Adjustable-Focus Endoscope Helps Reduce Discomfort
|
By HospiMedica International staff writers Posted on 11 Aug 2015 |
|
Image: Two freeform lenses provide dynamic tuning powers (Photo courtesy of Zhou Guangya/ NUS).
A prototype endoscopic tunable lens system provides adjustable-focus capabilities for more effective imaging of internal tissues.
Developed by researchers at the National University of Singapore (NUS; Singapore), the solid lens system contains two transparent polymer plates, each with one flat surface and one freeform curved surface governed by 6-degree polynomials. When the transparent plates are perfectly aligned with the inverse freeform surfaces facing each other, they behave as one unit without any focusing power; any wave phase shift induced by one is cancelled out by the other. However, when they are slightly offset sideways, they refract light like a traditional lens.
The system includes two slender piezoelectric benders for moving the lens elements perpendicular to the optical axis, and an image fiber bundle for transmission to an external camera monitored by a technician. The dynamic tuning provides optical powers from about 135 diopters to about 205 diopters, with no obvious distortion or blurring in the images, and with a recorded resolution of about 30 line pairs per mm. According to the researchers, these autofocus capabilities can enable an extremely compact optical zoom endoscope. The study was published in the August 2015 issue of Optics Express.
“Once successful, the miniature optical zoom endoscope with autofocus capability may allow doctors to switch conveniently from a wide field-of-view to a clear high-resolution close-up view without moving the endoscope probe,” said lead author Prof. Guangya Zhou, PhD, of the department of mechanical engineering. “This may not only reduce the complexity of the endoscopic procedure but also allow potentially high-magnification endoscopy.”
Freeform is a lens manufacturing technology that allows cutting and polishing of arbitrary surfaces; a lens is considered free-form if at least one of its surfaces is made with freeform technology and it is neither spherical nor torical. Using freeform guarantees better precision than standard plastic milling and polishing methods, and also frees manufacturers from the base-curve restrictions inherent in standard lenses since it allows a different asphericity for each lens, with optimum compensation of aberrations.
Related Links:
National University of Singapore
Developed by researchers at the National University of Singapore (NUS; Singapore), the solid lens system contains two transparent polymer plates, each with one flat surface and one freeform curved surface governed by 6-degree polynomials. When the transparent plates are perfectly aligned with the inverse freeform surfaces facing each other, they behave as one unit without any focusing power; any wave phase shift induced by one is cancelled out by the other. However, when they are slightly offset sideways, they refract light like a traditional lens.
The system includes two slender piezoelectric benders for moving the lens elements perpendicular to the optical axis, and an image fiber bundle for transmission to an external camera monitored by a technician. The dynamic tuning provides optical powers from about 135 diopters to about 205 diopters, with no obvious distortion or blurring in the images, and with a recorded resolution of about 30 line pairs per mm. According to the researchers, these autofocus capabilities can enable an extremely compact optical zoom endoscope. The study was published in the August 2015 issue of Optics Express.
“Once successful, the miniature optical zoom endoscope with autofocus capability may allow doctors to switch conveniently from a wide field-of-view to a clear high-resolution close-up view without moving the endoscope probe,” said lead author Prof. Guangya Zhou, PhD, of the department of mechanical engineering. “This may not only reduce the complexity of the endoscopic procedure but also allow potentially high-magnification endoscopy.”
Freeform is a lens manufacturing technology that allows cutting and polishing of arbitrary surfaces; a lens is considered free-form if at least one of its surfaces is made with freeform technology and it is neither spherical nor torical. Using freeform guarantees better precision than standard plastic milling and polishing methods, and also frees manufacturers from the base-curve restrictions inherent in standard lenses since it allows a different asphericity for each lens, with optimum compensation of aberrations.
Related Links:
National University of Singapore
Gold Member
SARS‑CoV‑2/Flu A/Flu B/RSV Sample-To-Answer Test
SARS‑CoV‑2/Flu A/Flu B/RSV Cartridge (CE-IVD)
Gold Member
STI Test
Vivalytic Sexually Transmitted Infection (STI) Array
New
Auditory Evoked Potential Device
Bio-logic NavPRO ONE
New
Transportation Stretcher
ES709
Latest Surgical Techniques News
- Pioneering Sutureless Coronary Bypass Technology to Eliminate Open-Chest Procedures
- Intravascular Imaging for Guiding Stent Implantation Ensures Safer Stenting Procedures
- World's First AI Surgical Guidance Platform Allows Surgeons to Measure Success in Real-Time
- AI-Generated Synthetic Scarred Hearts Aid Atrial Fibrillation Treatment
- New Class of Bioadhesives to Connect Human Tissues to Long-Term Medical Implants
- New Transcatheter Valve Found Safe and Effective for Treating Aortic Regurgitation
- Minimally Invasive Valve Repair Reduces Hospitalizations in Severe Tricuspid Regurgitation Patients
- Tiny Robotic Tools Powered by Magnetic Fields to Enable Minimally Invasive Brain Surgery
- Magnetic Tweezers Make Robotic Surgery Safer and More Precise
- AI-Powered Surgical Planning Tool Improves Pre-Op Planning
- Novel Sensing System Restores Missing Sense of Touch in Minimally Invasive Surgery
- Headset-Based AR Navigation System Improves EVD Placement
- Higher Electrode Density Improves Epilepsy Surgery by Pinpointing Where Seizures Begin
- Open-Source Tool Optimizes Placement of Visual Brain Implants
- Easy-To-Apply Gel Could Prevent Formation of Post-Surgical Abdominal Adhesions
- Groundbreaking Leadless Pacemaker to Prevent Invasive Surgeries for Children
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
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
