Could malaria reappear in Italy? (Perspectives).Because of concern about the possible reintroduction Noun 1. reintroduction - an act of renewed introduction intro, introduction, presentation - formally making a person known to another or to the public of malaria malaria, infectious parasitic disease that can be either acute or chronic and is frequently recurrent. Malaria is common in Africa, Central and South America, the Mediterranean countries, Asia, and many of the Pacific islands. transmission in Italy, we analyzed the epidemiologic factors involved and determined the country's malariogenic potential. Some rural areas in central and southern Italy have high receptivity because of the presence of potential malaria vectors. Anopheles Anopheles: see mosquito. labranchiae is probably susceptible to infection with Plasmodium vivax Plasmodium vi·vax n. A protozoan that is the most common malarial parasite of humans, causing vivax malaria. strains, but less likely to be susceptible to infection with P. falciparum. Its vulnerability is low because of the low presence of gametocyte gametocyte /ga·me·to·cyte/ (-sit) 1. a cell capable of dividing to form gametes; an oocyte or spermatocyte. 2. carriers (imported cases) during the season climatically favorable fa·vor·a·ble adj. 1. Advantageous; helpful: favorable winds. 2. Encouraging; propitious: a favorable diagnosis. 3. to transmission. The overall malariogenic potential of Italy appears to be low, and reintroduction of malaria is unlikely in most of the country. However, our investigations showed that the malaria situation merits ongoing epidemiologic surveillance epidemiologic surveillance The ongoing, systematic collection, analysis, and interpretation of health data essential to planning, implementing, and evaluating public health practice, closely integrated with the timely dissemination of these data to those who need to know . ********** At the end of World War II End of World War II can refer to:
Meters above sea level is the standard measurement of the elevation or altitude of: A malaria eradication eradication extermination of an infectious agent so that no further cases of the related disease can occur. virtual eradication campaign launched in 1947 led to interruption of transmission of Plasmodium falciparum Plasmodium fal·cip·a·rum n. A protozoan that causes falciparum malaria. malaria throughout Italy within 1 year (3). Indoor treatment with DDT DDT or 2,2-bis(p-chlorophenyl)-1,1,1,-trichloroethane, chlorinated hydrocarbon compound used as an insecticide. First introduced during the 1940s, it killed insects that spread disease and feed on crops. (2 g of active ingredient An active ingredient, also active pharmaceutical ingredient (or API), is the substance in a drug that is pharmaceutically active. Some medications may contain more than one active ingredient. per [m.sup.2]) of houses, stables, shelters, and all other rural structures continued into the mid-1950s and even later in some hyperendemic areas. In Sardinia, where transmission was particularly high, a special program was carried out to eradicate Eradicate To completely do away with something, eliminate it, end its existence. Mentioned in: Smallpox the vector (4). The last endemic endemic /en·dem·ic/ (en-dem´ik) present or usually prevalent in a population at all times. en·dem·ic adj. 1. focus of P. vivax vi·vax n. 1. The protozoan (Plasmodium vivax) that causes the most common form of malaria. 2. Vivax malaria. was reported in the province of Palermo The Province of Palermo (Italian: Provincia di Palermo) is a province in the autonomous region of Sicily, an island off the coast of Italy. Its capital is the city of Palermo. , Sicily, in 1956 (5), followed by sporadic cases in the same province in 1962 (6). The World Health Organization declared Italy free from malaria on November 17, 1970. Since then, almost all reported cases have been imported, but their number has risen steadily over the last decade (7,8). In 1997, a case of introduced malaria occurred in a rural area of Grosseto Province, the first since the eradication of malaria from Italy (9). This event, along with the occasional presence of Plasmodium plasmodium, name for a stage in the life cycle of a slime mold. Also, Plasmodium is the name given to the genus of the protozoan parasite that causes malaria. carriers who contracted the disease in malaria-endemic areas and the increasing number of immigrants from malaria-endemic countries entering Italy, raises concern about the possible reappearance Re`ap`pear´ance n. 1. A second or new appearance; the act or state of appearing again. Noun 1. reappearance - the event of something appearing again; "the reappearance of Halley's comet" of malaria foci in certain areas. We evaluate the malariogenic potential of Italy and assess the risk for malaria transmission in some areas, decades after the last analysis of the problem (10,11). Material and Methods The risk of malaria being reintroduced to an area can be calculated by determining its "malariogenic potential," which is influenced by three factors: receptivity, infectivity infectivity ability of an agent to infect. , and vulnerability. Receptivity takes into account the presence, density, and biologic characteristics of the vectors; infectivity is the degree of susceptibility susceptibility the state of being susceptible. Refers usually to infectious disease but may be to physical factors such as wetting or to psychological factors such as harassment. of mosquitoes to different Plasmodium species; and vulnerability is the number of gametocyte carriers present in the area. Receptivity To evaluate Italy's receptivity, we analyzed historical data and the results of entomologic en·to·mol·o·gy n. The scientific study of insects. en  to·mo·log surveys carried out in Italy as part of
epidemiologic investigations over the last 20 years. The vectorial
capacity of some Italian populations of An. labranchiae was also
estimated by the MacDonald formula (12).Infectivity The possibility that the sporogonic cycle of the various Plasmodium species may be completed within a vector is defined as infectivity. Only a few species of the Anopheles genus genus, in taxonomy: see classification. genus Biological classification. It ranks below family and above species, consisting of structurally or phylogenetically (see are capable of becoming infected in·fect tr.v. in·fect·ed, in·fect·ing, in·fects 1. To contaminate with a pathogenic microorganism or agent. 2. To communicate a pathogen or disease to. 3. To invade and produce infection in. and transmitting malaria. Furthermore, for genetic reasons, even mosquito mosquito (məskē`tō), small, long-legged insect of the order Diptera, the true flies. The females of most species have piercing and sucking mouth parts and apparently they must feed at least once upon mammalian blood before their eggs can populations of the same species can differ in sensitivity to plasmodia (13) or may be completely resistant to infection with plasmodia from the same species but different geographic areas. Infectivity in a mosquito population is a determining factor in the assessment of malariogenic potential in a given area. We analyzed data in published studies to evaluate the infectivity of Italian vectors. Vulnerability Vulnerability in a given territory is determined by the number of gametocyte carriers during the period in which malaria transmission is possible. To determine the degree of Italy's vulnerability, a sample of malaria cases reported from 1989 to 1996 was selected on the basis of spatial and temporal risk factors for the transmission of malaria. Malaria cases reported in Italy in 1997 were also analyzed. Because of the limited distribution of vectors potentially capable of transmitting malaria, we considered only cases in Tuscany, Campania, Abruzzo, Molise, Basilicata, Apulia, Calabria, Sicily, and Sardinia. In the past, the season of malaria transmission in central and southern Italy lasted from June to late September for P. vivax and from July to early September for P. falciparum. We therefore selected cases reported from June through September. Results Receptivity After their drastic reduction as a result of the DDT campaign, the endophylic anopheline anopheline pertaining to the anopheles genus of mosquitoes. species have begun to reproduce again and in many cases have reached preintervention densities (14). Of the anopheline species that had been vectors of malaria in Italy, only An. labranchiae and An. superpictus are still present in epidemiologically relevant densities (14). In other European and Mediterranean countries, other anophelines have been considered secondary (An. atroparvus and An. melanoon) and occasional (An. algeriensis, An. hyrcanus, and An. claviger) malaria vectors. An. sergenti, a north African North Africa A region of northern Africa generally considered to include the modern-day countries of Morocco, Algeria, Tunisia, and Libya. North African adj. & n. Adj. 1. species, was implicated im·pli·cate tr.v. im·pli·cat·ed, im·pli·cat·ing, im·pli·cates 1. To involve or connect intimately or incriminatingly: evidence that implicates others in the plot. 2. in the 1960s in the transmission of a few sporadic case of malaria on the island of Pantelleria (15). Distribution and Density of Potential Vectors In northern Italy Northern Italy comprises of two areas belonging to NUTS level 1:
Larvae: see lemures. or adults were recorded in a recent survey along the northwestern coast of Italy (17). However, areas with epidemiologically relevant anopheline densities still exist in Tuscany (only in Grosseto Province), Calabria, Puglia, Sicily, and Sardinia (14), where hydrogeologic or environmental characteristics are conducive to the development of vectors (Table 1). Residual populations of An. labranchiae and An. superpictus could still be present along the coasts of Abruzzo, Molise (east coast), Campania, and Basilicata (west coast), but no relevant densities have recently been reported. Vectorial Capacity (VC) The high density of anopheline populations reported in some areas of Italy does not necessarily imply the resumption of malaria. Other entomologic factors must be taken into consideration to estimate the risk of transmission. The VC of a mosquito population is the measure used in epidemiology to estimate risk in various geographic areas. It expresses the number of potentially infective infective /in·fec·tive/ (in-fek´tiv) 1. capable of producing infection. 2. infectious (1). in·fec·tive adj. Capable of producing infection; infectious. bites that originate daily from a case of malaria in a given area or, more precisely, from a carrier of gametocytes capable of infecting all the receptive mosquitoes that feed on the carrier. VC is influenced by three factors: the anthropophily, longevity, and density of the vector. The few recent estimates of the VC of Italian anopheline populations have been limited to An. labranchiae (14,18). The first attempt was made in 1978 in Calabria: VC was reported as 0.82 to 8.9, with an average density of 16 bites per person per night (Coluzzi A. and M., unpub, data). In 1994, in a large area of rice cultivation in Tuscany (Grosseto Province), VC was very low in early July, constituting no real risk for malaria transmission (<0.01 for both P. falciparum and P. vivax). At the beginning and especially the end of August, VC was high (8 to 32.5), especially for P. vivax, which has a shorter sporogonic cycle than P. falciparum (VC 7 to 26). This high VC is undoubtedly influenced by the high number of bites per person per night (>200) reported in the area (14). In 1998 in the same province but in areas where only natural anopheline breeding sites are reported, we calculated the following VCs from mid-July through the end of August: P. falciparum 0.8 to 2.9 and P. vivax 0.96 to 3.3 (<10 bites/person/night) (18). Infectivity As Plasmodium species have long been eradicated in Italy, it is essential to determine whether local vectors are still sensitive to infection with Plasmodium from other areas where malaria is present. Few tests of infectivity have been carried out with potential Italian vectors. There are numerous difficulties in rearing mosquitoes of the An. maculipennis complex, obtaining blood with vital gametocytes, and setting up an efficient artificial system that anophelines bite. To resolve these technical difficulties, some samples of An. atroparvus and An. labranchiae were captured in Italy in the 1970s and transported on several occasions to Kenya, where they were induced to bite P. falciparum carriers (19,20). In none of the mosquitoes did the plasmodia carry out the entire cycle and reach the salivary glands salivary glands (săl`əvâr'ē), in humans, three pairs of glands that secrete the alkaline digestive fluid, saliva, into the mouth. . These susceptibility tests susceptibility test Antimicrobial susceptibility test, see there were, of course, carried out with an extremely low number of samples and are insufficient to confirm that Italian anopheline populations are entirely resistant to infection with African strains of P. falciparum. Nevertheless, data on the resistance of Italian anopheline populations to tropical African P. falciparum strains agree with other observations made in England (21) and Portugal (20) on local An. atroparvus populations. Populations of An. atroparvus from the eastern Russian Federation Russian Federation: see Russia. were sensitive to P. vivax strains from Southeast Asia Southeast Asia, region of Asia (1990 est. pop. 442,500,000), c.1,740,000 sq mi (4,506,600 sq km), bounded roughly by the Indian subcontinent on the west, China on the north, and the Pacific Ocean on the east. (22), and populations from Romania were successfully infected with P. vivax strains from Korea (23). The marked tendency of Italian populations of An. atroparvus to bite animals, together with susceptibility assays carried out so far (19), does not indicate that this species is a malaria vector in Italy. As for An. labranchiae, this particularly anthropophilic Mediterranean species can certainly transmit P. vivax, as shown by the 1971 epidemic in Corsica (24), the cases reported in Greece during 1975-76 (25), and the recent sporadic case in Grosseto Province (9). The susceptibility of An. superpictus to P. falciparum of African origin has not been tested, but this mosquito is probably sensitive, as it belongs to the subgenus subgenus /sub·ge·nus/ (sub´je-nus) a taxonomic category between a genus and a species. sub·ge·nus n. pl. sub·gen·e·ra A taxonomic category ranking between a genus and a species. Cellia, to which the principal African malaria vectors also belong. Vulnerability Of 885 cases reported in 1997, only 88 (9.9% of the total) were reported from the nine regions at risk (Table 2). A total of 25 cases (2.8%) occurred during the season favorable to malaria transmission: 15 from P. falciparum, 9 from P. vivax, and 1 from P. malariae. Most of the patients (64%, n=16) lived in Tuscany. Considering that the highest anopheline mosquito densities were reported in this region, these results are cause for concern. On the other hand, the samples were quite small (16 patients) and other factors need to be considered. First is the number of patients who live in rural areas, since these are the only areas where the vector can come into contact with a gametocyte carrier. The analysis of samples shows that most of the 25 at-risk patients (72%, n=18) lived in an urban area. Another factor is the length of exposure of the malaria patients to mosquito bites during the disease or the length of their stay in a malaria-endemic area. In fact, all the patients received hospital care in urban areas, which would certainly limit mosquito-human contact. However, the factor that most affects a territory's vulnerability is the number of gametocyte carriers--the only persons who can infect infect /in·fect/ (in-fekt´) 1. to invade and produce infection in. 2. to transmit a pathogen or disease to. in·fect v. 1. mosquitoes--and the length of their potential exposure to mosquitoes. Of patients who lived in areas at risk and had contracted malaria during a period theoretically favorable to transmission, only eight became gametocyte carriers (six of them carriers of P. vivax). These carriers represent 0.7% of all malaria cases reported in Italy in 1997 and 4% of all the gametocyte carriers. In these patients, the average time between appearance of symptoms and malaria diagnosis (when therapy began) was 8.2 days, which is the period when patients could have been a source of infection for mosquitoes. The cases reported from 1989 to 1996 show similar results: of 5,012 cases, 522 (10.4%) occurred in central and southern Italy; only 184 of these occurred during high-risk months (June-September). Of 30 gametocyte carriers, 27 were of P. vivax, 2 of P. falciparum, and 1 of P. ovale. Conclusion We investigated Italy's malariogenic potential and the possibility of a recurrence recurrence /re·cur·rence/ (-ker´ens) the return of symptoms after a remission.recur´rent re·cur·rence n. 1. of transmission there. Our results indicate the following conclusions. First, some rural areas in central and southern Italy have high receptivity because of the presence of potential malaria vectors with VC. The figures for VC were obtained by collecting mosquitoes on persons exposed to mosquito bites without any protection (14). These data are purely theoretical, as it would be quite unlikely for a person to remain exposed to mosquito bites for long without taking preventive steps. For comparison with the VC calculated in Italy with that of malaria-endemic areas, the VC of P. falciparum reaches values >10 and in some cases >30 in the hyperendemic conditions in many areas of the African savanna savanna or savannah (both: səvăn`ə), tropical or subtropical grassland lying on the margin of the trade wind belts. . However, even a level of 0.1 (the average production of an infective bite from a malaria patient every 10 days) appears sufficient to maintain hyperendemicity, once the number of carriers of P. falciparum gametocytes reaches 50% of the population. The critical VC value (i.e., the level below which malaria does not remain endemic) has been calculated for the Garki region (Nigeria, State of Kano) as 0.022, or an average production of about 1 infective bite from a malaria patient every 50 days (26). In theory, therefore, the VC in some areas of Italy is epidemiologically significant, and these areas could become receptive. Second, An. labranchiae is susceptible to infection with P. vivax strains from malaria-endemic areas, while infection with tropical African strains of P. falciparum seems less likely. Third, Italy's vulnerability is low because of the low presence of gametocyte carriers during the season climatically favorable to transmission in areas at risk. These figures are certainly underestimates, however, as in some regions of central and southern Italy not all malaria cases are reported, and the number of migrants from countries with endemic malaria, who come to Italy to work, is constantly increasing (7,8). The overall malariogenic potential of Italy appears to be low, and malaria reintroduction is unlikely in most of the country. Sporadic autochthonous autochthonous /au·toch·tho·nous/ (aw-tok´thah-nus) 1. originating in the same area in which it is found. 2. denoting a tissue graft to a new site on the same individual. P. vivax malaria vivax malaria n. Malaria in which the paroxysms recur every third day, counting inclusively, and are induced by the release of merozoites and their invasion of new red blood cells. Also called tertian malaria. cases may occur but only in limited rural areas, where high densities of An. labranchiae have been reported. These results indicate the need for more epidemiologic surveillance, especially as the Italian situation is extremely dynamic and changeable. Sociopolitical so·ci·o·po·li·ti·cal adj. Involving both social and political factors. sociopolitical Adjective of or involving political and social factors factors, in particular, could lead to substantial changes in the flow of immigrants from endemic malaria areas, and environmental factors could result in changes in the density and distribution of vector populations. Furthermore, the continuous contact of strains of exotic plasmodia with potential mosquito vectors could lead to long-term selection or adaptation of strains capable of developing in Italian mosquitoes. The possible presence in rural central and southern Italy of potential P. vivax carriers (e.g., immigrants from Asia and Africa hired as seasonal workers) is of concern. A possible episode of autochthonous malaria transmission in Italy would not have serious health consequences, as it could easily and quickly be controlled by the National Health Service. The impact on Italy's image, however, could be serious at the international level. From an economic standpoint, reports of malaria cases would undoubtedly affect Italy's tourist industry. To prevent and manage indigenous malaria cases in areas where the density of the vector is substantial, regional or local centers should be established with experts competent in epidemiologic surveillance and malaria control. These centers should also monitor the movements of malaria Plasmodium carriers in the country and assess the risk for malaria transmission in different regions.
Table 1. Distribution and density of Anopheles labranchiae and An.
superpictus in five regions of central, southern, and insular Italy
Region At-risk areas Vector
Tuscany Grosseto province: areas of An.labranchiae
intensive rice cultivation (S.
Carlo, Principina and S.
Donato, Orbetello)
Apulia Coastal plains of the Adriatic An.labranchiae
side, from Lesina Lake to
Candelaro River
Calabria Coastal plains of the Tirrenian An. labranchiae
and Ionian sides and the close An. superpictus
hinterland
Sicily Rural coastal and hilly areas of An. labranchiae
the whole region An. superpictus
Sardinia Rural coastal and hilly areas of An. labranchiae
the whole region
Region Larval breeding sites (a)
Tuscany Rice fields, agricultural and land
reclamation canals, wells. Larval
densities in rice fields 5-10
larvae/sample, elsewhere 0.5-1
larvae/sample
Apulia Land reclamation canals, pools
for agricultural purposes. Larval
densities 0.02-0.05 larvae/sample
Calabria Larval densities:
An. labranchiae 0.5-1
larvae/sample
An. superpictus 0.06-0.1
larvae/sample
Sicily Rivers, streams, pools, and canals
for agricultural purposes. Larval
densities of An. labranchiae 0.03
to 0.5 larvae/sample
Sardinia Mainly rivers and streams;
ponds, artificial pools, rice fields
and irrigation canals. Larval
densities 1 to 10 larvae/sample
Region Vector density and capacity (b)
Tuscany 100-1,000 per animal shelter;
180-200/person/night. VC in
rice fields: P. falc. 7-26; P.
vivax 8.3-32.5; VC in natural
breeding sites: P. falc. 0.8-2.9;
P. vivax 0.96-3.3
Apulia 20-30 per animal shelter
Calabria 20-500 An. labranchiae, 2-10
An. superpictus
per animal shelter. 10-20
An. labr./person/ night. VC of
An. labranchiae
for P. falciparum 0.8-8.9
Sicily 10-200 An. labranchiae per
animal shelter
Sardinia 5-40 per animal shelter
(a) Figures refer to areas considered as "at risk" for malaria
reintroduction during surveys carried out from 1994 to 1996.
(b) Calculated at a mean temperature of 25 [degrees] C (July to
August), assuming a sporogonic cycle of 11 days for P. falciparum and
10 days for P vivax.
VC = vectorial capacity.
Table 2. Italy's vulnerability to malaria during the season favorable
to malaria transmission (June to September) from 1989 to 1997
No. of
cases in No. of
at-risk Total gameto-
regions no. of cyte
Total No. of and game- carriers in
no. of cases in favora- tocyte at-risk
malaria at-risk ble carrie areas and
Year cases regions (a) season rs season
1989- 5012 522 184 646 30
1996
1997 885 88 25 148 8
(a) Nine regions in central, southern, and insular Italy.
References (1.) Hackett LW. Malaria in Europe. An ecological study. London: Oxford University Press; 1937. (2.) Hackett LW, Missiroli A. The varieties of Anopheles maculipennis and their relation to the distribution of malaria in Europe. Rivista di Malariologia 1935;14:45-109. (3.) Missiroli A. Anopheles control in the Mediterranean area. Proceedings of the 4th International Congress on Tropical Medicine tropical medicine, study, diagnosis, treatment, and prevention of certain diseases prevalent in the tropics. The warmth and humidity of the tropics and the often unsanitary conditions under which so many people in those areas live contribute to the development and and Malaria; 1948 May 10-18; Washington, DC. pp. 1566-75. (4.) Logan JA. The Sardinian Project: an experiment in the eradication of an indigenous malarious vector. Baltimore: Johns Hopkins Noun 1. Johns Hopkins - United States financier and philanthropist who left money to found the university and hospital that bear his name in Baltimore (1795-1873) Hopkins 2. Press; 1953. (5.) Cefalu M, Gullotta A. Su un episodio epidemico occorso in fase di eradicazione della malaria in Sicilia. Rivista di Malariologia 1959;38:45-70. (6.) Lazzara A, Morante V, Priolo A. Microfocolaio residuo di infezione malarica in provincia di Palermo. Ann Sanita Pubblica 1967;28:725-41. (7.) Sabatinelli G, Majori G. Malaria surveillance in Italy: 1986-1996 analysis and 1997 provisional data. Euro Surveillance 1998;3:38-40. (8.) Romi R, Boccolini D, Majori G. Malaria surveillance in Italy: 1997 analysis and 1998 provisional data. Euro Surveillance 1999;4:85-7. (9.) Baldari M, Tamburro A, Sabatinelli G, Romi R, Severini C, Cuccagna P, et al. Introduced malaria in Maremma Maremma (märām`mä), coastal area in Tuscany, central Italy, along the Tyrrhenian Sea and extending E to the Apennines. A flourishing region in Etruscan and early Roman times, it became marshy and was largely abandoned in the Middle Ages , Italy, decades after eradication. Lancet lancet /lan·cet/ (lan´set) a small, pointed, two-edged surgical knife. lan·cet n. 1998;351:1246-8. (10.) Coluzzi A. Dati recenti sulla malaria in Italia e problemi connessi al mantenimento dei risultati raggiunti. Rivista di Malariologia 1965;44:153-78. (11.) Bruce-Chwatt LJ, De Zulueta J. The rise and fall of malaria in Europe. Oxford: Oxford University Press; 1980. (12.) MacDonald G. The epidemiology and control of malaria. London: Oxford University Press; 1957. (13.) Frizzi G, Rinaldi A, Bianchi L. Genetic studies on mechanisms influencing the susceptibility of Anopheline mosquitoes to plasmodial plas·mo·di·al adj. Relating to a plasmodium or a species of the genus Plasmodium. infection. Mosquito News 1975;35: 505-8. (14.) Romi R, Pierdominici G, Severini C, Tamburro A, Cocchi M, Menichetti D, et al. Status of malaria vectors in Italy. J Med Entomol 1997;34:263-71. (15.) D'Alessandro G, Sacca G. Anopheles sergenti Theobald nell'isola di Pantelleria e sua probaible implicazione nella transmissione di alcuni casi di malaria. Parassitologia 1967;9:69. (16.) Sepulcri P. La malaria nel Veneto. Istituto Interprovinciale per la Lotta Antimalarica nelle Venezie. Venice: The Institute; 1963.297 pp. (17.) Zamburlini R, Cargnus E. Anofelismo residuo nel litorale altoadriatico a 50 anni dalla scomparsa della malaria. Parassitologia 1998;40:431-7. (18.) Romi R. Anopheles labranchiae, an important malaria vector in Italy, and other potential malaria vectors in Southern Europe Southern Europe or sometimes Mediterranean Europe is a region of the European continent. There is no clear definition of the term which can vary depending on whether geographic, cultural, linguistic or historical factors are taken into account. . Eur Mosq Bull 1999;4:8-10. (19.) Ramsdale CD, Coluzzi M. Studies on the infectivity of tropical African strains of Plasmodium falciparum to some southern European vectors of malaria. Parassitologia 1975;17:39-48. (20.) De Zulueta J, Ramsdale CD, Coluzzi M. Receptivity to malaria in Europe. Bull World Health Organ 1975;52:109-11. (21.) Shute PG. Failure to infect English specimens of Anopheles maculipennis var. atroparvus with certain strains of Plasmodium falciparum of tropical origin. J Trop Med Hyg 1940;43:175-8. (22.) Daskova NG, Rasnicyn SP. Review of data on susceptibility of mosquitos in the USSR USSR: see Union of Soviet Socialist Republics. to imported strains of malaria parasites. Bull World Health Organ 1982;60:893-7. (23.) Teodorescu C, Ungureanu E, Mihai M, Tudose M. [Receptivity of the vector A.1. atroparvus to 2 strains of P. vivax]. Rev Med Chir Soc Med Nat Iasi 1978;82:73-5. (Romanian) (24.) Sautet J, Quilici R. Apropos de quelques cas de paludisme autochtone contractes en France pendant pendant or pendent In architecture, a sculpted ornament suspended from a vault or ceiling, especially an elongated boss (carved keystone) at the junction of the intersecting ribs of the fan vaulting associated with the English Perpendicular style. l'ete. Presse Medicale 1971;79:524. (25.) Zahar AR. Vector bionomics bi·o·nom·ics n. (used with a sing. verb) See ecology. [From French bionomique, pertaining to ecology, from bionomie, ecology : Greek bio-, bio- in the epidemiology and control of malaria. Part II: The WHO European Region and the WHO Eastern Mediterranean Region. Geneva Geneva, canton and city, Switzerland Geneva (jənē`və), Fr. Genève, canton (1990 pop. 373,019), 109 sq mi (282 sq km), SW Switzerland, surrounding the southwest tip of the Lake of Geneva. : World Health Organization; 1987. VBC/88.5. 228 pp. (26.) Molineaux L, Gramiccia G. Le Projet Garki. Geneva: World Health Organization; 1980. Dr. Romi is a senior research entomologist in the Laboratory of Parasitology Parasitology The scientific study of parasites and of parasitism. Parasitism is a subdivision of symbiosis and is defined as an intimate association between an organism (parasite) and another, larger species of organism (host) upon which the parasite is , Istituto Superiore di Sanita. His research interests include epidemiology of malaria and other vector-borne diseases vector-borne disease Infectious diseases Any infection, usually transmitted by insects–eg, ticks–eg, Lyme disease, Rocky Mountain spotted fever, ehrlichiosis, Colorado tick fever; mosquitos–eg, California-or La Crosse, St Louis, Eastern, Western and vector control Vector control is any method to limit or eradicate the vectors of vector born diseases, for which the pathogen (e.g. virusor parasite) is transmitted by a vector which can be mammals, birds or arthropods, especially insects, and more specifically mosquitoes. . Roberto Romi, * Guido Sabatinelli, * ([dagger]) and Giancarlo Majori * * Istituto Superiore di Sanita, Rome, Italy; and ([dagger]) World Health Organization, Regional Office for Eastern Mediterranean Region, Cairo, Egypt Address for correspondence: Roberto Romi, Laboratorio di Parassitologia, Istituto Superiore de Sanita, Viale Regina Elena, 299, 00161 Rome, Italy; fax: 3906-4938-7065; e-mail: romi@sun.iss.it |
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