For PT & Veterinary Rehabilitation Professionals
EVIDENCE • EXPERIENCE • PRACTICAL APPLICATION
Clinical Insights Connect Knowledge to Practice
Start with Clinical Insights to understand the diagnosis, identify key rehabilitation priorities, and connect directly to the protocols, courses, and GoGoCharlie® templates that support clinical decision-making and patient care.
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Carpal Hyperextension Rehabilitation
Carpus Hyperextension Clinical Insights
Overview
Carpal hyperextension occurs when the palmar support system fails, affecting ligaments, fibrocartilage, and flexor structures. Successful rehabilitation depends on identifying instability severity, protecting healing tissues, and rebuilding dynamic muscular support.
Key Clinical Points
Accurate grading drives decision-making
Stress radiographs remain the diagnostic cornerstone for identifying instability.
Musculoskeletal ultrasound may help characterize palmar ligament, fibrocartilage, and tendon involvement.
Stability determines treatment pathway
Some injuries may respond to OTC or custom orthotic support combined with rehabilitation.
Complete disruption of palmar support structures has limited healing capacity with conservative care alone.
Dynamic support matters
Carpal and digital flexor strength contribute to functional stabilization.
“Successful outcomes depend on matching tissue healing, stability needs, and exercise progression to each patient’s presentation.”
Rehabilitation Priorities
Protect injured palmar structures while maintaining safe limb use.
Restore controlled terminal stance stability.
Improve neuromuscular activation and dynamic muscular support.
Address secondary compensations throughout the kinetic chain.
Use functional assessment and tissue tolerance to guide progression.
Evidence Snapshot
Imaging improves diagnosis and injury classification.
Orthotic management may support selected ligament injuries.
Progressive loading supports long-term functional recovery.
Clinical Pearls
Evaluate the whole patient, not only the carpus; compensatory changes may occur in adjacent joints and the spine.
Orthotic success depends on fit, skin tolerance, owner compliance, and integration with rehabilitation.
Terminal stance control is a key functional indicator during recovery.
Continue Learning
View the complete rehabilitation protocol.
Deliver home exercise programs and client education.
Watch clinical demonstrations, treatment techniques, and practical applications.
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Beierer LH. Canine carpal injuries: From fractures to hyperextension injuries. Vet Clin North Am Small Anim Pract. 2021;51(2):285-303. doi:10.1016/j.cvsm.2020.12.002
González-Rellán S, Fdz-de-Trocóniz P, Barreiro A. Ultrasonographic anatomy of the palmar region of the carpus of the dog. Vet Radiol Ultrasound. 2023;64(3):546-556. doi:10.1111/vru.13224
Tomlinson JE, Manfredi JM. Evaluation of application of a carpal brace as a treatment for carpal ligament instability in dogs: 14 cases (2008–2011). J Am Vet Med Assoc. 2014;244(4):438-443. doi:10.2460/javma.244.4.438
Twarowska J, Strychalski J, Gugołek A. A pilot study on the effects of a 10-session underwater treadmill programme on canine joint range of motion. Animals (Basel). 2025;15(21):3186. doi:10.3390/ani15213186

