Abstract: A protective patch or bandage is provided for use with an implantable trial neurostimulation lead for implant within a patient. In one example, the lead is routed through the patch to a trial neurostimulation generator. In another example, the patch includes an internal electrical connector for connecting the trial neurostimulation lead to a connection line from the trial neurostimulation generator. In either case, the patch is sealed over an implant site to protect and hygienically isolate the site. A central chamber of the patch is provided to hold medical gauze and to further hold a coiled portion of the neurostimulation lead. In some examples, the patient can shower while wearing the protective patch.

Abstract: Disclosed herein is a disposable enclosure for use with a trial neurostimulation device configured to electrically couple with a neurostimulation lead for implant within a patient. The trial neurostimulation device includes a pulse generator portion. The disposable enclosure includes a first wall structure, a second wall structure opposite the first wall structure, a volume between the first and second wall structures, and a header. The volume is configured to receive therein the pulse generator portion. The header is configured to electrically couple with the neurostimulation lead. The header is supported in the disposable enclosure adjacent the volume and configured to electrically couple with the pulse generator portion when the pulse generator portion is located in the volume.

Abstract: Disclosed herein is a disposable enclosure for use with a trial neurostimulation device configured to electrically couple with a neurostimulation lead for implant within a patient. The trial neurostimulation device includes a pulse generator portion. The disposable enclosure includes a first wall structure, a second wall structure opposite the first wall structure, a volume between the first and second wall structures, and a header. The volume is configured to receive therein the pulse generator portion. The header is configured to electrically couple with the neurostimulation lead. The header is supported in the disposable enclosure adjacent the volume and configured to electrically couple with the pulse generator portion when the pulse generator portion is located in the volume.

Abstract: A protective patch or bandage is provided for use with an implantable trial neurostimulation lead for implant within a patient. In one example, the lead is routed through the patch to a trial neurostimulation generator. In another example, the patch includes an internal electrical connector for connecting the trial neurostimulation lead to a connection line from the trial neurostimulation generator. In either case, the patch is sealed over an implant site to protect and hygienically isolate the site. A central chamber of the patch is provided to hold medical gauze and to further hold a coiled portion of the neurostimulation lead. In some examples, the patient can shower while wearing the protective patch.

Abstract: The embodiments disclosed herein is related to a system for optical coherence tomographic imaging of turbid (i.e., scattering) materials utilizing multiple channels of information. The multiple channels of information may be comprised and encompass spatial, angle, spectral and polarization domains. More specifically, the embodiments disclosed herein is related to methods and apparatus for utilizing optical sources, systems or receivers capable of providing (source), processing (system) or recording (receiver) a multiplicity of channels of spectral information for optical coherence tomographic imaging of turbid materials. In these methods and apparatus the multiplicity of channels of spectral information that can be provided by the source, processed by the system, or recorded by the receiver are used to convey simultaneously spatial, spectral or polarimetric information relating to the turbid material being imaged tomographically.

Abstract: The embodiments disclosed herein is related to a system for optical coherence tomographic imaging of turbid (i.e., scattering) materials utilizing multiple channels of information. The multiple channels of information may be comprised and encompass spatial, angle, spectral and polarization domains. More specifically, the embodiments disclosed herein is related to methods and apparatus for utilizing optical sources, systems or receivers capable of providing (source), processing (system) or recording (receiver) a multiplicity of channels of spectral information for optical coherence tomographic imaging of turbid materials. In these methods and apparatus the multiplicity of channels of spectral information that can be provided by the source, processed by the system, or recorded by the receiver are used to convey simultaneously spatial, spectral or polarimetric information relating to the turbid material being imaged tomographically.

Abstract: An apparatus is disclosed for studying an object based on at least one of polarization, space, position or angle of light that has reflected from the object. An optical tomographic instrumentation of the apparatus includes a light source coupled to a source path, a sample path, a reference path, and a detection path, wherein the light source generates a spectrally resolved bandwidth. The spectrally resolved bandwidth includes a plurality of spectrally resolved cells and a detector in the detection path for analyzing light reflected from an object in the sample path and the light reflected in the reference path based upon at least one of the polarization, spatial relationship, position or angle domains.

Abstract: The present invention is related to a system for optical coherence tomographic imaging of turbid (i.e., scattering) materials utilizing multiple channels of information. The multiple channels of information may be comprised and encompass spatial, angle, spectral and polarization domains. More specifically, the present invention is related to methods and apparatus for utilizing optical sources, systems or receivers capable of providing (source), processing (system) or recording (receiver) a multiplicity of channels of spectral information for optical coherence tomographic imaging of turbid materials. In these methods and apparatus the multiplicity of channels of spectral information that can be provided by the source, processed by the system, or recorded by the receiver are used to convey simultaneously spatial, spectral or polarimetric information relating to the turbid material being imaged tomographically.