Soft biocompatible polymer optical fiber tapers for implantable neural devices

Optical fibers are between the most common implantable devices for delivering light in the nervous system for optogenetics and infrared neural stimulation applications. Tapered optical fibers, in particular, can offer homogeneous light delivery to a large volume and spatially resolved illumination compared to standard flat-cleaved fibers while being minimally invasive. However, the use of tapers for neural applications has up to now been limited to silica optical fibers, whose large Young's modulus can cause detrimental foreign body response in chronic settings. Here, we present the fabrication and optimization of tapered fiber implants based on polymer optical fibers (POFs). After numerically determining the optimal materials and taper geometry, we fabricated two types of POFs by thermal fiber drawing. The fabrication of the taper was achieved by chemical etching of the fibers, for which several solvents previously reported in literature have been tested. The influence of different parameters on the etching process and on the quality of the obtained tapers was also investigated. The large illumination volume of the produced high-quality taper-based implants was finally tested in vitro in a brain phantom.