Robin van den Biggelaar
Onderzoeker/ gast
- Naam
- Dr. R.H.G.A. van den Biggelaar
- Telefoon
- +31 71 527 2727
- r.h.g.a.van.den.biggelaar@biology.leidenuniv.nl
- ORCID iD
- 0000-0001-6247-9705
Voor meer informatie, zie de Engelse pagina.
Onderzoeker/ gast
- Wiskunde en Natuurwetenschappen
- Instituut Biologie Leiden
- IBL Animal Sciences
- Biggelaar R.H.G.A. van den, Hoefnagel M.H., Vandebriel R.J., Sloots A., Hendriksen C.F., Eden W. van, Rutten V.P.M.G. & Jansen C.A. (2021), Overcoming scientific barriers in the transition from in vivo to non-animal batch testing of human and veterinary vaccines, Expert Review of Vaccines 20(10): 1221-1233.
- Meijerink N., Biggelaar R.H.G.A. van den, Haarlem D.A. van, Stegeman J.A., Rutten V.P.M.G. & Jansen C.A. (2021), A detailed analysis of innate and adaptive immune responsiveness upon infection with Salmonella enterica serotype Enteritidis in young broiler chickens, Veterinary Research 52(1): 109.
- Biggelaar R.H.G.A. van den, Maas L. van der, Meiring H.D., Pennings J.L.A., Eden W. van, Rutten V.P.M.G. & Jansen C.A. (2021), Proteomic analysis of chicken bone marrow-derived dendritic cells in response to an inactivated IBV + NDV poultry vaccine, Scientific Reports 11(1): 12666.
- Biggelaar R.H.G.A. van den, Eden W. van, Rutten V.P.M.G. & Jansen C.A. (2020), Nitric oxide production and Fc receptor-mediated phagocytosis as functional readouts of macrophage activity upon stimulation with inactivated poultry caccines in vitro, Vaccines 8(2): 332.
- Biggelaar R.H.G.A. van den, Arkesteijn G.J.A., Rutten V.P.M.G., Eden W. van & Jansen C.A. (2020), In vitro chicken bone marrow-derived dendritic cells comprise subsets at different states of maturation, Frontiers in Immunology 11: 141.
- Peng L, Biggelaar R.H.G.A. van den, Jansen C.A., Haagsman H.P. & Veldhuizen E.J.A. (2020), A method to differentiate chicken monocytes into macrophages with proinflammatory properties, Immunobiology 225(6): 152004.
- Dias J., Boulouis C., Gorin J., Biggelaar R.H.G.A. van den, Lal K., Gibbs A., Loh L., Gulam M., Sia W., Bari S., Hwang W., Nixon D., Nguyen S., Betts M., Buggert M., Eller M., Broliden K., Tjernlund A., Sandberg J. & Leeansyah E. (2018), The CD4−CD8− MAIT cell subpopulation is a functionally distinct subset developmentally related to the main CD8+ MAIT cell pool, Proceedings of the National Academy of Sciences 115(49): E11513-E11522.
- Overige 50% van mijn aanstelling als post-doctoraal onderzoeker