Vibration Technology Improves Diagnosis of Dizziness 
|
By HospiMedica International staff writers Posted on 02 Feb 2022 |
|
Image: Professor Bo Håkansson undergoes VEMP testing using the B250 (Photo courtesy of Johan Bodell / Chalmers University of Technology)
A novel vibration device allows vestibular evoked myogenic potentials (VEMP) tests to be performed at lower frequencies and volume levels.
Developed at Chalmers University of Technology (Göteborg, Sweden), audio companies Ortofon (Lolland, Denmark) and Interacoustics, and in collaboration with Sahlgrenska Academy (SA; Göteborg, Sweden), the B250 vibration device has been optimized to trigger a VEMP test, which evokes a muscle reflex contraction in the neck and eye muscles. Vestibular function can be assessed by averaging muscle activity response to each sound. The vibrating device is compatible with standardized equipment for balance diagnostics.
The biggest advantage of the B250 is that it triggers the muscle reflex at very low frequencies and volumes (maximum sound level of 75 decibels), and much lower than in current methods, which use very high sound levels, and may in fact cause permanent hearing damage. Benefits also include safer testing for children, and that patients with impaired hearing function due to chronic ear infections or congenital malformations in the ear canal and middle ear can be diagnosed for the origin of their dizziness.
“We have developed a new type of vibrating device that is placed behind the ear of the patient during the test,” said lead developer Professor Bo Håkansson, PhD, of the biomedical signals and systems unit at Chalmers. “The vibrating device is small and compact in size, and optimized to provide an adequate sound level for triggering the reflex at frequencies as low as 250 Hz, which we have found to be optimal for VEMP stimulation. Previously, no vibrating device has been available that was directly adapted for this type of test of the balance system.”
“Thanks to this bone conduction technology, the sound levels which patients are exposed to can be minimized. The previous test was like a machine gun going off next to the ear – with this method it will be much more comfortable,” said Karl-Johan Fredén Jansson, PhD, also of Chalmers. “The test can be performed at 40 decibels lower than today's method using air conducted sounds through headphones. This eliminates any risk that the test itself could cause hearing damage.”
In a traditional vestibular investigation, two variants of VEMP tests are used today: air transmitted sound through headphones or bone conducted sounds via a vibrating device attached to the head. When air transmitted sounds are used, high sound levels are required, which is uncomfortable to the patient and there is a risk of hearing damage. For bone conducted sound, the sound levels are lower, but the equipment currently available on the market is large and cumbersome, and therefore difficult to use.
Related Links:
Chalmers University of Technology
Ortofon
Sahlgrenska Academy
Developed at Chalmers University of Technology (Göteborg, Sweden), audio companies Ortofon (Lolland, Denmark) and Interacoustics, and in collaboration with Sahlgrenska Academy (SA; Göteborg, Sweden), the B250 vibration device has been optimized to trigger a VEMP test, which evokes a muscle reflex contraction in the neck and eye muscles. Vestibular function can be assessed by averaging muscle activity response to each sound. The vibrating device is compatible with standardized equipment for balance diagnostics.
The biggest advantage of the B250 is that it triggers the muscle reflex at very low frequencies and volumes (maximum sound level of 75 decibels), and much lower than in current methods, which use very high sound levels, and may in fact cause permanent hearing damage. Benefits also include safer testing for children, and that patients with impaired hearing function due to chronic ear infections or congenital malformations in the ear canal and middle ear can be diagnosed for the origin of their dizziness.
“We have developed a new type of vibrating device that is placed behind the ear of the patient during the test,” said lead developer Professor Bo Håkansson, PhD, of the biomedical signals and systems unit at Chalmers. “The vibrating device is small and compact in size, and optimized to provide an adequate sound level for triggering the reflex at frequencies as low as 250 Hz, which we have found to be optimal for VEMP stimulation. Previously, no vibrating device has been available that was directly adapted for this type of test of the balance system.”
“Thanks to this bone conduction technology, the sound levels which patients are exposed to can be minimized. The previous test was like a machine gun going off next to the ear – with this method it will be much more comfortable,” said Karl-Johan Fredén Jansson, PhD, also of Chalmers. “The test can be performed at 40 decibels lower than today's method using air conducted sounds through headphones. This eliminates any risk that the test itself could cause hearing damage.”
In a traditional vestibular investigation, two variants of VEMP tests are used today: air transmitted sound through headphones or bone conducted sounds via a vibrating device attached to the head. When air transmitted sounds are used, high sound levels are required, which is uncomfortable to the patient and there is a risk of hearing damage. For bone conducted sound, the sound levels are lower, but the equipment currently available on the market is large and cumbersome, and therefore difficult to use.
Related Links:
Chalmers University of Technology
Ortofon
Sahlgrenska Academy
Gold Member
STI Test
Vivalytic Sexually Transmitted Infection (STI) Array
Gold Member
POC Blood Gas Analyzer
Stat Profile Prime Plus
New
Vacuum-Assisted Breast Biopsy Device
Celero
New
Imaging Table
CFPM200
Latest Patient Care News
- Portable Biosensor Platform to Reduce Hospital-Acquired Infections
- First-Of-Its-Kind Portable Germicidal Light Technology Disinfects High-Touch Clinical Surfaces in Seconds
- Surgical Capacity Optimization Solution Helps Hospitals Boost OR Utilization
- Game-Changing Innovation in Surgical Instrument Sterilization Significantly Improves OR Throughput
- Next Gen ICU Bed to Help Address Complex Critical Care Needs
- Groundbreaking AI-Powered UV-C Disinfection Technology Redefines Infection Control Landscape
- Clean Hospitals Can Reduce Antibiotic Resistance, Save Lives
- Smart Hospital Beds Improve Accuracy of Medical Diagnosis
- New Fast Endoscope Drying System Improves Productivity and Traceability
- World’s First Automated Endoscope Cleaner Fights Antimicrobial Resistance
- Portable High-Capacity Digital Stretcher Scales Provide Precision Weighing for Patients in ER
- Portable Clinical Scale with Remote Indicator Allows for Flexible Patient Weighing Use
- Innovative and Highly Customizable Medical Carts Offer Unlimited Configuration Possibilities
- Biomolecular Wound Healing Film Adheres to Sensitive Tissue and Releases Active Ingredients
- Wearable Health Tech Could Measure Gases Released From Skin to Monitor Metabolic Diseases
- Wearable Cardioverter Defibrillator System Protects Patients at Risk of Sudden Cardiac Arrest
Channels
Critical Care
view channel
Ingestible Smart Capsule for Chemical Sensing in the Gut Moves Closer to Market
Intestinal gases are associated with several health conditions, including colon cancer, irritable bowel syndrome, and inflammatory bowel disease, and they have the potential to serve as crucial biomarkers... Read more
Novel Cannula Delivery System Enables Targeted Delivery of Imaging Agents and Drugs
Multiphoton microscopy has become an invaluable tool in neuroscience, allowing researchers to observe brain activity in real time with high-resolution imaging. A crucial aspect of many multiphoton microscopy... Read more
Novel Intrabronchial Method Delivers Cell Therapies in Critically Ill Patients on External Lung Support
Until now, administering cell therapies to patients on extracorporeal membrane oxygenation (ECMO)—a life-support system typically used for severe lung failure—has been nearly impossible.... Read more
Surgical Techniques
view channel
Pioneering Sutureless Coronary Bypass Technology to Eliminate Open-Chest Procedures
In patients with coronary artery disease, certain blood vessels may be narrowed or blocked, requiring a stent or a bypass (also known as diversion) to restore blood flow to the heart. Bypass surgeries... Read more
Intravascular Imaging for Guiding Stent Implantation Ensures Safer Stenting Procedures
Patients diagnosed with coronary artery disease, which is caused by plaque accumulation within the arteries leading to chest pain, shortness of breath, and potential heart attacks, frequently undergo percutaneous... Read more
World's First AI Surgical Guidance Platform Allows Surgeons to Measure Success in Real-Time
Surgeons have always faced challenges in measuring their progress toward surgical goals during procedures. Traditionally, obtaining measurements required stepping out of the sterile environment to perform... Read more
Health 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
