Facchinetti
Andrea Facchinetti, Padova IT
Patent application number | Description | Published |
---|---|---|
20120215087 | METHOD TO RECALIBRATE CONTINUOUS GLUCOSE MONITORING DATA ON-LINE - In a method of recalibrating continuous glucose monitoring data from a user, operable on a digital processor, an indication from the user that the user has taken a meal is received ( | 08-23-2012 |
20130231543 | METHOD TO IMPROVE SAFETY MONITORING IN TYPE-1 DIABETIC PATIENTS BY DETECTING IN REAL-TIME FAILURES OF THE GLUCOSE - A device for monitoring a diabetic patient includes continuous glucose monitoring system that is configured to generate glucose data indicative of the patient's actual glucose level. An continuous subcutaneous insulin infusion pump is configured to inject insulin into the patient and that is configured to generate insulin data regarding when and how much insulin has been injected into the patient. A processor, programmed with a discrete-time reiterative filter, calculates a predicted glucose level corresponding to a predicted glucose level currently expected to be sensed by the continuous glucose monitoring system, based on the insulin data and the glucose data over time and is also programed to generate an alert when the actual glucose level is different from the predicted glucose level by a predetermined amount. An alert generating device is coupled to the processor and is configured to generate an aesthetically-sensible event corresponding to the generation of the alert. | 09-05-2013 |
20140118138 | SYSTEMS AND METHODS FOR PROVIDING SENSITIVE AND SPECIFIC ALARMS - Systems and methods for providing sensitive and specific alarms indicative of glycemic condition are provided herein. In an embodiment, a method of processing sensor data by a continuous analyte sensor includes: evaluating sensor data using a first function to determine whether a real time glucose value meets a first threshold; evaluating sensor data using a second function to determine whether a predicted glucose value meets a second threshold; activating a hypoglycemic indicator if either the first threshold is met or if the second threshold is predicted to be met; and providing an output based on the activated hypoglycemic indicator. | 05-01-2014 |
20140118166 | SYSTEMS AND METHODS FOR DYNAMICALLY AND INTELLIGENTLY MONITORING A HOST'S GLYCEMIC CONDITION AFTER AN ALERT IS TRIGGERED - Systems and methods for providing sensitive and specific alarms indicative of glycemic condition are provided herein. In an embodiment, a method of processing sensor data by a continuous analyte sensor includes: evaluating sensor data using a first function to determine whether a real time glucose value meets a first threshold; evaluating sensor data using a second function to determine whether a predicted glucose value meets a second threshold; activating a hypoglycemic indicator if either the first threshold is met or if the second threshold is predicted to be met; and providing an output based on the activated hypoglycemic indicator. | 05-01-2014 |
20150250429 | SYSTEMS AND METHODS FOR DYNAMICALLY AND INTELLIGENTLY MONITORING A HOST'S GLYCEMIC CONDITION AFTER AN ALERT IS TRIGGERED - Systems and methods for providing sensitive and specific alarms indicative of glycemic condition are provided herein. In an embodiment, a method of processing sensor data by a continuous analyte sensor includes: evaluating sensor data using a first function to determine whether a real time glucose value meets a first threshold; evaluating sensor data using a second function to determine whether a predicted glucose value meets a second threshold; activating a hypoglycemic indicator if either the first threshold is met or if the second threshold is predicted to be met; and providing an output based on the activated hypoglycemic indicator. | 09-10-2015 |
Andrea Facchinetti, Norfolk, VA US
Patent application number | Description | Published |
---|---|---|
20150296174 | MODULAR DISPLAY SYSTEM - An inflatable, variable-buoyancy, modular display system having an inflatable structure with one or more light weight, high definition displays affixed or attached to one or more surfaces of the inflatable structure. The inflatable structure may be used to elevate the displays for viewing by larger numbers of people, as for festivals or sporting events. The display or displays may alternatively be imbedded within at least a portion of the structure. In still other forms, the structure may comprise a material that is capable of producing a display or displays. Also included is a modular display of flexible, light weight design. The display omits conventional display cabinets and features an open design, thereby offering flexibility and a lighter weight appropriate for such systems. | 10-15-2015 |
Andrea Facchinetti, Trissino IT
Patent application number | Description | Published |
---|---|---|
20160073964 | RETROSPECTIVE RETROFITTING METHOD TO GENERATE A CONTINUOUS GLUCOSE CONCENTRATION PROFILE BY EXPLOITING CONTINUOUS GLUCOSE MONITORING SENSOR DATA AND BLOOD GLUCOSE MEASUREMENTS - Continuous Glucose Monitoring (CGM) devices provide glucose concentration measurements in the subcutaneous tissue with limited accuracy and precision. Therefore, CGM readings cannot be incorporated in a straightforward manner in outcome metrics of clinical trials e.g. aimed to assess new glycaemic-regulation therapies. To define those outcome metrics, frequent Blood Glucose (BG) reference measurements are still needed, with consequent relevant difficulties in outpatient settings. Here we propose a “retrofitting” algorithm that produces a quasi continuous time BG profile by simultaneously exploiting the high accuracy of available BG references (possibly very sparsely collected) and the high temporal resolution of CGM data (usually noisy and affected by significant bias). The inputs of the algorithm are: a CGM time series; some reference BG measurements; a model of blood to interstitial glucose kinetics; and a model of the deterioration in time of sensor accuracy, together with (if available) a priori information (e.g. probabilistic distribution) on the parameters of the model. The algorithm first checks for the presence of possible artifacts or outliers on both CGM datastream and BG references, and then rescales the CGM time series by exploiting a retrospective calibration approach based on a regularized deconvolution method subject to the constraint of returning a profile laying within the confidence interval of the reference BG measurements. As output, the retrofitting algorithm produces an improved “retrofitted” quasi-continuous glucose concentration signal that is better (in terms of both accuracy and precision) than the CGM trace originally measured by the sensor. In clinical trials, the so-obtained retrofitted traces can be used to calculate solid outcome measures, avoiding the need of increasing the data collection burden at the patient level. | 03-17-2016 |
Claudio Facchinetti, St-Blaise CH
Patent application number | Description | Published |
---|---|---|
20140296494 | PROTEIN EXPRESSION IN PLANTS - The present invention relates to protein expression in plants, particularly the large-scale production of recombinant polypeptides in whole | 10-02-2014 |
Emanuele Facchinetti, Zurich CH
Patent application number | Description | Published |
---|---|---|
20150267549 | TURBINE VANE WITH COOLED FILLET - The disclosure pertains to a vane comprising a platform and airfoil extending form said platform and connected to the platform by a fillet. An impingement tube is inserted into said airfoil delimiting a cooling channel between the impingement tube and the side walls. The vane further comprises a baffle structure positioned adjacent the fillet and which follows the inside contour of the fillet; delimiting a first cooling passage between the fillet and the baffle structure. A first obstruction is arranged on the inside of the airfoil at the connection of the fillet to the side walls for separating the first cooling passage from the cooling channel in the airfoil and to guide the cooling gas from the first cooling passage into the impingement tube. The disclosure further refers to a method for cooling such a vane. | 09-24-2015 |
20150267557 | AIRFOIL PORTION OF A ROTOR BLADE OR GUIDE VANE OF A TURBO-MACHINE - An airfoil portion including an outer wall that defines a cavity for receiving cooling air. The airfoil portion includes a leading edge that resides in an upstream direction, a trailing edge that resides in a downstream direction, a convex suction side, and a concave pressure side. At least one insert disposed within the cavity is configured to initially receive at least a portion of the cooling air entering the chamber of the insert and direct the cooling air through a plurality of insert apertures to cool the inner surface of the outer wall of the airfoil portion. The insert further includes a configuration that generally conforms to the contour of the outer wall of the chamber but in spaced relation thereto. A portion of the cooling air exits the airfoil portion through a plurality of film cooling apertures formed through the outer wall. A main insert includes at least one additional insert which is inserted from the outside and transferred into the cavity at an intermediate position, and then moved in direction to the trailing edge and fixed to predetermined position The additional insert forms the size of the trailing edge channel inlet at the end of the main insert. | 09-24-2015 |
Fortunato Facchinetti, Brignano Gera D'Adda IT
Patent application number | Description | Published |
---|---|---|
20150123734 | QUASI-DOHERTY ARCHITECTURE AMPLIFIER AND METHOD - An amplifier including a main amplifier circuit and at least one peaking amplifier circuit. The peaking amplifier circuit is selectively operable to operate in combination with the main amplifier circuit. The main amplifier circuit and the peaking amplifier circuit each include an active device operation as an inverse Class-F amplifier element. The main amplifier circuit and the peaking amplifier circuit also each include a combined matching and resonator network coupled with an output of the respective active device so the active device operates as an inverse Class-F device, and a combined matching and resonator network coupled with an input of the respective active device. | 05-07-2015 |