Topical insecticide treatments to protect dogs from sand fly vectors of leishmaniasis. (Research).We compared the susceptibility of sand fly vectors to four topical insecticide insecticide Any of a large group of substances used to kill insects. Such substances are mainly used to control pests that infest cultivated plants and crops or to eliminate disease-carrying insects in specific areas. treatments applied to domestic dogs, a reservoir of human leishmaniasis leishmaniasis (lēsh'mənī`əsĭs), any of a group of tropical diseases caused by parasitic protozoans of the genus Leishmania. . Dogs were exposed to sand flies pretreatment pretreatment, n the protocols required before beginning therapy, usually of a diagnostic nature; before treatment. pretreatment estimate, n See predetermination. and at 1 week, 1 month, and 2 months posttreatment. Sand fly bloodfeeding and survival rate of both fed and unfed flies were significantly reduced by the permethrin permethrin /per·meth·rin/ (per-meth´rin) a topical insecticide used in the treatment of infestations by Pediculus humanus capitis, Sarcoptes scabiei, or any of various ticks; also applied to objects such as furniture and bedding. , deltamethrin, and fenthion treatments, but diazinon diazinon an organophosphorus insecticide, used in ear tags for cattle and in flea collars and rinses for dogs. Called also dimpylate. See also organophosphorus compound. had no effect. The survival rate of bloodfed sand flies was reduced by up to 86% with deltamethrin collars. The antifeeding effect suggests that deltamethrin collars may be recommended to dog owners to protect their pets from sandfly-borne diseases. The combined effects on sand fly feeding and survival indicate that epidemiologic, community-based trials are warranted to test whether deltamethrin collars could reduce the incidence of canine and, hence, human leishmaniasis. ********** Leishmaniases are a group of zoonotic diseases Zoonotic diseases Diseases caused by infectious agents that can be transmitted between (or are shared by) animals and humans. This can include transmission through the bite of an insect, such as a mosquito. Mentioned in: West Nile Virus transmitted to humans and animals by the bite of phlebotomine sand flies (1). Worldwide, the leishmaniases are the third most important vector-borne disease 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 (after malaria and sleeping sickness sleeping sickness: see encephalitis; trypanosomiasis. sleeping sickness Protozoal disease transmitted by the bite of the tsetse fly. Two forms, caused by different species of the genus Trypanosoma, occur in separate regions in Africa. ), accounting for an estimated 1.98 million disability-adjusted life-years and 57,000 deaths annually (2). In the past 20 years, the Years, The the seven decades of Eleanor Pargiter’s life. [Br. Lit.: Benét, 1109] See : Time number of human leishmaniasis cases has dramatically increased, a trend that shows no signs of abating (3). Much of this increase may result from adaptation of Leishmania Leishmania /Leish·ma·nia/ (lesh-ma´ne-ah) a genus of parasitic protozoa, including several species pathogenic for humans. In some classifications, organisms are placed in four complexes comprising species and subspecies: L. transmission cycles to the peridomestic environment as a response to deforestation deforestation Process of clearing forests. Rates of deforestation are particularly high in the tropics, where the poor quality of the soil has led to the practice of routine clear-cutting to make new soil available for agricultural use. and urbanization (4). Another explanation is that the leishmaniases are a common opportunistic infection opportunistic infection n. An infection by a microorganism that normally does not cause disease but becomes pathogenic when the body's immune system is impaired and unable to fight off infection, as in AIDS and certain other diseases. in HIV-infected persons (5). In Latin America Latin America, the Spanish-speaking, Portuguese-speaking, and French-speaking countries (except Canada) of North America, South America, Central America, and the West Indies. , as in North Africa and Asia, Leishmania infections in dogs have great public health importance, as dogs are the reservoir hosts of zoonotic Zoonotic A disease which can be spread from animals to humans. Mentioned in: Zoonosis visceral leishmaniasis visceral leishmaniasis n. A chronic, often fatal disease occurring chiefly in Asia, caused by a protozoan parasite (Leishmania donovani) and characterized by irregular fever, enlargement of the spleen and liver, and emaciation. (ZVL ZVL Zero Velocity Line ZVL Zuctovacia a Vyplatna Listina (Czech) ) caused by Leishmania infantum Leishmania infantum is an important cause of visceral leishmaniasis in the Old World. It is also an unusual cause of cutaneous leishmaniasis.[1] References 1. ^ BenSaid M, Guerbouj S, Saghrouni F, et al. (=Le. chagasi). Dogs are also the suggested reservoir hosts of American cutaneous leishmaniasis cutaneous leishmaniasis n. An endemic disease in northern Africa and western and central Asia, caused by infection with promastigotes of Leishmania tropica and transmitted by the bite of a sandfly of the genus Phlebotomus. (ACL See access control list. 1. ACL - Access Control List. 2. ACL - Association for Computational Linguistics. 3. ACL - A Coroutine Language. A Pascal-based implementation of coroutines. ["Coroutines", C.D. ) caused by Le. (Viannia) spp. (6) and may have a role in the transmission cycle of cutaneous leishmaniasis in the Old World caused by Le. tropica (7). Canine leishmaniasis is mainly a veterinary problem in Europe (where estimates suggest that up to 7 million dogs are at risk for infection [8]) and the United States United States, officially United States of America, republic (2005 est. pop. 295,734,000), 3,539,227 sq mi (9,166,598 sq km), North America. The United States is the world's third largest country in population and the fourth largest country in area. (where there has been a recent widely publicized outbreak in foxhounds in New York New York, state, United States New York, Middle Atlantic state of the United States. It is bordered by Vermont, Massachusetts, Connecticut, and the Atlantic Ocean (E), New Jersey and Pennsylvania (S), Lakes Erie and Ontario and the Canadian province of [9]). In addition to treating patients and spraying houses with insecticide, ZVL control programs (notably in Brazil and China) often target the reservoir hosts by culling culling removal of inferior animals from a group of breeding stock. The removal is premature, i.e. before completion of its life span, disposal of an animal from a herd or other group. infected dogs. A similar culling policy has been suggested for controlling ACL where domestic transmission has been demonstrated. However, the impact of dog-culling programs on (human and canine) ZVL incidence has been questioned on theoretical and practical grounds (10,11), and results of controlled intervention trials are contradictory (6,12-14). Treating infected dogs with antileishmanial drugs (e.g., pentavalent antimonials, amphotericin B amphotericin B (ăm'fətĕr`ĭsĭn), antibiotic that halts the growth of several disease-causing fungi. Discovered in 1956, it is produced by bacteria of the genus Streptomyces. , aminosidine, or allopurinol allopurinol /al·lo·pur·i·nol/ (al?o-pur´i-nol) an isomer of hypoxanthine, capable of inhibiting xanthine oxidase and thus of reducing serum and urinary levels of uric acid; used in prophylaxis and treatment of hyperuricemia and uric acid ) is not a practical control policy, not only because of the prohibitive cost involved but also because of high relapse rates (up to 74% [15]) among treated and clinically cured dogs. Moreover, a high proportion of clinically cured dogs remain parasitologically positive and therefore infectious to the sand fly vector (16). While awaiting a leishmanial vaccine (17), alternative canine leishmaniasis control strategies are urgently needed. One proposal has been to cut transmission by treating domestic dogs with insecticides (18)-lotions or insecticide-impregnated dog collars (1) originally developed for flea and tick control (19). Our work directly compares the anti-feeding and lethal effects of deltamethrin-impregnated (DM) dog collars with those of alternative topical insecticide applications. The study also increases the number of sand fly species against which insecticide-impregnated dog collars have now been tested and is the first such study to test their impact on a vector of ACL (Lu. intermedia Intermedia - A hypertext system developed by a research group at IRIS (Brown University). ), which is known to feed on both humans and dogs (20). Materials and Methods Study Site and Protocol All 17 dogs used in the experimental trial came from the Fazenda Fazenda is a Portuguese word for 'farm', but is used in the English language for the coffee estates that spread within the interior of Brazil between 1840 and 1896, which created major export commodities for Brazilian trade, but also led to intensification of slavery in Brazil. Palmital, a large farm 40 km from Maringa, Estado do Parana, Brazil (23 [degrees] 40'S, 52 [degrees] 25'W). Mongrel mongrel of mixed or uncertain breeding; said of dogs in particular but also used adjectivally to refer to any species. dogs were stationed individually inside cages (50-cm width x 60-cm height x 60-cm depth) and were exposed overnight ([+ or -] 22.30 to 5.30 hours, i.e., for 7 hours) to an average 96 (69 to 121) wild-caught sand flies introduced through sleeves of closed net curtain net curtain n → visillo tents (100 cm x 180 cm x 130 cm). Sand flies had been caught the same night by mouth aspirator as·pi·ra·tor n. An apparatus for removing fluid from a body cavity, consisting usually of a hollow needle and a cannula, connected by tubing to a container in which a vacuum is created by a syringe or a suction pump. inside open chicken pens at the Fazenda Marista (21.00 to 22.00 hours), a neighboring farm. Previous studies have shown that >85% of all collections at the Fazenda Marista are Lu. intermedia (Teodoro et al., unpub, data), which was confirmed by microscopically identifying to species a subset of caught sand flies: Of 200 unfed and 40 bloodfed sand flies, 172 (86%) and 35 (88%) were identified as Lu. intermedia, respectively; the remainder were Lu. whitmani. Sand flies were collected from the tents the following morning by using a mouth aspirator, placed into suspended gauze gauze (gawz) a light, open-meshed fabric of muslin or similar material. absorbable gauze gauze made from oxidized cellulose. cubic cages, and maintained on sucrose solution for a further 17 hours at 24 [degrees] C to 26 [degrees] C and 90% to 95% relative humidity relative humidity n. The ratio of the amount of water vapor in the air at a specific temperature to the maximum amount that the air could hold at that temperature, expressed as a percentage. . After 24 hours, flies were identified by sex and scored as either dead or alive, and bloodfed or unfed. All dogs were exposed to sand flies before treatment (day 0) and again at 5 to 12 days posttreatment (dpt), 32 to 36 dpt, and 58 to 65 dpt. Three time points were compared: 1 week, I month, and 2 months. Four treatments were compared: 1) 40 mg/g DM-impregnated collars (Scalibor, Intervet International GmbH, Wiesbaden, Germany) (n = 5); 2) 15% diazinon-impregnated collars (Canovel, Pfizer, United Kingdom) (n = 3); 3) application of 1 mL of 0.65 g/mL permethrin topical lotion (Pulvex, Coopers Brasil Ltda, Sao Paulo, Brazil) (n = 3); and 4) application of 1 mL of 15% fenthion topical lotion (Pulfim, Bayer S.A. Brasil, Barueri, Brazil) (n = 3). Collars were attached around the necks of the dogs. Topical lotions were applied directly onto the skin after the dog's hair was separated at the nape of the neck. Three untreated dogs (negative controls) were exposed to sand flies at the same time points to adjust for any background changes in sand fly feeding and survival rates over time. Changes in climatic conditions (temperature and relative humidity) were measured at the start and end of each bioassay Bioassay A method for the quantitation of the effects on a biological system by its exposure to a substance, as well as the quantitation of the concentration of a substance by some observable effect on a biological system. . Data Analysis The effects of the different treatments (in relation to the negative control) at each time point were tested by using General Linear Models (21) in the computer package STATA, i.e., by analyses of deviance, specifying binomial binomial (bī'nō`mēəl), polynomial expression (see polynomial) containing two terms, for example, x+y. The binomial theorem, or binomial formula, gives the expansion of the nth power of a binomial (x+ errors, of the log odds that the sand fly bloodfeeding rate was diminished as a result of treatment or that the sand fly death rate was increased as a result of treatment. Any significant over-dispersion was corrected by rescaling the model using the ratio of the residual deviance to residual degrees of freedom. Maximal models incorporated the effects of dog age and size and climatic conditions along with treatment. The significance of each variable was tested by back-step analysis of deviance, i.e., by observing whether these variables explained a significant (p <0.05) proportion of the deviance remaining after their removal from the model. Variables were excluded from the models in order of least significance until only significant variables were retained in the minimum adequate model. Results An average of 49 (19 to 86) female and 22 (2 to 47) male sand flies were recovered from the tents the following morning (mean recovery rate 74%). The sex ratio was remarkably constant throughout the experiment, with no significant differences detected with time or treatment (median proportion of females recovered: 0.68; 25% to 75% quartiles: 0.61 to 0.75). Sand fly bloodfeeding and death rates were unaffected by dog age and size or climatic conditions throughout the trial. No dogs had visible side effects Side effects Effects of a proposed project on other parts of the firm. from the different treatments. Sand Fly Bloodfeeding Rate In the absence of treatment, the average sand fly bloodfeeding rate was 42% (Table 1) (Figure). There was no significant difference between the bloodfeeding rate on negative control dogs and the rates on any of the four treatment groups before treatment (p >0.2 for all four comparisons). Neither were there any significant differences in bloodfeeding rates on treated and untreated dogs at the first time point (1 week), although there was some suggestion of a reduction on the dogs treated with permethrin (p = 0.088) and DM (p = 0.083). Bloodfeeding rates were significantly lower on dogs treated with DM, permethrin, and fenthion (compared with untreated dogs) at both i month (p <0.001; p = 0.010; and p = 0.005, respectively) and 2 months (p <0.001; p = 0.004; and p = 0.018, respectively). At both time points, the reduction in bloodfeeding rate was greatest on DM-treated dogs (Table 2), although the difference with permethrin- and fenthion-treated dogs could not be demonstrated statistically. The greatest antifeeding effect in all trials was detected on DM-treated dogs after 2 months, when bloodfeeding rates were reduced by 69% (95% confidence intervals [CI] 43,78). A similar pattern was demonstrated when bloodfeeding rates posttreatment were compared with bloodfeeding rates pretreatment on the same dogs (rather than with bloodfeeding rates on control dogs at the same time points). In these analyses, a significant reduction in bloodfeeding was detected on DM-treated dogs at all three time points: at 1 week (p = 0.012), 1 month (p <0.001), and 2 months (p <0.001). In contrast, bloodfeeding rates only dropped significantly by 1 month on fenthion-treated dogs and by 2 months on permethrin-treated dogs. No significant reduction in bloodfeeding was detected on diazinon-treated dogs at any time point, when compared with either negative control dogs or pretreatment controls. [FIGURE OMITTED] Sand Fly Death In the absence of treatment, the average sand fly death rate of unfed and bloodfed sand flies was 12% and 2%, respectively (Table 1) (Figure). There was no significant difference between the death rate of bloodfed sand flies on negative control dogs and the equivalent rates on any of the four treatment groups before treatment (p >0.4 for all four comparisons). In comparison with untreated dogs, deaths of bloodfed flies was significantly increased at i week by 11%, i.e., 5.7-fold (95% CI 1.1, 20.5) as a result of permethrin treatment (p = 0.037) and at i month by 33%, i.e., 27-fold (4.4, 66) by fenthion treatment (p = 0.001) and by 30%, i.e., 25-fold (4.2, 63) by DM treatment (p = 0.001). No significant treatment effects on deaths of bloodfed sand flies were detected at 2 months. Before treatment, there was no significant difference between the death rate of unfed sand flies on negative control dogs and the equivalent rates on three of the treatment groups (p >0.4 for all three comparisons), but deaths of unfed sand flies in the group allocated to have DM treatment were significantly less (p = 0.020) than for the control group. The effect of this minor pretreatment bias was to make it harder to detect any significant increase in deaths as a result of DM treatment. With this caveat, we were unable to detect any significant differences in the death rate of unfed sand flies at 1 week. However, in comparison with untreated dogs, death of unfed sand flies was significantly increased by 41%, i.e., 4.1-fold (1.7 to 6.6) at 1 month by DM treatment (p = 0.004) and by 58%, i.e., 5.4-fold (2.3 to 7.6) by fenthion treatment (p = 0.001). The death rate of unfed sand flies at 2 months was significantly increased by 29%, i.e., 2.6-fold (1.02 to 4.7) by DM treatment (p = 0.046). Finally, we analyzed the combined effects of treatment on bloodfeeding and the deaths of bloodfed flies, i.e., how treatment affected the proportion of females that both took a bloodmeal and survived 24 hours. As expected, the diazinon collar had no effect at any time point. None of the treatments had a significant effect at I week (although the effects of DM and permethrin were of borderline significance: p = 0.064 and p = 0.053, respectively). At 1 month, DM (p <0.001), permethrin (p = 0.003), and fenthion (p <0.001) all caused a significant reduction, but the effect of DM was significantly greater than that of permethrin (p = 0.001). A significant reduction was again detected at 2 months for DM (p <0.001), permethrin (p = 0.008), and fenthion (p = 0.015); and the effect of DM was significantly greater than that of both permethrin (p = 0.019) and fenthion (p = 0.01). Discussion The observed reduction in Lu. intermedia bloodfeeding and increase in sand fly deaths support the hypothesis that topical insecticides, including collars, could protect dogs against leishmaniasis. Bloodfeeding rates of sand flies were reduced from 1 month posttreatment not only on dogs with collars impregnated im·preg·nate tr.v. im·preg·nat·ed, im·preg·nat·ing, im·preg·nates 1. To make pregnant; inseminate. 2. To fertilize (an ovum, for example). 3. with deltamethrin but also on dogs treated with topical lotions of permethrin and fenthion. No effect was detected for dogs with diazinon collars. Although no significant difference between the antifeeding effects of DM, permethrin, and fenthion was detected, the reduction due to DM was greater than that due to either permethrin or fenthion at both 1 month and 2 months after treatment (Table 2). The failure to detect any significant effect on bloodfeeding i week after treatment is probably due to the time required for the lipophilic lipophilic, adj/n the ability to dissolve or attach to lipids. lipophilic (lipōfil´ik), adj 1. showing a marked attraction to, or solubility in, lipids. 2. insecticides to spread in the dermal dermal /der·mal/ (der´mal) pertaining to the dermis or to the skin. der·mal or der·mic adj. Of or relating to the skin or dermis. secretions over the dog's body (22). The manufacturers currently recommend that the DM collar be put on approximately 2 weeks before an anticipated sand fly challenge. However, a significant fivefold fivefold Adjective 1. having five times as many or as much 2. composed of five parts Adverb by five times as many or as much Adj. 1. increase in death rates was detected for bloodfed sand flies on permethrin-treated dogs after 1 week, suggesting that topical application of permethrin lotion can have a relatively immediate effect. This effect is relatively short-lived, however, as no lethal effect on bloodfed sand flies was detected at 1 month or 2 months posttreatment, and no effect on unfed flies was detected at any time point. In contrast, topical fenthion application showed greater persistence, significantly increasing death rates of both unfed and bloodfed flies at 1 month after treatment. The lethal effect of the DM collar was the most persistent treatment, with significant effects on bloodfed flies after 1 month and on unfed flies at both 1 month and 2 months posttreatment. The failure to detect a significant impact on bloodfed flies after 2 months may be due to the relatively few bloodfed flies at that time point (due to the high antifeeding effect). The diazinon-treated collar did not affect the death rate of either bloodfed or unfed flies at any time. The first evidence that topical insecticides could be used to control ZVL came from experimental studies in China. After it was demonstrated that DM bath treatment reduced the bloodfeeding rate and survival rate of Phlebotomus chinensis sand flies exposed to an unnatural host (hamsters) (23), researchers found that the bloodfeeding rates of P. chinensis exposed to dogs for 8 hours were significantly reduced (from 62% to 4%) by dipping dogs in 25 ppm DM and that none of the sand flies (unfed or fed) exposed to treated dogs survived (18); this effect persisted for up to 104 days. Field evidence for the impact of topical insecticides comes from a community-based trial in China, where ZVL transmission was apparently interrupted after 2 years of treatment (two rounds per year) of all village dogs in 50 ppm DM baths (24). However, the trial results must be interpreted with caution, as no control villages were included in the study. In contrast to insecticide lotions, the effects of DM collars on sand fly bloodfeeding and survival persisted for up to 8 months under experimental conditions in France using colonized Colonized This occurs when a microorganism is found on or in a person without causing a disease. Mentioned in: Isolation P. perniciosus (25). Once collars had been applied for 2 weeks, blood-feeding consistently dropped by 90% and death rates increased by 51% during the experiment. When similar trials were carried out in Spain (26), the antifeeding effect dropped significantly from >90% during the first 4 months to 84% after 6 months, and the lethal effect dropped steadily from 76% after 2 weeks to 42% after 6 months. Both trials demonstrate that, when collars are used, the effects persist much longer than when dogs are dipped in DM. The potentially wide applicability of DM collars for protecting dogs against sand flies has since been demonstrated by experimental trials with P. papatasi in Iran (27). Comparisons of the results of our trial with those of similar studies with DM collars (25-27) are difficult because of differences in experimental protocols. For example, we used wild-caught Lu. intermedia, whereas Killick-Kendrick et al. (25) and Lucientes (26) used 7- to 15-day-old, colonized P. perniciosus. This may account for the relatively low lethal effect detected in our trial, as old and colonized flies tend to be more sensitive to low doses of insecticide. Second, whereas dogs were exposed to high sand fly densities (mean 155 female flies per dog recovered after 2 hours) in the study by Killick-Kendrick et al. (25), our dogs were exposed to low fly densities (mean 49 female flies per dog recovered after 7 hours). The longer exposure time in our experiments, which was chosen to increase sand fly bloodfeeding rates and contact time with the various treatments, may have contributed to the decreased sand fly recovery rates we observed. Third, in contrast to all previously reported studies, we chose not to sedate se·date v. To administer a sedative to; calm or relieve by means of a sedative drug. the dogs to make the trial conditions as natural as possible. This provides a further reason for the slightly lower recovery rates of sand flies after exposure, compared with previous studies. The potential protection against sand fly-transmitted diseases afforded by collars to individual dogs depends solely on their antifeeding effect. Although trials measuring impact on dog infection rates are still required, the entomologic en·to·mol·o·gy n. The scientific study of insects. en  to·mo·log results we report strongly
indicate that DM collars may be recommended to dog owners to protect
their dogs from leishmaniasis. This could include dog owners traveling
to leishmaniasis-endemic countries, such as 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. , as
imported leishmaniasis cases of dogs with a travel history to
Mediterranean leishmaniasis-endemic areas are increasingly common
(15,28). With the recent change in the United Kingdom quarantine laws,
this is likely to be of increasing concern to British dog owners.The putative epidemiologic impact of DM collars on leishmaniasis transmission will depend on reducing not only the number of sand flies feeding on dogs but also the survival of those flies that do feed so that they are less likely to transmit Leishmania when taking a subsequent bloodmeal on a susceptible dog or human. Combining the effects on the bloodfeeding and death rates, we calculate that DM collars reduced the number of bloodfed flies that survive 24 hours by an average of 91% at I month posttreatment and by 81% at 2 months posttreatment. This was greater than the reductions of 61% (not significant) and 37% (p = 0.010) for fenthion treatment, and 37% (p = 0.001) and 41% (p = 0.019) for permethrin treatment, at 1 month and 2 months, respectively. Thus, there appears to be a clear advantage in terms of effectiveness in using DM collars versus the two topical lotions. Another advantage of collars is that their presence on dogs, when following up treated dogs during a control campaign, is proof that the insecticide is applied. Balancing these advantages, pour-on lotions are probably easier to use, and wear and tear is not a concern. Further studies are clearly needed to decide the optimal mechanisms of insecticide application and delivery (topical lotions, sprays, powders, dips, collars, or ear tags) before widespread implementation can be recommended. In conclusion, the entomologic results reported here are sufficiently encouraging to warrant the undertaking of trials measuring the epidemiologic impact of communitywide DM collar implementation. Trials are required in a variety of endemic ZVL zones, as the impact of targeting domestic dogs in a given zone will be determined by the relative importance of sylvatic sylvatic /syl·vat·ic/ (sil-vat´ik) sylvan; pertaining to, located in, or living in the woods. sylvatic found in the woods; occurring in animals of the forest. canids or other mammals as alternative reservoir hosts. Where topical insecticide applications are shown to be effective in intervention trials, the choice of whether to use topical lotions or insecticide-impregnated dog collars as a public health tool will ultimately depend on 1) the relative strength and persistence of their effects on sand fly bloodfeeding and survival; 2) the cost of the intervention; and 3) the practical applicability of these tools in the field (e.g., the willingness of the community to apply the topical formulation to their dogs or the efficiency with which they replace collars that have detached). The implementation of any topical insecticide treatment (including collars) is more likely to have the consent of a population at risk than the highly unpopular dog culling policy that is currently practiced.
Table 1. Experimental dog trial comparing effects of topical
insecticide applications on feeding and survival rates of female
sand flies (a)
Dog TM 0 dpt 5-12 dpt
B U B U
1 C 40 (1) 37 (3) 37 (0) 38 (6)
2 C 43 (1) 34 (8) 28 (0) 27 (2)
3 C 31 (1) 44 (5) 24 (2) 40 (7)
4 DM 20 (1) 28 (2) 21 (2) 31 (10)
5 DM 24 (0) 54 (4) 16 (1) 27 (5)
6 DM 47 (1) 39 (2) 9 (1) 53 (7)
7 DM 26 (0) 28 (3) 3 (0) 20(10)
8 DM 25 (1) 34 (1) 14 (0) 26 (5)
9 DZ 38 (0) 40 (5) 32 (0) 20 (3)
10 DZ 26 (0) 38 (4) 36 (2) 8 (4)
11 DZ 16 (0) 34 (5) 15 (1) 21 (2)
12 PM 17 (0) 27 (6) 6 (2) 35 (7)
13 PM 16 (1) 39 (3) 10 (1) 24(11)
14 PM 22 (0) 14 (3) 15 (1) 31 (9)
15 F 22 (1) 47 (7) 15 (2) 15 (6)
16 F 29 (1) 22 (8) 27 (1) 15(13)
17 F 10 (1) 21 (2) 16 (0) 44 (5)
Dog TM 32-36 dpt 58-54 dpt
B U B U
1 C 25 (0) 34 (4) 23 (1) 30 (4)
2 C 26 (1) 39 (6) 25 (1) 33 (3)
3 C 30 (0) 29 (2) 14 (3) 37 (8)
4 DM 14 (3) 34(14) 8 (1) 36(11)
5 DM 7 (3) 37 (8) ND (b) ND (b)
6 DM 8 (2) 37(14) 5 (1) 43 (9)
7 DM 4 (2) 31(20) 4 (2) 34(15)
8 DM 6 (2) 26(23) 5 (1) 23(19)
9 DZ 23 (1) 18 (6) ND (c) ND (c)
10 DZ 29 (1) 27 (7) ND (c) ND (c)
11 DZ 13 (0) 39 (6) 17 (0) 29 (4)
12 PM 9 (1) 21 (4) 8 (1) 23 (8)
13 PM 21 (1) 38(19) 11 (0) 38(11)
14 PM 13 (2) 36(10) 10 (1) 39 (9)
15 F 6 (0) 17 (9) 9 (1) 28(13)
16 F 11 (4) 28(19) 16 (0) 37 (7)
17 F 4 (3) 15(10) 8 (3) 33 (8)
(a) Dead sand flies (after 24 hrs) are in parentheses.
(b) Dog 5 was killed by his owner
(c) Dogs 9 and 10 moved.
Abbreviations: B, bloodfed sand flies; C, control; DM,
deltamethrin-impregnated dog collar; dpt, days posttreatment; DZ,
diazinon-impregnated dog collar; F, fenthion topical lotion; PM,
permethrin topical lotion; ND, not done; TM, treatment; U, unfed
sand flies.
Table 2. Percentage reduction in sand fly bloodfeeding after
application of topical insecticide
Percent reduction in sand fly bloodfeeding (95% CI)
TM 5-12 dpt 32-36 dpt 58-65 dpt
DM 37.6 (5.3, 68.0) 56.7 (38.7, 70.5) 68.5 (42.8, 77.6)
DZ -37 (-77.1, 13.3) 1.4 (-23.1, 24.7) 3.4 (-40.1, 40.0)
PM 44.1 (-7.2, 76.2) 31.6 (7.8, 51.4) 49.2 (14.3, 61.6)
F 4.2 (44.8, 48.3) 41.4 (13.3, 62.9) 43.1 (53.0, 56.0)
Abbreviations: CI, confidence intervals; DM, deltamethrin-impregnated
dog collar; dpt, days post treatment; DZ, diazinon-impregnated dog
collar; F, fenthion topical lotion; PM, permethrin topical lotion;
TM, treatment.
Acknowledgments We thank Mycon Luiz Prina and the Companhia Melhoramentos Norte de Parana (Brazil) for logistical support; Pfizer (United Kingdom) and Intervet International GmbH (Germany) for supplying the collars used in the study; and Paul Coleman and Diarmid Campbell-Lendrum for comments on the manuscript. This study was funded by the Sir Halley Stewart Trust and the LSHTM LSHTM London School of Hygiene and Tropical Medicine Sir Patrick Manson Noun 1. Sir Patrick Manson - Scottish physician who discovered that elephantiasis is spread by mosquitos and suggested that mosquitos also spread malaria (1844-1922) Manson Bequest bequest: see legacy. Fund. References (1.) Ashford RW. Leishmaniasis reservoirs and their significance in control. Clin Dermatol 1996;14:523-32. (2.) World Health Organization. The world health report 2000. Health systems: improving performance. 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. : The Organization; 2000. Also available at URL URL in full Uniform Resource Locator Address of a resource on the Internet. The resource can be any type of file stored on a server, such as a Web page, a text file, a graphics file, or an application program. : http://www.who.int/htr (3.) Desjeux P. Leishmaniasis. Public health aspects and control. Clin Dermatol 1996;14:417-23. (4.) Arias JR, Monteiro PS, Zicker F. The reemergence of visceral leishmaniasis in Brazil. Emerg Infect Dis 1996;2:145-6. (5.) Alvar J, Canavate C, Gutierrez-Solar B, Jimenez M, Laguna F, Lopez-Velez R, et al. Leishmania and human immunodeficiency virus human immunodeficiency virus n. HIV. Human immunodeficiency virus (HIV) A transmissible retrovirus that causes AIDS in humans. coinfection: the first ten years. Clin Microbiol Rev 1997; 10:298-319. (6.) Reithinger R, Davies CR. Is the domestic dog (Canis familiaris) a reservoir host of American cutaneous leishmaniasis? A critical review of the current evidence. Am J Trop Mad Hyg 1999;61:530-41. (7.) Dereure J, Rioux JA, Gallego M, Perieres J, Pratlong F, Mahjour J, et al. Leishmania tropica Leishmania trop·i·ca n. The protozoan that includes subspecies that cause anthroponotic cutaneous leishmaniasis. in Morocco: infection in dogs. Trans R Soc Trop Mad Hyg 1991;85:595. (8.) Gradoni L. Epizootiology of canine leishmaniasis in Southern Europe. In: Killick-Kendrick R, editor. Canine leishmaniasis: an update. Wiesbaden: Hoechst Roussel Vet; 1999. p. 32-9. (9.) Rooney J, Schantz PM, Jackson J, Breitschwerdt E, Steurer F, et al. Visceral leishmaniasis in the United States--a multistate outbreak in dogs. Am J Trop Med Hyg 2000;62 Suppl:269. (10.) Tesh RB. Control of zoonotic visceral leishmaniasis: is it time to change strategies? Am J Trop Mad Hyg 1995;52:287-92. (11.) Dye C. The logic of visceral leishmaniasis control. Am J Trop Mad Hyg 1996;55:125-30. (12.) Dietze R, Barros GA, Teixeira L, Harris J, Michelson K, Falqueto A, et al. Effect of eliminating seropositive seropositive /se·ro·pos·i·tive/ (-poz´i-tiv) showing positive results on serological examination; showing a high level of antibody. se·ro·pos·i·tive adj. canines on the transmission of visceral leishmaniasis in Brazil. Clin Infect Dis 1997;25:1240-2. (13.) Ashford DA, David JR, Freire M, David R, Sherlock I, Eulalio MC, et al. Studies on the control of visceral leishmaniasis: impact of dog control on canine and human visceral leishmaniasis in Jacobina, Brazil. Am J Trop Mad Hyg 1998;59:53-7. (14.) Vieira JB, Coelho GE. Leishmaniose visceral o calazar: aspectos epidemiologicos e de controle. Rev Soc Bras Mad Trop 1998;31 Suppl II:85-92. (15.) Slappendael RJ, Teske E. The effect of intravenous or subcutaneous administration of meglumine antimonate (Glucantime) in dogs with leishmaniasis. A randomized clinical trial randomized clinical trial, n a clinical study where volunteer participants with comparable characteristics are randomly assigned to different test groups to compare the efficacy of therapies. . Vet Q 1997;19:10-3. (16.) Reithinger R. Control of leishmaniasis. Vet Rec 1999;144:732. (17.) Modabber F. First generation leishmaniasis vaccines in clinical development: moving, but what next. Current Opinion in Anti-Infective Investigational Drugs 2000;2:35-9. (18.) Guanghua X, Changfa J, Xinzhong C, Zyhongwei S, Yumei H. Deltamethrin bath of domestic dog in the prevention of sand fly bite. Endemic Disease Endemic disease An infectious disease that occurs frequently in a specific geographical locale. The disease often occurs in cycles. Influenza is an example of an endemic disease. Bulletin 1994;9:32-4. (19.) Marsella R. Advances in flea control. Vet Clin North Am Small Anim Pract 1999;29:1407-24. (20.) Campbell-Lendrum DH, Pinto pinto Spotted horse, also called paint, piebald, skewbald, and other terms to describe variations in colour and markings. The American Indian ponies of the western U.S. were often pintos. Most pure-breed associations refuse to register horses with pinto colouring. MC, Brandao-Filho SP, De Souza De Souza or D'Souza is a common Portuguese family name. Although it is still quite common outside Portugal -- especially in Brazil and India --, Souza is the old spelling of present-day Sousa. AA, Ready PD, Davies CR. Experimental comparison of anthropophily between geographically dispersed populations of Lutzomyia whitmani (Diptera: Psychodidae). Mad Vet Entomol 1999;13:299-309. (21.) Crawley MJ. GLIM glim n. 1. A source of light, as a candle. 2. The illumination given off by such a source. [Perhaps short for glimmer.] for ecologists. Oxford: Blackwell Science; 1993. (22.) Miller TA, Salgado VL. The mode of action of pyrethroids pyrethroids synthetic substances with activity similar to the naturally occurring pyrethrins. They include cypermethrin, cyhalothrin, deltamethrin, flumethrin, permethrin. on insects. In: Leahey JP, editor. The pyrethroid py·re·throid n. Any of several synthetic compounds similar to pyrethrin, used as an insecticide. insecticides. London: Taylor & Francis; 1985. p. 43-97. (23.) Changfa J, Guanghua X, Yumei H, Zhongwei S. Studies on the effect of deltamethrin bath treatment of hamsters infected with Leishmania donovani Leishmania don·o·van·i n. The protozoan that includes subspecies that cause visceral leishmaniasis. for interrupting kala-azar transmission. Chinese Journal 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 and Parasitic Diseases 1994;12:300-2. (24.) Guanghua X, Changfa J, Yumei H, Zyhongwei S, Peize X, Weikun X, et al. Studies on the deltamethrin-medicated bath of domestic dogs for interrupting visceral leishmaniasis transmission. Chinese Journal of Parasitology and Parasitic Diseases 1995;13:178-81. (25.) Killick-Kendrick R, Killick-Kendrick M, Focheux C, Dereure J, Puech M-P M-P Mcculloch-Pitts Neuron Model (artificial intelligence) , Cadiergues MC. Protection of dogs from bites of phlebotomine sand flies by deltamethrin collars for control of canine leishmaniasis. Med Vet Entomol 1997; 11:15-111. (26.) Lucientes J. Laboratory observations on the protection of dogs from the bites of Phlebotomus perniciosus with Scalibor protector bands: preliminary results. In: Killick-Kendrick R, editor. Canine leishmaniasis: an update. Wiesbaden: Hoechst Roussel Vet; 1999. p. 92-4. (27.) Halbig P, Hodjati MH, Mazloumi-Gavgani AS, Mohite H, Davies CR. Further evidence that deltamethrin-impregnated collars protect domestic dogs from sand fly bites. Med Vet Entomol 2000;14:223-6. (28.) Gothe R, Nolte I, Kraft W. Leishmaniasis in dogs in Germany: epidemiological case analysis and alternatives to conventional causal therapy. Tierartzliche Praxis prax·is n. pl. prax·es 1. Practical application or exercise of a branch of learning. 2. Habitual or established practice; custom. 1997;25:68-73. Mr. Reithinger is a doctoral student at the London School of of Hygiene & 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 . He has been working on leishmaniasis epidemiology research projects in South America South America, fourth largest continent (1991 est. pop. 299,150,000), c.6,880,000 sq mi (17,819,000 sq km), the southern of the two continents of the Western Hemisphere. . His research interests include molecular diagnostics, epidemiology, immunology, control, and economics of infectious diseases infectious diseases: see communicable diseases. . Address for correspondence: Richard Reithinger, Disease Control & Vector Biology, Infectious & Tropical Diseases, London School of Hygiene & Tropical Medicine, Keppel Street, London WC1E 7HT, United Kingdom; fax: 44-20-7467-9536; e-mail: rreithinger@yahoo.co.uk |
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