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Recovery of 0.1Hz microvascular skin blood flow in dysautonomic diabetic (type 2) neuropathy by using Frequency Rhythmic Electrical Modulation System (FREMS).Effect of local blood flow in thermal regulation in diabetic patient.Modelling of thermal hyperemia in the skin of type 2 diabetic patients.Shape analysis of the microcirculatory flow wave.Analysis of the microcirculatory pulse wave: age-related alterations.Spatial heterogeneity in the time and frequency properties of skin perfusion.DIFFERENCES IN IONIC CURRENTS BETWEEN CANINE MYOCARDIAL AND PURKINJE CELLS.Morphological analysis of neurons: Automatic identification of elongations.Resonance artefacts in modern pressure monitoring systems.Automated tracking of quantitative parameters from single line scanning of vocal folds: a case study of the 'messa di voce' exercise.Characterization of the slowly inactivating sodium current INa2 in canine cardiac single Purkinje cells.Preservation of ventricular performance at early stages of diabetic cardiomyopathy involves changes in myocyte size, number and intercellular coupling.Particle tracking for the assessment of microcirculatory perfusion.Automatic newborn cry analysis: a non-invasive tool to help autism early diagnosis.Shape analysis of microcalcifications using Radon transform.Monitoring the microcirculation at the bedside using hand-held imaging microscopes: Automatic tracking of erythrocytes.Non-invasive distress evaluation in preterm newborn infants.High-resolution cry analysis in preterm newborn infants.A robust tool for newborn infant cry analysis.Validity of jitter measures in non-quasi-periodic voices. Part I: perceptual and computer performances in cycle pattern recognition.Validity of jitter measures in non-quasi-periodic voices. Part II: the effect of noise.Correlation of alpha-skeletal actin expression, ventricular fibrosis and heart function with the degree of pressure overload cardiac hypertrophy in rats.Detection of single and clustered microcalcifications in mammograms using fractals models and neural networks.Tissue characterization from X-ray images.Real-time optical manipulation of cardiac conduction in intact heartsIntegrated electronic health records management systemEffects of the alpha2-adrenergic/DA2-dopaminergic agonist CHF-1024 in preventing ventricular arrhythmogenesis and myocyte electrical remodeling, in a rat model of pressure-overload cardiac hypertrophyA comparison between internal and surface temperature measurement techniques during phacoemulsification cataract surgery: thermocamera versus thermocoupleDynamic Contrast-Enhanced Ultrasound Identifies Microcirculatory Alterations in Sepsis-Induced Acute Kidney InjuryDetecting Vascular Age Using the Analysis of Peripheral PulseGlycemic Control Maintained over Time and Joint Stiffness in Young Type 1 Patients: What Is the Mathematical Relationship?Assessment of cutaneous microcirculation by laser Doppler flowmetry in type 1 diabetes
P50
Q33537628-EFE065F6-80CA-44CA-A76F-BE45E4D30C0EQ34641222-7DA0ED3B-DDA5-4ADF-8B1D-A18632C1EBBDQ35056194-5A733527-1E24-48D2-82C0-C275C0ECF8DAQ35762826-9C4DE83C-7D0D-48DA-862E-C2BEA5767201Q35887203-ABFFBA38-B4CD-4898-9EE9-87D0D0728B0BQ36247161-93F11FE8-E968-4FD1-82CC-C53634123AD8Q37187840-CA68DE79-F2FE-43E7-BAD4-2D899E9C4B0CQ40136221-9ACB4981-F545-4C35-8D68-F41EE1BB444CQ40604298-9C391B95-8537-4481-854A-5DCA47948E96Q44082635-5818CDD2-10D9-4025-BC20-EE1A0C0F54C3Q46907212-1AC2FD9F-CFDB-48F7-AB5B-AD7B920DB55EQ47282637-A5E26FC9-B13F-4471-9145-39FCD97641BBQ48022726-131BA523-DE5C-463D-8EFF-6E6F528C520EQ48184941-94E11F16-091A-4143-A59C-2E0B889931D8Q48597091-AAD6FA8B-9CFA-4734-8F17-9881BA553D33Q48634401-74D88B48-FAEF-4D0A-BB35-A70B2ED46638Q48861064-35715E97-82D8-406F-BBDA-9228C4B118AAQ48867988-7290DB9A-D308-4016-A409-17D866E7519CQ48899936-B585956B-C8F8-45E3-910A-370DA8541CB9Q51556173-63EAD7D3-3413-4773-81B8-56B15145542DQ51565258-E5902C55-D0AD-4892-BDB1-D7339BE98507Q51953020-16002635-8D9C-43B8-92F3-D8761F0FD5C1Q51998352-C43D9897-061B-473A-B5AA-345F67D3A336Q52262479-4A864917-DA39-46B8-9900-9317DE61A958Q57581595-A6ACFD2A-4964-49B9-A009-882A02B6BBC7Q79344998-75622558-6809-4525-9D29-321BFB5FEB6CQ82637179-CB7B6294-FD34-4187-B3B4-67AD8FE66C60Q84807570-7B530C5B-BBDA-42C6-9F52-A15A3F5AB87AQ88714692-044F9475-7CA4-4A12-826C-63A272537B44Q89547827-252AABBC-2F6E-4081-8A96-AEF5BC356B47Q91750608-EE85CB49-69CA-4A09-AAFF-9E61674C1EECQ92930009-B2157A24-BC43-43B4-9A30-0CED4F586FB0
P50
description
hulumtues
@sq
onderzoeker
@nl
researcher
@en
հետազոտող
@hy
name
Leonardo Bocchi
@ast
Leonardo Bocchi
@en
Leonardo Bocchi
@es
Leonardo Bocchi
@nl
Leonardo Bocchi
@sl
type
label
Leonardo Bocchi
@ast
Leonardo Bocchi
@en
Leonardo Bocchi
@es
Leonardo Bocchi
@nl
Leonardo Bocchi
@sl
prefLabel
Leonardo Bocchi
@ast
Leonardo Bocchi
@en
Leonardo Bocchi
@es
Leonardo Bocchi
@nl
Leonardo Bocchi
@sl
P1053
C-4456-2015
P106
P1153
7003974907
P21
P31
P3829
P496
0000-0001-5109-3399