Biomechanics & Sports Science

Biomechanics as a data system, not an opinion

HELIO CINÉTICA turns human movement into quantifiable metrics that guide rehab and performance decisions. Built for physiotherapists, sports clubs, and clinical practice where subjective assessments aren't enough.

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The Problem

The Limitations of Intuition-Only Rehab

Good clinical intuition matters. But when return-to-play decisions, progress tracking, and discharge criteria are based on feeling alone, athletes and patients pay the price.

Subjective Progress

"How does it feel?" is not enough to decide if someone is ready. Patients don't see numbers, and clinicians can't benchmark.

Return-to-Play Risk

Clearing an athlete too early leads to relapse. Waiting too long costs performance. Without metrics, it's a guess.

No Standardization

Different therapists, different criteria. No consistent baseline across clinics or clubs means no real quality control.

Invisible Data

Athletes and clubs want proof. Insurance and directors need documentation. Gut feeling doesn't generate reports.

HELIO CINÉTICA

What HELIO CINÉTICA Does

Recovery becomes science.

From camera to clinical decision

HELIO CINÉTICA uses AI + computer vision to measure what matters: strength deficits, asymmetries, compensations, neuromuscular control, and risk of relapse.

You capture movement with a camera (and optionally, IMU sensors). The system processes it in real-time, extracts biomechanical features, and delivers actionable metrics in a dashboard built for clinicians and coaches.

Everything is designed to integrate into existing workflows: sessions, evaluations, reports, and patient tracking. No lab equipment required.

Key Outcomes

  • Reduce relapse rates with predictive risk models
  • Standardize criteria for "ready / not ready" across your team
  • Quantify muscle deficit and asymmetry with clinical precision
  • Benchmark athletes and track progress session-to-session
  • Generate PDF reports that justify decisions to clubs, insurers, and patients
  • Give athletes clear, visual feedback on their recovery path
Measurements

What We Measure

Lab-grade biomechanics brought into daily clinical practice.

Muscle Strength & Deficit

Real strength per limb. Deficit percentage (e.g., injured leg at 78% vs healthy leg). Clinically relevant thresholds like ≤10% deficit before return.

Left/Right Asymmetry

Side-to-side differences in strength, ROM, and control. Detect compensations and imbalances before they become chronic.

Range of Motion (ROM)

Joint-specific ROM tracked over time. Compare against normative data or the patient's baseline to measure progress.

Compensation Patterns

Detect when the body is "cheating" around an injury. See if loading shifts to other joints or limbs during movement.

Neuromuscular Control

Stability, timing, and coordination metrics. Critical for post-ACL, post-concussion, and balance-dependent rehab.

Risk of Relapse

Predictive model outputs a % risk score based on current metrics, injury type, and recovery phase. Data-driven discharge.

Estimated Recovery Time

AI-generated timeline based on injury severity, patient profile, and progress velocity. Updated session by session.

Torque & Acceleration (Phase 3)

With IMU integration: peak torque, joint acceleration, power output. High-performance data for elite athletes.

Session-to-Session Evolution

Track trends over weeks and months. See if the patient is plateauing, regressing, or progressing as expected.

Technology

How It Works

Built for production, designed for clinicians.

1

Capture

Camera (MVP) + optional IMU sensors. Movement protocols tailored per joint and injury type. WebRTC streaming for real-time processing.

2

Processing

Pose estimation, joint tracking, and feature extraction in the cloud. Built on production-grade ML pipelines with low latency.

3

Analysis

AI biomechanics engine computes asymmetry, force, control, pattern detection, and predictive risk models. Everything is logged and versioned.

4

Visualization

Pro dashboard for clinicians, patient app for athletes. PDF reports, comparisons over time, and export to EHR/IPS systems (Phase 4).

Integration-ready: HELIO CINÉTICA is built to plug into existing clinical workflows. We provide APIs for EHR/IPS integration, patient management systems, and club dashboards.

Use Cases

Who is HELIO CINÉTICA for?

From solo practitioners to elite sports clubs.

Physiotherapy Clinics

  • Standardize protocols across therapists
  • Give patients clear, visual progress tracking
  • Generate reports for referring doctors and insurers
  • Reduce relapse rates with objective discharge criteria

Sports Clubs & Academies

  • Justify return-to-play decisions with objective data
  • Benchmark athletes across the squad or academy
  • Monitor injury risk and workload management
  • Deliver transparent reports to directors and medical staff

Private Practitioners

  • Differentiate your practice with lab-grade tools
  • Offer high-value services to elite athletes
  • No hardware investment required (camera-based MVP)
  • Fast setup, low overhead, measurable outcomes

High-Performance Gyms

  • Track strength gains and asymmetries for members
  • Offer biomechanics assessments as a premium service
  • Help coaches program with data, not guesswork
  • Reduce injury risk for athletes in training

Insurance & Occupational Health

  • Validate recovery timelines with objective metrics
  • Reduce fraud and accelerate return-to-work decisions
  • Standardize criteria across provider networks
  • Generate auditable reports for claims processing

Strength & Conditioning Coaches

  • Monitor athlete readiness with biomechanical data
  • Design programs based on real deficits, not assumptions
  • Collaborate with physios using the same metrics
  • Track load, fatigue, and asymmetry over mesocycles
Product Roadmap

Clinical Evolution

Built for production from day one, with a path to elite-level biomechanics.

Phase 1

Camera-Based MVP

Range of motion, asymmetries, strength deficits, and pro + patient dashboards. No specialized hardware required. Perfect for clinics and solo practitioners.

Phase 2

Predictive AI Models

Risk of relapse (%), estimated recovery time, and injury-specific pattern detection. Uses historical data and patient profile to generate clinical predictions.

Phase 3

IMU Integration

Optional wearable sensors for torque, acceleration, and power output. High-performance data for elite athletes, clubs, and performance centers.

Phase 4

Clinical Integrations

APIs for EHR/IPS systems, automatic report generation for insurers, and club dashboard integrations. Built to scale across provider networks.

Production-first architecture: Every phase is built for real clinical use, not academic experiments. We deploy, validate with real patients, and iterate based on clinical feedback.

Pricing & Engagement

Plans for Solo Physios, Clinics, and Clubs

We start with a pilot, then scale if the data speaks.

Subscription Model

HELIO CINÉTICA is offered as a SaaS subscription per center, clinic, or club. Pricing depends on:

  • Number of active clinicians or seats
  • Number of active patients or athletes tracked per month
  • Optional: IMU hardware rental or purchase (Phase 3)
  • Optional: Custom integrations (EHR/IPS, club dashboards)

Pilot-first approach: We run a 4–8 week pilot with a subset of your patients or athletes. If the metrics prove value (reduced relapse, faster recovery, better decisions), we scale across your entire network.

Ready to turn recovery into data?

Let's have a 30-minute clinical and technical conversation. No sales scripts. Just an honest discussion about whether HELIO CINÉTICA fits your practice.

Book a Discovery Call
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