Decontamination Robot Sanitizes Rooms in Five Minutes
|
By HospiMedica International staff writers Posted on 24 Mar 2020 |
|
Image: The LightStrike Germ-Zapping Robot (Photo courtesy of Xenex)
A new germ-zapping robot emits broad-spectrum ultraviolet (UV) light that disrupts the cell walls of microorganisms and causes irreparable damage.
The Xenex (San Antonio, TX, USA) LightStrike Germ-Zapping Robot uses a bulb filled with xenon gas to create intense germicidal UV light with an extensive range that includes both UV-B (280-315nm) and UV-C (200-280nm), and at an intensity thousands of times higher than mercury bulbs. The continuous UV light reduces microbial load in as little as five minutes, including methicillin-resistant Staphylococcus aureus (MRSA), Clostridium difficile, vancomycin-resistant Enterococcus (VRE), and other organisms. The robot has also been shown to reduce surgical site infection (SSI) rates.
Features include an impact resistant shell and four castors for portability; a telescopic mechanism to raise the xenon-filled bulb from its protective casing before use; a triple sensor motion detection cone to identify people are in the room, enhancing patient and staff safety; a simple user interface with auto-updating software for new features; cloud-based reporting over cellular or Wi-Fi networks; and extreme durability and reliability. After use, the room will remain disinfected until new pathogens enter the room from a visitor, patient, care provider, or the air handling system.
“A mercury light bulb is about the average intensity of a fluorescent light. Ours is 400 to 1,400 times more intense, depending on where the disinfecting spectrum is. The answer is, intensity makes all the difference,” said Morris Miller, CEO of Xenex. “It’s the difference between a hose and a power washer. A hose will put out a lot more water; but a power washer, at 18,000 pounds per square inch, will clean your sidewalk in the way that a hose won’t.”
Increasing evidence confirms that Clostridium difficile, MRSA, VRE, Acinetobacter baumannii, and influenza are transmitted via environmental surfaces, and that only 50% of environmental surfaces in a typical operating room or patient room may be effectively disinfected. The current patient’s risk of contracting a hospital acquired infection (HAI) from contaminated surfaces increases 100% when the previous room occupant had been diagnosed with an infection.
Related Links:
Xenex
The Xenex (San Antonio, TX, USA) LightStrike Germ-Zapping Robot uses a bulb filled with xenon gas to create intense germicidal UV light with an extensive range that includes both UV-B (280-315nm) and UV-C (200-280nm), and at an intensity thousands of times higher than mercury bulbs. The continuous UV light reduces microbial load in as little as five minutes, including methicillin-resistant Staphylococcus aureus (MRSA), Clostridium difficile, vancomycin-resistant Enterococcus (VRE), and other organisms. The robot has also been shown to reduce surgical site infection (SSI) rates.
Features include an impact resistant shell and four castors for portability; a telescopic mechanism to raise the xenon-filled bulb from its protective casing before use; a triple sensor motion detection cone to identify people are in the room, enhancing patient and staff safety; a simple user interface with auto-updating software for new features; cloud-based reporting over cellular or Wi-Fi networks; and extreme durability and reliability. After use, the room will remain disinfected until new pathogens enter the room from a visitor, patient, care provider, or the air handling system.
“A mercury light bulb is about the average intensity of a fluorescent light. Ours is 400 to 1,400 times more intense, depending on where the disinfecting spectrum is. The answer is, intensity makes all the difference,” said Morris Miller, CEO of Xenex. “It’s the difference between a hose and a power washer. A hose will put out a lot more water; but a power washer, at 18,000 pounds per square inch, will clean your sidewalk in the way that a hose won’t.”
Increasing evidence confirms that Clostridium difficile, MRSA, VRE, Acinetobacter baumannii, and influenza are transmitted via environmental surfaces, and that only 50% of environmental surfaces in a typical operating room or patient room may be effectively disinfected. The current patient’s risk of contracting a hospital acquired infection (HAI) from contaminated surfaces increases 100% when the previous room occupant had been diagnosed with an infection.
Related Links:
Xenex
Gold Member
12-Channel ECG
CM1200B
Gold Member
POC Blood Gas Analyzer
Stat Profile Prime Plus
New
Thoracolumbar & Sacropelvic System
Ennovate TLSP
New
Infusion System
SIGMA Spectrum
Latest Critical Care News
- Mechanosensing-Based Approach Offers Promising Strategy to Treat Cardiovascular Fibrosis
- AI Interpretability Tool for Photographed ECG Images Offers Pixel-Level Precision
- AI-ECG Tools Can Identify Heart Muscle Weakness in Women Before Pregnancy
- AI Model Analyzes Patient Data to Diagnose Multiple Sclerosis With 90% Accuracy
- Magnetically Navigable Microparticles Enable Targeted Drug Delivery
- AI-Powered Algorithm Automates Analysis of Coronary Stents After Implantation
- New Stroke Risk Scoring System to Help Avoid Unnecessary Surgeries
- Wearable Device Tracks Individual Cells in Bloodstream in Real Time
- Drug Delivery System Uses Ultrasound-Activated Nanoparticles to Destroy Bacterial Biofilms
- New Potent Injectable Therapy Could Prevent Heart Failure After Heart Attack
- Hospital-Based System Combines AI and Genomic Surveillance to Quickly Detect Infectious Disease Outbreaks
- New Approach to Visualizing Blood Pressure Data Can Help Better Manage Hypertension Patients
- Breakthrough AI Technology Accurately Assesses Heart Failure Severity
- Smart Bandage Monitors Chronic Wounds in Human Patients
- AI Identifies Patients with Increased Lung Cancer Risk Up To 4 Months Earlier
- Next Gen Hemodynamic Monitoring Solution Provides AI-Driven Clinical Decision Support
Channels
Surgical Techniques
view channel
Bioprinted Aortas Offer New Hope for Vascular Repair
Current treatment options for severe cardiovascular diseases include using grafts made from a patient's own tissue (autologous) or synthetic materials. However, autologous grafts require invasive surgery... Read more
Early TAVR Intervention Reduces Cardiovascular Events in Asymptomatic Aortic Stenosis Patients
Each year, approximately 300,000 Americans are diagnosed with aortic stenosis (AS), a serious condition that results from the narrowing or blockage of the aortic valve in the heart. Two common treatments... Read more
New Procedure Found Safe and Effective for Patients Undergoing Transcatheter Mitral Valve Replacement
In the United States, approximately four million people suffer from mitral valve regurgitation, the most common type of heart valve disease. As an alternative to open-heart surgery, transcatheter mitral... Read more
Patient Care
view channel
Portable Biosensor Platform to Reduce Hospital-Acquired Infections
Approximately 4 million patients in the European Union acquire healthcare-associated infections (HAIs) or nosocomial infections each year, with around 37,000 deaths directly resulting from these infections,... Read more
First-Of-Its-Kind Portable Germicidal Light Technology Disinfects High-Touch Clinical Surfaces in Seconds
Reducing healthcare-acquired infections (HAIs) remains a pressing issue within global healthcare systems. In the United States alone, 1.7 million patients contract HAIs annually, leading to approximately... Read more
Surgical Capacity Optimization Solution Helps Hospitals Boost OR Utilization
An innovative solution has the capability to transform surgical capacity utilization by targeting the root cause of surgical block time inefficiencies. Fujitsu Limited’s (Tokyo, Japan) Surgical Capacity... Read more
Game-Changing Innovation in Surgical Instrument Sterilization Significantly Improves OR Throughput
A groundbreaking innovation enables hospitals to significantly improve instrument processing time and throughput in operating rooms (ORs) and sterile processing departments. Turbett Surgical, Inc.... Read moreHealth IT
view channel
Printable Molecule-Selective Nanoparticles Enable Mass Production of Wearable Biosensors
The future of medicine is likely to focus on the personalization of healthcare—understanding exactly what an individual requires and delivering the appropriate combination of nutrients, metabolites, and... Read more
Smartwatches Could Detect Congestive Heart Failure
Diagnosing congestive heart failure (CHF) typically requires expensive and time-consuming imaging techniques like echocardiography, also known as cardiac ultrasound. Previously, detecting CHF by analyzing... Read more
Business
view channel
Expanded Collaboration to Transform OR Technology Through AI and Automation
The expansion of an existing collaboration between three leading companies aims to develop artificial intelligence (AI)-driven solutions for smart operating rooms with sophisticated monitoring and automation.... Read more
