ABSTRACT
This study reports the effect of putrescine addition, either alone or in combination with insulin, transferrin and selenite (ITS), to serum-free Advanced DMEM/F12 (A-DMEM/F12) medium, on the in vitro culture of Babesia bovis and using a perfusion bioreactor to improve efficiency of the process. A B. bovis strain previously adapted to proliferate in serum-free medium (Bbovis-SF) was evaluated using eight increasing concentrations of putrescine. The percentage of parasitized erythrocytes (PPE) obtained from cultures supplemented with 0.101 mg/L was 6.23% compared with 2.3% for control cultures with M199 with Earle's salts (M199) and 40% serum. The combination of putrescine (0.101 mg/L) and a mixture of ITS (2000, 1100, and 1.34 mg/L, respectively) (Pu-ITS), in A-DMEM/F12 culture medium without serum yielded a maximum PPE of 17.26% compared to 2.58% in the control medium. This new formulation of culture medium, together with the use of a hollow-fiber perfusion bioreactor system (HFPBS), caused a substantial increase in the proliferation of B. bovis, yielding a maximum cumulative PPE of 118.8% after five days, compared to 58.6% in cultures treated with control medium M199 and 40% serum. We concluded that the addition of the ITS mixture and putrescine to the culture medium stimulated the proliferation of B. bovis in vitro. This new medium formulation, used in a HFPBS culture system, can be an effective, automated-prone system that can induce massive proliferation of B. bovis for use as a source of parasite antigens and immunogens.
Subject(s)
Babesia bovis/growth & development , Bioreactors , Erythrocytes/parasitology , Putrescine/metabolism , Animals , Bioreactors/parasitology , Bioreactors/veterinary , Cattle , Cryopreservation/veterinary , Culture Media, Serum-Free , Insulin/metabolism , Selenious Acid/metabolism , Transferrin/metabolismABSTRACT
Bovine serum is an important factor for the optimal growth of Babesia bovis in vitro. This protozoan can be cultured in M-199 with Earle's salts medium (M-199) supplemented with 40% bovine serum (BS). In the present study, four media were assessed along with the control medium M-199. The effect on the proliferation of B. bovis in vitro was tested when these media were combined with insulin (Ins), transferrin (Trans) and selenite (Sel) in the absence of bovine serum. Treatment with Advanced DMEM/F12 medium (A-DMEM/F12) achieved the highest percentage of parasitized erythrocytes (PPE), reaching a maximum value of 9.59%. A-DMEM/F12 medium supplemented with a mixture of Ins (2000 mg/L), Trans (1100 mg/L), and Sel (1.34 mg/L) allowed for the adaptation and proliferation of B. bovis without bovine serum, showed a constant increase in PPE, and reached a maximum value of 9.7% during seven cycles of in vitro culture. It was concluded that continuous proliferation of B. bovis in vitro could be achieved using A-DMEM/F12 medium supplemented with Ins-Trans-Sel, without bovine serum. After adaptation for proliferation in serum-free medium, the B. bovis strain of parasites could have future use in the study of this economically important protozoan species that affects cattle.
Subject(s)
Babesia bovis/physiology , Culture Media, Serum-Free/chemistry , Insulin , Selenious Acid , Transferrin , Adaptation, Physiological , Animals , Babesia bovis/drug effects , Babesia bovis/growth & development , Babesia bovis/isolation & purification , Buffers , Cattle , Erythrocytes/parasitology , Hydrogen-Ion Concentration , SerumABSTRACT
One hundred and sixty 1-month-old turkey poults were delivered to 40 households in four communities of the State of Yucatan, Mexico. The poults were divided into two populations, one vaccinated and the other non-vaccinated against avian pox. During three months, monthly visits were carried out in order to monitor the appearance of lesions suggesting avian pox in the birds delivered. Each turkey was clinically examined, searching for characteristic avian pox lesions that were classified according to the degree of severity observed. The true incidence rate and the cumulative incidence rate of avian pox were determined and the true incidence and cumulative incidence rates of mortality were determined and the relative risks calculated. The true incidence rates for avian pox in vaccinated and non-vaccinated birds were 1.5 and 1.47 respectively. The cumulative incidence rates were 0.94 and 0.90 for vaccinated and non-vaccinated birds, respectively. The comparison for the whole period between vaccinated and non-vaccinated groups did not show a significant statistical difference for mortality. However, when mortality was compared between vaccinated and non-vaccinated turkeys for each month of the study, there was a statistically significant difference for the first month (relative risk = 0.216, confidence interval 0.069 to 0.676). In addition, when the severity of pox lesions between groups was compared, statistically significant differences were found in favour of the vaccinated birds (P < 0.0001).
Subject(s)
Avipoxvirus/immunology , Poultry Diseases/epidemiology , Poultry Diseases/prevention & control , Poultry Diseases/virology , Poxviridae Infections/veterinary , Turkeys , Viral Vaccines/pharmacology , Animals , Incidence , Mexico/epidemiology , Poxviridae Infections/epidemiology , Poxviridae Infections/prevention & control , Risk AssessmentABSTRACT
The present review documents the results of studies evaluating the acaricidal activity of different plant products and secondary metabolites against ticks that are resistant and susceptible to conventional acaricides. Studies published from 1998 to 2016 were included. The acaricidal activity of plant extracts, essential oils and secondary compounds from plants have been evaluated using bioassays with ticks in the larval and adult stages. There is variable effectiveness according to the species of plant and the concentrations used, with observed mortalities ranging from 5 to 100% against the Rhipicephalus (Boophilus), Amblyomma, Dermacentor, Hyalomma, and Argas genera. A number of plants have been reported to cause high mortalities and/or affect the reproductive capacity of ticks in the adult phase. In the majority of these trials, the main species of plants evaluated correspond to the families Lamiaceae, Fabaceae, Asteraceae, Piperaceae, Verbenaceae, and Poaceae. Different secondary metabolites such as thymol, carvacrol, 1,8-cineol and n-hexanal, have been found to be primarily responsible for the acaricidal activity of different essential oils against different species of ticks, while nicotine, dibenzyldisulfide and dibenzyltrisulfide have been evaluated for plant extracts. Only thymol, carvacrol and 1,8-cineol have been evaluated for acaricidal activity under in vivo conditions. The information in the present review allows the conclusion that the secondary metabolites contained in plant products could be used as an alternative for the control of ticks that are susceptible or resistant to commercial acaricides.
Subject(s)
Acaricides/pharmacology , Plant Extracts/pharmacology , Ticks/drug effects , Animals , Plant Extracts/chemistry , Plants, Medicinal/chemistryABSTRACT
The commercial flocks in Yucatan, Mexico are free of Newcastle disease virus (NDV) in its velogenic viscerotropic form, but little is known about the disease status of backyard poultry. A seroprevalence survey in 30 villages using haemagglutination inhibition (HI) tests for infectious bronchitis virus (IBV) and NDV antibodies was carried out from December 1997 to June 1998. The seroprevalences were 56.5% (95% CI 50-63%) for IBV and 2.2% (95% CI 0.5-3.8%) for NDV. All the villages had chickens that were positive for antibodies to IBV and nine of the villages had chickens that were positive for antibodies to NDV. This suggests that IBV may be responsible for a large proportion of the respiratory disease observed in backyard chickens in Yucatan. The implications of these findings are discussed, including the highly susceptible status of the backyard chickens in Yucatan to NDV and the possibility of this virus being one cause of the syndrome known as mortandad by the local people.