Micro Block Antimicrobial Electrodes, 2" x 2" Sq. White Cloth (10 pks of 4)
The Micro Block Antimicrobial Electrodes are specially designed to reduce contamination risks in electrotherapy treatments. These electrodes feature an antimicrobial surface that helps inhibit and kill disease-causing bacteria, reducing the risk of healthcare-associated infections. Ideal for hospitals, rehabilitation centers, and physical therapy clinics, these electrodes provide a reliable and hygienic solution for patient care. The 2" x 2" square white cloth electrodes offer superior adhesion and comfort, making them an essential component in infection prevention protocols.
Indications for Use
- Used in electrotherapy treatments to deliver electrical stimulation to targeted areas.
- Helps reduce the risk of bacterial contamination on electrotherapy devices.
- Ideal for infection control in medical and rehabilitation settings.
Profession/Settings Where Product is Used
- Hospitals & Healthcare Facilities – Supports infection prevention efforts.
- Physical Therapy Clinics – Provides safe and effective electrotherapy treatment.
- Chiropractic Offices – Enhances patient safety in therapeutic treatments.
- Rehabilitation Centers – Reduces contamination risks in electrotherapy applications.
Unique Features of the Product
- Antimicrobial Surface – Actively reduces bacterial contamination.
- Superior Adhesion – Ensures secure placement on the skin.
- Soft, Flexible White Cloth Material – Enhances comfort during use.
- Standard 2” x 2” Size – Compatible with most electrotherapy devices.
- Packaged for Convenience – 10 packs of 4 electrodes per case.
Product Specifications
- Dimensions: 2" x 2" per electrode
- Thickness: 0.2"
- Weight: 3 lbs per case
- Material: White cloth with antimicrobial properties
- Packaging: 10 packs per case, 4 electrodes per pack
Common Questions & Answers
Q: How do Micro Block Antimicrobial Electrodes help prevent infections?
A: These electrodes feature an antimicrobial surface that actively kills disease-causing bacteria and common antibiotic-resistant threats, reducing contamination risks in electrotherapy treatments.
