NR-7
Advanced Neuro-Protection and Nervous System Regeneration
Technical Specifications
NR-7
Revolutionary neurotropic molecular complex offering protection and regeneration of nerve cells with selective blood-brain barrier permeability.
NR-7 represents a major breakthrough in neurological disorder treatment, capable of repairing neuronal damage while preserving existing cognitive and motor functions.
"NR-7 has completely transformed our approach to neurodegenerative diseases. We now observe cognitive function recoveries previously considered permanently lost."
Principal Advantage
Its unique structure allows NR-7 to selectively cross the blood-brain barrier, precisely targeting damaged areas of the central nervous system without affecting surrounding healthy tissues. This exceptional selectivity minimizes side effects while maximizing therapeutic impact.
Comparison with Standard Neuroprotectors
NR-7 demonstrates superior efficacy compared to conventional neurological therapies on essential criteria.
Clinical Applications
Cognitive Repair
Restoration of neuronal connections in brain areas responsible for memory and higher cognitive functions, enabling recovery of lost capabilities.
Peripheral Neuropathies
Revolutionary treatment of peripheral nerve damage with myelin sheath regeneration and restoration of nerve conduction, eliminating pain and numbness.
Oxidative Stress Protection
Neutralization of free radicals and protection of neuronal structures against oxidative damage related to age or neurodegenerative diseases.
Targeted Genetic Therapy
Gene therapy vector capable of specifically targeting mutations linked to hereditary neurodegenerative diseases, preventing their progression.
Mechanism of Action
Neuroprotective Process of NR-7
NR-7 uses a unique multi-target mechanism that protects and stimulates neuronal regeneration while maintaining nervous system homeostasis.
Protection
Creation of a protective microenvironment around vulnerable neurons, blocking the infiltration of neurotoxic compounds.
Regeneration
Stimulation of endogenous neurogenesis and promotion of neural stem cell differentiation into functional neurons.
Reconnection
Facilitation of new synaptic connection formation and reinforcement of existing neuronal circuits.
Energization
Optimization of neuronal mitochondrial metabolism to maintain cellular energy production essential for cognitive functions.
Molecular Particularities
The structure of NR-7 includes a modified phospholipid domain that mimics neuronal membrane composition, facilitating its incorporation and stability in the cerebral environment. Its active core contains a unique arrangement of neuroactive amino acids that specifically interact with neuronal receptors involved in cell survival and synaptic plasticity.
| Neuronal Target | Signaling Pathway | Therapeutic Effect |
|---|---|---|
| NMDA/AMPA Receptors | Calcium-Dependent Modulation | Excitotoxicity Prevention |
| Neuronal Mitochondria | PGC-1α/SIRT1 Activation | Optimized Energy Production |
| Oligodendrocytes | Olig2/Sox10 Induction | Axonal Remyelination |
| Microglia | NF-κB Inhibition | Neuroinflammation Reduction |