kimaturRadial Pneumatic Shockwave System for Structured Physiotherapy Workflowskimatur is a radial pneumatic shockwave platform designed for efficient use in daily physiotherapy practice. A precision-controlled pneumatic drive generates reproducible radial pressure waves for targeted mechanical stimulation of musculoskeletal tissue.
What differentiates kimatur is not only performance, but the level of control and workflow integration. Therapy parameters, patient protocols, and treatment documentation are managed directly on the system, enabling fast setup, reproducible applications, and consistent clinical routines.
The platform combines controlled pressure and frequency modulation with integrated patient management and outcome tracking. Designed for continuous operation in demanding clinical environments, kimatur supports structured musculoskeletal therapy within modern physiotherapy settings.
One Platform – Four Configurationskimatur is available in four configurations, each addressing specific workflow and deployment requirements:
- PRIME – Premium stationary tower system for high-throughput practices
- DOUBLE – Dual-handpiece configuration for consecutive workflow efficiency
- DUO – Simultaneous dual-power system for parallel treatment capacity
- GO – Portable system for mobile and flexible applications
All configurations share the same pneumatic technology, software logic, and user interface architecture.
Core Technical Platform Specifications- Precision-controlled pneumatic drive system
- Max. pressure: 6.9 bar
- Frequency range: 1–22 Hz
- Real-time parameter adjustment during treatment
- 2,000,000 impulse revision kit durability
- Integrated patient database and VAS tracking
- Touchscreen-based therapy management
- Designed for continuous clinical operation
Mechanical Precision for Regenerative PhysiotherapyStructured Mechanical Stimulation for Tissue Adaptationkimatur supports modern
regenerative physiotherapy by targeting microcirculation, mechanotransduction, and tissue remodeling — contributing to long-term functional resilience.