Title of article
Neural probe design for reduced tissue encapsulation in CNS
Author/Authors
John P. Seymour، نويسنده , , Daryl R. Kipke، نويسنده ,
Issue Information
روزنامه با شماره پیاپی سال 2007
Pages
14
From page
3594
To page
3607
Abstract
This study investigated relationships between a microscale neural probeʹs size and shape and its chronic reactive tissue response. Parylene-based probes were microfabricated with a thick shank (48 μm by 68 μm) and an integrated thin lateral platform (5 μm by 100 μm, either solid or one of three lattice sizes). Devices were implanted in rat cerebral cortex for 4 weeks before immunostaining for neurons, astrocytes, microglia, fibronectin, laminin, and neurofilament. While nonneuronal density (NND) generally increased and neuronal density decreased within 75 μm of a probe interface compared to unimplanted control regions, there were significant differential tissue responses within 25 μm of the platformʹs lateral edge compared to the shank. The NND in this region of the lateral edge was less than one-third of the corresponding region of the shank (129% and 425% increase, respectively). Moreover, neuronal density around the platform lateral edge was about one-third higher than at the shank (0.70 and 0.52 relative to control, respectively). Also, microglia reactivity and extracellular protein deposition was reduced at the lateral edge. There were no significant differences among platform designs. These results suggest that neural probe geometry is an important parameter for reducing chronic tissue encapsulation.
Keywords
Neural prosthesis , Foreign body response , Cell encapsulation , Biosensor
Journal title
Biomaterials
Serial Year
2007
Journal title
Biomaterials
Record number
547642
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