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Near-field microwave radiometry has emerged as a tool for real time passive monitoring of local brain activation possibly attributed to local changes in blood flow that correspond to temperature and/or conductivity changes. The aim of this study is to design and evaluate a prototype system based on microwave radiometry intended to detect local changes of temperature and conductivity in depth in brain tissues. A novel radiometric system that comprises a four port total power Dicke-switch sensitive receiver that operates at 1.5 GHz has been developed.
This article was published in the following journal.
Name: IEEE transactions on bio-medical engineering
In aquatic ecosystems, real-time water-quality (WQ) biomonitoring has become the most effective technology for monitoring toxic events by using living organisms as a biosensor. In this study, an onlin...
Single-case experimental design (SCED) is a rigorous method of studying behavior and behavior change. A key characteristic of SCED is repeated, systematic assessment of outcome variables, which is cri...
In the present study, we investigated the capabilities of a novel ultrasonic approach for real-time control of fibrinolysis under flow conditions. Ultrasonic monitoring was performed in a specially de...
To evaluate whether real-time continuous glucose monitoring improves glycemic control over intermittent self-monitoring of blood glucose in gestational diabetes.
It is proposed a new approach to evaluate the performance of ultraviolet photoreactions by integrating UV-LED and a UV-Vis cuvette as a mini-reactor for kinetic monitoring in a spectrophotometer not i...
The purpose of this study is to determine whether a real-time continuous glucose monitoring system is able to improve HbA1c in patients suffering from type 1 diabetes compared to conventio...
Real-time continuous glucose monitoring system (CGMS) has been attempted to be used in ICU, but its feasibility, accuracy and confounding factors are controversial.
The purpose of this study is to determine the safety and accuracy of the Real-Time Continuous Glucose monitoring System (RT-CGMS)in measuring glucose in patients scheduled for surgery; bef...
The aim of the study is to examine whether electronic compliance monitoring in real time could offer some advantages compared to normal electronic monitoring in opioid substitution treatme...
The primary objective of this study is to evaluate whether the patients with Type 1 diabetes mellitus in sub-optimal glycemic control can achieve better glycemic control by using the Medtr...
Method for assessing flow through a system by injection of a known quantity of dye into the system and monitoring its concentration over time at a specific point in the system. (From Dorland, 28th ed)
Method for assessing flow through a system by injection of a known quantity of radionuclide into the system and monitoring its concentration over time at a specific point in the system. (From Dorland, 28th ed)
Ultrasonography applying the Doppler effect combined with real-time imaging. The real-time image is created by rapid movement of the ultrasound beam. A powerful advantage of this technique is the ability to estimate the velocity of flow from the Doppler shift frequency.
Methods for assessing flow through a system by injection of a known quantity of an indicator, such as a dye, radionuclide, or chilled liquid, into the system and monitoring its concentration over time at a specific point in the system. (From Dorland, 28th ed)
Method in which prolonged electrocardiographic recordings are made on a portable tape recorder (Holter-type system) or solid-state device ("real-time" system), while the patient undergoes normal daily activities. It is useful in the diagnosis and management of intermittent cardiac arrhythmias and transient myocardial ischemia.