RESUMO
We present a new, to the best of our knowledge, type of off-axis digital holographic imaging method with a long field of view (FOV). In the method, the pre-magnification recording geometry is realized by a cylindrical lens (CL) or cylindrical beam instead of a conventional objective or spherical beam in traditional off-axis digital holography (DH). At the same time, the reference beam is replaced by a divergent cylindrical beam. Theoretical analysis and experiments have justified that, in off-axis DHs, the adoption of the cylindrical beams can realize a one-dimensional pre-magnification of the object beam only in the off-axis direction to satisfy the bandwidth constraint, and at the same time the FOV of the reconstructed image in the orthogonal direction can remain unaffected. In comparison with existing off-axis DHs, this cylindrical wave-based DH (CWDH) method has a distinct advantage in expanding the FOV of the reconstructed image. The FOV feature of the CWDH makes it especially suitable for applications that require a long FOV such as imaging samples in microfluidic channels.
RESUMO
OBJECTIVE: To establish hybridoma cell lines against sporozoites of Eimeria acervulina. METHODS: BALB/c mice were immunized with purified sporozoites of E. acervulina. Hybridoma cell lines were set up by using hybridoma technique, and monoclonal antibodies were prepared. The monoclonal antibody was identified by determining their cross reactivity, relative affinity, immunoglobulin class or subclass with enzyme linked immunosorbent assay (ELISA). RESULTS: Four hybridoma cell lines stably secreting McAbs against sporozoites were obtained: Easp-3G3 and Easp-5G10 belonging to IgG1, Easp-3H6 belonging to IgG2b, Easp-5H4 belonging to IgG2a. All four McAbs bound with E. acervulina sporozoite protein, but the Easp-5H4 McAb showed cross reactivity with E. tenellum sporozoite protein. Different antigenic epitopes were recognized by Easp-3G3 or Easp-5G10 and Easp-3H6 or Easp-5H4. CONCLUSION: Three of the four produced monoclonal antibodies show high specificity and affinity to the Eimeria acervulina sporozoites.