Human Organotypic Models for Anti-infective Research
- PMID: 30232600
- DOI: 10.1007/82_2018_130
Human Organotypic Models for Anti-infective Research
Abstract
The use of human organotypic models for biomedical research is experiencing a significant increase due to their biological relevance, the possibility to perform high-throughput analyses, and their cost efficiency. In the field of anti-infective research, comprising the search for novel antipathogenic treatments including vaccines, efforts have been made to reduce the use of animal models. That is due to two main reasons: unreliability of data obtained with animal models and the increasing willingness to reduce the use of animals in research for ethical reasons. Human three-dimensional (3-D) models may substitute and/or complement in vivo studies, to increase the translational value of preclinical data. Here, we provide an overview of recent studies utilizing human organotypic models, resembling features of the cervix, intestine, lungs, brain, and skin in the context of anti-infective research. Furthermore, we focus on the future applications of human skin models and present methodological protocols to culture human skin equivalents and human skin explants.
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References
-
- Abner SR, Guenthner PC, Guarner J, Hancock KA, Cummins JE Jr, Fink A, Gilmore GT, Staley C, Ward A, Ali O, Binderow S, Cohen S, Grohskopf LA, Paxton L, Hart CE, Dezzutti CS (2005) A human colorectal explant culture to evaluate topical microbicides for the prevention of HIV infection. J Infect Dis 192(9):1545–1556 - PubMed
-
- Ahadian S, Civitarese R, Bannerman D, Mohammadi MH, Lu R, Wang E, Davenport-Huyer L, Lai B, Zhang B, Zhao Y, Mandla S, Korolj A, Radisic M (2017) Organ-on-a-chip platforms: a convergence of advanced materials, cells, and microscale technologies. Adv Health Mater
-
- Alam S, Bromberg-White J, McLaughlin-Drubin M, Sen E, Bodily JM, Meyers C (2005) Activity and therapeutic potential of ORI-1001 antisense oligonucleotide on human papillomavirus replication utilizing a model of dysplastic human epithelium. Anticancer Res 25(2A):765–777 - PubMed
-
- Aljurayyan AN, Sharma R, Upile N, Beer H, Vaughan C, Xie C, Achar P, Ahmed MS, McNamara PS, Gordon SB, Zhang Q (2016) A critical role of T follicular helper cells in human mucosal anti-influenza response that can be enhanced by immunological adjuvant CpG-DNA. Antiviral Res 132:122–130 - PubMed
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