A new diagnostic
standard for movement.
Moviq Health was founded on a single observation. The tools that define elite athletic care have never made it into the physician's office. We are changing that by building the infrastructure to make biomechanical measurement a routine part of clinical practice.
To transform human movement into objective clinical data, enabling precise decisions and a higher standard of care.
To make biomechanical measurement a standard part of how medicine measures recovery, function, and long-term health.
The clinicians
behind the data.
Chanha founded Moviq Health after recognizing that clinical decisions were consistently being made without data. As a Doctor of Physical Therapy, the vision behind Moviq Health is grounded in direct clinical experience, building the diagnostic infrastructure that modern medicine has been missing.
Akash is a Doctor of Physical Therapy with an Orthopedic Clinical Specialist certification, bringing deep expertise in musculoskeletal assessment to Moviq Health's measurement model. His focus is ensuring that complex biomechanical data is translated into clinical output that is accurate, actionable, and meaningful at the point of care.
Hillary is a Doctor of Physical Therapy with a Geriatric Clinical Specialist certification, ensuring Moviq Health's protocols are designed for real clinical environments and built for seamless adoption across diverse patient populations and practice settings.
Gabriella brings specialized expertise in health technology commercialization, guiding Moviq Health's growth strategy and ensuring the platform is positioned and deployed in a way that creates lasting value across the healthcare system.
Moviq Health
Story
Every day, patients walk into a physician's office with questions about their body. Am I getting better? Is my recovery on track? Why does this still hurt? Every day, clinicians do their best to answer by watching, observing, and estimating with nothing more than trained eyes and a hallway to walk down.
Meanwhile, a professional athlete recovering from an injury or surgery walks into a sports science lab. Force plates measure how much load each leg is absorbing. Motion capture tracks how the body is compensating. A clinician reviews the data and makes a decision grounded in data. The athlete knows exactly where they stand because the data guides care.
The technology has existed for decades. It has been sitting in research labs and elite sports facilities, out of reach for the patients who need it most. The 70 year old at risk of a fall. The post-surgical patient unsure if they will walk again. The person living with chronic pain that no imaging has ever explained.
Moviq Health was founded by a Doctor of Physical Therapy who spent years on both sides of that gap. Treating patients with incomplete information. Knowing that the data existed somewhere, just never in the room where the decision was being made.
What was missing was the infrastructure. A physician-ordered referral. A clinician-interpreted report. A format that fits inside a real practice without adding burden to the people already carrying too much of it.
Moviq Health is that infrastructure. Built for the patients who deserve more than observation. For the clinicians who have always known there was more to measure.
The science
behind the measurement.
Risk Assessment and Prevention of Falls in Older Adults
Gait speed and double support time are among the strongest objective predictors of fall risk in older adults — detectable before a patient reports instability.
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Risk Assessment and Prevention of Falls in Older Adults
Gait speed and double support time are among the strongest objective predictors of fall risk in older adults — detectable before a patient reports instability.
Gait speed integrates the performance of multiple physiological systems simultaneously. Studies show it predicts fall risk, hospitalization, and functional decline with greater accuracy than patient-reported symptoms. Objective gait measurement gives physicians a documentable, trackable metric for clinical decision-making.
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Functional Reach and Tinetti Systematic Review
Manual balance screens miss the granular data that separates a stable patient from one who is at risk. Objective measurement captures what observation cannot.
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Functional Reach and Tinetti Systematic Review
Manual balance screens miss the granular data that separates a stable patient from one who is at risk. Objective measurement captures what observation cannot.
Functional Reach and Tinetti scores are widely used but rely on clinician judgment and categorical scoring. Computerized balance assessment captures center of pressure excursion, limits of stability, and reactive postural responses — variables that quantify balance strategy with precision that manual screens cannot replicate.
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Lower Limb Strength and Prospective Falls
Lower limb force deficits affect step length, push-off power, and walking efficiency — and are measurable before they become symptomatic.
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Lower Limb Strength and Prospective Falls
Lower limb force deficits affect step length, push-off power, and walking efficiency — and are measurable before they become symptomatic.
Knee extension strength and ankle push-off power are primary drivers of gait propulsion. Bilateral force plate measurement quantifies these deficits with precision, enabling clinicians to track changes in walking mechanics over time and intervene before compensatory patterns become permanent.
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Whether you are a practice exploring partnership or a patient with questions about your assessment, we are here.