Fill out the form below with the required information and we will get back to you shortly.
HD-Explore allows clinicians and researchers to investigate brain targeting for your own HD configurations. HD-Explore allows clinicians and researchers to rationally plan HD protocols.
Warning: Last items in stock!
Soterix Medical HD-Explore allows clinicians and researchers to investigate brain targeting for your own HD configurations. HD-Explore allows clinicians and researchers to rationally plan HD protocols.
Simple to use HD-Explore Interface Demo Video
Adult (male, female), pediatric, stroke, custom models
tDCS is a highly versatile and adaptable treatment. Soterix tDCS stimulators and accessories can be simply customized to address a range of clinical needs. An important clinical challenge is the optimization of stimulation protocols, including addressing disease specific and/or patient specific needs.
Every Soterix Medical Neurotargeting software is enabled for individual optimization of current flow. Using Soterix Medical solutions, simply upload subject-specific MRIs and the corresponding current flow head model will then appear inside the subject select drop-down menu in your software. It is that easy to consider how variations in your subjects' anatomy may influence current flow. Then combine this with Soterix Medical Neurotargeting to optimize electrode montage.
Simply click the electrode location and enter the amount of current
Another innovation from Soterix Medical Neurotargeting. Users of HD-Explore can now emulate any conventional (pad) tDCS/tACS montage: any number of pads, any shape and size, and position on the head. HD-Explore allows you to simply select a set of HD-electrodes that cover the same region as the emulated pad to re-create brain current flow produced by the pad. Simulate any existing or new tDCS/tACS montage. And combine any number of tDCS/tACS or HD-tDCS electrodes with any current. The limit is your imagination.
Use the simple tools to plot current density across the brain
3D visualization of segmentation masks. 3D visualization of solid surface and transparent surface of brain current flow. Ability to use cutting planes to visualize fields inside the brain at the location of the cut. Ability to use opacity function to visualize current flow within the whole 3D volume.
Feel free to contact our engineers at Caputron to assist you with your endeavors, we would love to help!