The SODY SD9600-FB is an Extracorporeal Shock Wave Lithotripter (ESWL) system designed for non-invasive urinary stone fragmentation using focused shock wave technology. The system combines duplex pulse shock wave technology, ultrasound localization, and fluoroscopic positioning for kidney and urinary tract stone treatment.
Product Overview
The SD9600-FB is engineered for lithotripsy procedures involving:
- Kidney stones
- Ureteral stones
- Bladder stones
- Selected urethral calculi
The platform integrates:
- Shock wave generator
- B-mode ultrasound positioning
- X-ray fluoroscopy guidance
- Motorized treatment table
- C-arm imaging system
The system is intended to provide accurate stone localization and efficient fragmentation while minimizing invasive intervention.
Key Features
Duplex Pulse ESWL Technology
- Compound pulse extracorporeal shock wave system
- Electrohydraulic and electromagnetic shock wave source configuration
- Continuous adjustable treatment voltage
- Designed for improved stone fragmentation efficiency
Dual Imaging Localization
- B-mode ultrasound localization
- X-ray fluoroscopy positioning
- Dynamic dual-focus visualization system
- Reduced radiation exposure when ultrasound guidance is used
Automatic Positioning System
- One-button automatic positioning
- 3D patient table movement
- Motorized C-arm movement
- Fast stone targeting workflow
Integrated System Design
- Modular architecture for easier maintenance
- Compact integrated installation
- Designed for hospital urology departments
- Suitable for medium to large healthcare facilities
Technical Specifications
| Specification | Details |
|---|---|
| Product Type | Extracorporeal Shock Wave Lithotripter (ESWL) |
| Model | SD9600-FB |
| Power Supply | AC 220V ±10% |
| Frequency | 50 Hz |
| Power Requirement | ≥1500 VA |
| Shock Wave Energy | 20–115 J |
| Impact Pressure Range | 30–80 MPa |
| Treatment Voltage (Electrohydraulic) | 7–12 kV |
| Treatment Voltage (Electromagnetic) | 14–16 kV |
| Treatment Depth (Electrohydraulic) | 134 mm |
| Treatment Depth (Electromagnetic) | 152 mm |
| Working Mode | Manual & Continuous Triggering |
| Treatment Bed Load Capacity | ≥200 kg |
| X-ray Tube Voltage | 40–100 kV |
| X-ray Tube Current | 0.5–5 mA |
| Image Intensifier | 9-inch |
| System Type | Duplex Pulse ESWL |
| Service Life | Approx. 10 years |
Mechanical & Installation Specifications
| Component | Dimensions |
|---|---|
| C-Arm Cabinet | 1880 × 1250 × 1980 mm |
| Electrical Cabinet | 1000 × 600 × 1730 mm |
| Treatment Bed | 2120 × 850 × 450 mm |
Additional requirements:
- Recommended treatment room ≥24 m²
- Radiation shielding protection required
- Dedicated grounding system <4 ohm resistance recommended
Clinical Indications
The SD9600-FB is commonly indicated for:
- Renal calculi
- Ureteric stones
- Bladder stones
- Selected urinary tract stones <2 cm for optimal ESWL effectiveness
Larger or complex staghorn calculi may require combined or alternative treatment approaches.
Contraindications
ESWL may not be suitable for:
- Pregnancy
- Severe coagulation disorders
- Severe cardiovascular disease
- Untreated urinary tract infection
- Severe obesity
- Complex staghorn calculi
- Certain pediatric patients
Clinical evaluation should always be performed by a qualified urologist before treatment.
Advantages of ESWL Technology
Modern ESWL systems provide:
- Non-invasive stone treatment
- Reduced surgical trauma
- Shorter recovery time
- Outpatient treatment capability
- Minimal incision requirements
Shock waves pass through soft tissue and concentrate energy on dense calculi, causing fragmentation into smaller particles that can pass naturally through the urinary tract.
