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스마트 신체관리 솔루션
30g of Technology, The Standard for 100-Year Health

Smart Physical Care Solution

Santé Healthcare’s smart body management solution is a next-generation healthcare platform that combines ultra-compact wearable sensors with proprietary AI analytics to precisely quantify physical function and predict the risk of age-related diseases.

System Configuration

#Ultra-Precision Wearable Sensor #IMU (Inertial Measurement Unit) #sEMG (Surface Electromyography) #Dual Sensing Technology #AI Analytics App / #AI Analysis App

Core Features

  • analytics Analysis of 48 Precision Metrics
    Derives quantitative metrics such as gait speed, stride length, reaction time, left-right balance, and muscle fatigue.
  • score Physical Function Scoring
    Converts complex biometric data into clear, objective scores that are easy for anyone to understand.
  • monitor_heart AI-Based Disease Risk Prediction
    Predicts the risk of major age-related conditions such as osteoporosis, sarcopenia, and falls in advance.

Benefits of Adoption

Preventive-Focused Care Extends healthy lifespan by identifying functional decline at an early stage.
Exceptional Efficiency Completes assessments within one minute and instantly generates result reports.
Data Reliability Sensor-based, fully automated measurements with no subjective intervention.
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SPPB Plus
A New Standard in Sarcopenia Diagnosis

SPPB Plus

SPPB Plus is a professional healthcare solution that precisely performs the clinically essential Short Physical Performance Battery (SPPB) and Timed Up and Go (TUG) tests using wearable sensors, objectively validating sarcopenia diagnosis and treatment outcomes in clinical settings.

System Configuration

#Dual-Sensing Wearable (H/W) #Dedicated Tablet App #Hospital EMR Integration #SPPB/TUG Protocols

Key Features

  • playlist_add_check Standardized Test Protocol Support
    Fully supports all three SPPB components (balance, gait speed, chair stand) and TUG in compliance with sarcopenia guidelines.
  • timeline Automated Precision Phase Analysis Algorithm
    Automatically identifies motion phases based on sensor data, minimizing inter-rater variability.
  • local_hospital Hospital System (EMR/CIS) Integration
    Enables immediate access and utilization of test results within clinical workflows.

Benefits

Objective Diagnosis Provides objective evidence aligned with non-reimbursed physical function assessment standards.
Treatment Effect Monitoring Quantifies and visualizes subtle functional changes before and after rehabilitation.
Clinical Research Data Utilization Supports export of raw data and gait variables in Excel format for clinical research.
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I-Motion Lab
A Biosignal Acquisition System That Expands the Boundaries of Research

I-Motion Lab

I-Motion Lab is a professional research solution featuring an ultra-lightweight wearable device that combines surface electromyography (sEMG) and inertial measurement units (IMU), enabling precise biosignal data collection anytime, anywhere—without the need for complex wired equipment.

Technical Specs

#sEMG (2000 Hz) #IMU (200 Hz) #Ultra-Lightweight (30 g) #BLE 5.0 #Raw Data Support

Core Technologies & Key Advantages

  • sensors Simultaneous Multi-Biosignal Measurement (Dual Sensing)
    Simultaneously captures fine muscle electrical signals via sEMG (2000 Hz) and motion data via IMU (200 Hz).
  • wifi_tethering Fully Wireless Environment & Multi-Channel Support
    Enables fully wireless experiments using BLE 5.0, with support for pairing two devices simultaneously to a single tablet.
  • developer_mode Professional Analysis Software
    Supports real-time waveform monitoring, axis transformation, filtering, and raw data/log file storage.
  • battery_charging_full Long Battery Life & Ultra-Compact Design
    Operates for over 10 hours on a single charge, with a compact 6 cm form factor and 30 g weight to minimize subject burden.

Applications

Biomechanics Research Gait analysis, sports motion analysis, muscle fatigue studies
Clinical & Rehabilitation Applications Patient muscle function assessment, pre- and post-rehabilitation comparison, neuromuscular control
Healthcare R&D Development of disease screening algorithms and wearable healthcare services
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