Professor Ragauskas, the Founder and Director of KTU Health Telematics Science Institute was bestowed Paper of the Year award from Congress of. Arminas Ragauskas. Professor A Ragauskas, V Matijosaitis, R Zakelis, K Petrikonis, D Rastenyte, I Piper,. A Ragauskas, G Daubaris, V Ragaisis, V Petkus. List of computer science publications by Arminas Ragauskas.
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Ragauskas developed an interest in measurement sciences as a young scientist and established the Telematics Science Laboratory at Kaunas University of Technology in to further his research. Rahauskas Maltz, Arminas Ragauskas. Annual Report Demand for European patents grows. An ICP greater than 20 mmHg is considered abnormal.
Arminas Ragauskas (Lithuania)
Their combined citations are counted only for the first article. The Lancet Neurology 16 12, The heart, for instance, tends to become more spherical and lose muscle mass arminzs to the lack of gravity, which can cause problems on return to Earth.
New citations to this author. Arminas Ragauskas with a brain-wave monitor Arminas Ragauskas Arminas Ragauskas using an ultrasound device Device for measuring intracranial pressure and blood flow Monitoring a patient’s brain pressure Ultrasound sensor for brain pressure. Ragauskas – along with colleagues Gediminas Daubaris and Algis Dziugys from the Health Telematics Science Institute at Kaunas University of Technology, Lithuania – achieved a breakthrough by applying the Doppler wavelength effect in order to arrive at an accurate reading of cranial pressure, using an ingeniously simple formula.
The biomarkers can then be used to generate an acute hypotension prediction classifier, or monitored factor, derived from a three dimensional temporal representation of two or more biomarkers. Arminas Ragauskas, Gediminas Daubaris. For his research in health telematics, Rayauskas received the Lithuanian Inventor of the Year award in and For his research in health telematics, Ragauskas received the Lithuanian Inventor of the Year award in and Try out new Tagauskas Tell us what you think.
The invention of two devices for measuring intracranial pressure and blood flow by Lithuanian scientist Arminas Ragauskas enables fast and safe diagnosis of traumatic brain injury, strokes, glaucoma and brain tumours. The system can’t perform the operation now.
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Non-invasive intracranial pressure measurement glaucoma TBi cerebral autoregulation. Neurosurgery 63 6, An apparatus and method for simulating human ragaauskas artery for testing of ultrasound devices is disclosed, whereby two chambers are provided and are capable of being independently rayauskas, one representing the intra-cranial space and the other representing extra-cranial space, and whereby a tube running through both chambers is provided, simulating the course of the ophthalmic artery and capable of being pressurized to stimulate arterial pressure.
You could be one of ten lucky winners of an EPO gym bag. Multicenter clinical assessment of the Raumedic Neurovent-P intracranial pressure sensor: The global market was worth EUR 6.
Arminas Ragauskas (Lithuania)
An adjustable strap is attached to the shield for securing the head frame to the head of the patient. Traumatic brain injury TBI and central nervous system tumours rank among the leading causes of death worldwide. The invention of two devices for measuring intracranial pressure and blood flow by Lithuanian scientist Arminas Ragauskas enables fast and safe diagnosis of traumatic brain injury, strokes, glaucoma and brain tumours.
Method and apparatus for continuously monitoring intracranial pressure. Acta ophthalmologica 93 1, This “Cited by” count includes citations to the following articles in Scholar. The heart, for instance, tends to become more spherical and lose muscle raagauskas due to the lack of gravity, which can cause problems on return to Earth. First and second connectors are located on the shield, permitting an inflow and outflow of pressurized liquid to the chamber.
An ultrasonic method for indicating a characteristic of intracranial components’ volume changes includes the transmission ragausjas broadband ultrasound from a transmitting transducer positioned on one side of a human head to a receiving transducer located on another side of the human head with decomposition of the received signal into narrowband components and determination therefrom of group delay, phase angle and attenuation as a basis for derivation of the characteristic of the intracranial media.
EPO – Arminas Ragauskas (Lithuania)
Societal benefit Traumatic brain injury TBI and central nervous system tumours rank among the leading causes of death worldwide. Intensive care medicine 30 6, Articles 1—20 Show more. Ragajskas research 36 7, The robust and accurate devices are garnering attention on the global brain-monitoring market, which includes diagnostic devices for TBI, strokes and tumours. An ICP greater than 20 mmHg is considered ratauskas.
The use of hyperventilation therapy after traumatic brain injury in Europe: In Europe, roughly 2.
The pressure at which such equalization occurs is used as a reference for autocalibration of the apparatus so that continuous arminzs intracranial pressure measurements may be taken over a particular sampling period.
European Inventor Award on Facebook. The team’s devices compute the pressure differential between the inside and the outside of the skull, based ragauskax a quick and simple reading obtained from a sensor placed on the patient’s eye. Economic benefit Marketed by the inventor’s start-up company Vittamed as non-invasive intracranial pressure meter Vittamed and non-invasive cerebral auto-regulation monitor Vittamedthe devices received CE marking approval in A non-invasive method for monitoring of cerebrovascular blood flow autoregulation state includes sensing intracranial blood volume waves, filtering a slow wave, respiratory wave, and pulse wave informative components from said intracranial blood volume waves, filtering slow wave and respiratory wave reference components ragajskas the pulse wave envelope, calculating a first phase shift between said slow wave informative component and said slow wave reference component, calculating a second phase shift between said respiratory wave informative component and said respiratory wave reference component, and calculating the index of evaluation of the status of cerebral autoregulation state ICAS armians said first phase shift and said second phase shift.
Ragauskas’ novel measuring devices are important tools for treating intracranial injuries, which are among the world’s deadliest killers. The invented devices help to detect increased cranial pressure quickly and reliably, which is key in responding to TBI and brain tumours. Unlike many other diagnostic tools used in neurology, they need not be calibrated for individual patients and provide neurosurgeons, neurologists and ophthalmologists with a fast, accurate and above all safe means of diagnosing a wide range of neurological conditions and glaucoma.
Unlike many other diagnostic tools used in neurology, they need not be calibrated for individual patients and provide neurosurgeons, neurologists and ophthalmologists with a fast, accurate and above all safe means of diagnosing a wide range of neurological conditions and glaucoma.
A method and apparatus for obtaining the absolute value of intracranial pressure in a non-invasive manner is described by using an ultrasonic Doppler measuring device which detects the intracranial and extracranial blood flow velocities of the intracranial and extracranial segments of the ophthalmic artery.
Marketed by the inventor’s start-up company Vittamed as non-invasive intracranial pressure meter Vittamed and non-invasive cerebral auto-regulation monitor Vittamedthe devices received CE marking approval in New articles related to this author’s research.
Kaunas University rafauskas Technology. A device for obtaining an indication of the intracranial pressure of a living body includes a positional sensor which determines an initial position of an elastic biological object when the intracranial pressure within the living body is zero and which determines a subsequent position of the elastic biological object when the intracranial pressure within the living body is unknown but greater than zero.