Probable dengue virus infection among Italian troops, East Timor, 1999-2000. (Dispatches).To investigate the attack rate and risk factors for probable dengue fever dengue fever (dĕng`gē, –gā), acute infectious disease caused by four closely related viruses and transmitted by the bite of the Aedes mosquito; it is also known as breakbone fever and bone-crusher disease. , a cross-sectional study cross-sectional study n. See synchronic study. cross-sectional study, n the scientific method for the analysis of data gathered from two or more samples at one point in time. was conducted of an Italian military unit after its deployment to East Timor. Probable dengue dengue or breakbone fever or dandy fever Infectious, disabling mosquito-borne fever. Other symptoms include extreme joint pain and stiffness, intense pain behind the eyes, a return of fever after brief pause, and a characteristic rash. was contracted by 16 (6.6%) of 241 army troops and caused half of all medical evacuations (12/24); no cases were detected among navy and air force personnel. ********** Dengue fever (DF), caused by dengue virus dengue virus n. A virus of the genus Flavivirus that is the cause of dengue. (DENV DENV Department of Environment (Canada) ) serotypes 1 to 4, is an emerging public health problem in many tropical countries (1). Dengue hemorrhagic fever hemorrhagic fever (hĕm'ərăj`ĭk), any of a group of viral diseases characterized by sudden onset, muscle and joint pain, fever, bleeding, and shock from loss of blood. (DHF DHF dihydrofolate or dihydrofolic acid. ) and dengue shock syndrome (DSS (1) (Digital Signature Standard) A National Security Administration standard for authenticating an electronic message. See RSA and digital signature. (2) (Digital Satellite S ), the severe manifestations of DENV infection, were first recognized in the 1950s in Southeast Asia and are today a leading cause of childhood illness and death in many tropical countries. More recently, DHF and DSS have emerged in Central and South America and in the Pacific region (2,3). DF is also recognized as an emerging health problem for international travelers (4,5) and for troops deployed to tropical countries (6,7). In 1999, following a United Nations Security Council recommendation, the International Force for East Timor INTERFET (standing for INTERnational Force for East Timor) was a multinational peacekeeping taskforce, mandated by the United Nations to address the humanitarian and security crisis which took place in East Timor from 1999–2000 until the arrival of United Nations (INTERFET INTERFET International Force in East Timor INTERFET International Field-Effect Transistor Corporation ) was formed to restore peace on the island. In November 1999, INTERFET troops totaled 11,000 from 17 countries. The Italian Armed Forces contributed 640 soldiers. DF is endemic in East Timor. The peak transmission periods for DF are July-August and December-January, corresponding to the rainy months (8). In 1998, at least 11% of hospital inpatient deaths in East Timor were attributed to DHF (9). In October 1999, a localized outbreak of DF in a western district was attributed to serotype serotype /se·ro·type/ (ser´o-tip) the type of a microorganism determined by its constituent antigens; a taxonomic subdivision based thereon. se·ro·type n. See serovar. v. 3 (9) and serotype 2 was isolated in December 1999 (10). Serotypes 2 and 3 were also responsible for DF cases among Australian troops returning from East Timor in January--February 2000 (11). During deployment, a high attack rate of febrile febrile /feb·rile/ (feb´ril) pertaining to or characterized by fever. feb·rile adj. Of, relating to, or characterized by fever; feverish. illness consistent with DF was reported among Italian troops. A seroepidemiologic survey was therefore conducted in February 2000 among soldiers returning home, in an attempt to determine the cause of this outbreak and to define infection rates and risk factors for infection. The Study All Italian troops eligible for deployment are routinely vaccinated against diphtheria/tetanus, tetravalent tetravalent /tet·ra·va·lent/ (tet?rah-va´lent) having a valence of four. tet·ra·va·lent adj. Having a valence of four; quadrivalent. tetravalent having a valence of four. meningococcal meningitis meningococcal meningitis n. An acute infectious disease affecting children and young adults characterized by inflammation of the meninges of the brain and spinal cord, headache, vomiting, convulsions, stiff neck, light sensitivity, and purpuric , measles/mumps/rubella, hepatitis A and B, polio (with inactivated inactivated rendered inactive; the activity is destroyed. inactivated viruses treated so that they are no longer able to produce evidence of growth or damaging effect on tissue. virus), typhoid fever typhoid fever acute, generalized infection caused by Salmonella typhi. The main sources of infection are contaminated water or milk and, especially in urban communities, food handlers who are carriers. (orally), and yellow fever (YF). In this situation, troops were also vaccinated against Japanese encephalitis (JE) (Nakajama strain, 3 doses on days 0, 7, and 14)just before landing in East Timor. DF prevention consisted of the use of personal protection measures against mosquitoes (repellents applied to the skin; permethrin-treated bed nets and uniforms) along with environmental mosquito control. Adulticide spraying was conducted weekly by pesticide-dispersal units but only within the campsite and in its nearest surroundings, which were also inspected daily to reduce or eliminate breeding sites of vectors. Italian troops were deployed in East Timor from late September 1999 to mid-February 2000, and all 640 participating military personnel were eligible for inclusion in the study. Army soldiers were permanently based on the ground and operated in Dili and surrounding areas, while air force and navy personnel had only logistical tasks and their presence in Dili was episodic, since they were mainly aboard ship or based in Darwin (Australia). A seroepidemiologic survey was conducted February 15-28, 2000, among troops returning to Italy after their 3-month period of duty in East Timor. After informed consent was obtained, peripheral blood specimens were drawn and a written questionnaire administered. The questionnaire asked for personal health data, including all symptoms experienced during deployment and information about compliance with personal protection measures. Immunization immunization: see immunity; vaccination. status and clinical data concerning febrile illness cases consistent with DF were obtained from standardized records kept by medical personnel. Soldiers and navy/air force personnel were studied according to their serologic se·rol·o·gy n. pl. se·rol·o·gies 1. The science that deals with the properties and reactions of serums, especially blood serum. 2. status and disease status during deployment. All specimens were screened for antibodies to dengue virus serotype 2 (DEN-2), yellow fever virus yellow fever virus n. An arbovirus of the genus Flavivirus that causes yellow fever and is transmitted by mosquitoes. (YVF), and West Nile virus West Nile virus, microorganism and the infection resulting from it, which typically produces no symptoms or a flulike condition. The virus is a flavivirus and is related to a number of viruses that cause encephalitis. (WNV WNV West Nile Virus WNV World Net Visions ) by hemagglutination-inhibition test (HI). All serum specimens positive for DEN-2 were tested by neutralization test (NT) for DEN-2. Additionally, serum samples from participants who had experienced an acute clinical syndrome suggestive of DF were directly tested by NT for antibodies to DEN-2. Serum specimens negative for DEN-2 were then tested for neutralizing antibodies to dengue virus serotypes 1, 3, and 4 (DEN-1 DEN-3 and DEN-4). The HI test was performed by the method of Clarke and Casals (12) and NT as 90% plaque reduction neutralization test (PRNT) on Vero cells. Briefly, serum specimens (twofold dilutions) and virus ([10.sup.2] PFU PFU plaque-forming unit; in virology, areas of cell lysis (CPE) in monolayer cell culture, under overlay conditions, initiated by infection with a single virus particle. ) were incubated overnight at 4[degrees]C, injected onto monolayers of Vero cells, and overlaid with 1% Tragacanth tragacanth (trăg`əkănth) or gum tragacanth, gummy exudation from the leguminous shrub Astragalus gummifer and related pulse family plants of SE Europe and W Asia. gum (Sigma-Aldrich S.r.I., Milan, Italy). Seven days postinfection, cells were washed with saline and stained with 1% crystal violet in 20% ethanol (DEN-2 and DEN-3) or by immunodetection assay (DEN-1 and DEN-4) as described (13). Vero cells were propagated in minimum essential medium with Earle's salts (EMEM), supplemented with nonessential amino acids, 10% fetal calf serum, 100 IE/mL of penicillin G, and 100 IE/mL of streptomycin streptomycin (strĕp'tōmī`sĭn), antibiotic produced by soil bacteria of the genus Streptomyces and active against both gram-positive and gram-negative bacteria (see Gram's stain), including species resistant to other . The following viruses were used in the study: DEN-1 (Hawaii), DEN-2 (NGB), DEN-3 (H87), DEN-4 (H241), YF (Asibi), and WN (Bratislava). Viruses were injected into suckling suckling In mammals, the drawing of milk into the mouth from the nipple of a mammary gland. In human beings, it is referred to as nursing or breast-feeding. The word also denotes an animal that has not yet been weaned—that is, whose access to milk has not yet been mice by the intracerebral in·tra·cer·e·bral adj. Existing within the cerebrum. route. For NT, viral stocks were prepared as 10% brain suspension in Hank's saline+7.5% bovine serum albumin (Sigma-Aldrich). For HI, test antigens were prepared by sucrose-acetone extraction from mouse infected brains (12). Monoclonal antibodies specific for DEN-1 or broadly reactive with flaviviruses were purchased from ATCC ATCC American Type Culture Collection, see there (ATCC HB112, ATCC HB47) and used as mouse ascitic as·ci·tes n. pl. ascites An abnormal accumulation of serous fluid in the abdominal cavity. [Middle English aschites, from Late Latin asc fluid after injection into adult BALB/c mice. Undetermined febrile illness was defined as an acute clinical syndrome with temperature >38.5[degrees]C, unrelated to diarrhea, malaria, or other identified infections. Suspected dengue (14) was defined as an undetermined febrile illness of 2-7 days' duration, associated with two or more of the following manifestations: headache, retroorbital pain, myalgia myalgia /my·al·gia/ (mi-al´jah) muscular pain.myal´gic epidemic myalgia see under pleurodynia. my·al·gia n. , arthralgia arthralgia /ar·thral·gia/ (ahr-thral´jah) pain in a joint. ar·thral·gia n. Severe pain in a joint. Also called arthrodynia. , cutaneous cutaneous /cu·ta·ne·ous/ (ku-ta´ne-us) pertaining to the skin. cu·ta·ne·ous adj. Of, relating to, or affecting the skin. Cutaneous Pertaining to the skin. rash. Antibody levels [greater than or equal to] 1:1,280 dilutions by HI (1,15) for DEN-2 and [greater than or equal to] 1:20 dilutions by NT to at least one of the four DENV serotypes were considered supportive serologic evidence of a recent dengue infection. Probable dengue (1,14) was defined as a case compatible with the clinical description of suspected DF and serologic findings supportive of a recent dengue infection. The prevalence of undetermined febrile illness, suspected dengue, and probable dengue was compared by chi-square test among army and navy/air force personnel. Since navy and air force personnel had a limited exposure to the environment of East Timor, risk factors for probable dengue were studied only in the army contingent. A univariate analysis was first performed by Fisher exact test; each risk variable was crossed with the prevalence of probable dengue. Significance was tested at a level of [alpha]=0.05. A multiple logistic regression model was used to determine the relationship between the outcome of probable dengue and a set of explanatory variables, and test the significance of each variable while simultaneously accounting for demographic and risk factors. The following variables were included in the model: age, rank, previous deployments in dengue-endemic areas, YF/JE vaccination, night guards, skin repellents/permethrin-treated uniforms/bed nets use, and operational versus logistic tasks. To identify a subset of variables significantly related to probable DF, the stepwise stepwise incremental; additional information is added at each step. stepwise multiple regression used when a large number of possible explanatory variables are available and there is difficulty interpreting the partial regression procedure was performed with the likelihood ratio test, by using at each step the p value of 0.05 as entry criterion and the p value of 0.10 as removal criterion. Univariate statistical analysis was performed with EpiInfo 6.04d software (Centers for Diseases Control and Prevention, Atlanta, GA, January, 2001) and multivariate analysis by SPSS A statistical package from SPSS, Inc., Chicago (www.spss.com) that runs on PCs, most mainframes and minis and is used extensively in marketing research. It provides over 50 statistical processes, including regression analysis, correlation and analysis of variance. 11.0 software (SPSS Inc., Chicago, IL). Conclusions Of 640 eligible participants (280 army, 93 air force, and 267 navy), 595 (93%) were included in the study: 241 army, 88 air force, and 266 navy personnel (Table 1). Serum specimens and questionnaires were obtained within 2 weeks after the troops' return, in late February 2000. Some (14.5%) of the troops had previously been deployed to DF-endemic areas, primarily Somalia and Mozambique in 1992-1994. According to their immunization status versus YF and JE viruses, 100 (41.5%) of the 241 army soldiers had received vaccinations against YFV YFV Yellow Fever Virus and JEV JEV Jesuit European Volunteers JEV Joinville Eau Vive (France) , 119 (49.4%) had been vaccinated against JEV only, 2 (0.8%) against YF only, and 20 (8.3%) had not been vaccinated. Undetermined febrile illness was more frequently reported (p<0.01) among army soldiers than among navy and air force personnel: 85 (35.3%) of 241 versus 13 (3.7%) of 354, respectively. All participants with suspected dengue (n:30), with serologic results supportive of a recent dengue infection (n=27), and with a probable case of dengue n= 16), belonged to the army group (Table 2). The 16 participants with probable dengue showed also a significant increase (p<0.01 ) in HI antibody titers to YFV ([greater than or equal to] 1:1,280 in 15/16 infected soldiers vs. 14/225 uninfected soldiers) and WNV ([greater than or equal to] 1:1,280 in 10/16 vs. 6/225). The average interval between the onset of clinical manifestations suggestive of DF and the date when blood samples were taken was 30 [+ or -] 23 clays. All 16 case-patients with probable DF had a fever >38.5[degrees]C; a saddle-back fever pattern was recorded for 5 (31.3%). Other reported symptoms included myalgia and rash in 13 (81.3%); headache in 11 (68.8%); retroorbital pain in 9 (56.3%), and adenopathy in 3 (18.8%). No patients had DHF/DSS. The mean duration of probable DF cases was 7 [+ or -] 3 days. Moreover, 12 of the 16 patients with probable DF were evacuated because of their clinical status. Univariate analysis of risk factors for probable DF suggested a possible protective effect of JEV vaccination and personal protection measures (Table 3). However, logistic regression analysis identified only a subset of variables significantly related to probable dengue, whose risk was higher among soldiers on duty in operational rather than logistic units, and lower among participants with regular use of bed nets (Table 4). Since most of soldiers had been previously vaccinated with a flavivirus vaccine (YFV, JEV, or both), their immune response to an eventual dengue infection was expected to be a secondary (anamnestic anamnestic /an·am·nes·tic/ (an?am-nes´tik) 1. pertaining to anamnesis. 2. aiding the memory. an·am·nes·tic adj. 1. ) response, with high-titer antibodies cross-reacting with several DENV serotypes, as well as other flaviviruses (15). Thus, in spite of the lack of paired serum specimens, high antibody titers to DEN-2 by HI ([greater than or equal to] 1:1,280) (1,16) and to any of the four dengue virus serotypes by NT ([greater than or equal to] 1:20), after an average of 36 days from the onset of clinical manifestations compatible with dengue infection, may be considered supportive serology Serology The division of biological science concerned with antigen-antibody reactions in serum. It properly encompasses any of these reactions, but is often used in a limited sense to denote laboratory diagnostic tests, especially for syphilis. of a recent flavivirus infection, likely acquired during deployment. Overall, 6.6% of army soldiers contracted probable dengue. No cases of probable DF were detected in the low-exposure group of navy and air force personnel. The high attack rate of probable dengue among the army contingent may be due to several reasons. First, DF and DHF/DSS are epidemic throughout Southeast Asia (3), including Indonesia (17); in particular, the incidence of DF markedly increased in East Timor in 1998-1999 (18). Secondly, the multinational deployment to East Timor took place during the rainy season (December-January), when the risk of infection is high. Approximately 60% of troops with supportive serologic evidence of a recent dengue infection showed the clinical manifestations of classic DF, 20% had milder symptoms, and 20% were asymptomatic. This finding agrees with the U.S. troops' experience in Somalia in 1993, where >85% of all DENV infections were symptomatic (6). In contrast, the overall ratio of inapparent inapparent not clearly seen. inapparent infection infection without clinical signs. to clinical DENV infections is quite high in persons living in disease-endemic areas, as in Indonesia, where it has been reported to be as high as 9.3 (17). Performing duties outside the camp was associated with a significantly higher risk of infection, probably because vector control activities were regularly carried out within the compound. Regular use of bed nets was the only personal protection measure that significantly decreased the risk of contracting probable dengue. This finding is not new (6) and may have been because some of the troops were frequently on duty at night and thus slept during the day when the biting activity of dengue vectors is highest. Otherwise, the regular use of repellents (applied to the skin) and permethrin-treated uniforms seemed to decrease the risk for dengue infection, but the differences between those who did not follow these practices and those who did were not significant statistically. DF is therefore an emerging problem for troops deployed to dengue-endemic areas, mainly because of the lack of effective preventive measures, the high attack rate, the high symptomatic/inapparent infection ratio, and the long period of being unfit for duty after the acute phase of the disease. DF may thus seriously disrupt the readiness of a military unit. Moreover, previously infected soldiers redeployed to disease-endemic areas may be at increased risk for DHF/DSS complications. Persons previously infected by a DENV serotype may be at higher risk of developing DHF/DSS, if they are subsequently infected by a different serotype. Such risks should be taken into account while planning international peace-keeping operations, and the risk of DHF among previously dengue-infected military personnel should be evaluated. Cross-reaction by antiflavivirus antibodies induced by JEV vaccine may otherwise afford some cross-protection against DF. JEV vaccine (Nakajama strain) seems to decrease the attack rate of DHF and reduce the severity of cases for a short time (19). More recently, researchers have noted that prior vaccination of hamsters with a live, attenuated Attenuated Alive but weakened; an attenuated microorganism can no longer produce disease. Mentioned in: Tuberculin Skin Test attenuated having undergone a process of attenuation. JEV vaccine strain (not licensed for human use) and a St. Louis encephalitis St. Louis encephalitis see St. Louis encephalitis. virus wild strain seems to reduce the severity of a subsequent WNV infection (20). Our data suggest that prior vaccination with the commercially available JEV inactivated vaccine for human use (Nakajama strain) may have some protective effect against subsequent probable DF. The decrease was, however, not significant, according to the multiple logistic regression model we used. Our data suggest that effectiveness of routine protective measures against vector mosquitoes is far from satisfactory. A tetravalent dengue vaccine is needed to effectively reduce the risk for DF and DHF/DSS among troops deployed to tropical areas as well as to protect long-term international travelers to dengue-endemic countries.
Table 1. Characteristics of Italian military personnel, East Timor,
1999-2000
Feature Army Navy
No. participants 241 266
Mean age 27 [+ or -] 7 28 [+ or -] 7
(years [+ or -] sd)
Time of deployment 22/Sep/99-16/Feb/00 21/Oct/99-19/Feb/00
Mean duration of deployment 100 [+ or -] 25 109 [+ or -] 14
(days [+ or -] sd)
Person months 803 968
Presence in East Timor for 241 0
[greater than or equal
to] 90 days (no.
soldiers)
Episodical presence in East 0 266
Timor (no. soldiers)
Feature Air Force Total
No. participants 88 595
Mean age 35 [+ or -] 7 --
(years [+ or -] sd)
Time of deployment 19/Sep/99-17/Feb/00 --
Mean duration of deployment 41 [+ or -] 23 --
(days [+ or -] sd)
Person months 102 1,873
Presence in East Timor for 0 241
[greater than or equal
to] 90 days (no.
soldiers)
Episodical presence in East 88 354
Timor (no. soldiers)
Table 2. Clinical and serologic findings of recent dengue infection
among Italian troops
Serologic findings of recent
dengue infection (a)
No. No. not
Clinical assessment supportive (%) supportive (%) Total no. (%)
Undetermined febrile 6 (22.2) 49 (22.9) 55 (22.8)
illness (a)
Suspected dengue (b) 16 (59.3) 14 (6.5) 30 (12.4)
Asymptomatic 5 (18.5) 151 (70.6) 156 (64.7)
Total 27 (100) 214 (100) 241 (100)
(a) All military personnel with supportive serologic findings belonged
to the army contingent (N=241). Probable dengue cases are represented
by the 16 soldiers with clinical manifestations compatible with DF
(suspected dengue) and serologic findings supportive of a recent dengue
infection.
(b) Cases are defined in the section "Materials and Methods."
Table 3. Risk factors associated with probable dengue
(univariate analysis)
No. cases of
probable
DF/no.
Demogaphic and risk soldiers p value
factors exposed (%) OR 95% CI (b)
Age, <26 y
Yes 10/124 (8.1) 1.62
No 6/117 (5.1) (0.51 to 5.61) 0.26
Lower rank (enlisted men
vs. NCOs/officers)
Yes 9/145 (6.2) 0.84
No 7/96 (7.3) (0.27 to 2.76) 0.47
Previous deployments in
dengue-endemic areas
Yes 3/44 (6.8) 1.04
No 13/197 (6.6) (0.18 to 4.01) 0.59
YFV vaccination
Yes 5/102 (4.9) 0.60
No 11/139 (7.9) (0.16 to 1.95) 0.26
JEV vaccination
Yes 9/219 (4.1) 0.09
No 7/22 (31.8) (0.03 to 0.34) <0.01
Night guard at least
once a week
Yes 6/142 (4.2) 0.39
No 10/99 (10.1) (0.11 to 1.25) 0.06
Skin repellents, regular
use (at least once a day)
Yes 9/209 (4.3) 0.16
No 7/32 (21.9) (0.05 to 0.56) <0.01
Use of permethrin-treated
uniform
Yes 9/186 (4.8) 0.35
No 7/55 (12.7) (0.11 to 1.17) 0.05
Bed nets, regular use
(every night)
Yes 9/223 (4.0) 0.07
No 7/18 (38.9) (0.02 to 0.26) <0.01
On duty in operational
vs. logistic units
Yes 15/179 (8.4) 5.55
No 1/62 (1.6) (0.82 to 238.67) 0.05
(a) DF, dengue fever; OR, odds ratio; CI, confidence interval; NCOs,
noncommissioned officers; YFV, yellow fever virus; JEV, Japanese
encephalitis virus.
(b) Fisher exact test.
Table 4. Risk factors associated with probable dengue by
multivariate analysis (a)
Risk factors OR estimate p value
On duty in operational vs. logic units 11.29 <0.05
Bed nets, regular vs. nonregular use 0.04 <0.01
(a) OR, odds ratio.
Acknowledgements We thank David Vaughn, Ashley Croft, and Tom Jefferson for critical review of the manuscript and Antonino Bella and Fortunato "Paolo" D'Ancona for statistical analysis. References (1.) Gibbons RV, Vaughn DW. Dengue: an escalating problem. BMJ BMJ n abbr (= British Medical Journal) → vom BMA herausgegebene Zeitschrift 2002;324:1563--6. (2.) Gubler DJ and Clark GG. Dengue/dengue hemorragic fever: the emergence of a global health problem. Emerg Infect Dis 1995;1:55-7. (3.) World Health Organization. Dengue/dengue haemorragic fever: situation in 2000. Wkly Epidemiol Rec 2000;75:193-200. (4.) Potasman I, Srugo I, Schwartz E. Dengue seroconversion seroconversion /se·ro·con·ver·sion/ (-con-ver´zhun) the change of a seronegative test from negative to positive, indicating the development of antibodies in response to immunization or infection. among Israeli travelers to tropical countries. Emerg Infect Dis 1999;5:824-7. (5.) Jelinek T. Dengue fever in international travelers. Clin Infect Dis 2000;31:144-7. (6.) Sharp TW, Wallace MR, Hayes CG, Sanchez JL, DeFraites RF, Arthur RR, et al. Dengue fever in U.S. troops during operation Restore Hope The United Nations intervention in Somalia (code-named OPERATION RESTORE HOPE) was a United Nations–sanctioned United States military operation from 9 December 1992 to 4 May 1993. , Somalia, 1992-1993. Am J Trop Med Hyg 1995;53:89-94. (7.) Trofa AF, DeFraites RF, Smoak BL, Kanesa-thasan N, King AD, Burrous JM, et al. Dengue fever in US military personnel in Haiti. JAMA JAMA abbr. Journal of the American Medical Association 1997; 277:1546-8. (8.) World Health Organization, Dill Office, East Timor. East Timor health sector situation report: January-June 2000. Available from: 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/eha/emergenc/etimor/14082000.htm (9.) World Health Organization, Dill Office, East Timor. Weekly Report 45. 1999. Available from: URL: http://www.who.int/eha/emergenc/ etimor/191199.htm (10.) World Health Organization, Dili Office, East Timor. Weekly Report 50-52 1999 & 01 2000. Available from: URL: http://www.who.int/eha/emergenc/etimor/141200.htm (11.) Hills S, Piispanen J, Foley P, Smith G, Humphreys J, Simpson J, et al. Public health implications of dengue in personnel returning from East Timor. Communicable Disease Intelligence [serial online] 2000;24:365-8. Available from: URL: http:// http://www.health.gov.au/pubhlth/cdi/cdi2000.htm#december (12.) Clarke DH, Casals J. Techniques for the hemagglutination hemagglutination /he·mag·glu·ti·na·tion/ (he?mah-gloo-ti-na´shun) agglutination of erythrocytes. he·mag·glu·ti·na·tion n. and hemagglutination-inhibition with arthropod-borne viruses. Am J Trop Med Hyg 1958;7:561-77. (13.) Despres P, Frenkiel MP and Deubel V. Differences between cell membrane fusion activities of two Dengue type-1 isolates reflect modification of viral structure. Virology virology, study of viruses and their role in disease. Many viruses, such as animal RNA viruses and viruses that infect bacteria, or bacteriophages, have become useful laboratory tools in genetic studies and in work on the cellular metabolic control of gene expression 1993; 196:209-19. (14.) World Health Organization. Recommended surveillance standards. 2nd edition. 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; 1999. p. 39. (15.) World Health Organization. Laboratory diagnosis. In: Dengue haemorragic fever. Diagnosis, treatment, prevention and control. 2nd edition. Geneva: The Organization, 1997. p. 34-47. (16.) Gubler DJ. Dengue and dengue hemorrhagic fever. Clin Microbiol Rev 1998;11:480-96. (17.) Corwin AL, Larasati RP, Bangs M J, Wuryadi S, Arjoso S, Sukri N, et al. Epidemic dengue transmission in southern Sumatra, Indonesia. Trans R Soc Trop Med Hyg 2001;95:257-65. (18.) Krause V. Increase in dengue fever notifications in visitors to East Timor. Northern Territory Disease Control Bulletin [serial online] 2000;7:6-7. Available from: URL: http://http://www.nt.gov.au/health/cdc/bulletin/june_2000.pdf (19.) Hoke hoke tr.v. hoked, hok·ing, hokes Slang To give an impressive but artificial, false, or deceptive quality to: hoked up some phony allegations. CH, Nisalak A, Sangawhipa N, Jatanasen S, Laorakapongse T, Innis BL, et al. Protection against Japanese encephalitis by inactivated vaccine. N Engl J Med 1988;319:608-14. (20.) Tesh RB, Travassos da Rosa APA (All Points Addressable) Refers to an array (bitmapped screen, matrix, etc.) in which all bits or cells can be individually manipulated. APA - Application Portability Architecture , Guzman H, Araujo TP, Xiao SY. Immunization with heterologous heterologous /het·er·ol·o·gous/ (het?er-ol´ah-gus) 1. made up of tissue not normal to the part. 2. xenogeneic. het·er·ol·o·gous adj. 1. Flaviviruses protective against fatal West Nile encephalitis encephalitis (ĕnsĕf'əlī`təs), general term used to describe a diffuse inflammation of the brain and spinal cord, usually of viral origin, often transmitted by mosquitoes, in contrast to a bacterial infection of the meninges . Emerg Infect Dis 2002;8:245-51. Address for correspondence: Mario Stefano Peragallo, Capo Primo Reparto, Centro Studi e Ricerche di Sanita e Veterinaria dell'Esercito, Via S. Stefano Rotondo 4, 00184 Rome, Italy; fax: ++39 06 7009005; email: msperagallo@libero Libero can refer to:
Mario Stefano Peragallo, * Loredana Nicoletti,t Florigio Lista, * and ([double dagger]) Raffaele D'Amelio for The East Timor Dengue Study Group (1) * Centro Studi e Ricerche Sanite e Veterinaria Esercito, Rome, Italy; ([dagger]) Istituto Superiore di Sanita, Rome, Italy; and ([double dagger]) Stato Maggiore della Difesa and Universita "La Sapienza," Seconda Facolta di Medicina, Rome, Italy (1) The East Timor Dengue Study Group: Roberto Biselli, Glauco Call, Maria Rosaria Capobianchi, Maria Grazia Ciufolini, Raffaele D'Amelio, Paolo Di Zenzo, Giovanni Fascia fascia (făsh`ēə), fibrous tissue network located between the skin and the underlying structure of muscle and bone. Fascia is composed of two layers, a superficial layer and a deep layer. , Cristiano Fiorentini, Alberto Germani, Michele Giattino, Giuseppe Ippolito, Florigio Lista, Fabio Magurano, Antonella Marchi, Loredana Nicoletti, Mario Stefano Peragallo, Alessandro Polidori, Giuseppe Sarnicola, and Antonio Stella. Dr. Peragallo is a researcher at the Centro Studi e Ricerche di Sanita e Veterinaria of the Italian Army. His main research topics are the epidemiology and control of infectious diseases, particularly in tropical settings. |
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