CARS imaging of therapeutic alginate implants after spinal cord injury in the rat

  1. 1Department of Neurosurgery, University Hospital Carl Gustav Carus, TU Dresden
  2. 2Clinical Sensoring and Monitoring, Department of Anesthesiology and Intensive Care Medicine, TU Dresden
  3. 3Center for Translational Bone, Joint and Soft Tissue Research, TU Dresden

ortrud.uckermann@uniklinikum-dresden.de

Label-free multiphoton microscopy probes the morphochemistry of tissue and constitutes a promising technology for biomedical research. Here, we used a multimodal approach to monitor de- and regeneration after spinal cord hemisection in the rat. Furthermore, the effects of a therapeutic implant consisting of unfunctionalized soft calcium alginate hydrogel were assessed. Coherent anti-Stokes Raman scattering (CARS) was used to visualize axonal structures, two-photon excited fluorescence to visualize the activation of microglia/macrophages and second harmonic generation to visualize collagenous scarring. CARS/multiphoton imaging revealed a decreased inflammatory response, reduced scarring, increased presence of axons at the site of injury and decreased demyelination of contralateral white matter in treated animals. The reduction of chronic inflammation and the increase of axons in the lesion correlated with improved hind limb functions. Therefore, CARS/multiphoton microscopy qualified as diagnostically relevant technique with the potential to be applied in vivo for therapeutic monitoring.

Manuscript not yet submitted. The submission phase is currently closed.
@inproceedings{dgao118-b17, title = {CARS imaging of therapeutic alginate implants after spinal cord injury in the rat}, author = {Ortrud Uckermann, Roberta Galli, Kerim Hakan Sitoci-Ficici, Michael Gelinsky, Gabriele Schackert, Edmund Koch, Gerald Steiner, Matthias Kirsch}, booktitle = {DGaO-Proceedings, 118. Jahrestagung}, year = {2017}, publisher = {Deutsche Gesellschaft für angewandte Optik e.V.}, issn = {1614-8436}, note = {Talk B17} }
118. Annual Conference of the DGaO · Dresden · 2017