Studies On Rats And Mice As A Reservoir Of Zoonotic Parasites
By: Muhammad Sarfaraz Ahmad | Prf.Dr. Azhar Maqbool.
Contributor(s): Dr. Muhammad Mustaq-ul-Hassan | Faculty of Veterinary Sciences.
Material type: BookPublisher: 2009Subject(s): Department of Parasitology | Phd. ThesesDDC classification: 1149,T Dissertation note: A total of 3600 rats and mice were examined for the prevalence of various zoonotic parasitic infections. Species of various parasites were identified. The order of ifection rate was as Hymenolepis nana (59.9%), Toxoplasma gondii in rats and mice 52.0%), Hymenolepis diminula (35.4%), Cryptosporidium parvum (16.5%), Taenia taenieformis (11.7%), Toxoplasma gondii in humans (11.3%), Capillaria hepatica 7.0%), Babesia spp. (2.3%), Trypanosomu spp. (2.3%) and Leishmania spp. (1.2%). The highest (78.0%) month-wise prevalence of FL nana was found during August whereas the lowest (43.0%) during February. The highest (70.8%) season-wise prevalence was noted during summer followed by autumn (62.9%) then spring whiles the lowest (46.8%) during winter. Infection was higher in males (78.0%) than females 45.9%). Adult rats and mice were more commonly affected than younger. Infection was higher in rats (65.1%) than mice (16.3%). The highest (48.0%) month-wise prevalence of H diminuta was found during August whereas the lowest (28.0%) during January. The highest (45.4%) season-wise prevalence was noted during summer followed by spring (35.1%) while the lowest (29.3%) during winter. Infection was higher in males (43.8%) than females (29.3%). Adult rats and mice were more commonly affected than younger. Infection was higher in rats (37.3%) than mice (20.2%). The highest (23.0%) month-wise prevalence of C. parvum was found during July whereas the lowest (10.0%) during December. The highest (22.4%) season-wise valence was noted during summer followed by spring (16.9%) then autumn (15.3%) le the lowest (11.3%) during winter. Infection was higher in females (19.9%) than es (12.0%). Adult rats and mice were more commonly affected than younger, infection was higher in rats (17.7%) than mice (7.6%). The highest (20.0%) month-wise prevalence of T raenieformis was found during y and August whereas the lowest (6.0%) during December. The highest (18.4%) son-wise prevalence was noted during summer followed by autumn (10.8%) then ring (10.6%) whereas lowest (7.0%) during winter. Infection was higher in females 15.6%) than males (6.5%). Adult rats and mice were more commonly infected than younger. Infection was higher in rats (12.4%) than mice (6.0%). The highest (12.7%) month-wise prevalence of C. hepatica was found during August whereas the lowest (4.0%) during November. The highest (10.8%) season-wise prevalence was noted during summer followed by autumn (6.0%) then spring (6.2%) hues the lowest (4.9%) during winter. Infection was higher in females (8.4%) than males (5.0%). Adult rats and mice were more commonly affected than younger. Infection higher in rats (7.3%) than mice (4.6%). The highest (9.0%) month-wise prevalence of Babesia spp. was found during August whereas infection was absent during January, February, March, April, November and December. The highest (5.0%) season-wise prevalence was noted during summer followed by autumn (4.2%) then spring (0.1%) and was absent during winter. The infection was higher in males (2.7%) than females (2.0%).The infection was present only in adult rats and mice and no case was recorded in younger. Higher infection was noted -n (2.3%) and than mice (2.4%). The highest (7.3%) month-wise prevalence of Trypanosoma spp. was found August whereas it was absent during January, February, November and December. The highest (5.7%) season-wise prevalence was noted during summer by spring (2.2%) then autumn (1.2%) and it was absent during winter. The infection was higher in females (2.5%) than males (2.0%). Adult rats and mice were more commonly affected than younger. Higher infection was noted in rats (2.5%) than mice The highest (4.7%) month-wise prevalence of Leishmania spp was found during y and August whereas infection was absent during January, February, March, April, October, November and December. The highest (3.4%) season-wise prevalence was during Summer followed by autumn (1.1%) then spring (0.1%) and infection was during winter. The infection was higher in females (1 .4%) than males (0.9%). The infection was found only in adult rats and mice and no positive case was recorded in 1younger. The infection was (1.2%) in rats and mice. The role of meteorological data i.e temperature, humidity and rainfall was also studied. It was noted that there was a positive co-relation of high temperature and humidity with the prevalence of various parasitic infections. As the infection were maximum during summer when the temperature and humidity was favorable for high prevalence of parasitic burden. This study will he helpful to disseminate information regarding zoonotic potential parasitic infections via media i.e. newspapers. magazine, electronic media (T.V, I.T, Radio) through seminars, meetings and conferences with professionals doctors, paramedical staff and livestock farmers.Item type | Current location | Collection | Call number | Status | Date due | Barcode | Item holds |
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Thesis | UVAS Library Thesis Section | Veterinary Science | 1149,T (Browse shelf) | Available | 1149,T |
Browsing UVAS Library Shelves , Shelving location: Thesis Section , Collection code: Veterinary Science Close shelf browser
A total of 3600 rats and mice were examined for the prevalence of various zoonotic parasitic infections. Species of various parasites were identified. The order of ifection rate was as Hymenolepis nana (59.9%), Toxoplasma gondii in rats and mice 52.0%), Hymenolepis diminula (35.4%), Cryptosporidium parvum (16.5%), Taenia taenieformis (11.7%), Toxoplasma gondii in humans (11.3%), Capillaria hepatica 7.0%), Babesia spp. (2.3%), Trypanosomu spp. (2.3%) and Leishmania spp. (1.2%).
The highest (78.0%) month-wise prevalence of FL nana was found during August whereas the lowest (43.0%) during February. The highest (70.8%) season-wise prevalence was noted during summer followed by autumn (62.9%) then spring whiles the lowest (46.8%) during winter. Infection was higher in males (78.0%) than females 45.9%). Adult rats and mice were more commonly affected than younger. Infection was higher in rats (65.1%) than mice (16.3%).
The highest (48.0%) month-wise prevalence of H diminuta was found during August whereas the lowest (28.0%) during January. The highest (45.4%) season-wise prevalence was noted during summer followed by spring (35.1%) while the lowest (29.3%) during winter. Infection was higher in males (43.8%) than females (29.3%). Adult rats and mice were more commonly affected than younger. Infection was higher in rats (37.3%) than mice (20.2%).
The highest (23.0%) month-wise prevalence of C. parvum was found during July whereas the lowest (10.0%) during December. The highest (22.4%) season-wise valence was noted during summer followed by spring (16.9%) then autumn (15.3%) le the lowest (11.3%) during winter. Infection was higher in females (19.9%) than es (12.0%). Adult rats and mice were more commonly affected than younger, infection was higher in rats (17.7%) than mice (7.6%).
The highest (20.0%) month-wise prevalence of T raenieformis was found during y and August whereas the lowest (6.0%) during December. The highest (18.4%) son-wise prevalence was noted during summer followed by autumn (10.8%) then ring (10.6%) whereas lowest (7.0%) during winter. Infection was higher in females 15.6%) than males (6.5%). Adult rats and mice were more commonly infected than younger. Infection was higher in rats (12.4%) than mice (6.0%).
The highest (12.7%) month-wise prevalence of C. hepatica was found during August whereas the lowest (4.0%) during November. The highest (10.8%) season-wise prevalence was noted during summer followed by autumn (6.0%) then spring (6.2%) hues the lowest (4.9%) during winter. Infection was higher in females (8.4%) than males (5.0%). Adult rats and mice were more commonly affected than younger. Infection higher in rats (7.3%) than mice (4.6%).
The highest (9.0%) month-wise prevalence of Babesia spp. was found during August whereas infection was absent during January, February, March, April, November and December. The highest (5.0%) season-wise prevalence was noted during summer followed by autumn (4.2%) then spring (0.1%) and was absent during winter. The infection was higher in males (2.7%) than females (2.0%).The infection was present only in adult rats and mice and no case was recorded in younger. Higher infection was noted -n (2.3%) and than mice (2.4%).
The highest (7.3%) month-wise prevalence of Trypanosoma spp. was found August whereas it was absent during January, February, November and December. The highest (5.7%) season-wise prevalence was noted during summer by spring (2.2%) then autumn (1.2%) and it was absent during winter. The infection was higher in females (2.5%) than males (2.0%). Adult rats and mice were more commonly affected than younger. Higher infection was noted in rats (2.5%) than mice
The highest (4.7%) month-wise prevalence of Leishmania spp was found during y and August whereas infection was absent during January, February, March, April, October, November and December. The highest (3.4%) season-wise prevalence was during Summer followed by autumn (1.1%) then spring (0.1%) and infection was during winter. The infection was higher in females (1 .4%) than males (0.9%). The infection was found only in adult rats and mice and no positive case was recorded in 1younger. The infection was (1.2%) in rats and mice.
The role of meteorological data i.e temperature, humidity and rainfall was also studied. It was noted that there was a positive co-relation of high temperature and humidity with the prevalence of various parasitic infections. As the infection were maximum during summer when the temperature and humidity was favorable for high prevalence of parasitic burden.
This study will he helpful to disseminate information regarding zoonotic potential parasitic infections via media i.e. newspapers. magazine, electronic media (T.V, I.T, Radio) through seminars, meetings and conferences with professionals doctors, paramedical staff and livestock farmers.
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