review article | Q7318358 |
scholarly article | Q13442814 |
P356 | DOI | 10.1017/S0022149X09990484 |
P698 | PubMed publication ID | 19728898 |
P2093 | author name string | Laura Rinaldi | |
Robert Bergquist | |||
P2860 | cites work | Exploratory disease mapping: kriging the spatial risk function from regional count data | Q24806534 |
Estimating the temporal and spatial risk of bluetongue related to the incursion of infected vectors into Switzerland | Q27487214 | ||
The use of Markov chain Monte Carlo for analysis of correlated binary data: patterns of somatic cells in milk and the risk of clinical mastitis in dairy cows. | Q30953537 | ||
Climate change and vector-borne diseases | Q31038737 | ||
Remote sensing for predicting potential habitats of Oncomelania hupensis in Hongze, Baima and Gaoyou lakes in Jiangsu province, China | Q31169735 | ||
Choropleth mapping of regional count data of Echinococcus multilocularis among red foxes in Lower Saxony, Germany. | Q32022671 | ||
Web-based virtual microscopy for parasitology: a novel tool for education and quality assurance | Q33378449 | ||
Climate and Dirofilaria infection in Europe | Q33435751 | ||
The Small Area Health Statistics Unit: a national facility for investigating health around point sources of environmental pollution in the United Kingdom | Q33701136 | ||
New perspectives on the use of Geographical Information Systems (GIS) in environmental health sciences | Q34663492 | ||
Spatio-temporal analysis of the role of climate in inter-annual variation of malaria incidence in Zimbabwe | Q34803831 | ||
Environmental effects on parasitic disease transmission exemplified by schistosomiasis in western China | Q35751365 | ||
Drivers for the emergence and re-emergence of vector-borne protozoal and bacterial diseases. | Q36242444 | ||
Mapping the rectum: spatial analysis of transanal endoscopic microsurgical outcomes using GIS technology | Q36348122 | ||
New insights into the application of geographical information systems and remote sensing in veterinary parasitology | Q37237503 | ||
Perspectives on using remotely-sensed imagery in predictive veterinary epidemiology and global early warning systems | Q37237508 | ||
Integrated disease mapping in a polyparasitic world | Q38922250 | ||
A spatial statistical approach to malaria mapping | Q39140459 | ||
Virtual globes and geospatial health: the potential of new tools in the management and control of vector-borne diseases | Q39489476 | ||
Rift Valley fever in a zone potentially occupied by Aedes vexans in Senegal: dynamics and risk mapping | Q39560537 | ||
Disease mapping in veterinary epidemiology: a Bayesian geostatistical approach | Q39764407 | ||
An early warning system for Crimean-Congo haemorrhagic fever seasonality in Turkey based on remote sensing technology. | Q40062091 | ||
Spatio-temporal correlation between human and bovine schistosomiasis in China: insight from three national sampling surveys | Q40062095 | ||
Dynamics of dengue epidemics in urban contexts | Q40407766 | ||
Finke's 1792 map of human diseases: the first world disease map? | Q40625038 | ||
PUTTING DISEASE ON THE MAP. THE EARLY USE OF SPOT MAPS IN THE STUDY OF YELLOW FEVER. | Q40965767 | ||
Spatiotemporal modelling and mapping of the bubonic plague epidemic in India. | Q41454712 | ||
Modelling the spatial distribution of Echinococcus multilocularis infection in foxes | Q43430928 | ||
Is heartworm disease really spreading in Europe? | Q44164615 | ||
Poultry, pig and the risk of BSE following the feed ban in France--a spatial analysis | Q44901164 | ||
Hosts and habitats of Trichinella spiralis and Trichinella britovi in Europe. | Q46426015 | ||
A national facility for small area disease mapping and rapid initial assessment of apparent disease clusters around a point source: the UK Small Area Health Statistics Unit. | Q50652825 | ||
The epidemiology and small-scale spatial heterogeneity of urinary schistosomiasis in Lusaka province, Zambia. | Q51674589 | ||
Multivariate spatially-structured variability of ovine helminth infections. | Q51681948 | ||
Spatial statistical modeling of disease outbreaks with particular reference to the UK foot and mouth disease (FMD) epidemic of 2001. | Q51963641 | ||
Bayesian hierarchical modelling to enhance the epidemiological value of abattoir surveys for bovine fasciolosis. | Q51963642 | ||
Modeling the transmission of Echinococcus granulosus and Echinococcus multilocularis in dogs for a high endemic region of the Tibetan plateau. | Q51977923 | ||
Development of an adaptive tsetse population management scheme for the Luke community, Ethiopia. | Q52664784 | ||
Geographical information science and spatial analysis in animal health | Q57192612 | ||
Remote sensing and spatial statistical analysis to predict the distribution of Oncomelania hupensis in the marshlands of China | Q64131764 | ||
New eyes for epidemiologists: aerial photography and other remote sensing techniques | Q71555767 | ||
Methods for evaluating Lyme disease risks using geographic information systems and geospatial analysis | Q71613461 | ||
Invited editorial for the inaugural issue of Geospatial Health | Q81753986 | ||
P433 | issue | 1 | |
P921 | main subject | geospatial tool collection | Q121746096 |
P304 | page(s) | 1-11 | |
P577 | publication date | 2009-09-04 | |
P1433 | published in | Journal of Helminthology | Q15767150 |
P1476 | title | Health research based on geospatial tools: a timely approach in a changing environment | |
P478 | volume | 84 |
Q30641344 | Animal health aspects of adaptation to climate change: beating the heat and parasites in a warming Europe. |
Q38383115 | Application of GIS technology in public health: successes and challenges. |
Q31143311 | Ecological niche modelling of Rift Valley fever virus vectors in Baringo, Kenya |
Q34462361 | Geocoding large population-level administrative datasets at highly resolved spatial scales |
Q39786677 | Geographical information systems as a tool in the control of heartworm infections in dogs and cats |
Q33861341 | Geospatial analysis of hospital consumer assessment of healthcare providers and systems pain management experience scores in U.S. hospitals |
Q33630928 | Important helminth infections in Southeast Asia diversity, potential for control and prospects for elimination |
Q50157878 | New tools for epidemiology: a space odyssey |
Q36572015 | Remote sensing and disease control in China: past, present and future |
Q26823136 | Risk profiling of schistosomiasis using remote sensing: approaches, challenges and outlook |
Q34163876 | Spatial distribution of, and risk factors for, Opisthorchis viverrini infection in southern Lao PDR. |
Q63741152 | Use of Geospatial Surveillance and Response Systems for Vector-Borne Diseases in the Elimination Phase |
Q57409821 | Use of earth observation data for applications in public health |
Q28388303 | Use of spatial analysis to support environmental health research and practice |
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