The MicrobeScope is a smartphone compatible, fixed focus, 800x magnification microscope. Specimens such as individual bacteria, blood cells, algae, pollen grains, and fungi spores are readily viewable. It requires no focusing, or supplies, and anyone with a phone can operate it and capture videos while standing.
The technology employed in Theravision™ is ultrasound, advanced technology for thermal therapy. The technical properties of ultrasound create ability to optimize directionality and tumor conformance. Key benefits of Theravision™ include: technology to precisely shape and conform volume to treatment target; discretionary avoidance of nearby sensitive structures; eliminate undertreatment or complications.
Nanobiomimetic reagent-free technology platform
Our technology is based on direct electrochemical communication between the sensor and the analyte without third party involved. It offers high spatial-temporal resolution of sensory-energy image based on extreme small energy change of analyte induced at the asymptomatic stage of diseases without environmental contamination and no interference.
A revolutionary dynamic orthotic system for footwear
AWT is a footwear orthotic system which will revolutionize the industry. Using advanced materials such as carbon fiber, titanium and nanotechnology resins we deliver the lightest, thinnest and most dynamic support system for all three arches of the foot to maximize comfort and stability while minimizing fatigue.
Medical devices that utilize MRI and CT to improve cancer care and enhance patient outcomes.
C4 has developed an MRI Marker to improve the quality of prostate brachytherapy, using MRI to better assess treatment with respect to anatomy. C4 is now developing an enhanced marker to utilize MRI and CT to improve management of a range of patients; focusing on breast cancer biopsy site localization.
A Point-of-care Rapid Diagnsotic test for Bacterial SInusitis
Entvantage is developing a rapid diagnostic test kit to help physician's properly diagnose bacterial sinusitis from the more common viral form of the illness. 80% of patients receive antibiotics for symptoms of sinusitis, far above its reported bacterial infection rate of 10%, which leads to over prescription of antibiotics.
Zmachine Insight HST: A next generation home sleep testing system
The Zmachine Insight HST combines our proprietary FDA-cleared sleep staging technology, based on automated brainwave analysis, with traditional respiratory measurements. The result is a next generation home sleep testing system with improved sleep apnea detection capability.
Configurable Systems - Biosensor-Feedback PlatformTM
The Biosensor-Feedback PlatformTM is a configurable system which allows for multiple applications in one device. The user can define appropriate function through a graphical user interface. There is also a well thought-through path to miniaturization, to achieve a System-on-Chip (SoC) solution for a handheld instrument or for implantable clinical devices.
A Non-Invasive Device That Decreases Internal Bleeding and Modulates Blood Flow to Organs for Metabolic Regulations
Device decreases the blood flow of targeted organ’s artery in case of internal bleeding or medical requirement Non-invasive, Surgery Free Will increase the survival chance of wounded in battlefield, Emergency Rooms, Aambulances, police vehicles, accidents or under trauma surgery Will Modulates Blood Flow to Internal Organs for Metabolic Regulations.
A Prototype Design of Medical Oxygen Concentrator Using a Novel Rapid Pressure Swing Adsorption Process
A prototype of medical oxygen concentrator based on Lehigh Patented Rapid Pressure Swing Adsorption Process was designed for continuous supply of 1-5SLPM of 90% O2 from ambient air. The novel prototype unit is fabricated with readily available components in the market. Estimation of prototype performance is currently in progress.
Integrated photonic devices for ultrahigh-speed, space-division multiplexing optical coherence tomography
Label-free and non-destructive imaging technologies with micron-scale resolutions are greatly desirable for biomedical applications.
Portable Neutron Spectrometer/Dosimeter
Accurately identifies neutron spectra. Potential uses included neutron spectroscopy, neutron dosimetry, and radioisotope identification for all facilities with radiation monitoring requirements, Numerous national security applications, such as survey, treaty verification, radioisotope identification.
Flexible microneedle skin patch integrated with Triboelectric volume sensor and energy harvester
Self-powered flexible skin patch using bendable microneedles for transdermal insulin delivery is developed. In addition, a drug delivery volume sensor and fluidic control system (validated by in vivo experiments in rats) are also integrated within the patch. This allows users to control or modulate the delivery volume whenever necessary.
Highly Flexible and Wearable Liquid-based Microfluidic Tactile Sensor
Fabrication of a flexible microfluidic pressure sensor via enclosure of conductive liquid within microfluidic channel. The device could be worn to detect changes in hand and finger movements and could be used to measure grip strength as a wearable diagnostic and prognostic device for real-time health monitoring.
Robotic Sock for Foot-Ankle Exercises
The sock is designed to improve users’ foot-ankle mobility or basic ankle functions. It‘s able to generate the desired bending and joint flexion to help reduce disabilities caused by neurological diseases, such as stroke, spinal cord injury, Parkinson’s disease or Deep Vein Thrombosis (DVT) to prevent fatal complications.
MEMS Sensors for Ultrasensitive Flow monitoring for Biomedical applications includng Intravenous therapy
Intravenous (IV) infusion therapy, ≈80% of hospitalized patients but the accuracy of roller clamps (used in 80% of the cases) is surprisingly low (50%). Our product provides low cost, accurate and biocompatible in situ flow monitoring system thereby reducing frequent monitoring and providing affordable healthcare.
Nanoenhanced materials for biomedical applications
organicNANO has developed nanoenhanced technology along five product lines including 1) a nanoenabled bone cement, epoxy and resins fillers, grouts, and adhesives; 2) dental nanocomposites; 3) enhanced surgical materials including sutures, pads, gauze; and 4) cell culture platforms for tissue regeneration, and 5) bioactive 3D printing devices and implants.
the CLEARVIEW™ otoscope
PhotoniCare has developed an improved handheld imaging tool that will enable physicians to quickly and accurately diagnose middle ear infections during routine examinations. The PhotoniCare CLEARVIEW allows the physician to look through the eardrum to directly observe and characterize effusions and biofilms responsible for infection in the middle ear.
iCertainty™ Platform Technology
Adding the physiology of blood flow and tissue perfusion to the anatomy of structures, RFPi, LLC’s iCertainty non-invasive imaging technology provides surgeons and clinicians with new knowledge to make better real-time decisions that improve patient safety and outcomes and lower healthcare costs.
High field superconductor of the next generation
Magnetic fields are part of our daily life, for instance in electric motors. Using conventional technologies, the strength of the magnetic field is limited to about 1 Tesla. Superconductors allow a cost efficient generation of magnetic fields well above. The most important application is medical MRI (magnetic resonance imaging).
SimpleC (Companion and Platform)
SimpleC is the innovative, drug-free multimedia solution to improve the quality of life for people with memory loss and their care partners. We use technology to deliver personalized health and wellness interventions to people, wherever they are. Interventions support daily routines, manage mood and behaviors, and engage via personal storyboards.
Smart X-ray Sources
Our smart x-ray sources have programmable x-ray pixels, so we can move the flux source electronically. This eliminates the gantry in CT to make portable 3D imaging systems with no moving parts, faster imaging speeds and lower cost, providing more people access to the best medical radiography.
Multi-class biological tissue classification method and apparatus for automatically controlling output power level of ultrasonic surgical unit
The developed technology is capable of automatically controlling the output power of an ultrasonic surgical unit for the purposes of improving the performance of the surgical unit, reducing surgery time, and minimizing damage to tissues.
One Step Synthesis of Coatings for Titanium Implants
Titanium implants are commonly coated with hydroxyapatite, facilitating bone cell integration (osseointegration). The current method for manufacturing hydroxyapatite coatings produces a surface that does not adequately encourage osseointegration, with poor in vivo stability. We have developed a novel one-step manufacturing process that produces a highly osseointegrative, robust hydroxyapatite coating.
Targeted Rapamycin Micelle (TRaM) as a Therapeutic in Solid Organ Transplant
Self-assembling micelle-nanocarrier therapeutic device, with encapsulated rapamycin used in targeted immunosuppression during solid organ transplantation. Designed with environment-sensitive construct with targeting moiety. Micelles are conjugated with imaging-agents to track uptake and monitor biodistribution. Delivery method allows for lower dosing strategies vs free-drug strategies, with effects seen in multiple animal models.
Human-derived hemoglobin oxygen carrier
This is a new technology intended to enhance organ and tissue preservation prior to transplantation. It does have a significant impact in both the morbidity and the mortality currently experienced by transplant candidates and organ transplant recipients . This new technology provides effective ex-vivo oxygenation. for organs and tissues.