Philosophy

NeuroPartner combines the work in different directions, which lead to the same goal - care for patients with neuromotor diseases

Principles

  • Creation, aimed at supporting sick people
  • Continuous self-development
  • Openness

Directions

  • Scientific work on creating neroprostheses and rehabilitation technologies
  • Promoting the improvement system of care to disabled peoplе
  • Popularization of modern developments in neurorehabilitation

Projects

Soft implants

The project aims at creating electro-­chemical neuroprosthesis for implantation into the brain and spinal cord of the paralyzed people

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Multi-­system neurorehabilitation

The project is focused on the testing of Multi-­system rehabilitation approach, which simultaneously uses different neuroprosthetic technologies

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Neuroсocktails

The project is devoted to develop a new group of neuromodulating drugs to activate neuronal plasticity: drug design of chemicals, synthesis of pharmacological agents and their approbation

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All projects
Consulting by NeuroPartner
Consulting

The specialists of NeuroPartner represent lectures, seminars, individual training of scientific laboratories and clinics on various topics in order to popularization of new experimental and neurorehabilitation technologies

Our work is based on years of research, during which a unique experimental models of the nervous system in health and disease, as well as new neuroreabilitation approaches were developed

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Mission

NeuroPartner is a platform for a variety of activities aimed at improving the living standards of people with disabilities

Our results

Employees of NeuroPartner are recognized experts in their field, have a number of publications in scientific journals, perform active research and teaching activity in the field of Neuroscience and Neuroprosthetics. The scientific results are patented.

Multi-system neurorehabilitative strategies to restore motor functions following severe spinal cord injury

Multi-system neurorehabilitative strategies to restore motor functions following severe spinal cord injury

We review and discuss the multi-system neurorehabilitative interventions capable of restoring motor function after severe SCI.

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Controlling specific locomotor behaviors through multidimensional monoaminergic modulation of spinal circuitries

Controlling specific locomotor behaviors through multidimensional monoaminergic modulation of spinal circuitries

We provide new perspectives on the functions of and interactions between spinal monoaminergic receptor systems in producing stepping, and define a framework to tailor pharmacotherapies for improving neurological functions after CNS disorders

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Шаг в обход. Электрохимические нейропротезы — против паралича

Шаг в обход. Электрохимические нейропротезы — против паралича

Электрохимические нейропротезы, стимуляция и тренировка – вот что нужно для того, чтобы «научить» спинной мозг идти «в обход» травмы.

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Electronic dura mater for long-term multimodal neural interfaces

Electronic dura mater for long-term multimodal neural interfaces

We developed the soft implants extracted cortical states in freely behaving animals for brain-machine interface and delivered electrochemical spinal neuromodulation that restored locomotion after paralyzing spinal cord injury.​​

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Versatile robotic interface to evaluate, enable and train locomotion and balance after neuromotor disorders

Versatile robotic interface to evaluate, enable and train locomotion and balance after neuromotor disorders

We introduce a versatile robotic interface to assess and restore the motor functions after neuromotor disorders.

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Restoring Voluntary Control of Locomotion after Paralyzing Spinal Cord Injury

Restoring Voluntary Control of Locomotion after Paralyzing Spinal Cord Injury

An electrochemical neuroprosthesis and a robotic system were tested to encourage supraspinally mediated movements in rats with paralyzing lesions.

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All results