Human posture and movement are governed by a complex closed-loop system involving the spine, the pelvis, and the foot-ground interface. At Xinkang Biomedical, we develop intelligent physical therapy equipment that decodes this biomechanical link. By leveraging advanced plantar pressure sensors, 3D laser scanner models, and non-invasive spine profile reconstruction, we provide global medical practitioners with tools to target structural imbalances before they turn into permanent deformities.
Our clinical-grade technologies focus on four main pillars: digital gait analysis, static/dynamic balance assessment, high-resolution diabetic foot dynamics monitoring, and orthopedic 3D printing execution systems. Designed with robust localization options, our systems are optimized for challenging island regions like Kiribati where medical hardware needs to be reliable, energy-efficient, and easy to deploy remotely.
Start with highly accurate patient data. Our dynamic balance, gait analysis, and spinal measurement systems lay the diagnostic foundation for effective physical rehabilitation programs in Tarawa and remote clinics.
Provides real-time center of pressure (COP) tracking and target-oriented equilibrium training exercises.
Measures dynamic pressure distribution under the foot sole, highlighting abnormal gait cycles.
Advanced high-sensitivity sensor grids mapping early pressure indicators of diabetic ulcer formation.
Lightweight, radiation-free digital spine mapping unit designed for mobile health outreach missions.
Kiribati face unique health challenges that demand specialized rehabilitation technologies. As a nation experiencing high rates of Non-Communicable Diseases (NCDs), particularly Type II diabetes, the risk of diabetic neuropathy and associated foot ulceration is critically high. Early diagnostics and preventive foot care can dramatically decrease amputation rates, saving families from lifetime disability and lessening the strain on national medical resources.
Furthermore, local work activities on the outer islands involving heavy lifting, manual fishing, and agricultural labor contribute to chronic spinal compression and lower back issues. Pediatric posture monitoring is also highly desired to address scoliosis in school-aged children. By integrating portable biomechanical systems into the Kiribati Ministry of Health and Medical Services (MHMS) network, clinics can provide diagnostic screenings even without direct access to expensive, stationary medical imaging centers.
Discover how our products close the loop from sub-millimeter static/dynamic diagnostics to modern, automated custom orthotic production at the point of care.
Dynamic foot scanning capture pressures at 100Hz while portable 3D posture sensors construct structural skeletal models of the pelvis and spinal curves.
Diagnostic metrics are pushed to secure clinical databases, comparing balance indices and load abnormalities against global kinematic databases.
The software automatically generates customized insole profiles, directly printing orthotics or feeding parameters to active training systems.
Located in Hangzhou, China, Xinkang Biomedical Technology operates a modern manufacturing facility covering more than 10,000 square meters. By integrating our R&D center directly with 30+ standardized OEM production lines, we achieve complete vertical control over component quality, circuit fabrication, structural assembly, and firmware calibration.
This direct integration guarantees that our physical therapy equipment, dynamic sensory floorplates, and orthotics 3D printers are built using high-grade, medically certified materials. For partners in Oceania, our proximity to the major shipping ports of Shanghai and Ningbo allows us to secure reliable freight schedules, minimizing supply disruptions even when shipping to remote port destinations like Betio, Tarawa.
Sqm Factory
OEM Lines
R&D Dedication
As a national high-tech entity, Xinkang Biomedical maintains a strong patent portfolio, protecting proprietary algorithms used in spine reconstruction and balance assessment:
Serving leading healthcare environments globally, and providing tailored rehabilitation products for municipal, private, and regional hospitals.
Our medical solutions have set the standard in over 75% of tertiary hospitals and rehabilitation departments across China. Collaborating closely with top-tier medical universities, R&D institutions, and regional clinical centers, we continuously optimize the patient data acquisition algorithms inside our gait plates and muscle assessment software.
Through streamlined shipping channels and direct OEM configurations, we distribute to hospital groups in Europe, Southeast Asia, and Oceania. We customize our systems to local requirements, providing power protection configurations, localized digital software menus, and modular replacement parts suitable for remote island centers.






Explore our complete collection of dynamic scanners, orthopedic 3D printers, muscle performance training units, and electrical stimulation devices.
Complete gait lab solution with high-speed sensor synchronization for clinic-wide posture assessments.
Dynamic resistance training system targeting localized lower limb muscle group recovery.
Combines optical scanning accuracy with traditional thermotherapy moxibustion technologies.
Enables rapid fabrication of bespoke orthotic insoles using custom-hardness filaments.
Neuro-rehabilitation hardware helping post-stroke patients rebuild neuromuscular pathways.
The gold standard for muscle evaluation, providing safe concentric and eccentric testing profiles.
Multi-channel neuro-modulation unit facilitating cognitive and physical motor rehabilitation.
High-grade clinical platform providing computerized dynamic posturography (CDP).
We partner with global biomedical entities to manufacture, test, and package advanced physical rehabilitation machines under high conformity protocols.
Xinkang Medical houses an elite R&D crew graduated from top-tier biomedical and mechanics engineering academies. Both hardware circuit architectures and proprietary signal processing software are created internally. This independent development cycle ensures long-term upgrade capability, offline localized database storage, and customized integration with third-party EHR systems.
From product validation to environmental chambers testing, our quality inspection processes mimic international standards. Every sensor plate, force sensor, and stepper motor undergoes aging stress validation cycles. The production lines follow ISO 13485 medical device quality systems to deliver pristine components that withstand years of continuous clinic use.
To overcome distance and logistics hurdles in Oceania, we provide remote installation videos, digital diagnostic calibrations, and direct online consultations for medical engineers. We ship modular backup packages (PCB boards, power converters, sensor arrays) to secure near-zero down-time operation in Kiribati's main clinic locations.
Get answers to technical queries, shipping options, and configuration specifications for executing postural analysis and podiatric systems in Kiribati.
Yes. Our medical diagnostic devices are equipped with wide-voltage protection units (100V-240V, 50-60Hz tolerance) and stable surge filtering systems. Portable devices, such as the 3D Spine Posture Measurement unit, utilize high-capacity rechargeable lithium batteries, enabling complete diagnosis and field assessments even during sudden grid outages.
Due to high incidences of diabetes in Oceania, peripheral neuropathy often masks localized pressure points on the foot. The system uses high-density sensor grids to map dynamic pressure concentrations during walking. By flagging areas with abnormally high Peak Plantar Pressure (PPP), doctors can intervene with customized orthopedic insoles before ulcerations develop, reducing neuropathy-related amputation risk by up to 80%.
Standard OEM manufacturing cycles range from 15 to 30 days depending on order size. Ocean freight from Shanghai or Ningbo ports to Betio Port, Tarawa takes approximately 35 to 45 days. We provide comprehensive digital setup video kits, interactive video-call training, and localized software configurations. We also pack basic spare parts packages with your order to facilitate quick physical replacement if needed.
Yes. As a primary manufacturer, Xinkang Biomedical offers deep OEM and ODM customization. This includes custom casing paint schemes, medical group logos, customized gait analysis report layouts, and integration of regional diagnostic scales. Contact our sales department to discuss your custom project specifications.
The 3D Foot Scanner captures a detailed, sub-millimeter 3D mesh model of the patient's foot sole in seconds. Our CAD software converts this mesh into an orthopedic insole model, compensating for high-pressure areas. The file is sent directly to our Orthopedic 3D Printer, which fabricates the customized insole utilizing medical-grade TPU with varying density structures, ensuring target support and offloading.