Patent Pending · Series A Ready

The Future of
Rehabilitation
Starts Here.

NEUROFLEX is an adaptive robotic rehabilitation platform that uses real-time force feedback to personalize therapy and accelerate recovery.

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of adults experience knee pain

of PT caseloads are leg & knee rehab

NEUROFLEX adaptive rehabilitation device

FORCE SENSING

142.3 N · Real-time

AI CONTROL

Adapting assistance

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International Recognition

Award-Winning Rehabilitation Innovation

NEUROFLEX has received international recognition for its adaptive rehabilitation technology.

Gold Medal

1 Idea 1 World International Innovation, Design & Startup Competition

Türkiye · 2025

Gold Medal

China (Shanghai) International Technology Fair / International Invention & Innovation Expo

Shanghai, China · Jun 2025

The Problem

Rehabilitation is facing a global challenge.

Conventional rehabilitation is repetitive, manual, and rarely adapts to the individual. Therapists are overburdened, patients lose motivation, outcomes suffer.

Growing Aging Population

The global population aged 65+ is projected to double by 2050, dramatically increasing rehab demand.

Increasing Rehab Demand

Knee and lower-limb conditions are among the fastest-rising causes of disability worldwide.

Therapist Shortages

Healthcare systems face a structural shortage of physical therapists in nearly every market.

Long Recovery Periods

Conventional manual therapy is slow, repetitive, and limited by therapist availability.

Limited Access

Advanced rehabilitation equipment remains concentrated in elite urban hospitals.

Our Solution

Adaptive Rehabilitation Intelligence.

Traditional rehabilitation devices deliver fixed assistance.

NEUROFLEX continuously measures patient effort and automatically adjusts support in real time.

More personalized therapy

Greater patient engagement

More efficient rehabilitation

Improved recovery experience

NEUROFLEX used in a clinical rehabilitation environment

Real-Time Monitoring Adaptive Assistance Clinical Environment

How It Is Used

Patient Rehabilitation Journey

Simple, Safe, and Intelligent Rehabilitation Process

01 Assessment

Step 01

Patient Positioning

The patient lies comfortably in a safe supine position.

02 Setup

Step 02

Device Setup

The leg is positioned inside the NEUROFLEX rehabilitation device.

03 Recovery

Step 03

Adaptive Therapy

The patient performs rehabilitation while NEUROFLEX provides intelligent real-time assistance.

How It Works

Real-Time Adaptive Rehabilitation Technology

A closed-loop system that senses, understands, and responds to every patient in real time.

Step 01

Force-Sensing Footplate

A force-sensing footplate continuously measures how much force the patient applies during rehabilitation exercises.

This real-time input allows the system to understand the patient's current physical capability and participation level.

Step 02

Movement Capability Detection

NEUROFLEX continuously analyzes the patient's movement performance and rehabilitation progress in real time.

The system evaluates strength, motion quality, and engagement throughout each rehabilitation session.

Step 03

Adaptive Robotic Assistance

Based on patient input and performance, the robotic system automatically adjusts assistance or resistance levels.

Patients receive only the support they need, encouraging active participation and progressive recovery.

Unlike traditional rehabilitation devices that provide fixed assistance, NEUROFLEX continuously adapts to each patient's real-time performance, creating a personalized rehabilitation experience.

See NEUROFLEX in Action

Watch how NEUROFLEX transforms patient effort into adaptive rehabilitation support through real-time intelligent assistance.

Real-Time Monitoring

Continuously measures patient performance during rehabilitation exercises.

Adaptive Assistance

Automatically adjusts support levels based on patient capability.

Personalized Recovery

Creates a rehabilitation experience tailored to each patient's needs.

Research & Development Journey

From Research to Innovation

NEUROFLEX was developed through an interdisciplinary process combining engineering design, biomechanics research, prototype validation, and embedded electronics development.

STAGE 01

Engineering Design & Development

The development process began with mechanical design and computer-aided engineering. Multiple design iterations were created and evaluated to optimize rehabilitation motion, safety, and usability.

CAD-Based Development
Mechanical Optimization
Engineering Validation

STAGE 02

Biomechanics & Anatomical Research

Human anatomy and biomechanics were carefully studied to ensure that rehabilitation movements align with natural joint motion and clinical rehabilitation principles.

Human Anatomy Research
Biomechanical Analysis
Clinical Relevance

STAGE 03

Prototype Development & Testing

Early rehabilitation prototypes were developed and tested to validate mechanical concepts, motion trajectories, and patient-device interaction before advancing to the current NEUROFLEX system.

Prototype Validation
Functional Testing
User Interaction Study

STAGE 04

Embedded Electronics & Control System

A custom electronic control system was developed to integrate sensors, motor control, and real-time adaptive rehabilitation algorithms, forming the intelligence behind NEUROFLEX.

Custom Electronics
Sensor Integration
Adaptive Control System

"NEUROFLEX is not only a rehabilitation device. It is the result of multidisciplinary research, engineering innovation, clinical understanding, and intelligent control system development."

Why We Are Different

A smarter way to recover.

Traditional Rehabilitation

Manual & Fixed

Fixed assistance
Limited personalization
High therapist workload
Inconsistent progression

NEUROFLEX

Adaptive & Intelligent

Real-time adaptation
Patient-specific support
Automation-assisted therapy
Dynamic progression

Market Opportunity

A multi-billion dollar opportunity.

Rehabilitation Robotics

2024

$428M

2030

$1.03B

15.2% CAGRHome-based use is the fastest-growing sub-segment.

Total Knee Replacement

2024

$9.8B

2034

$16.3B

5.3% CAGREvery TKA patient requires guided rehabilitation.

Fastest growing

Lower-limb rehabilitation is one of the fastest growing healthcare sectors.

100% addressable

Every TKA patient requires weeks of guided post-op rehabilitation.

Underserved

Asia-Pacific markets show 18%+ CAGR with limited domestic supply.

Target Customers

Who we serve.

Rehabilitation Hospitals

Specialized inpatient and outpatient rehab centers

Physical Therapy Clinics

Private and chain outpatient PT practices

Sports Medicine Centers

Athletic recovery and performance rehab

Orthopedic Centers

Post-surgical rehabilitation programs

Home Rehab Providers

Telehealth and at-home rehab networks

Government Healthcare

National rehab and public health programs

Patent Office

Protected Innovation

Patent Pending

Application No. 2603000621 TH

Real-Time Force Feedback

Adaptive Assistance Algorithm

Safe Supine Rehabilitation Design

Multi-Condition Rehab Platform

Business Model

Scalable revenue model.

Six revenue streams combining hardware sales, recurring services, and software — designed to compound as the install base grows.

Device Sales

Direct sales to hospitals and clinics

Hospital Leasing

Capital-efficient leasing programs

Maintenance Contracts

Recurring service and calibration revenue

Software Upgrades

Algorithm and feature releases

Data Analytics Platform

Clinical insights and outcome reporting

Home Rehab Subscription

Future direct-to-patient recurring revenue

Roadmap

Growth strategy.

2025

Prototype Validation

Working prototype validated; bench and lab testing complete.

2026

Clinical Pilot Programs

First clinical pilots with partner hospitals; IRB-approved studies.

2027

Hospital Deployment

Commercial launch in Thailand; first paying institutional customers.

2028

Regional Expansion

Distribution across ASEAN; regulatory clearance in key markets.

2029

Global Commercialization

International channels in EU, Middle East, and Americas.

Founding Team

Meet the founders.

Intuch Vikman Kamollertvara

Co-Founder · Research & Technology Lead

Drives technical architecture, R&D, and adaptive control systems.

Bhubhu.ivk@gmail.com

Inteera Vikman Kamollertvara

Co-Founder · Innovation & Business Lead

Leads commercial strategy, partnerships, and innovation development at NEUROFLEX.

piper.ivk@gmail.com

Advisory Board

NEUROFLEX is led by its founding team and supported by advisors across clinical, engineering, and commercialization.

Assoc. Prof. Napamanee Kornthong, Ph.D.

Clinical Anatomy & Rehabilitation Advisor

Chulabhorn International College of Medicine (CICM)

Advises on human anatomy, rehabilitation science, and clinical relevance to support safe and effective rehabilitation device design.

Dr. Wiput Tuvayanond, Ph.D.

Engineering Advisor

Asian Institute of Technology (AIT)

Advises on engineering development, system architecture, and technical innovation for adaptive rehabilitation technology.

Khemika Chivapornthip

Business Strategy & Commercialization Advisor

Advises on business model development, market positioning, partnership strategy, and commercialization planning.

Investment Opportunity

Join us in transforming rehabilitation.

NEUROFLEX is building the next generation of adaptive rehabilitation technology to improve recovery outcomes and expand access to intelligent rehabilitation worldwide.

Schedule Investor Meeting Request Pitch Deck

Contact

Connect with NEUROFLEX.

For investment, clinical collaboration, distribution, or strategic partnerships, please contact our founding team.

Founder Contact