Scientific understanding of tDCS originates from extensive brain stimulation research conducted over several decades. tDCS achieves brain stimulation by delivering a mild electrical current through the scalp as opposed to rTMS which utilizes magnetic pulses to affect brain activity. The applied current influences neuronal excitability by either increasing or decreasing their activity based on the brain region targeted.

Clinical research has validated that tDCS can:

– Stimulating the brain regions that control memory and learning as well as decision-making processes results in improved cognitive abilities.
– The treatment of depression and anxiety becomes possible when neural circuits for mood regulation are modulated to improve mental health.
– Neurological recovery benefits from the enhancement of neuroplasticity in patients who have suffered strokes and brain injuries.
– Enhance focus and productivity through increased prefrontal cortex activity to support people who struggle with ADHD and learning difficulties.

By utilizing qEEG guidance tDCS achieves precision targeting of specific brain areas tailored to each person’s needs. Our system surpasses standard treatment methods because it fine-tunes each session according to live brain data.
Personalized neuromodulation treatment will rely on the combined power of artificial intelligence and qEEG data to deliver targeted therapies.

tDCS technology now offers personalized treatment through the incorporation of AI-powered Neuromap algorithms for each session. Patients first complete a qEEG brain mapping session before beginning tDCS treatment which examines electrical brain region activity. Our AI-powered Neuromap system processes the data to identify brain regions with hyperactivity, underactivity or dysregulation that need specific stimulation.

The precision of this approach ensures that each tDCS session matches the individual’s brain function characteristics leading to better outcomes while reducing chances of overstimulation or poor targeting. The qEEG-informed protocol directs tDCS application to precise brain locations requiring treatment.

tDCS treatment enhances dorsolateral prefrontal cortex activity to manage mood and alleviate depression and anxiety symptoms.

When focus-related neural pathways receive stimulation they show enhanced performance in concentration along with improved working memory and executive function capabilities.

tDCS therapy helps prevent cognitive deterioration in Alzheimer’s patients by strengthening neural connections and preserving memory functions.

Targeted stimulation plays a crucial role in stroke rehabilitation by restoring damaged neural connections which enhances both motor skills recovery and cognitive function restoration.

Real-time monitoring combined with continuous AI-led analysis allows our system to maintain alignment with each patient’s changing brain activity during every session.