Marchioro Ariella A, Colli Cristiane M, Ferreira Érika C, Tiyo Rogério, Mattia Salete, de Souza Wesley Ferreira, Falavigna-Guilherme Ana L
College Ingá - Uningá, 87070-000, Brazil.
Acta Parasitol. 2013 Sep;58(3):328-33. doi: 10.2478/s11686-013-0142-x. Epub 2013 Aug 29.
Geographic information system (GIS) or Health geography is a geographical identification of the spatial variation of contagion disease and zoonosis risk in certain conditions.
Comparing the variation of environmental contamination of Toxocara spp. sands of lawns and public areas through the Geographic Information System.
Were investigated 98% of Parana recreational urban areas such as, schools, public parks and squares filled with sand and/or lawn. Samples were analyzed using zinc sulphate solution centrifuge-flotation, density 1.420, and water sedimentation. Maps were developed by ESRI Arc GIS 9.2.
Total 77/98 (78,6%) of public spaces shown Toxocara spp. eggs presence. No significant difference was observed (p = 0,9999) between eggs prevalence in sand 44/56 (78,6%), and lawn 33/42 (78,6%), at school (p = 0,6898) and squares (p = 0,0616). Egg contamination prevailed in periphery areas in the sand 20/27 (74%) and lawn 18/21 (86%). However, no significant difference was observed between sand and lawn contamination from schools and parks to central and peripheral areas. Although schools 62/66 (93,9%) presented a higher number of enclosed spaces, did not provide a lower frequency of pollution (p = 0,3327).
GIS observed a scattered pattern of zoonosis among schools and public squares sand and lawns, with predominance of contamination in the peripheral areas with presence of dogs/cats.
地理信息系统(GIS)或健康地理学是在特定条件下对传染病和人畜共患病风险的空间变异进行地理识别。
通过地理信息系统比较草坪和公共区域的沙子中弓蛔虫属的环境污染变异情况。
对巴拉那州98%的城市休闲区域进行了调查,如学校、公共公园以及布满沙子和/或草坪的广场。样本采用密度为1.420的硫酸锌溶液离心浮选法和水沉淀法进行分析。地图由ESRI Arc GIS 9.2绘制。
总共77/98(78.6%)的公共场所显示有弓蛔虫属虫卵存在。在学校(p = 0.6898)和广场(p = 0.0616),沙子中虫卵患病率为44/56(78.6%),草坪中为33/42(78.6%),两者之间未观察到显著差异(p = 0.9999)。沙子周边区域虫卵污染占主导,为20/27(74%),草坪周边区域为18/21(86%)。然而,从学校和公园的中心区域到周边区域,沙子和草坪污染之间未观察到显著差异。尽管学校62/66(93.9%)有更多封闭空间,但污染频率并未降低(p = 0.3327)。
地理信息系统观察到学校和公共广场的沙子及草坪中存在人畜共患病的分散模式,周边有狗/猫出没的区域污染更为严重。
