ABSTRACT
The aim of this work was to examine the immunogenicity of microencapsulated inactivated duck parvovirus in Muscovy duck (Cairina moschata) and goose. Inactivated duck parvovirus suspension was microencapsulated into 14-17 kDa poly(lactide) (PLA) and poly(lactide-co-glycolide) (PLGA50:50H) by coacervation. The in vitro antigen release from individual and mixed PLA and PLGA50:50H microspheres (MS) was biphasic with an initial lag-phase of approx. 10 days followed by a relatively constant release over additional 12 days. By varying the composition of PLA+PLGA50:50H MS mixtures from 3+1 to 1+3, the release kinetics could be altered and controlled efficiently. The antigen-loaded MS were injected subcutaneously into ducks. The immune response, expressed as virus neutralisation (VN) titres, after single administration of MS was modest, i.e. below 200 over the 6 weeks tested, unless the animals were pre-immunised 3 weeks before injecting the MS. The weak immune response was attributed to the low dose injected and inappropriate antigen release kinetics. With pre-immunised animals, however, the results were encouraging and showed that the encapsulated parvovirus was immunogenic.