Hocoma Lokomat Pro — Specs & Review

Specifications

BrandHocoma
ModelLokomat Pro
Year2001
CategoryMedical
Autonomysemi-autonomous
Environmentindoor
Price (USD)$300000–$500000
Weight350 kg
Dimensions150cm L × 100cm W × 220cm H
ConnectivityEthernet, WiFi
Country of originCH

Key features

What is it?

Hocoma Lokomat is a robotic gait therapy system that guides neurological rehabilitation patients through physiologically correct walking patterns using a powered leg exoskeleton and body weight support system.

Who is it for?

Key specs

How it compares

Vs manual gait therapy: Lokomat enables up to 1,000 walking repetitions per session vs 50–100 achievable with a single therapist. The high-repetition approach is aligned with neuroplasticity research supporting task-specific walking practice for recovery.

Limitations

FAQ

How much does the Hocoma Lokomat cost?

Lokomat pricing varies by configuration and is available through Hocoma's rehabilitation sales network. Full Lokomat Pro systems are typically priced at $300,000–$500,000. Contact Hocoma for formal pricing.

What is the Hocoma Lokomat used for?

Lokomat is a robotic gait therapy system that supports stroke, spinal cord injury, and neurological rehabilitation patients in walking on a treadmill using a powered exoskeleton that guides leg movement through physiologically correct gait patterns.

What are the key specs of the Lokomat?

Lokomat uses a powered bilateral leg exoskeleton with dynamic body weight support, treadmill walking at 0.1–3.2 km/h, biofeedback displays for patient motivation, and real-time kinematic monitoring for therapist adjustment.

Who uses the Hocoma Lokomat?

Lokomat is used in neurological rehabilitation centres treating patients recovering from stroke, traumatic brain injury, spinal cord injury, multiple sclerosis, and other conditions affecting walking ability.

What is the clinical benefit of Lokomat vs manual gait therapy?

Lokomat enables higher walking repetition volumes than manual physical therapy — up to 1,000 steps per session versus 50–100 with a single therapist. Higher repetition neuroplasticity-based rehabilitation has clinical evidence for improved walking outcomes.