Spatial analysis of sleeping sickness, southeastern Uganda, 1970-2003.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. reemerged in southeastern Uganda in the 1970s and remains a public health problem. It has continued to spread north into new districts, and gaps remain in the understanding of the causes of its spread and distribution. We report the distribution and magnitude of sleeping sickness in southeastern Uganda from 1970 to 2003. Data were collected from records of the Ugandan Ministry of Health, individual sleeping sickness treatment centers, and interviews with public health officials. Data were used to develop incidence maps over time, conduct space-time cluster detection analyses, and develop a velocity vector map  Vector Map (VMAP), AKA Vector Smart Map, is a vector-based collection of GIS data covering the earth at various detail levels. to visualize spread of sleeping sickness over time in southeastern
Uganda. Results show rapid propagation The transmission (spreading) of signals from one place to another. of sleeping sickness from its
epicenter ep·i·cen·ter n. 1. The point of the earth's surface directly above the focus of an earthquake. 2. A focal point: stood at the epicenter of the international crisis. in southern Iganga District Iganga is a district in eastern Uganda. Like other Ugandan districts, it is named after its 'chief town'. It has a population of 716.311 in 2002. Geography Iganga is located in Central Uganda, about 25 km (16 miles) to the north of Lake Victoria. and its spread north into new districts and foci. ********** Sleeping sickness is the human form of African trypanosomiasis African trypanosomiasis n. Either of two types of an often fatal, endemic infectious disease of humans and animals in tropical Africa: Gambian trypanosomiasis or Rhodesian trypanosomiasis. (caused by Trypanosoma spp.), a protozoal protozoal pertaining to or caused by protozoa. protozoal myeloencephalitis see equine protozoal myeloencephalitis. protozoal hepatitis caused usually by Toxoplasma, Neospora, Leishmania. parasitic disease A parasitic disease is an infectious disease caused or transmitted by a parasite. Many parasites do not cause disease per se. Parasitic diseases can affect practically all living organisms, from plants to man. The study of parasitic diseases is called by parasitology. affecting humans, livestock, and many 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. species in sub-Saharan Africa. It is transmitted by the tsetse fly tsetse fly (tsĕt`sē), name for any of several bloodsucking African flies of the genus Glossina, and in the same family as the housefly. vector (Glossina spp.) and in cattle is a serious constraint to livestock development in sub-Saharan Africa (1-3). The acute form of sleeping sickness, which is caused by Trypanosoma brucei rhodesiense Trypanosoma brucei rho·de·si·en·se n. A protozoan that is the causative agent of Rhodesian trypanosomiasis. and is predominant in eastern and southern Africa
[FIGURE 1 OMITTED] In 1976, an outbreak was detected in Luuka County in western Iganga District, outside the traditional fly zone. This was the beginning of an extensive epidemic that eventually spread throughout southeastern Uganda. This outbreak occurred during a time of great political instability and civil conflict in Uganda, which contributed to a reduction of resources and services for sleeping sickness (8). Although the incidence of sleeping sickness decreased in southeastern Uganda in the early 1990s, it continues to persist and spread in 2005. An outbreak was detected for the first time in Soroti District Soroti is a district in eastern Uganda. Like other Ugandan districts, it is named after its 'chief town'. in 1998 (7), followed by continued spread north into Kumi, Kaberamaido, and Lira Districts Lira is a district in Lango sub-region in northern Uganda. Like other Ugandan districts, it is named after its 'chief town', Lira town. The majority ethnic group is the Lango. (9,10). Historical analyses of sleeping sickness in southeastern Uganda can improve disease control by increasing understanding of the context and trends of the disease, as well as identifying variables associated with these trends. Additionally, historical analyses may validate hypothesized processes. We describe and characterize the spatial distribution of T. b. rhodesiense sleeping sickness in southeastern Uganda for a 34-year epidemic period epidemic period Epidemiology A timespan when the number of cases of a disease reported is greater than expected (1970-2003). We hypothesize hy·poth·e·size v. hy·poth·e·sized, hy·poth·e·siz·ing, hy·poth·e·siz·es v.tr. To assert as a hypothesis. v.intr. To form a hypothesis. that sleeping sickness in southeastern Uganda is driven by 2 dominant processes. In process A, in regions where disease occurs or has recently occurred, localized outbreaks are triggered by processes that increase tsetse tsetse /tset·se/ (tset´se) an African fly of the genus Glossina, which transmits trypanosomiasis. tsetse an African fly of the genus glossina, which transmits trypanosomiasis. populations or by changes that increase human-tsetse contact. In process B, in regions where disease has not recently occurred, spread is facilitated by movement of 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. livestock into uninfected regions. Methods Study Area The study area in southeast Uganda in eastern Africa (Figure 1) is subdivided into 17 districts, 46 counties, and 254 subcounties. The region has an area of [approximately equal to] 55,000 [km.sup.2] and a population of [approximately equal to] 9 million (11). Thirteen percent live in the capital of Kampala (11), and the remainder live in predominantly rural areas dominated by livestock and subsistence farming subsistence farming Form of farming in which nearly all the crops or livestock raised are used to maintain the farmer and his family, leaving little surplus for sale or trade. Preindustrial agricultural peoples throughout the world practiced subsistence farming. (12,13). Data Collection Cross-sectional sleeping sickness data from 1970 to 2003 were collected retrospectively in 2004 to identify case counts and measures of disease magnitude per sub-county per year. Data were collected for all available records of sleeping sickness patients in southeastern Uganda. Data availability Refers to the degree to which data can be instantly accessed. The term is mostly associated with service levels that are set up either by the internal IT organization or that may be guaranteed by a third party datacenter or storage provider. and reliability varied between years on the basis of quality of surveillance and primary data collection, as well as availability of records and recall bias for secondary data collection. Reliability of data for 1986 to 2003 was considered moderate to high, but reliability of data for 1970 to 1986 was low to moderate. Evaluation and review of data by public health officials concluded that information on disease prevalence and absence was reliable for most years, but measures of disease magnitude were less reliable before 1986. Since 1999, sleeping sickness data summaries have been provided by the National Sleeping Sickness Control Program at the Ugandan Ministry of Health. For data before 1988, no centralized cen·tral·ize v. cen·tral·ized, cen·tral·iz·ing, cen·tral·iz·es v.tr. 1. To draw into or toward a center; consolidate. 2. collection of records exists beyond district summaries; sleeping sickness case data remain in records at individual treatment centers. Data before 1988 were collected retrospectively in 2004 during visits to all treatment centers active in the 1980s. In many cases, record books were poorly stored, damaged, had lost pages, or were missing (Figure 2). Case definition was based on the primary diagnosis; all cases recorded in record books were included in this study. Cases were assigned to a year based on the patient's date of admission. [FIGURE 2 OMITTED] Gaps in the dataset increased before 1986. Limited data were available for the late 1970s, and no quantitative data were available for the early- to mid-1970s. Interviews were conducted with public health officials to complement and extend 1970s and 1980s data. These officials were chosen by identifying Ugandans actively involved in senior positions in sleeping sickness prevention and control from 1970 to the present and those who could be contacted. They included veterinary and public health managers at the National Ministry of Health or District Medical or Veterinary Office levels. Interviews were used to verify data for the 1980s and to classify disease magnitude for the 1970s. Sleeping sickness magnitude was classified into 1 of 5 categories for each subcounty for each year: 1) no cases, 2) preepidemic (1-4 cases per year per subcounty), 3) low epidemic (5-15 cases per year per subcounty), 4) high epidemic (16-100 cases per year per subcounty), and 5) extreme epidemic (>100 cases per year per subcounty). These thresholds were based on anecdotal anecdotal /an·ec·do·tal/ (an?ek-do´t'l) based on case histories rather than on controlled clinical trials. anecdotal adjective Unsubstantiated; occurring as single or isolated event. guidance from preliminary interviews and defined to facilitate standardized standardized pertaining to data that have been submitted to standardization procedures. standardized morbidity rate see morbidity rate. standardized mortality rate see mortality rate. definitions of magnitude during subsequent interviews. Interviewer information was compared to available sleeping sickness records and the literature. These results were used to develop a classification database of disease magnitude by subcounty and year. Resulting data and maps were presented to informants for discussion and validation at follow-up interviews in 2005. The boundaries of political regions changed greatly during the 34-year study period. Aggregation of subcounty data reduced the number of subcounties from 254 in 2004 to 225 for the current study period. Temporal resolution Temporal resolution refers to the precision of a measurement with respect to time. Often there is a tradeoff between temporal resolution of a measurement and its spatial precision (spatial resolution). of data is consistent, and aggregation of 29 subcounties is assumed to have little effect on overall analyses. Data Analysis Case counts from 225 subcounties in southeastern Uganda for 34 years (1970-2003) were aggregated into 5 temporal periods for descriptive and geographic cluster analysis Cluster analysis A statistical technique that identifies clusters of stocks whose returns are highly correlated within each cluster and relatively uncorrelated across clusters. Cluster analysis has identified groupings such as growth, cyclical, stable, and energy stocks. on the basis of epidemic progression and data availability: 1970-1975, preepidemic; 1976-1979, epidemic increase; 1980-1888, epidemic peak; 1989-1997, epidemic decrease; and 1998-2003, epidemic tail. Mean case counts per subcounty per year were calculated for periods in which case counts were available (1980-1988, 1989-1997, and 1998-2003). For earlier periods (1970-1975 and 1976-1979), only ordinal (mathematics) ordinal - An isomorphism class of well-ordered sets. data were available. Therefore, data midpoints were calculated by using the mean of the maximum and minimum ordinal values rounded to the nearest whole number in the direction of the mode. These data were used to develop maps averaging the annual incidences of sleeping sickness for each subcounty during the interval period. Averages of annual incidence for intervals after 1980 were reclassified as sporadic (<5 cases/year), low epidemic (5-15 cases/year), or high epidemic (>15 cases/year) to match ordinal data categories for 1970s data. To identify clusters of sleeping sickness in southeastern Uganda from 1970 to 2003, the space-time scan statistic (14) was used (SaTScan version 5.1 software for spatial and space-time scan statistics available from http://www.satscan.org/[Kulldorff, Boston, MA, USA and Information Management Services Inc., Silver Springs, MD, USA]). The incidence proportions of the 225 subcounties were assumed to follow a Poisson distribution A statistical method developed by the 18th century French mathematician S. D. Poisson, which is used for predicting the probable distribution of a series of events. For example, when the average transaction volume in a communications system can be estimated, Poisson distribution is used according to according to prep. 1. As stated or indicated by; on the authority of: according to historians. 2. In keeping with: according to instructions. 3. the underlying population size. Cluster analysis results include space-time clusters with no geographic overlap of clusters allowed and a maximum allowable cluster size of 50% of the population. Space-only and time-only clusters were excluded. Primary and secondary clusters at a significance level of [alpha] = 5% are reported. Sleeping sickness data were used in the form of case counts per year per subcounty for post-1980 records. For 1970s data, recorded values represent ordinal data (i.e., low, medium, high) rather than case counts. These were transformed to case counts by applying the ordinal minimum value to each record. Population data are based on the 1980, 1991, and 2002 population censuses for Uganda (11). The first 3 analysis periods (1970-1988) used 1980 census records for population counts. Analyses for the periods 1989-1997 and 1998-2003 are based on 1991 and 2002 census records, respectively. A vector velocity map (15) of sleeping sickness spread was developed by using trend surface analysis (TSA TSA See tax-sheltered annuity (TSA). ) (16,17). TSA is a global smoothing method using polynomials in geographic coordinates The quantities of latitude and longitude which define the position of a point on the surface of the Earth with respect to the reference spheroid. See also coordinates. , as defined by the central point of each subcounty polygon polygon, closed plane figure bounded by straight line segments as sides. A polygon is convex if any two points inside the polygon can be connected by a line segment that does not intersect any side. If a side is intersected, the polygon is called concave. . In this case, a trend surface of the year of the first reported sleeping sickness case for each subcounty was used to explore and identify diffusion patterns and corridors of spread over time. The year of the first recorded case was identified for subcounties in the database. Eighty-nine of 225 subcounties with no recorded cases in the 1970-2003 study period were excluded. The x- and y-coordinates of subcounty centroids The following diagrams depict a list of centroids. A centroid of an object  in were calculated from a UTM (Unified Threat Management) Refers to a stand-alone appliance or a software package that combines a firewall, antivirus, spam and content filtering as well as intrusion detection. See firewall, antivirus, antispam and IDS. projection shape-file of
southeastern Uganda using ArcMAP (ArcGIS 9, Environmental Systems
Research Institute, Redlands, CA, USA). Least square regression using
linear, quadratic quadratic, mathematical expression of the second degree in one or more unknowns (see polynomial). The general quadratic in one unknown has the form ax2+bx+c, where a, b, and c are constants and x is the variable. , cubic, and higher-order polynomials of the x- and
y-coordinates to predict year of first reported case was conducted in R
(Foundation for Statistical Computing, Vienna, Austria, available from
http://www.R-project.org). Partial differential equations partial differential equationIn mathematics, an equation that contains partial derivatives, expressing a process of change that depends on more than one independent variable. ([DELTA]year/[DELTA]X and [DELTA]year/[DELTA]Y) were derived from the fitted model, giving a vector of the magnitude (slope) and direction for each location. The square root of the slope equates to the velocity of diffusion. Results Epidemic Curve Figure 3 shows the epidemic curve for 1970 to 2003 in southeastern Uganda, as well as a curve of the total number of subcounties infected per year. The latter curve gives an indication of the spatial extent of the disease in the region, while the former indicates the magnitude of the epidemic. The dramatic decrease in incidence in 1982 and 1983 is related to both German Red Cross intervention in 1980 in the Luuka County region (19) (D.B. Mbulamberi, pers. comm.) and reduced surveillance in 1982 and 1983. The number of cases and infected subcounties decreased in the 1990s. In contrast to the decrease in incidence, however, the number of infected subcounties remains well above preepidemic levels. [FIGURE 3 OMITTED] Incidence Maps and Cluster Detection Figures 4-8 show maps of the average annual sleeping sickness incidence (T. b. rhodesiense) per subcounty in each of the 5 study periods. Legends for the 5 maps are consistent. Each map includes the location of significant ([alpha] = 5%) primary and secondary space-time clusters. Results of cluster detection analyses are discussed below for each interval period and are summarized in the Table. Dominant trends in cluster results were insensitive to maximum cluster size. [FIGURES 4-8 OMITTED] 1970-1975: Preepidemic Figure 4 shows the distribution of sleeping sickness that approximates the preepidemic zone of traditional and sporadic infection during the 1960s. Most subcounties are reported as having only a few cases per year. A significant space-time cluster was identified in the area that included the districts of Mayuge, Bugiri, and southern Iganga for 1973-1975 (Figure 4, Table). These cluster results reflect the beginning of incidence increase in these subcounties in the latter half of this period. 1976-1979: Epidemic Increase Figure 5 shows both an increase in incidence of sleeping sickness along the Iganga/Mayuge/Jinja District borders as well as outward spread of the disease. These processes characterize the onset and increase of the sleeping sickness epidemic in 1976. A 1978-1979 space-time cluster (Figure 5, Table) of smaller size is identified northwest of the cluster for the previous period. The cluster is identified for the later years of the interval, indicating early epidemic onset and propagation, while the smaller radius of the 1978-1979 cluster reflects increased incidence at the epicenter along the Iganga border with Mayuge and Jinja. 1980-1988: Epidemic Peak Figure 6 shows an extensive increase in both incidence and distribution of sleeping sickness that characterized this peak period of the epidemic. Detection analysis identified a cluster in 1985-1988 (Figure 6, Table) located in the same vicinity as those seen in the 2 previous intervals. The 1985-1988 cluster, in addition to the regions in the 1970s clusters, encompasses areas of Jinja, northern Iganga, and southern Kamuli Districts Kamuli is a district in southeastern Uganda. Like other Ugandan districts, it is named after its 'chief town'. Kamuli has a population of about 712,000 (2002 population census) Density 236 persons/km² southern area: Crops grown; coffee, cocoa, banana, maize, upland rice and , indicating continued spatial spread. 1989-1997: Epidemic Decrease Figure 7 shows the average annual incidence of sleeping sickness for the period 1989-1997. A decrease in overall incidence can be observed in conjunction with continued spatial spread. Cluster detection identified a cluster for 1989-1992 that encompassed the same areas as previous clusters, as well as the Districts of Tororo, Busia, and eastern Mukono (Figure 7, Table). In contrast to the previous periods, a space-time cluster was identified in the first years of the period. This finding reflects a shift in the epidemic from progression to regression. The larger spatial size of the cluster, however, indicates continued spread into new areas (Figure 7). Areas of increased incidence are generally shifted east. 1998-2003: Epidemic Tail Figure 8 shows the distribution of sleeping sickness incidence for the period 1998-2003. The overall incidence of disease decreased in the southern districts, and the epidemic was characterized by pockets of disease. In addition, the disease was observed for the first time in Soroti District in the north of the study area (cluster B, Figure 8). Cluster detection was consistent with this distribution of outbreak pockets and foci. Four small clusters were detected (Figure 8, Table). Cluster A was detected for 1999-2001 in the subcounties along the border of Iganga and Kamuli Districts. Cluster B identified a new outbreak focus in Soroti District in 2001-2003, where cases were first recorded in 1998. This cluster reflects the increase in incidence in Soroti to the end of the study period. Although incidence in Tororo District Tororo is a district in eastern Uganda. Like other Ugandan districts, it is named after its "chief town", Tororo. It is home to the Sukulu complex, a carbonatite complex 6 km east of Tororo town, which is known for its apatite, baddeleyite, dolomite, goethite, hematite, Ilmenite, peaked around 1990, small outbreak resurgence in Bugongi and Osukuru subcounties in 2001 and 2002 resulted in cluster detection in Tororo District (cluster C, Figure 8, Table) (20). A fourth, smaller, cluster was detected in the subcounties of Buikwe, Buyikwe, Najja, Ngogwe, and Ssi in 1998 (cluster D, Figure 8), which experienced a resurgence of incidence since an earlier peak in 1991. Trend Surface Analysis The results from trend surface analysis are summarized in a velocity vector map (Figure 9). The velocity and direction of diffusion for each coordinate location were mapped to show the movement and instantaneous rate of T. b. rhodesiense sleeping sickness diffusion in southeastern Uganda over the study period. TSA with high-order polynomials is sensitive to data anomalies at the edge of the study area (15). Less data are available at the study area boundaries; velocity vector size and direction are therefore less reliable and may not be accurate at the edge of the study area. For these reasons, 9 velocity vectors were removed from the vector diffusion map (Figure 9). [FIGURE 9 OMITTED] The average velocity of sleeping sickness spread over 34 years in southeastern Uganda from 1970 to 2003 was 5 km/year. Velocity of movement was highest early in the epidemic (Figure 9), when sleeping sickness spread out of its primary focus in southern Iganga District. The epidemic diffused outward in a relatively constant sphere of diffusion from this epicenter. A corridor of movement can be observed on the eastern fringe of the study area, moving through Busia and Tororo Districts. However, this fringe area fringe area n. A zone just outside of the range of a broadcasting station in which signals are weakened and distorted. should be interpreted with caution because of potential edge effects. The disease moved distinctly north and east into Soroti District. Areas of most rapid spread appear to be the extensions of these 2 corridors north from Soroti and Tororo. These results are consistent with recent detection of cases in the districts of Kumi, Kaberamaido, and Lira (9,10) adjacent to or north of Soroti. Velocity vectors also showed spread west and east. However, Figures 4-8 suggest that much of this horizontal diffusion occurred before the 1990s. Discussion The reliability of data for the 1970s and 1980s is subject to detection and recording bias associated with periods of passive surveillance, missing record books, and recall bias of interviewees. The creation of additional treatment centers over the study period and differential quality of diagnostic and treatment facilities throughout the study area may contribute to spatial bias in the data. Odiit et al. (20-22) discuss the potential for misdiagnosis mis·di·ag·no·sis n. pl. mis·di·ag·no·ses An incorrect diagnosis. mis·di  ag·nose of cases, selective entry
bias around treatment centers, and under-detection of sleeping sickness.
Aggregation of cases by subcounty reduces the potential for clustering
around individual treatment centers, and unless differential
misdiagnosis occurs, it will not critically affect the spatial patterns
seen. The data must be interpreted with caution in the context of data
reliability and potential biases. Results should be considered
exploratory and descriptive; data are not appropriate for direct causal
inferences. The results are, however, useful for characterizing broad
trends; where historical trends in processes observed are consistent
with hypotheses, results can inform current and future research.T. b. rhodesiense sleeping sickness in southeastern Uganda from 1970 to 2003 followed a pattern of radial spread from its center in southern Iganga District. From 1976 to the 1990s (Figures 4-7), the epidemic trend coincided with civil unrest and political instability in the country. The increase in the epidemic (1976-1979) occurred at a time of increasing political and economic instability, while the peak epidemic period (1980-1988) occurred during the height of political and economic collapse. The decrease in the epidemic (1989-1997) also coincides with increasing stabilization of politics and civil unrest in Uganda. The epidemic trend observed is consistent with our hypothesis (process A) that incidence increases in regions with a history of infection because of changes in human-vector exposure that push the probability of transmission above the required threshold for focal outbreaks. Uganda in the 1970s and 1980s experienced extensive internal displacement "Internal Displacement" is episode 143 of The West Wing. C.J. realizes that she barely has any time left in office and decides to try and solve the (real world) crisis in Darfur, Sudan, along with the (fictional) crisis between Russia and China over Kazakhstan. of the rural population, illegal human and cattle movements, growth of favorable tsetse habitats on cotton and coffee plantations, and collapse of sleeping sickness prevention and control activities (8,19,23). These events likely contributed to increased human-vector contact and sleeping sickness transmission in the districts around the preepidemic zone of infection. After the decrease in the epidemic in the 1990s, new outbreaks have been observed in Soroti (1998, Figure 8), Kaberamaido, Kumi, and Lira (2004-2005) Districts (7,9,10). The introduction of the parasite parasite, plant or animal that at some stage of its existence obtains its nourishment from another living organism called the host. Parasites may or may not harm the host, but they never benefit it. into Soroti District has been linked to cattle restocking from infected southern districts (7). Whether more recent spread into new districts is related to cattle movements is unclear. Postepidemic spread into previously uninfected and peripheral districts since the late 1990s is consistent with our hypothesized second process, which is characterized by parasite spread into new areas through movements of livestock vector. Continuing civil conflict near and within these areas is of particular concern. Once established in new regions, processes of transmission may change from introduction of parasites through cattle movements (process B) into proliferation proliferation /pro·lif·er·a·tion/ (pro-lif?er-a´shun) the reproduction or multiplication of similar forms, especially of cells.prolif´erativeprolif´erous pro·lif·er·a·tion n. and continued transmission through increased vector-human exposure resulting from effects of civil conflict (process A). The observed historical trends in sleeping sickness, in the context of our hypotheses, support the likelihood of continued spread of T. b. rhodesiense north from newly infected regions in central Uganda. Figure 3 suggests that while the number of recorded cases remains low, those cases are coming from an increasing large area. Decreased sleeping sickness surveillance systems in Uganda (D.B. Mbulamberi, pers. comm.) may be missing undetected increases in cases while still detecting infection at the subcounty level. The likelihood of such detection bias is unclear, although a similar difference between recorded cases and recorded subcounties infected preceded the epidemic increase in 1976 (Figure 3). Sleeping sickness is a highly focal disease often characterized by distinct outbreaks in a specific area or village. This outbreak pattern has been smoothed by aggregation of cases to the subcounty level. In spite of the highly focal nature of sleeping sickness, the results suggest a pattern of observable ob·serv·a·ble adj. 1. Possible to observe: observable phenomena; an observable change in demeanor. See Synonyms at noticeable. 2. , continuous, and potentially predictable spread of T. b. rhodesiense sleeping sickness in Uganda when data are smoothed to the subcounty level. The description and characterization of historical reemergence of sleeping sickness in southeastern Uganda can be used to guide and complement research into the causal processes determining the observed patterns of incidence and spread. These patterns are consistent with our hypotheses of 2 dominant processes of sleeping sickness transmission in southeastern Uganda. First, in regions where disease currently occurs or has recently occurred, localized outbreaks are triggered by changes in vector-human exposure or vector numbers, which push the probability of transmission above threshold levels Noun 1. threshold level - the intensity level that is just barely perceptible intensity, intensity level, strength - the amount of energy transmitted (as by acoustic or electromagnetic radiation); "he adjusted the intensity of the sound"; "they measured the . This process was observed around the traditional infection zone in southeastern Uganda during the 1976-1990 epidemic. Second, in regions where disease has not recently occurred, spread is facilitated by transmission of the parasite thorough livestock. This is currently being observed in the spread of infection to districts in central Uganda that were not infected during the previous epidemic. Conclusions support further research and intervention related to parasite transmission through cattle movements and potential changes in vector-human exposure in central Ugandan districts. Such analyses are particularly relevant in the context of continued spread of T. b. rhodesiense sleeping sickness in Uganda, potential merging with T. b. gambiense subspecies subspecies, also called race, a genetically distinct geographical subunit of a species. See also classification. in northwest regions
The Northwest Region (24), and ongoing civil unrest in north-central regions. Acknowledgments We thank Lance Waller for providing the R-code used for trend surface analysis; Dawson Mbulamberi, Martin Odiit, and Faustine Maiso for data and research support; the late Thomas Gitau for contribution to early research development; and James Ford James Ford could refer to:
This work was supported by a grant from the International Development Research Centre, Ottawa, Canada, and by the National Science and Engineering Research Council (body) Science and Engineering Research Council - (SERC) Formerly the largest of the five research councils funded by the British Government through the Office of Science and Technology. of Canada. Ms Lea Berrang-Ford is completing a doctoral degree at the University of Guelph The University of Guelph is a medium-sized university located in Guelph, Ontario, established in 1964. While the U of G offers degrees in many different disciplines, the university is best known for its focus on life sciences, based in part on a long-standing history of and working as a consultant to the Public Health Agency of Canada The Public Health Agency of Canada (French: Agence de la santé publique du Canada) is an agency of Health Canada a department of the Government of Canada that is responsible for public health, emergency preparedness, and response and infectious and chronic disease control . Her research interests include use of spatial analyses and systems approaches to address human and environmental health problems. References (1.) Jordan AM. Trypanosomiasis trypanosomiasis (trəpăn'əsōmī`əsis), infectious disease caused by a protozoan organism, the trypanosome, which exists as a parasite in the blood of a number of vertebrate hosts. control and land use in Africa. Outlook in Agriculture. 1979;10:123-9. (2.) Jordan AM. Trypanosomiasis control and African rural development. Harlow (UK): Longman; 1986. (3.) Leak SG. Tsetse biology and ecology: their role in the epidemiology and control of trypanosomosis. Wallingford (UK): CABI CABI Commonwealth Agricultural Bureaux International (UK) CABI Centre for Agriculture and Biosciences International (UK) CABI Colorado Association of Business Intermediaries CABI California Birth Index Publishing in association with the International Livestock Research Institute, Nairobi, Kenya; 1999. (4.) Fevre EM, Coleman PG, Welburn SC, Maudlin maud·lin adj. Effusively or tearfully sentimental: "displayed an almost maudlin concern for the welfare of animals" Aldous Huxley. See Synonyms at sentimental. I. Reanalyzing the 1900-1920 sleeping sickness epidemic in Uganda. Emerg 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. Dis. 2004;10:567-73. (5.) Welburn SC, Fevre EM, Coleman PG, Odiit M, Maudlin I. Sleeping sickness: a tale of two diseases. Trends Parasitol. 2001;17:19-24. (6.) Koemer T, de Raadt P, Maudlin I. The Uganda sleeping sickness epidemic revisited: a case of mistaken identity mistaken identity n → erreur f d'identité mistaken identity mistake n → Verwechslung f mistaken identity n ? Parasitol Today. 1995;11:303-6. (7.) Fevre EM, Coleman PG, Odiit M, Magona JW, Welburn SC, Woolhouse ME. The origins of a new Trypanosoma brucei rhodesiense sleeping sickness outbreak in eastern Uganda. Lancet lancet /lan·cet/ (lan´set) a small, pointed, two-edged surgical knife. lan·cet n. . 2001;358:625-8. (8.) Matovu FS. Rhodesian sleeping sickness Rhodesian sleeping sickness see trypanosomarhodesiense. in south-eastern Uganda (the present problems). East Afr Med J. 1982;59:390-3. (9.) Ministry of Health. Uganda sleeping sickness records. Kampala, Uganda: the Ministry; 2004. (10.) Rodriguez A. Trypanosomiasis--Uganda (Kaberamaido). [cited 2005 Jan 27]. Available from http://www.promedmail.org (11.) Uganda Bureau of Statistics. Uganda population and housing census, years: 1980, 1991, 2002. Kampala: Government of Uganda. (12.) Leggett I. Uganda. Oxford (UK): Fountain Publishers Ltd.; 2001. (13.) Jamal V. The agrarian context of the Ugandan crisis. In: Hansen HB, Twaddle M, editors. Changing Uganda: the dilemmas of structural adjustment and revolutionary change. Kampala, Uganda: Fountain Publishers; 2001. p. 78-97. (14.) Kulldorff M, Athas W, Feuer E, Miller B, Key C. Evaluating cluster alarms: a space-time scan statistic and brain cancer in Los Alamos Los Alamos (lôs ăl`əmōs', lŏs), uninc. town (1990 pop. 11,455), seat of Los Alamos co., N central N.Mex. It is on a long mesa extending from the Jemez Mts. The U.S. . Am J Public Health. 1998;88:1377-80. (15.) Waller LA, Gotway CA. Applied spatial statistics for public health data. 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 : John Wiley John Wiley may refer to:
(16.) Moore DA. Spatial diffusion of raccoon raccoon, nocturnal New World mammal of the genus Procyon. The common raccoon of North America, Procyon lotor, also called coon, is found from S Canada to South America, except in parts of the Rocky Mts. and in deserts. rabies rabies (rā`bēz, ră`–) or hydrophobia (hī'drəfō`bēə), acute viral infection of the central nervous system in dogs, foxes, raccoons, skunks, bats, and other animals, and in in Pennsylvania, USA. Prev Vet Med. 1999;40:19-32. (17.) Berke O. Estimation and prediction in the spatial linear model. Water Air Soil Pollution. 1999;110:215-37. (18.) Okiria R. The prevalence of human trypanosomiasis in Uganda, 1970 to 1983. East Afr Med J. 1985;62:813-6. (19.) Abaru DE. Sleeping sickness in Busoga, Uganda, 1976-1983. Trop Med Parasitol. 1985;36:72-6. (20.) Odiit M, Coleman PG, McDermott JJ, Fevre EM, Welburn SC, Woolhouse ME. Spatial and temporal risk factors for the early detection of Trypanosoma brucei rhodesiense sleeping sickness patients in Tororo and Busia districts Busia District may refer to:
(21.) Odiit M, Shaw A, Welburn SC, Fevre EM, Coleman PG, McDermott JJ. Assessing the patterns of health-seeking behaviour and awareness among sleeping-sickness patients in eastern Uganda. Ann Trop Med Parasitol. 2004;98:339-48. (22.) Odiit M, Coleman PG, Liu WC, McDermott JJ, Fevre EM, Welburn SC, et al. Quantifying the level of under-detection of Trypanosoma brucei rhodesiense sleeping sickness cases. Trop Med Int Health. 2005;10:840-9. (23.) Mbulamberi DB. Possible causes leading to an epidemic outbreak of sleeping sickness: facts and hypotheses. Ann Soc Belg Med Trop. 1989;69(Suppl 1):173-9. (24.) Welburn SC, Odiit M. Recent developments in human African trypanosomiasis. Curr Opin Infect Dis. 2002;15:477-84. Lea Berrang-Ford, * Olaf Berke, *([dagger]) Lubowa Abdelrahman, ([double dagger]) David Waltner-Toews, * and John McDermott John McDermott may refer to:
* University of Guelph, Guelph, Ontario Guelph (IPA: gwɛlf) (population 114,943[1]) is a city located in the Southwestern region of Ontario, Canada. , Canada; ([dagger]) University of Veterinary Medicine veterinary medicine, diagnosis and treatment of diseases of animals. An early interest in animal diseases is found in ancient Greek writings on medicine. Veterinary medicine began to achieve the stature of a science with the organization of the first school in the , Hannover, Germany; ([double dagger double dagger n. A reference mark (  ) used in printing and writing. Also called diesis.Noun 1. ]) Makerere University Makerere University is Uganda's largest university. It was first established as a technical school in 1922, and in 1963 it became the University of East Africa, offering courses leading to general degrees of the University of London. , Kampala, Uganda; and ([section]) International Livestock Research Institute, Nairobi, Kenya Address for correspondence: Lea Berrang-Ford, Department of Population Medicine, University of Guelph, Guelph, Ontario N1G 2W1, Canada; email: berrangl@uoguelph.ca
Table. Cluster detection of sleeping sickness.
southeastern, Uaanda, 1970-2003
Districts No.
in most Cluster observed
Interval likely date cases
(cluster) cluster
1970-1975 Mayuge, Bugiri, and 1973-1975 63
southern Iganga
1976-1979 Northwest shift to include 1978-1979 311
northern Mayuge,lganga,
Jinja, and southeastern
Kamuli
1980-1988 Wider extent, including 1985-1988 13,943
Mayuge, Bugiri, Iganga,
Jinja, and southern Kamuli
1989-1997 As above, plus Tororo, 1989-1992 3,176
Busia, eastern Mukono,
southern Kayunga,and
southern Pallisa
1998-2003 (A)t Northwestern Iganga 1999-2001 331
(Luuka county) and
southern Kamuli
(B) ([dagger]) Soroti 2001-2003 263
(C) ([dagger]) Tororo (Osukulu 2001-2002 89
subcounty)
(D) ([dagger]) Mukono (subcounties of 1998 50
Buikwe, Buyikwe, Najja,
Ngogwe, and Ssi)
No.
expected Relative
Interval cases risk *
(cluster)
1970-1975 8 8.3
1976-1979 23 13.5
1980-1988 1,865 7.5
1989-1997 869 3.7
1998-2003 (A) 26 12.6
([dagger])
(B) ([dagger]) 21 12.5
(C) ([dagger]) 7 12.9
(D) ([dagger]) 4 12.5
Cluster
radius
Interval p value (km)
(cluster)
1970-1975 0.0001 41
1976-1979 0.0001 29
1980-1988 0.0001 45
1989-1997 0.0001 74
1998-2003 (A) 0.0001 19
([dagger])
(B) ([dagger]) 0.0001 22
(C) ([dagger]) 0.0001 6
(D) ([dagger]) 0.0001 0
([double
dagger])
* Observed no. cases/expected no. cases.
([dagger]) Multiple clusters were identified during 1998-2003.
Letters correspond to cluster labels in Figure 8.
([dagger]) Cluster included only 1 observation
representing 5 merged subcounties.
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