analysis of the development in French bacteriology displays a more nuanced and complex picture, with continuities as well as ruptures, and multiple levels of change. Between 1880 and 1900, the rise of "pasteurian science" did produce important changes in French society, but these changes were obtained through a variety of approaches: introduction of new experimental techniques, administrative and legal methods, training of professionals, education of the general public, and a direct political intervention.

["A man of exemplary zeal for the public good" -- Sándor Cseresnyés]

Sándor Cseresnyés born on 15th September 1786 was one of the physicians of the first half of 19th century who efficiently practised in several scopes of activity. Having finished his studies at the college of Sárospatak he undertook family tutorship. In the autumn of 1814 he enrolled in the Medical Faculty for University of Pest together with his friend László Ungvárnémeti-Tóth, a poet writing his poems in Hungarian and Greek. Besides being engaged in his studies he worked as a principal assistant at the eye-hospital of Ladies' Charity Association of Pest. In the autumn of 1818 he went to Vienna in order to obtain the medical certificate, however, in 1819 he was invited to go to county Somogy where he followed dominial doctor's activity until 1827. Meanwhile he finished his studies at Pest University in 1826. Utilizing his therapeutic experiences he wrote his medical dissertation on arthritis. He was appointed to chief medical officer of town Makó in 1827. The most part of the book which was the first comprehensive work of the Hungarian otological literature was written by him there. In 1831 at time of cholera-epidemic he practised so successfully in Horgos that not one single patient of his was lost. In 1832 he was appointed to a deputy chief physician of county Veszprém with a seat in Pápa. He established there a hospital for nursing of psychotic patients and people with suspected rabies. He was among the first physicians who performed surgical interventions under unaesthesia using ether. His written communications were published in the local professional journals, some of his less extensive books on 'healing of rabies and snake-bite' and on 'the bath of Ugod' were also published. Moreover, he compiled a book comprising historical, geographical and literary selections on 'Somló hill' being famous for its wine. He died in 1854. The Hungarian Society for Oto-Rhino-Laringology treasures his memory also by giving Cseresnyés-commemorative medal to its praiseworthy members.

Disease and destiny-mystery and mastery

When early people made their appearance, zoonotic infectious diseases were already waiting, but epidemic diseases did not appear in human history until people began to live in large numbers under conditions of close contact, mainly during the last 10,000 years. Disease has decimated urban populations, conquered armies, and disrupted society. The focus here is on (1) the plague of Athens and the Black Death; (2) smallpox, influenza, and rabies; (3) avian influenza prion diseases, and foot & mouth disease; and (4) emerging and re-emerging diseases. All have veterinary public health associations. In Athens, Greece, in 430 BC, when the Spartans ravaged the countryside, hordes crowded into Athens so that orderly movements, space in which to live, and adequate supplies of food became impossible. Crowding of any population fosters disease transmission; chaos and disorder enhance it all the more. Out of northern Egypt came a terrible plague from across the Mediterranean Sea. The identity of the plague of Athens remains unsure, but the well-considered conclusion is Rift Valley Fever, a mosquito borne, viral zoonosis. The Black Death, also called the Plague, raged in Asia for centuries. In 1347, the Black Death was brought by a ship out of Asia to Sicily. The scenes of devastation were repeated throughout Europe, with 90% or more of the people dying in city after city. Influenza, too, has been a cause of periodic human epidemics, but the great pandemic of influenza occurred in the last months of World War I. In the years of highest occurrence, more than half the world's population became clinically infected. If veterinary public health had been born earlier, it could have led to elucidating the epidemiology of influenza and the plagues of Athens, Europe, and Asia. In turn, smallpox had also caused continual tragedy. In 1796, Edward Jenner began to harvest pustules of cowpox from children or infected cows and inject them into susceptible children. In 1980, the World Health Organization declared that smallpox had been eliminated from the world. Rabies, though, still strikes terror. A number of animal diseases, broadly termed emerging and re-emerging diseases, need surveillance because they have the potential to impact human health. From late in 2003 to 2007, the highly pathogenic H5N1 influenza virus in poultry infected at least 121 people and caused 62 deaths in four countries. The prion diseases, too, all have very high numbers in concentrated contacts. To control these diseases, veterinary public health is essential, with diagnosis, epidemiological surveillance, clinical manifestations, and prevention as primary measures.

[A historical view of rabies in Chile]

In this review international and national historical features of rabies are presented remarking the start of preventive immunization in Chile, at year 1896, with the creation of the first service for rabies vaccination and la descentralización of preventive treatment from year 1929. Figures of human cases produced by this zoonosis between 1950 and 1986 are described, señalándose changes that occurred in local epidemiology of rabies since 1990, with an endemic pattern in bats and almost disappearance of canine rabies.

Giuseppe and Aloysius Frari's works on rabies and history of Frari medical family of Sibenik, Dalmatia

This article is an attempt to reconstruct the family history of the Fraris, the famous Sibenik medical family. Three generations of physicians from the Frari family played an important role not only at medical and social scene of Sibenik in the 18th and 19th century, but also in Croatian and Italian medical history. I will try to provide important details on the lives, medical and social work, and publications of 5 members of the family, Giuseppe (Josip), Angelo Antonio (Andeo Antun), Sebastiano (Sebastijan), Michele Carlo (Mihovil), and Aloysius (Luigi) Frari. I would also like to pay a special attention to the works on rabies, written by Giuseppe and Luigi Frari, which are among the earliest and most accurate Croatian works on the subject. To reconstruct the history of the family, I studied the relevant editions about the medical and social history of Sibenik, Dalmatia, Venice, and Croatia, together with the Fraris' publications and reflections. This was the first time Italian and Latin language works by Giuseppe and Luigi Frari on rabies were analyzed. The story on Fraris also documents that medical publishing was a common practice in Dalmatia in the 18th and the 19th century.

Legislating fear and the public health in gilded age Massachusetts

Between 1876 and 1881 Massachusetts experienced an outbreak of human rabies (hydrophobia). The entire state--the Governor, the legislature, the State Board of Health, newspapers, and the citizenry and elected officials of every town and city--reacted to the disease. Central to the response was the Commonwealth's legislature--called the General Court. Through public hearings, their own debates, and the passage of legislation, it resolved widespread fear and anger, mediated conflicting concepts of disease, and promoted social solidarity in the face of an epidemic. This article first narrates the General Court's legislative actions; it then examines the conflicting understandings of disease causality; finally, it explores the social and political rituals the legislature drew upon to deal with this public health crisis. Arguing that public health legislation is simultaneously instrumental and symbolic, this article demonstrates that attention to both enriches the study of epidemics, historical and yet to come.

[Rabies in Tunisia during the 19th century: case increase or disease emergence?]

At the end of the 19th century, a canine rabies epidemics started in Tunis and in several other cities of the Beylik. Archives' data trace the epidemics back to 1870 and at that time its rapid progression was ascribed to the increase of immigration from Europe. Whether the European "street rabies virus" was also imported with the settlers' pet dogs is controversial. The epidemics might rather be linked to other factors such as socio-cultural or ecological changes. The authors try to reconstruct the history of rabies in Tunisia during this period. Changes in canine ecology and increase of dog populations in urban and suburban areas might account for the emergence of rabies at the end of 19th century and its persistence in an endemo-epidemic state.

Epidemiology of bat rabies in Germany

Rabies in European bats was first reported in Germany in 1954. In concordance with Denmark and the Netherlands, Germany has reported one of the highest numbers (n = 187) of European bat lyssavirus (EBLV)-positive cases in bats in Europe so far (1954-2005). A combined descriptive epidemiological and phylogenetic analysis on bat rabies and prevailing EBLVs is presented, comprising the past 50 years. So far, only the two lineages of EBLV-1 (genotype 5), a and b, have been detected. Although only 50% of the rabies-positive bats have been identified by species, the Serotine bat (Eptesicus serotinus) is the bat species most frequently infected. Single rabies cases have also been detected in a further five indigenous bat species. There is proven evidence for a substantial bias in the frequency of bat rabies cases in the north of Germany, with an endemic cluster in the northwesternmost low-lying plain areas adjacent to the Netherlands and Denmark. Improvements to bat rabies surveillance and research are discussed.

[Victor Babeş's messages]

Victor Babeş appears in the greatest history of medicine books, medical dictionaries and encyclopedias in the world. His extraordinary work has many priorities in microbiology, immunology and histopathology. He did not belong to a certain school. He taught himself. But Victor Babeş joined the group of the great European doctors from the most famous European schools. He created well known professors in the field of human and veterinary medicine. Admirers, people who deny his accomplishments, historians and communist spokes-persons have written about him. He wrote about himself when he was forced to protect his dignity and his work.

Rabies vaccination programme for red foxes (Vulpes vulpes) and golden jackals (Canis aureus) in Israel (1999-2004)

Since 1956, red foxes (Vulpes vulpes) and, to a lesser extent, golden jackals (Canis aureus), have been the primary vectors maintaining endemic wildlife rabies in Israel. Starting in the autumn of 1998, oral rabies vaccination campaigns have been conducted in Israel targeting these two wildlife species, with increasing yearly geographical extension. Significant data have been accumulated from an area of approximately 5,200 km2 in Northern Israel. In the spring of 2003 the project was extended to 14,000 km2 and in the autumn to 21,000 km2, covering almost all inhabited areas in Israel and the West Bank. A total of two million RABORAL V-RG (Merial) vaccine-filled baits were distributed bi-annually by plane or helicopter at 14-19 baits km2. Since the onset of oral vaccination activities in 1998, annual bait acceptance in the vaccination zones has been demonstrated by biomarker detection (with tetracycline) in 55 % (429/783) of bone samples of target animals submitted for diagnosis. In 1999 to 2004, vaccine contact and induction of immunity in animals collected from the vaccination zones were reflected by seroconversion in 66 of 284 animals (23 %). By the year 2004, rabies cases declined sharply in all progressively vaccinated areas.

Bat rabies surveillance in France, from 1989 through May 2005

In France, the passive surveillance of lyssaviruses in bats started in 1989, with the first positive case found in the East of the country. In 2000, the French bat rabies surveillance network in France was improved on the basis of the one used for the surveillance of fox rabies. The objectives of this network are to improve bat rabies surveillance by increasing the number of specimens and to provide an estimation of rabies incidence in bat populations across the country. The surveillance network is principally constituted by the network of local Veterinary Services and by the National Bat Conservationists Network (French Society for the Study and Protection of Mammals). From 1989 to through 2004, 21 autochtonous rabies cases were diagnosed out of the 934 French bat cadavers found. The laboratory techniques used for diagnosis, recommended by WHO and OIE, were fluorescent antibody test (FAT), rabies tissue culture infection test (RTCIT) on murine neuroblastoma cells, and the mouse inoculation test (MIT). All 21 cases were diagnosed in serotine bats (Eptesicus serotinus) and were due to European bat lyssavirus type 1 (EBLV-1), genotype 5, infection.