Norman G. Gratz scite author profile

Abstract. The mosquito Aedes (Stegomyia) albopictus (Skuse) (Diptera: Culicidae), originally indigenous to South-east Asia, islands of the Western Pacific and Indian Ocean, has spread during recent decades to Africa, the mid-east, Europe and the Americas (north and south) after extending its range eastwards across Pacific islands during the early 20th century. The majority of introductions are apparently due to transportation of dormant eggs in tyres. Among public health authorities in the newly infested countries and those threatened with the introduction, there has been much concern that Ae. albopictus would lead to serious outbreaks of arbovirus diseases (Ae. albopictus is a competent vector for at least 22 arboviruses), notably dengue (all four serotypes) more commonly transmitted by Aedes (Stegomyia) aegypti (L.). Results of many laboratory studies have shown that many arboviruses are readily transmitted by Ae. albopictus to laboratory animals and birds, and have frequently been isolated from wild-caught mosquitoes of this species, particularly in the Americas. As Ae. albopictus continues to spread, displacing Ae. aegypti in some areas, and is anthropophilic throughout its range, it is important to review the literature and attempt to predict whether the medical risks are as great as have been expressed in scientific journals and the popular press. Examination of the extensive literature indicates that Ae. albopictus probably serves as a maintenance vector of dengue in rural areas of dengue-endemic countries of South-east Asia and Pacific islands. Also Ae. albopictus transmits dog heartworm Dirofilaria immitis (Leidy) (Spirurida: Onchocercidae) in South-east Asia, south-eastern U.S.A. and both D. immitis and Dirofilaria repens (Raillet & Henry) in Italy. Despite the frequent isolation of dengue viruses from wild-caught mosquitoes, there is no evidence that Ae. albopictus is an important urban vector of dengue, except in a limited number of countries where Ae. aegypti is absent, i.e. parts of China, the Seychelles, historically in Japan and most recently in Hawaii. Further research is needed on the dynamics of the interaction between Ae. albopictus and other Stegomyia species. Surveillance must also be maintained on the vectorial role of Ae. albopictus in countries endemic for dengue and other arboviruses (e.g. Chikungunya, EEE, Ross River, WNV, LaCrosse and other California group viruses), for which it would be competent and ecologically suited to serve as a bridge vector.

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Emerging and Resurging Vector-Borne Diseases

Gratz¹

1999

Annu. Rev. Entomol.

344

218

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Over the last four decades, a number of arthropod-borne infections have been recognized for the first time. Some have become of considerable public health importance, such as dengue hemorrhagic fever (DHF), and others are spreading geographically and their incidence is increasing. There has been an important recrudescence of several long-known vector-borne diseases. Malaria, leishmaniasis, dengue, and plague have resurged in numerous foci, in some cases where they were thought to be under effective control. In most instances, the appearance of new diseases and syndromes and the resurgence of old can be associated with ecological changes that have favored increased vector densities. Dam construction, irrigation and other development projects, urbanization, and deforestation have all resulted in changes in vector population densities that appear to have enabled the emergence of new diseases and the resurgence of old diseases. Greatly increased human travel has spread infectious agents, introducing them into areas in which they had been hitherto absent. It is essential to understand the factors that caused increased vector densities and hence the transmission of disease to prevent the emergence and resurgence of more diseases, as well as to serve as a basis for effective control.

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What Role for Insecticides in Vector Control Programs?

Gratz¹,

Jany²

1994

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Effectiveness of Personal Protection Measures against Mosquito Bites for Malaria Prophylaxis in Travelers

Schoepke¹,

Steffen²,

Gratz³

1998

J Travel Medicine

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Vector- and Rodent-Borne Diseases in Europe and North America

Gratz¹

2006

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A significant number of diseases are carried by insects, ticks, mites and rodents, and these diseases are far more common than is often realised. New diseases are regularly discovered and are becoming increasingly widespread, in part due to increased global travel and possibly even climate change. In this exciting new volume Norman Gratz, former Director, Division of Vector Biology and Control, World Health Organisation, reviews the distribution of all currently identified vector and rodent-borne diseases in Europe, the USA and Canada. Each type of infection is presented by group, covering incidence and prevalence, costs and public health burdens. Basic vector biology and control is described in detail and an extensive bibliography is provided to aid readers seeking further information. With its comprehensive coverage and detail, this book is set to become the standard reference for anyone working on vector- and rodent-borne diseases in medical entomology, zoology, epidemiology and public health.

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Norman G. Gratz

Critical review of the vector status of Aedes albopictus

Emerging and Resurging Vector-Borne Diseases

What Role for Insecticides in Vector Control Programs?

Effectiveness of Personal Protection Measures against Mosquito Bites for Malaria Prophylaxis in Travelers

Vector- and Rodent-Borne Diseases in Europe and North America

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