The NeuroSkin Report
The NeuroSkin Report
Where stress becomes visible before disease
A new lens on how biological systems lose the ability to respond – and how this becomes visible at the skin, an early peripheral interface
Making changes in response measurable
Skin reflects how systems regulate, adapt, and recover –
often before failure becomes visible.
PDF · Research Report · 40+ pages
Full Report · 40+ pages · April 2026
Biology rarely fails suddenly.
Biology rarely fails suddenly.
Before structural changes become clinically apparent, systems often begin to shift in how they respond and recover.
Skin, as a peripheral functional interface, can make these dynamics measurable.
Before structural changes become clinically apparent, systems often begin to shift in how they respond and recover.
Skin, as a peripheral functional interface, can make these dynamics measurable.
The NeuroSkin Gap
Skin is often interpreted through outcomes – redness, sensitivity, inflammation, imbalance.
What remains underexplored is how much regulatory capacity the system still has under load.
— how recovery unfolds over time
— how instability becomes visible early
— how skin reflects regulatory capacity
The NeuroSkin Gap
Skin is often interpreted through outcomes – redness, sensitivity, inflammation, imbalance.
What remains underexplored is how much regulatory capacity the system still has under load.
— how recovery unfolds over time
— how instability becomes visible early
— how skin reflects regulatory capacity
A new way to read the skin.
Regulation is a dynamic, physiological and measurable process.
Skin, as a peripheral interface, can help reveal:
Making regulation measurable
Making regulation
measurable
The NeuroSkin Lab explores how regulatory dynamics can be captured through peripheral physiology.
An emerging measurement approach across:
The NeuroSkin Lab explores how regulatory dynamics can be captured through peripheral physiology.
An emerging measurement approach across:
— autonomic regulation
— skin barrier function
— electrodermal activity
— recovery dynamics under challenge
— autonomic regulation
— skin barrier function
— electrodermal activity
— recovery dynamics under challenge
About NeuroSkin
About NeuroSkin
NeuroSkin is an emerging scientific framework and independent initiative exploring skin as a peripheral interface of stress regulation.
Its work spans foundational writing, conceptual framework development, and emerging measurement approaches at the intersection of skin science, stress biology, and peripheral physiology.
NeuroSkin is an emerging scientific framework and independent initiative exploring skin as a peripheral interface of stress regulation.
Its work spans foundational writing, conceptual framework development, and emerging measurement approaches at the intersection of skin science, stress biology, and peripheral physiology.
Developed by
Developed by
The NeuroSkin framework was developed by Sigrid H. von Voigt, founder of CUhealthy, as part of an ongoing body of work exploring how regulation becomes visible at the skin.
The NeuroSkin framework was developed by Sigrid H. von Voigt, founder of CUhealthy, as part of an ongoing body of work exploring how regulation becomes visible at the skin.
The broader project continues through the NeuroSkin Journal and the evolving concept of the NeuroSkin Lab.
The broader project continues through the NeuroSkin Journal and the evolving concept of the NeuroSkin Lab.
Read the NeuroSkin Journal
Contact
Contact
For scientific dialogue or selected collaboration inquiries:
contact@neuroskin.org
For scientific dialogue or selected collaboration inquiries:
contact@neuroskin.org