Your search keyword '"Renzo Antolini"' showing total 92 results

1. Testing odorant-receptor interaction theories in humans through discrimination of isotopomers

Author

Mara Andrione, Marco Paoli, Renzo Antolini, and Albrecht Haase

Subjects

olfaction, vibration model, isotopomer discrimination., Biology (General), QH301-705.5

Abstract

Odour reception takes place on the olfactory receptor neuron membrane, where molecular receptors interact with volatile odorant molecules. This interaction is classically thought to rely on chemical and structural features of the odorant, e.g. size, shape, functional groups. However, this model does not allow formulating a correct prediction for the smell of an odorant, suggesting that other molecular properties may play a role in the odour transduction process. An alternative model of olfaction maintains that odorant receptors can probe not only the structural and chemical features, but also the molecular vibration spectrum of the odorants. This constitutes the so-called vibration model of olfaction. According to this model, two isotopomers of the same molecule, i.e. two forms of the same molecule, one unaltered and one in which one or more hydrogen atoms are substituted with deuterium – which are therefore structurally and chemically identical, but with different molecular vibration spectra – would interact differently with an olfactory receptor, producing different olfactory perceptions in the brain. Here, we report on a duo-trio discrimination experiment conducted on human subjects, testing isotopomer pairs that have recently been shown to be differentially encoded in the honeybee brain.

Published

2017

2. Tailored intracellular delivery via a crystal phase transition in 400 nm vaterite particles

Author

Albrecht Haase, Claudio Migliaresi, Bogdan Parakhonskiy, Eleonora Carletti, Mariangela Fedel, Renzo Antolini, Antonella Motta, and Cristina Foss

Subjects

medicine.diagnostic_test, Chemistry, Biomedical Engineering, Nanoparticle, Nanotechnology, Penetration (firestop), Flow cytometry, Vaterite, Drug delivery, medicine, General Materials Science, Viability assay, Cytotoxicity, Intracellular

Abstract

Porous vaterite containers of 400 nm size are studied with respect to intracellular drug delivery applications. A generic crystal phase transition from vaterite to calcite serves as a novel payload release mechanism, which reveals a delayed burst-release. This will permit control of the pharmacokinetics allowing for applications like preventive drug administration or scheduled application of pharmaceuticals during long term therapy. Experiments with two types of payloads, providing different molecular weights and zeta-potentials, demonstrate a flexible way of tailoring the payload delivery time via the molecular properties of the cargo. A dual in vitro cellular uptake experiment with human ovarian carcinoma cells ES2 and human fibroblasts MRC5 shows no cytotoxicity, no influence on cell viability, and fast penetration of substance-loaded containers into cells. Flow cytometry analysis proves high uptake rates and 3D microscopy analysis reveals the intracellular distribution.

Published

2020

3. Neuronal Response Latencies Encode First Odor Identity Information across Subjects

Author

Marco Paoli, Renzo Antolini, Damiano Zanini, Mirko Zanon, Angela Albi, and Albrecht Haase

Subjects

0301 basic medicine, Biology, Stimulus (physiology), honeybee, ENCODE, Olfactory Receptor Neurons, 03 medical and health sciences, 0302 clinical medicine, Calcium imaging, medicine, Reaction Time, Animals, two-photon microscopy, Rapid response, Research Articles, calcium imaging, latency coding, odor coding, olfation, General Neuroscience, Olfactory Pathways, Bees, Smell, 030104 developmental biology, medicine.anatomical_structure, Microscopy, Fluorescence, Multiphoton, Odor, Odorants, Static response, Antennal lobe, Early phase, Neuroscience, 030217 neurology & neurosurgery

Abstract

Odorants are coded in the primary olfactory processing centers by spatially and temporally distributed patterns of glomerular activity. Whereas the spatial distribution of odorant-induced responses is known to be conserved across individuals, the universality of its temporal structure is still debated. Via fast two-photon calcium imaging, we analyzed the early phase of neuronal responses in the form of the activity onset latencies in the antennal lobe projection neurons of honeybee foragers. We show that each odorant evokes a stimulus-specific response latency pattern across the glomerular coding space. Moreover, we investigate these early response features for the first time across animals, revealing that the order of glomerular firing onsets is conserved across individuals and allows them to reliably predict odorant identity, but not concentration. These results suggest that the neuronal response latencies provide the first available code for fast odor identification.SIGNIFICANCE STATEMENTHere, we studied early temporal coding in the primary olfactory processing centers of the honeybee brain by fast imaging of glomerular responses to different odorants across glomeruli and across individuals. Regarding the elusive role of rapid response dynamics in olfactory coding, we were able to clarify the following aspects: (1) the rank of glomerular activation is conserved across individuals, (2) its stimulus prediction accuracy is equal to that of the response amplitude code, and (3) it contains complementary information. Our findings suggest a substantial role of response latencies in odor identification, anticipating the static response amplitude code.

Published

2018

4. Morphofunctional experience-dependent plasticity in the honeybee brain

Author

Benjamin F. Timberlake, Mara Andrione, Albrecht Haase, Giorgio Vallortigara, and Renzo Antolini

Subjects

0301 basic medicine, long-term exposure, Time Factors, Cognitive Neuroscience, animal experiment, Stimulus (physiology), Plasticity, Biology, animal tissue, 03 medical and health sciences, Cellular and Molecular Neuroscience, 0302 clinical medicine, Latent inhibition, animal experiment, animal tissue, Apis mellifera, habituation. latent inhibition, long-term exposure, multiphoton microscopy, nonhuman olfactory system,plasticity, medicine, Image Processing, Computer-Assisted, Animals, Habituation, Reinforcement, habituation. latent inhibition, Analysis of Variance, Neuronal Plasticity, Research, Optical Imaging, Brain, Sense Organs, Olfactory Pathways, Bees, Synapsins, Magnetic Resonance Imaging, nonhuman olfactory system, Oxygen, Smell, 030104 developmental biology, Neuropsychology and Physiological Psychology, medicine.anatomical_structure, Odor, plasticity, multiphoton microscopy, Odorants, Developmental plasticity, Antennal lobe, Apis mellifera, Nerve Net, Neuroscience, 030217 neurology & neurosurgery, psychological phenomena and processes

Abstract

Repeated or prolonged exposure to an odorant without any positive or negative reinforcement produces experience-dependent plasticity, which results in habituation and latent inhibition. In the honeybee (Apis mellifera), it has been demonstrated that, even if the absolute neural representation of an odor in the primary olfactory center, the antennal lobe (AL), is not changed by repeated presentations, its relative representation with respect to unfamiliar stimuli is modified. In particular, the representation of a stimulus composed of a 50:50 mixture of a familiar and a novel odorant becomes more similar to that of the novel stimulus after repeated stimulus preexposure. In a calcium-imaging study, we found that the same functional effect develops following prolonged odor exposure. By analyzing the brains of the animals subjected to this procedure, we found that such functional changes are accompanied by morphological changes in the AL (i.e., a decrease in volume in specific glomeruli). The AL glomeruli that exhibited structural plasticity also modified their functional responses to the three stimuli (familiar odor, novel odor, binary mixture). We suggest a model in which rebalancing inhibition within the AL glomeruli may be sufficient to elicit structural and functional correlates of experience-dependent plasticity.

Published

2017

5. Neonicotinoid-induced impairment of odour coding in the honeybee

Author

Mara Andrione, Albrecht Haase, Renzo Antolini, and Giorgio Vallortigara

Subjects

0301 basic medicine, Insecticides, Stimulation, Biology, Article, Olfactory Receptor Neurons, Ecology, Olfactory system, 03 medical and health sciences, chemistry.chemical_compound, Neonicotinoids, 0302 clinical medicine, Calcium imaging, Imidacloprid, Memory, parasitic diseases, medicine, Animals, Learning, Calcium Signaling, Evoked Potentials, Mushroom Bodies, Multidisciplinary, Ecology, fungi, Neonicotinoid, food and beverages, Bees, Nitro Compounds, Olfactory system, Smell, 030104 developmental biology, Odor, chemistry, Mushroom bodies, Odorants, behavior and behavior mechanisms, Olfactory Learning, Neuroscience, 030217 neurology & neurosurgery, Acetylcholine, psychological phenomena and processes, medicine.drug

Abstract

Exposure to neonicotinoid pesticides is considered one of the possible causes of honeybee (Apis mellifera) population decline. At sublethal doses, these chemicals have been shown to negatively affect a number of behaviours, including performance of olfactory learning and memory, due to their interference with acetylcholine signalling in the mushroom bodies. Here we provide evidence that neonicotinoids can affect odour coding upstream of the mushroom bodies, in the first odour processing centres of the honeybee brain, i.e. the antennal lobes (ALs). In particular, we investigated the effects of imidacloprid, the most common neonicotinoid, in the AL glomeruli via in vivo two-photon calcium imaging combined with pulsed odour stimulation. Following acute imidacloprid treatment, odour-evoked calcium response amplitude in single glomeruli decreases, and at the network level the representations of different odours are no longer separated. This demonstrates that, under neonicotinoid influence, olfactory information might reach the mushroom bodies in a form that is already incorrect. Thus, some of the impairments in olfactory learning and memory caused by neonicotinoids could, in fact, arise from the disruption in odor coding and olfactory discrimination ability of the honey bees.

Published

2016

6. Spatially resolved time-frequency analysis of odour coding in the insect antennal lobe

Author

Marco Paoli, Albrecht Haase, Renzo Antolini, and Nathan Weisz

Subjects

0301 basic medicine, Arthropod Antennae, Time Factors, media_common.quotation_subject, Insect, Biology, Stimulus (physiology), honeybee, sensory coding, Olfactory Receptor Neurons, 03 medical and health sciences, 0302 clinical medicine, Calcium imaging, medicine, Animals, two-photon microscopy, media_common, General Neuroscience, Spatially resolved, Brain, Olfactory Pathways, Bees, Network dynamics, time-frequency analysis, Time–frequency analysis, Smell, 030104 developmental biology, medicine.anatomical_structure, Homogeneous, Odorants, Antennal lobe, Calcium, Nerve Net, Neuroscience, 030217 neurology & neurosurgery

Abstract

Antennal lobes constitute the first neurophils in the insect brain involved in coding and processing of olfactory information. With their stereotyped functional and anatomical organization, they provide an accessible model with which to investigate information processing of an external stimulus in a neural network in vivo. Here, by combining functional calcium imaging with time-frequency analysis, we have been able to monitor the oscillatory components of neural activity upon olfactory stimulation. The aim of this study is to investigate the presence of stimulus-induced oscillatory patterns in the honeybee antennal lobe, and to analyse the distribution of those patterns across the antennal lobe glomeruli. Fast two-photon calcium imaging reveals the presence of low-frequency oscillations, the intensity of which is perturbed by an incoming stimulus. Moreover, analysis of the spatial arrangement of this activity indicates that it is not homogeneous throughout the antennal lobe. On the contrary, each glomerulus displays an odorant-specific time-frequency profile, and acts as a functional unit of the oscillatory activity. The presented approach allows simultaneous recording of complex activity patterns across several nodes of the antennal lobe, providing the means to better understand the network dynamics regulating olfactory coding and leading to perception.

Published

2016

7. Differential Odour Coding of Isotopomers in the Honeybee Brain

Author

Renzo Antolini, Albrecht Haase, Giorgio Vallortigara, Andrea Anesi, Marco Paoli, and Graziano Guella

Subjects

0301 basic medicine, Gene isoform, Olfactory system, Octanols, Olfaction, Receptors, Odorant, Article, Isotopomers, 03 medical and health sciences, 0302 clinical medicine, Animals, Brain Mapping, Multidisciplinary, Chemistry, Brain, Bees, Deuterium, Ligand (biochemistry), Neuronal activation, Smell, 030104 developmental biology, Benzaldehydes, Odorants, Biophysics, Insect Proteins, Signal transduction, psychological phenomena and processes, 030217 neurology & neurosurgery

Abstract

The shape recognition model of olfaction maintains that odorant reception probes physicochemical properties such as size, shape, electric charge and hydrophobicity of the ligand. Recently, insects were shown to distinguish common from deuterated isotopomers of the same odorant, suggesting the involvement of other molecular properties to odorant reception. Via two-photon functional microscopy we investigated how common and deuterated isoforms of natural odorants are coded within the honeybee brain. Our results provide evidence that (i) different isotopomers generate different neuronal activation maps, (ii) isotopomer sensitivity is a general mechanism common to multiple odorant receptors and (iii) isotopomer specificity is highly consistent across individuals. This indicates that honeybee’s olfactory system discriminates between isotopomers of the same odorant, suggesting that other features, such as molecular vibrations, may contribute to odour signal transduction.

Published

2016

8. A multimodal approach for tracing lateralisation along the olfactory pathway in the honeybee through electrophysiological recordings, morpho-functional imaging, and behavioural studies

Author

Elisa Rigosi, Francesco Tessarolo, Claudio Vinegoni, Giorgio Vallortigara, Albrecht Haase, Federica Trona, Renzo Antolini, Gianfranco Anfora, and Elisa Frasnelli

Subjects

Lobi antennali, Olfactory system, Asimmetria cerebrale, Biophysics, FOS: Physical sciences, Biology, Article, Lateralization of brain function, Electroantennography, 03 medical and health sciences, 0302 clinical medicine, Calcium imaging, medicine, Animals, Humans, Physics - Biological Physics, Apprendimento olfattivo, Olfactory memory, 030304 developmental biology, 0303 health sciences, Behavior, Animal, Functional Neuroimaging, Olfactory Pathways, General Medicine, Bees, Antennal lobe, Electrophysiological Phenomena, 3. Good health, Functional imaging, Electrophysiology, medicine.anatomical_structure, Biological Physics (physics.bio-ph), Apis mellifera, Brain asymmetry, Neuroscience, 030217 neurology & neurosurgery, Olfactory learning

Abstract

Recent studies have revealed asymmetries between the left and right sides of the brain in invertebrate species. Here we present a review of a series of recent studies from our labs, aimed at tracing asymmetries at different stages along the honeybee's (Apis mellifera) olfactory pathway. These include estimates of the number of sensilla present on the two antennae, obtained by scanning electron microscopy, as well as electroantennography recordings of the left and right antennal responses to odorants. We describe investigative studies of the antennal lobes, where multi-photon microscopy is used to search for possible morphological asymmetries between the two brain sides. Moreover, we report on recently published results obtained by two-photon calcium imaging for functional mapping of the antennal lobe aimed at comparing patterns of activity evoked by different odours. Finally, possible links to the results of behavioural tests, measuring asymmetries in single-sided olfactory memory recall, are discussed., 28 pages, 8 figures

Published

2011

9. Cell Imaging and Manipulation by Nonlinear Optical Microscopy

Author

Leonardo Sacconi, Iva Marija Tolić-Norrelykke, Renzo Antolini, Massimo D'Amico, Francesco S. Pavone, Francesco Vanzi, and Massimo Olivotto

Subjects

Microscopy, Optical sectioning, Nonlinear microscopy, Computer science, Biophysics, Nanotechnology, Cell Biology, General Medicine, Biochemistry, Nonlinear optical microscopy, Photobleaching, Micromanipulation, Nonlinear optical, Nonlinear system, Imaging, Three-Dimensional, Nonlinear Dynamics, Basic research, Animals, Humans, Cells, Cultured

Abstract

Advances in the technologies for labeling and imaging biological samples drive a constant progress in our capability of studying structures and their dynamics within cells and tissues. In the last decade, the development of numerous nonlinear optical microscopies has led to a new prospective both in basic research and in the potential development of very powerful noninvasive diagnostic tools. These techniques offer large advantages over conventional linear microscopy with regard to penetration depth, spatial resolution, three-dimensional optical sectioning, and lower photobleaching. Additionally, some of these techniques offer the opportunity for optically probing biological functions directly in living cells, as highlighted, for example, by the application of second harmonic generation to the optical measurement of electrical potential and activity in excitable cells. In parallel with imaging techniques, nonlinear microscopy has been developed into a new area for the selective disruption and manipulation of intracellular structures, providing an extremely useful tool of investigation in cell biology. In this review we present some basic features of nonlinear microscopy with regard both to imaging and manipulation, and show some examples to illustrate the advantages offered by these novel methodologies.

Published

2006

10. Exploring directionality in spontaneous heart period and systolic pressure variability interactions in humans: implications in the evaluation of baroreflex gain

Author

Flavia Ravelli, Luca Faes, Renzo Antolini, Giandomenico Nollo, Alberto Porta, Nollo, Giandomenico, Faes, Luca, Porta, Alberto, Antolini, Renzo, and Ravelli, Flavia

Subjects

Adult, Male, medicine.medical_specialty, Sympathetic Nervous System, Physiology, Period (gene), Posture, RR interval, Blood Pressure, Baroreflex, Heart Rate, Tilt-Table Test, Coherence and transfer function, Feedback and feedforward mechanism, Physiology (medical), Internal medicine, Humans, Medicine, Directionality, Nonbaroreflex interaction, Feedback, Physiological, business.industry, Models, Cardiovascular, Cardiovascular regulation, Heart, Vagus Nerve, Blood pressure, Circulatory system, Cardiology, Systolic arterial pressure, Female, Cross-spectral analysi, Cardiology and Cardiovascular Medicine, business, Closed loop

Abstract

Although in physiological conditions RR interval and systolic arterial pressure (SAP) are likely to interact in a closed loop, the traditional cross-spectral analysis cannot distinguish feedback (FB) from feedforward (FF) influences. In this study, a causal approach was applied for calculating the coherence from SAP to RR ( Ks-r) and from RR to SAP ( Kr-s) and the gain and phase of the baroreflex transfer function. The method was applied, compared with the noncausal one, to RR and SAP series taken from 15 healthy young subjects in the supine position and after passive head-up tilt. For the low frequency (0.04–0.15 Hz) spectral component, the enhanced FF coupling ( Kr-s = 0.59 ± 0.21, significant in 14 subjects) and the blunted FB coupling ( Ks-r = 0.17 ± 0.17, significant in 4 subjects) found at rest indicated the prevalence of nonbaroreflex mechanisms. The tilt maneuver recovered FB influences ( Ks-r = 0.47 ± 0.16, significant in 14 subjects), which were stronger than FF interactions ( Ks-r = 0.34 ± 0.19, significant in 9 subjects). At the respiratory frequency, the RR-SAP regulation was balanced at rest ( Ks-r = 0.30 ± 0.18 and Kr-s = 0.29 ± 0.20, significant in 11 and 8 subjects) and shifted toward FB mechanisms after tilt ( Ks-r = 0.35 ± 0.19 and Kr-s = 0.19 ± 0.11, significant in 14 and 8 subjects). The causal baroreflex gain estimates were always lower than the corresponding noncausal values and decreased significantly from rest to tilt in both frequency bands. The tilt-induced increase of the phase lag from SAP to RR suggested a shift from vagal to sympathetic modulation. Thus the importance of nonbaroreflex interactions pointed out the necessity of accounting for causality in the cross-spectral analysis of the interactions between cardiovascular variables in healthy humans.

Published

2005

11. A method for quantifying atrial fibrillation organization based on wave-morphology similarity

Author

Renzo Antolini, Giandomenico Nollo, Flavia Ravelli, Fiorenzo Gaita, Luca Faes, Faes, Luca, Nollo, Giandomenico, Antolini, Renzo, Gaita, Fiorenzo, and Ravelli, Flavia

Subjects

Signal processing, Bundle of His, medicine.medical_specialty, Morphological similarity, Atrial fibrillation (AF), Biomedical Engineering, Sensitivity and Specificity, Pattern Recognition, Automated, Electrocardiography, Similarity (network science), Heart Rate, Internal medicine, Atrial Fibrillation, otorhinolaryngologic diseases, medicine, Humans, Clinical treatment, Waveform morphology, Mathematics, medicine.diagnostic_test, Minimum distance, Models, Cardiovascular, Reproducibility of Results, Signal Processing, Computer-Assisted, Atrial fibrillation, Endocardial signal, medicine.disease, Tachyarrhythmia organization, Cardiology, sense organs, Rhythm classification, Basket catheter, Algorithms, Atrial flutter, Biomedical engineering

Abstract

A new method for quantifying the organization of single bipolar electrograms recorded in the human atria during atrial fibrillation (AF) is presented. The algorithm relies on the comparison between pairs of local activation waves (LAWs) to estimate their morphological similarity, and returns a regularity index (/spl rho/) which measures the extent of repetitiveness over time of the detected activations. The database consisted of endocardial data from a multipolar basket catheter during AF and intraatrial recordings during atrial flutter. The index showed maximum regularity (/spl rho/=1) for all atrial flutter episodes and decreased significantly when increasing AF complexity as defined by Wells (type I: /spl rho/=0.75/spl plusmn/0.23; type II: /spl rho/=0.35/spl plusmn/0.11; type III: /spl rho/=0.15/spl plusmn/0.08; P

Published

2002

12. Experimental approach for testing the uncoupling between cardiovascular variability series

Author

Luca Faes, Giandomenico Nollo, Renzo Antolini, Faes, L., Nollo, G., and Antolini, R.

Subjects

Series (mathematics), Kernel density estimation, Models, Cardiovascular, Myocardial Infarction, Biomedical Engineering, Estimator, Computer Science Applications1707 Computer Vision and Pattern Recognition, Signal Processing, Computer-Assisted, Coherence (statistics), Covariance, Feedback, Computer Science Applications, Spectral analysi, Electrocardiography, Sampling distribution, Autoregressive model, Cardiovascular variability serie, Statistics, Humans, Magnitude-squared coherence, Parametric statistics, Mathematics

Abstract

In cardiovascular variability analysis, the significance of the coupling between two series is commonly assessed by defining a zero level on the magnitude-squared coherence (MSC). Although the use of the conventional value of 0.5 does not consider the dependence of MSC estimates on the analysis parameters, a theoretical threshold Tt is available only for the weighted covariance (WC) estimator. In this study, an experimental threshold for zero coherence Te was derived by a statistical test from the sampling distribution of MSC estimated on completely uncoupled time series. MSC was estimated by the WC method (Parzen window, spectral bandwidth B = 0.015, 0.02, 0.025, 0.03 Hz) and by the parametric autoregressive (AR) method (model order M= 4, 8, 12, 16), on time series with length L = 180, 300, 420, 540 s. Te decreased with increasing B and L and with decreasing M (range: 0.11-0.54 for WC estimator, 0.06-0.46 for AR estimator). Values for the typical parameter settings of WC and AR estimation (B = 0.025 Hz; M = 8; L = 300 s) were, respectively, 0.24 and 0.17. Moreover, Tt was always higher (range: 0.12-0.65) and the results were less dependable than those for Te in defining the zero level of MSC. Thus, with the proposed method, the hypothesis of uncoupling is rejected by accounting for the parameters that affect the confidence of spectral and cross-spectral estimates. The broad applicability of this approach should favour its introduction for assessing the significance of the coupling between cardiovascular variability series.

Published

2002

13. Sub-Micrometer Vaterite Containers: Synthesis, Substance Loading, and Release

Author

Albrecht Haase, Renzo Antolini, and Bogdan Parakhonskiy

Subjects

Ethylene Glycol, Materials science, Nucleation, Mineralogy, Nanoparticle, Catalysis, Calcium Carbonate, chemistry.chemical_compound, Vaterite, Solubility, controlled release, encapsulation, microscopy, nanoparticles, vaterite, Calcite, Supersaturation, General Chemistry, General Medicine, Calcium carbonate, chemistry, Chemical engineering, Delayed-Action Preparations, Microscopy, Electron, Scanning, Nanoparticles, Particle size

Abstract

Promising candidates for the development of universal nanoscale delivery systems are porous inorganic nanoparticles. Recently, the applications of porous silicon in a multistage delivery system, in polymer coated nanocarriers, and of porous silica as core material for lipid bilayers have attracted great attention. A system with similarly high potential, but less studied so far, is porous calcium carbonate in the form of polycrystalline vaterite spheres. It has been shown to exhibit various beneficial properties such as biocompatibility, high drug loading capacity, and preservation of the loaded drugs properties. However, all these works on CaCO3 were performed with micrometer-sized particles, since the fabrication of nanocontainers turned out to be a big challenge. The common synthesis method of mixing salt solutions allowed producing container sizes of 3 to 15 mm, while the best reproducibility was reached for sizes of about 4 mm with a porosity of 40%. Yet, the most promising applications demand sub-micrometer size containers, for example, active coating or drug delivery, since smaller sizes favor efficient and homogeneous distribution and give access to micrometer-sized structures such as cells or tissue. Herein we report, for the first time, the fabrication of submicron porous vaterite containers, their loading with a probe payload, and its release. Their synthesis is based on crystal growth of polycrystalline, spherical vaterite particles, precipitated from concentrated solutions of CaCl2 and Na2CO3. [10] The nucleation and growth rate of the vaterite spheres is determined by the supersaturation level of the dissolved amorphous CaCO3. [11] The final size of the vaterite particles depends strongly on the concentration of the reagents, the solubility of the salts, the reaction time, and the rotation during mixing. It was shown that increasing the concentration of the salts up to 1m, the rotation speed up to 1500 rpm, and the reaction time to 2 min allowed reducing the vaterite particle size to 3 mm. A particle size reduction beyond these values has so far not been achieved, since vaterite was found to become unstable in water below this critical size, leading to a rapid recrystallization to the calcite phase. This recrystallization is due to the growing surface-to-volume ratio and enhanced solubility with decreasing particle size. We resolved this problem by adding ethylene glycol (EG) as a solvent, offering an enhanced density and reduced solubility of CaCO3. This diminished the molecular diffusion, reducing the crystal growth rate and the probability of nucleation, which finally stabilized the vaterite crystals. Experimental evidence of these effects is presented in Figure 1, where the average of the vaterite particle size distribution is shown as a function the reaction time for

Published

2011

14. Macromolecule loading into spherical, elliptical, star-like and cubic calcium carbonate carriers

Author

Alexey M. Yashchenok, Francesco Tessarolo, Helmuth Möhwald, Senem Donatan, Renzo Antolini, Dmitry Volodkin, Bogdan Parakhonskiy, and Andre G. Skirtach

Subjects

chemistry.chemical_classification, Drug Carriers, Ethylene Glycol, Materials science, Macromolecular Substances, Surface Properties, Isotropy, technology, industry, and agriculture, Salt (chemistry), Nanoparticle, Mineralogy, Atomic and Molecular Physics, and Optics, Calcium Carbonate, chemistry.chemical_compound, Calcium carbonate, Drug Delivery Systems, chemistry, Chemical engineering, Vaterite, Particle, Physics::Chemical Physics, Physical and Theoretical Chemistry, Particle Size, Ethylene glycol, Macromolecule

Abstract

We fabricated calcium carbonate particles with spherical, elliptical, star-like and cubical morphologies by varying relative salt concentrations and adding ethylene glycol as a solvent to slow down the rate of particle formation. The loading capacity of particles of different isotropic (spherical and cubical) and anisotropic (elliptical and star-like) geometries is investigated, and the surface area of such carriers is analysed. Potential applications of such drug delivery carriers are highlighted.

Published

2014

15. Size controlled hydroxyapatite and calcium carbonate particles: synthesis and their application as templates for SERS platform

Author

Bogdan Parakhonskiy, Francesco Tessarolo, Yu. I. Svenskaya, Olga A. Inozemtseva, Alexey M. Yashchenok, HA Fattah, Dmitry A. Gorin, and Renzo Antolini

Subjects

Ethylene Glycol, Materials science, Inorganic chemistry, Ionic bonding, Spectrum Analysis, Raman, Silver nanoparticle, Calcium Carbonate, Rhodamine, chemistry.chemical_compound, Colloid and Surface Chemistry, X-Ray Diffraction, Vaterite, Physical and Theoretical Chemistry, Particle Size, Aqueous solution, Rhodamines, Surfaces and Interfaces, General Medicine, Calcium carbonate, Durapatite, chemistry, Chemical engineering, Microscopy, Electron, Scanning, Particle, Ethylene glycol, Biotechnology

Abstract

An elegant route for hydroxyapatite (HA) particle synthesis via ionic exchange reaction is reported. Calcium carbonate particles (CaCO3) were recrystallized into HA beads in water solution with phosphate ions. The size of initial CaCO3 particles was controlled upon the synthesis by varying the amount of ethylene glycol (EG) in aqueous solution. The average size of HA beads ranged from 0.6±0.1 to 4.3±1.1μm. Silver nanoparticles were deposited on the surface of HA and CaCO3 particles via silver mirror reaction. Surface enhanced Raman scattering of silver functionalized beads was demonstrated by detecting Rhodamine B. CaCO3 and HA particles have a great potential for design of carrier which can provide diagnostic and therapeutic functions.

Published

2014

16. Photodamage in deep tissue two-photon optical biopsy of human skin

Author

Giulia Zanini, Sebastiana Boi, Paolo Bauer, Luca Dalbosco, Francesco Tessarolo, Renzo Antolini, Elvira D’Amato, and Albrecht Haase

Subjects

Pathology, medicine.medical_specialty, Materials science, Optical Phenomena, Biopsy, General Physics and Astronomy, Human skin, Photoionization, General Biochemistry, Genetics and Molecular Biology, Nuclear magnetic resonance, multiphoton processes, Two-photon excitation microscopy, biomedical imaging, nonlinear microscopy, skin imaging, photodamage, multiphoton processes, medicine, Humans, General Materials Science, Laser power scaling, Skin, Photons, Photobleaching, General Engineering, Temperature, skin imaging, photodamage, General Chemistry, nonlinear microscopy, Optical Biopsy, Biomechanical Phenomena, Molecular Imaging, medicine.anatomical_structure, Epidermis, Luminescence, biomedical imaging

Abstract

Photodamage, induced by femtosecond laser radiation, was studied in thick samples of human skin tissue (healthy skin and neoplastic lesions). Photobleaching, photoionization, and thermomechanical damage effects were characterized comparatively. The laser power dependence of the damage rates allowed to connect macroscopic effects to underlying molecular processes. Optical effects were correlated to histopathological changes. Tissue alterations were found only from thermomechanical cavitation and limited to superficial layers of the epidermis. From the depth-dependencies of all damage thresholds a depth-dependent power-compensation scheme was defined allowing for damage-free deep tissue optical biopsy. Damage-induced luminescence pattern for different excitation powers and a corresponding threshold analysis.

Published

2014

17. Principal component analysis and cluster analysis for measuring the local organisation of human atrial fibrillation

Author

M. Kirchner, Emanuele Olivetti, Luca Faes, Riccardo Riccardi, Giandomenico Nollo, Renzo Antolini, Fiorenzo Gaita, Faes, L., Nollo, G., Kirchner, M., Olivetti, E., Gaita, F., Riccardi, R., and Antolini, R.

Subjects

medicine.medical_treatment, Biomedical Engineering, Principal component analysi, Catheter ablation, Disease cluster, Intracardiac injection, Electrocardiography, Computer analysis, medicine, Cluster Analysis, Humans, Cluster analysi, medicine.diagnostic_test, business.industry, Signal Processing, Computer-Assisted, Computer Science Applications1707 Computer Vision and Pattern Recognition, Atrial fibrillation, Pattern recognition, medicine.disease, Computer Science Applications, Data set, Principal component analysis, Catheter Ablation, Artificial intelligence, business, Biomedical engineering

Abstract

The distribution of atrial electrogram types has been proposed to characterise human atrial fibrillation. The aim of this study was to provide computer procedures for evaluating the local organisation of intracardiac recordings during AF as an alternative to off-line manual classification. Principal components analysis (PCA) reduced the data set to a few representative activations, and cluster analysis (CA) measured the average dissimilarity between consecutive activations of an intracardiac signal. The data set consisted of 106 bipolar signals recorded on 11 patients during electrophysiological studies for catheter ablation. Performances of PCA and CA in distinguishing between organised (type I) and disorganised (type II/III, Wells criteria) were assessed, in comparison with manual reading, by evaluating the predictive parameters of the classification analysis. Both methods gave high accuracy (92% for PCA and 89% for CA), confirming the feasibility of on-line characterisation of AF. Sensitivity was lower than specificity (81% against 98% for PCA, and 77% against 97% for CA), with seven out of eight misclassifications of PCA in common with CA. Differences between manual and computer analysis may be related to the higher resolution of PCA and CA in the measurement of the organisation of atrial activations. These procedures are suitable for providing automatic (by CA) or semi-automatic (by PCA) measures of the extent of local organisation of AF in the pre-ablation treatment phase.

Published

2001

18. Different patterns of atrial activation in idiopathic atrial fibrillation: simultaneous multisite atrial mapping in patients with paroxysmal and chronic atrial fibrillation

Author

Renzo Antolini, Marco Scaglione, Riccardo Riccardi, Trevi Gp, Fulvio Orzan, Paolo Di Donna, Mario Bocchiardo, Leonardo Calò, Fiorenzo Gaita, Luisella Coda, Domenico Caponi, Giovanni Licciardello, and Lucia Garberoglio

Subjects

Adult, Male, medicine.medical_specialty, Heart disease, Refractory period, Electrocardiography, Internal medicine, Atrial Fibrillation, Heart rate, Heart Septum, medicine, Humans, In patient, Heart Atria, Tachycardia, Paroxysmal, Aged, medicine.diagnostic_test, business.industry, Body Surface Potential Mapping, P wave, Atrial fibrillation, Middle Aged, Atrial activation, Prognosis, medicine.disease, Anesthesia, Chronic Disease, Cardiology, Female, Cardiology and Cardiovascular Medicine, business

Abstract

OBJECTIVES We aimed to evaluate: 1) the behavior of electrical activity simultaneously in different atrial regions during atrial fibrillation (AF); 2) the difference of atrial activation between paroxysmal and chronic AF; 3) the atrial refractoriness dispersion; and 4) the correlation between the effective refractory periods (ERPs) and the FF intervals. BACKGROUND Little data exist on the electrophysiologic characteristics of the different atrial regions in patients with AF. A more detailed knowledge of the electrical activity during AF may provide further insights to improve treatment of AF. METHODS Right and left atria were extensively mapped in 30 patients with idiopathic AF (18 paroxysmal and 12 chronic). In different atrial locations, we analyzed 1) the FF interval duration; and 2) the grade of organization and, in case of organized electrical activity, the direction of atrial activation. Furthermore, in patients with paroxysmal AF, we determined the atrial ERP, evaluated the ERP dispersion and assessed the presence of a correlation between the ERPs and the FF intervals. RESULTS In patients with chronic AF, we observed a shortening of the FF intervals and a greater prevalence of disorganized activity in all the atrial sites examined. In patients with paroxysmal AF, a significant dispersion of refractoriness was observed. The right lateral wall showed longer FF intervals and more organized atrial activity and, unexpectedly, the shortest mean ERPs. In contrast, the septal area showed shorter FF intervals, greater disorganization and the longest mean ERPs. CONCLUSIONS Electrical activity during AF showed a significant spatial inhomogeneity, which was more evident in patients with paroxysmal AF. The mean FF intervals did not correlate with the mean ERPs.

Published

2001

19. Performance assessment of standard algorithms for dynamic R-T interval measurement: comparison between R-Tapex and R-Tend approach

Author

M Del Greco, Giuseppe Baselli, Flavia Ravelli, Alberto Porta, Sergio Cerutti, Federico Lombardi, Renzo Antolini, and G Nollo

Subjects

Physics, Signal processing, Series (mathematics), Multiplicative function, Mathematical analysis, Models, Cardiovascular, Biomedical Engineering, Heart, Sensitivity and Specificity, Computer Science Applications, Power (physics), QRS complex, Amplitude, Electrocardiography, Ambulatory, Electronic engineering, Humans, Computer Simulation, Center frequency, Sensitivity (electronics), Algorithms

Abstract

Three automatic approaches to ventricular repolarisation duration measurement (R-Tapex, R-T(end threshold) and R-T(end fitting) methods) are compared on computer-generated and real ECG signals, in relation to their reliability in the presence of the most common electrocardiographic artefacts (i.e. additive broadband noise and additive and multiplicative periodical disturbances). Simulations permit the evaluation of the amount of R-T beat-to-beat variability induced by the artefacts. The R-T(end threshold) method performs better than the R-T(end fitting) one, and, hence, the latter should be used with caution when R-T(end) variability is addressed. Whereas the R-Tapex method is more robust with regard to broadband noise than the R-T(end threshold) one, the reverse situation is observed in the presence of periodical amplitude modulations. A high level of broadband noise dose not prevent the detection of the central frequency of underlying R-T periodical changes. Comparison between the power spectra of the beat-to-beat R-T variability series obtained from three orthogonal ECG leads (X,Y,Z) is used to assess the amount of real and artefactual variability in 13 normal subjects at rest. The R-Tapex series displays rhythms at high frequency (HF) with a percentage power on the Z lead (57.1 +/- 4.9) greater than that on the X and Y leads (41.9 +/- 4.6 and 46.1 +/- 4.9, respectively), probably because of respiratory-related artefacts affecting the Z lead more remarkably. More uniform HF power distributions over X,Y,Z leads are observed in the R-T(end threshold) series (31.8 +/- 3.8, 39.2 +/- 4.1 and 35.1 +/- 4.2, respectively), thus suggesting minor sensitivity of the R-T(end threshold) measure to respiratory-related artefacts.

Published

1998

20. Dependence of sub-micron vaterite container release properties on pH and ionic strength of the surrounding solution

Author

Bogdan Parakhonskiy, Francesco Tessarolo, Albrecht Haase, Renzo Antolini, Vincenzini, P, and Scilingo, EP

Subjects

Materials science, Technology and Engineering, THERMAL-BEHAVIOR, Dispersity, Mineralogy, nanocontainer, drug delivery, vaterite, calcite, controlled release, chemistry.chemical_compound, Vaterite, NANOPARTICLES, DRUG, Porosity, nanocontainer, Calcite, chemistry.chemical_classification, vaterite, Recrystallization (metallurgy), Polymer, Controlled release, POLYELECTROLYTE MULTILAYER MICROCAPSULES, Chemistry, chemistry, Chemical engineering, Ionic strength, drug delivery, controlled release, calcite

Abstract

We report on the synthesis and characterization of porous monodisperse vaterite containers with controllable average sizes from 400 nm to 10 μm. Possible release strategies of enclosed substances via recrystallization or by pH-change are presented. As a model experiment, a fluorescent marker was encapsulated and imaged by two-photon microscopy to monitor the dye release. The release process was found to be controllable via the immersion medium’s properties. Release times can be further tuned by covering the containers with additional polymer layers, creating a flexible system with promising perspectives for pharmaceutical applications.

Published

2013

21. Anticancer drug delivery system based on calcium carbonate particles loaded with a photosensitizer

Author

Vsevolod S. Atkin, Bogdan Parakhonskiy, Yulia I. Svenskaya, Dmitry A. Gorin, Albrecht Haase, Evgeny A Lukyanets, and Renzo Antolini

Subjects

Photosens, medicine.medical_treatment, Inorganic chemistry, Biophysics, Nanoparticle, Antineoplastic Agents, Photodynamic therapy, Biochemistry, Calcium Carbonate, chemistry.chemical_compound, Neoplasms, Vaterite, medicine, Humans, Photosensitizer, Particle Size, Drug Carriers, Photosensitizing Agents, Organic Chemistry, Hydrogen-Ion Concentration, Calcium carbonate, Photochemotherapy, chemistry, Drug delivery, Nanoparticles, Nanocarriers

Abstract

In photodynamic therapy (PDT), photosensitizers are required to arrive in high concentrations at selective targets like cancer cells avoiding toxicity in healthy tissue. In this work, we propose the application of porous calcium carbonate carriers in the form of polycrystalline vaterite for this task. We investigated the loading efficiency for the photosensitizer Photosens in vaterite micro- and nanocarriers. A possible release mechanism depending on the surrounding pH was studied, showing a fast degradation of the carriers in buffers below pH 7. These results hold out the prospect of a novel PDT drug delivery system. Variation of particle size or additional coatings allow custom-design of workload release curves. An intrinsic cancer-sensitivity can be expected from the pH-dependent release in the acidic microenvironment of cancer tissue.

Published

2013

22. Improved late potential analysis in frequency domain

Author

Paolo Bonato, R. Bettini, F. Furlanello, Renzo Antolini, and Giorgio Speranza

Subjects

medicine.medical_specialty, Ventricular Dysfunction, Right, Fast Fourier transform, Biomedical Engineering, Biophysics, Electrocardiography, QRS complex, symbols.namesake, Risk Factors, Software Design, Internal medicine, medicine, Humans, ST segment, cardiovascular diseases, Mathematics, Fourier Analysis, medicine.diagnostic_test, Bundle branch block, Arrhythmias, Cardiac, medicine.disease, Electrophysiology, Fourier transform, Frequency domain, Tachycardia, Ventricular, cardiovascular system, symbols, Cardiology, Hilbert transform, Algorithms, Biomedical engineering

Abstract

This work presents a technique to improve the identification of late potentials (LP) in patients affected by greater arrhythmogenic right ventricular disease (GARVD). Several authors have documented the correlation between GARVD and LP by means of time domain analysis. Moreover, the high incidence of bundle branch block in patients affected by GARVD suggests LP analysis in the frequency domain be performed. The method of spectral mapping of the ECG with Fourier transform was adopted. This consists in dividing the ST segment into 25 subsegments and estimating their frequency components by means of the fast Fourier transform. Recently, it was documented that this technique suffers from poor reproducibility of results. Low reproducibility is the consequence of an improper localization of the analysed QRS segments. An algorithm to increase the QRS end point identification reproducibility is proposed. An optimal QRS filter was adopted as well as a technique based on the Hilbert transform. This technique allowed the reliability of the normality factor estimates to be improved. The computed normality factors on the XYZ leads and on the vector magnitude were used to classify patients and healthy subjects; 28 patients affected by greater arrhythmogenic right ventricular disease and 35 healthy subjects were analysed in the study. High sensitivity was obtained with respect to GARVD and clinical sustained ventricular tachycardia by means of a cluster analysis technique. By applying the technique proposed in this paper the identification of LP in GARVD was increased from 47% to 88%, when clinical sustained ventricular tachycardia was documented, whereas in patients affected by GARVD but not prone to sustained ventricular tachycardia LP identification increases from 18% to 64%.

Published

1995

23. Ventricular beats induce variations in cycle length of rapid (type II) atrial flutter in humans. Evidence of leading circle reentry

Author

M A Allessie, Renzo Antolini, Flavia Ravelli, Marcello Disertori, and F Cozzi

Subjects

Male, Cardiac Catheterization, medicine.medical_specialty, Electrocardiography, QRS complex, Heart Conduction System, Physiology (medical), Internal medicine, Humans, Ventricular Function, Medicine, cardiovascular diseases, Aged, medicine.diagnostic_test, business.industry, P wave, Cardiac Pacing, Artificial, Signal Processing, Computer-Assisted, Reentry, Atrial Function, medicine.disease, Myocardial Contraction, Atrial Flutter, Heart catheterization, cardiovascular system, Cardiology, Flutter, Female, Electrical conduction system of the heart, Cardiology and Cardiovascular Medicine, business, Atrial flutter

Abstract

BACKGROUND Slight variation in cycle lengths of common and rapid atrial flutter in humans is an established phenomenon, but its mechanisms have not been completely clarified. In a previous study, we demonstrated that in common atrial flutter the variations in atrial cycle length were due to atrial stretch affecting the revolution time of a reentrant circuit. In the present study, we investigate the nature of atrial cycle length variations in the rapid type of human atrial flutter. METHODS AND RESULTS Atrial interval variations of 17 episodes of rapid atrial flutter in 14 patients were investigated by measuring the sequence of atrial intervals from intraesophageal or intra-atrial leads and the onset of QRS complexes from a surface lead (V1). To study whether interval variation in flutter cycle was related to ventricular activity, a phase plot was constructed in which the flutter cycle length was plotted against the time after the previous QRS complex. This showed that the interval fluctuations were strictly coupled to the moment of ventricular activation. After the onset of the QRS complex, the rapid atrial flutter interval gradually decreased by an average of 4.1% (P < .001) and reached a minimum value after 300 to 600 milliseconds. Thereafter, the intervals increased again until the next ventricular beat occurred. In 10 patients developing both common and rapid atrial flutter, two different phase relations were found. Whereas during common atrial flutter the atrial interval increased after the QRS complex, it decreased during rapid atrial flutter. In three patients, intra-atrial pressure was recorded together with the electrical activity during both common and rapid atrial flutter episodes. This showed that variations in atrial flutter cycle length were associated with the rise of atrial pressure during ventricular contraction. CONCLUSIONS These findings indicate a role of contraction-excitation feedback caused by atrial stretch after a ventricular activation. The shortening of the atrial interval after the onset of the QRS complex as found in patients during rapid atrial flutter can be explained by stretch-induced shortening of atrial refractoriness and consequent shortening of the revolution time of a functionally determined intra-atrial circuit.

Published

1994

24. Searching for anatomical correlates of olfactory lateralization in the honeybee antennal lobes: a morphological and behavioural study

Author

Claudio Vinegoni, Albrecht Haase, Elisa Frasnelli, Giorgio Vallortigara, Gianfranco Anfora, Elisa Rigosi, and Renzo Antolini

Subjects

Central nervous system, Olfaction, Lateralization of brain function, Functional Laterality, Article, Behavioral Neuroscience, Apis mellifera, Brain asymmetry, Olfactory learning, Antennal lobes, Two-photon microscopy, Conditioning, Psychological, medicine, Animals, Antenna (biology), fungi, Brain, Anatomy, Bees, Olfactory Perception, medicine.anatomical_structure, Microscopy, Fluorescence, Multiphoton, Proboscis extension reflex, Laterality, Mental Recall, Odorants, Olfactory Learning, Psychology, Neuroscience

Abstract

The honeybee, Apis mellifera L. (Hymenoptera: Apidae), has recently become a model for studying brain asymmetry among invertebrates. A strong lateralization favouring the right antenna was discovered in odour learning and short-term memory recall experiments, and a lateral shift favouring the left antenna for long-term memory recall. Corresponding morphological asymmetries have been found in the distribution of olfactory sensilla between the antennae and confirmed by electrophysiological odour response measurements in isolated right and left antennae. The aim of this study was to investigate whether a morphological asymmetry can be observed in the volume of the primary olfactory centres of the central nervous system, the antennal lobes (ALs). Precise volume measurements of a subset of their functional units, the glomeruli, were performed in both sides of the brain, exploiting the advantages of two-photon microscopy. This novel method allowed minimal invasive acquisition of volume images of the ALs, avoiding artefacts from brain extraction and dehydration. The study was completed by a series of behavioural experiments in which response asymmetry in odour recall following proboscis extension reflex conditioning was assessed for odours, chosen to stimulate strong activity in the same glomeruli as in the morphological study. The volumetric measurements found no evidence of lateralization in the investigated glomeruli within the experimental limits. Instead, in the behavioural experiments, a striking odour dependence of the lateralization was observed. The results are discussed on the basis of recent neurophysiological and ethological experiments in A. mellifera.

Published

2011

25. Beat-to-beat measurement and analysis of the R-T interval in 24 h ECG Holter recordings

Author

Giorgio Speranza, Flavia Ravelli, Giandomenico Nollo, and Renzo Antolini

Subjects

Accuracy and precision, medicine.diagnostic_test, Biomedical Engineering, Healthy subjects, Beat (acoustics), Autonomic Nervous System, Sensitivity and Specificity, QT interval, Computer Science Applications, Heart Rate, Electrocardiography, Ambulatory, medicine, Humans, Ventricular Function, Heart rate variability, Spectral analysis, Fiducial marker, Electrocardiography, Mathematics, Biomedical engineering

Abstract

This study assesses the feasibility of beat-to-beat measurement of the R-T interval in Holter ECG recordings. The low sampling rate of the Holter system was increased by a specific interpolating filter, and the precision and accuracy of two T-wave fiducial point (T-wave maximum: Tm, T-wave end: Te) detection algorithms were compared. The results of the validation tests show better performance of the Tm measurement procedure in the presence of high noise levels. The overall process for the beat-to-beat R-T interval measurement was then tested on ECG Holter recordings collected during free and controlled respiration. Finally, the R-Tm and the corresponding R-R intervals were measured on 24 h ECG recordings of healthy subjects and the spectral analysis was applied to the constructed series. Both R-R and R-Tm spectra show two main frequency components (low-frequency approximately 0.1 Hz, high-frequency approximately 0.25 Hz) changing in their power ratios continuously throughout the 24 h period. The method described seems to provide a dynamic index of the sympatho-vagal balance at the ventricle that can be useful for a deeper understanding of ventricular repolarisation duration variability.

Published

1993

26. Quantitative colorimetric analysis of liquid crystal films (LCF) for phantom dosimetry in microwave hyperthermia

Author

R. Pontalti, L. Cristoforetti, Renzo Antolini, and L. Cescatti

Subjects

Materials science, Pixel, Color image, business.industry, Biomedical Engineering, Hyperthermia, Induced, Imaging phantom, Models, Structural, Optics, Frame grabber, Calibration, Image Processing, Computer-Assisted, Colorimetry, Least-Squares Analysis, Microwaves, Colorimetric analysis, business, Image resolution, Hue

Abstract

A fully quantitative analysis of liquid crystal film (LCF) color patterns, in phantom thermal dosimetry for microwave hyperthermia, is presented. An accurate determination of absorption rate density (ARD) is achieved by color image computer processing. This work is proven to be an improvement upon the semi-quantitative or qualitative descriptions of LCF colors performed essentially by visual analysis of photographs. Temperature-induced chromatic distributions are acquired as R, G, B (red, green, blue) signals by a CCD camera connected to a PC frame grabber board. These data, stored into three 512 x 512 memory buffers, are then converted to H, S, I (hue, saturation, intensity) colorimetric system. Provided a suitable calibration of the LCF, the H quantity can be transformed to temperature using a monotonic relationship. In this way, a temperature accuracy lower than 0.2 degrees C and a spatial resolution less than 1 mm are obtained. A sequence of thermal maps can be acquired and stored on disk at a maximum rate of 1 image/2 s, and then the ARD is calculated at each pixel of the map using the least squares method.

Published

1993

27. Spontaneous beat-to-beat variability of the ventricular repolarization duration

Author

Mangiardi L, Giandomenico Nollo, Rodolfo Bonamini, Renzo Antolini, Renato Grasso, and Giorgio Speranza

Subjects

Adult, Male, Physics, Ventricular Repolarization, medicine.medical_specialty, medicine.diagnostic_test, Beat (acoustics), Signal Processing, Computer-Assisted, QT interval, Standard deviation, Electrocardiography, Heart Conduction System, Internal medicine, Heart rate, medicine, Cardiology, Humans, Ventricular Function, Repolarization, Female, Electrical conduction system of the heart, Cardiology and Cardiovascular Medicine, Algorithms

Abstract

The spontaneous beat-to-beat variability of the ventricular repolarization duration was investigated in 21 healthy subjects (age 25-71 years; mean, 40 years) during the basal state in a recumbent position. For each subject, approximately 1,000 consecutive cycles were analyzed with an automated technique. The time series of the RR, QT, and RT intervals generate histograms that approximate normal distributions and have mean standard deviations of 57.0 ms, 5.4 ms, and 4.3 ms, respectively. Spectral analysis was used to detect rhythmical oscillations in these time series. The power spectra densities of both heart rate and ventricular repolarization during show peaks in the same frequency bands: low frequency (0.05-0.12 Hz) and high frequency (0.2-0.4 Hz). The power distribution between these two bands observed in the ventricular repolarization duration spectra was found to be the reverse of that in heart rate spectra (p less than 0.005).

Published

1992

28. Assessing Causality in normal and impaired short-term cardiovascular regulation via nonlinear prediction methods

Author

Renzo Antolini, Alberto Porta, Luca Faes, Giandomenico Nollo, Nollo, Giandomenico, Faes, Luca, Antolini, Renzo, and Porta, Alberto

Subjects

Adult, medicine.medical_specialty, Supine position, Time Factors, General Mathematics, RR interval, Global nonlinear prediction, General Physics and Astronomy, Neurally-mediated syncope, Blood Pressure, K-nearest neighbours local nonlinear prediction, Cardiovascular System, Syncope, Cardiovascular Physiological Phenomena, Physics and Astronomy (all), Engineering (all), Control theory, Heart Rate, Neurally mediated syncope, Internal medicine, medicine, Pressure, Humans, Mathematics (all), Computer Simulation, Out-of-sample prediction, Mathematics, Models, Statistical, General Engineering, Linear model, Models, Cardiovascular, Nonlinear granger causality, Models, Theoretical, Control subjects, Heart rate and arterial pressure variability, Causality, Nonlinear prediction, Term (time), Case-Control Studies, Settore ING-INF/06 - Bioingegneria Elettronica E Informatica, Cardiology, Algorithms

Abstract

We investigated the ability of mutual nonlinear prediction methods to assess causal interactions in short-term cardiovascular variability during normal and impaired conditions. Directional interactions between heart period (RR interval of the ECG) and systolic arterial pressure (SAP) short-term variability series were quantified as the cross-predictability (CP) of one series given the other, and as the predictability improvement (PI) yielded by the inclusion of samples of one series into the prediction of the other series. Nonlinear prediction was performed through global approximation (GA), approximation with locally constant models (LA0) and approximation with locally linear models (LA1) of the nonlinear function linking the samples of the two series, on patients with neurally mediated syncope and control subjects. Causality measures were evaluated in the two directions (from SAP to RR and from RR to SAP) in the supine (SU) position, in the upright position after head-up tilt (early tilt, ET) and after prolonged upright posture (late tilt, LT). While the trends for the GA, LA0 and LA1 methods were substantially superimposable, PI elicited better than CP the prevalence of causal coupling from RR to SAP during SU. Both CP and PI noted a marked decrease in coupling in both causal directions in syncope subjects during LT, documenting the impairment of cardiovascular regulation in the minutes just preceding syncope.

Published

2009

29. Involvement of exon 6-mediated calpastatin intracellular movements in the modulation of calpain activation

Author

Carola Prato, Claudia Cantoni, Renzo Antolini, Roberta De Tullio, Roberto Stifanese, Sandro Pontremoli, Monica Averna, Chiara Broggio, and Edon Melloni

Subjects

medicine.medical_treatment, Proteolysis, Cell, Biophysics, Ca2+ homeostasis, Biochemistry, Cell Line, Exon, Regulation of Ca2+-dependent proteolysis, cAMP, medicine, Cyclic AMP, Humans, Molecular Biology, Calpastatin, DNA Primers, Protease, medicine.diagnostic_test, biology, Base Sequence, Chemistry, Calpain, Calcium-Binding Proteins, Exons, Cell biology, Enzyme Activation, Cytosol, medicine.anatomical_structure, Microscopy, Fluorescence, biology.protein, Electrophoresis, Polyacrylamide Gel, Intracellular protein trafficking, Calpain, Calpastatin, cAMP, Ca2+ homeostasis, Regulation of Ca2+-dependent proteolysis, Intracellular protein trafficking, Intracellular, Subcellular Fractions

Abstract

Background To establish the physiological role of calpain, it is necessary to define how the protease can escape from the effect of its natural inhibitor calpastatin, since both proteins co-localize into the cell cytosol. Methods To answer this question, we have overexpressed four fluorescent calpastatin constructs, differing in the composition of their XL- and L-domains, and the intracellular trafficking of this protein inhibitor has been followed by single cell fluorescence imaging. Results and conclusions By the use of these calpastatin forms differing in the type of exon-derived sequences contained in the XL- and L-domains, we have demonstrated that the sequence coded by exon 6, containing multiple phosphorylation sites, is directly involved in determining the cell localization of calpastatin. In fact, exposure to cAMP promotes the recruitment into aggregates of those calpastatin forms containing the exon 6 sequence. These protein movements are directly related to the level of cytosolic inhibitory capacity and thereby to the extent of intracellular calpain activation. General significance The recruitment of calpastatin into aggregates allows the translocation and activation of the protease to the membranes; on the contrary, the presence of large amounts of calpastatin in the cytosol prevents both processes, protecting the cell from undesired proteolysis.

Published

2009

30. Variations in Human Atrial Flutter Cycle Length Induced by Ventricular Beats: Evidence of a Reentrant Circuit with a Partially Excitable Gap

Author

Francesco Furlanello, Maurits A. Allessie, Marcello Disertori, Wim J.E.P. Lammers, Flavia Ravelli, and Renzo Antolini

Subjects

congenital, hereditary, and neonatal diseases and abnormalities, medicine.medical_specialty, Atrium (architecture), business.industry, Carotid sinus, pathological conditions, signs and symptoms, Reentry, medicine.disease, QRS complex, Reentrancy, medicine.anatomical_structure, Physiology (medical), Internal medicine, cardiovascular system, Cardiology, Medicine, Flutter, cardiovascular diseases, Cardiology and Cardiovascular Medicine, business, Cycle length, Atrial flutter

Abstract

Variations in Atrial Flutter Cycle Length. Introduction: The purpose of this investigation was to study the mechanisms responsible for small variations in atrial flutter cycle lengths. Methods and Results: In a study group of 11 patients with common atrial flutter, atrial electrograms were recorded from an intraesophageal lead together with a surface lead (V1). Upon the onset of the QRS complex, atrial flutter intervals consistently increased by an average of 1.8% (SD± 0.9; P

Published

1991

31. Isolation of the left atrial surface from cardiac multi-detector CT images based on marker controlled watershed segmentation

Author

Alessandro Cristoforetti, Maurizio Centonze, Giandomenico Nollo, Luca Faes, Maurizio Del Greco, Flavia Ravelli, Renzo Antolini, Cristoforetti, Alessandro, Faes, Luca, Ravelli, Flavia, Centonze, Maurizio, Del Greco, Maurizio, Antolini, Renzo, and Nollo, Giandomenico

Subjects

Morphological gradient, Psychology (all), Computer science, Biomedical Engineering, Biophysics, Contrast Media, Mathematical morphology, computer.software_genre, Sensitivity and Specificity, Pattern Recognition, Automated, Imaging, Three-Dimensional, Voxel, Atrial Fibrillation, Humans, Segmentation, Orthopedics and Sports Medicine, Heart Atria, Computed tomography, Anisotropic filtering, Image segmentation, Models, Cardiovascular, Reproducibility of Results, Gold standard (test), Anatomy, Regional, Watershed, Intensity (physics), Pulmonary Veins, Subtraction Technique, Left atrium, Settore ING-INF/06 - Bioingegneria Elettronica E Informatica, cardiovascular system, Tomography, X-Ray Computed, computer, Biomedical engineering

Abstract

The delineation of left atrium (LA) and pulmonary veins (PVs) anatomy from high resolution images holds importance for atrial fibrillation (AF) investigation and treatment. In this study, a semiautomatic segmentation procedure for LA and PVs inner surface from contrast enhanced CT data was developed. The procedure consists of a three dimensional marker controlled watershed segmentation applied to the external morphological gradient, followed by variable threshold surface extraction from the original intensity image. A preliminary anisotropic non-linear filtering was implemented to improve the S/N ratio of CT images. The performance of segmentation was evaluated on cardiac CT scans of 12 AF patients both qualitatively and quantitatively. The qualitative evaluation by expert radiologist assessed the segmentation as overall successful in all patients and capable of extracting both the LA body and the connected vascular trees. The quantitative validation, by computing discrepancy measures with respect to a manually segmented gold standard, indicated an average of about 90% of voxels correctly classified and an average border mismatch lower than 1.5 voxels (1.2 mm). The accurate extraction of the inner LA-PVs walls provided by this method, along with the minimal required human intervention, should facilitate the use of anatomical atrial models for the non-pharmacological treatment of AF.

Published

2008

32. Absorption rate density (ARD) computation in microwave hyperthermia by the finite-difference time-domain method

Author

Renzo Antolini, Luca Cristoforetti, Rolando Pontalti, and Riccardo Valdagni

Subjects

Physics, Waveguide (electromagnetism), Steady state, Radiological and Ultrasound Technology, Aperture, Physics::Medical Physics, Finite-difference time-domain method, Hyperthermia, Induced, Models, Biological, Imaging phantom, Computational physics, Humans, Dosimetry, Computer Simulation, Radiology, Nuclear Medicine and imaging, Microwaves, Absorption (electromagnetic radiation), Mathematics, Microwave

Abstract

A mathematical model has been developed, which is able to predict power distributions in biological tissues during microwave hyperthermia delivered by waveguide applicators. The numerical solutions of Maxwell's equations was obtained by the finite-difference time-domain (FDTD) technique. Two improvements with respect to the standard implementation of FDTD were introduced: a separation between the source and load calculations (based on the Schelkunoff equivalence principle) and a simple routine that automatically recognises the steady state. Two commercially available applicators, a dual-ridged and a side-loaded waveguide, were modelled using their theoretical aperture fields. The absorption rate density (ARD) distributions delivered by these applicators were measured through phantom thermal dosimetry and compared with the patterns estimated by the simulation.

Published

1990

33. A stochastic approach for automatic registration and fusion of left atrial electroanatomic maps with 3D CT anatomical images

Author

Maurizio Del Greco, Giandomenico Nollo, Renzo Antolini, Alessandro Cristoforetti, Luca Faes, Michela Masè, Flavia Ravelli, Maurizio Centonze, Cristoforetti, Alessandro, Masè, Michela, Faes, Luca, Centonze, Maurizio, Greco, Maurizio Del, Antolini, Renzo, Nollo, Giandomenico, and Ravelli, Flavia

Subjects

Male, Radiology, Nuclear Medicine and Imaging, Physics and Astronomy (miscellaneous), Computer science, medicine.medical_treatment, Biomedical Engineering, Computed tomography, Sensitivity and Specificity, Pattern Recognition, Automated, Imaging, Three-Dimensional, Left atrial, Artificial Intelligence, Atrial Fibrillation, medicine, Humans, Computer vision, Stochastic Processes, medicine.diagnostic_test, Radiological and Ultrasound Technology, business.industry, Geometric transformation, Body Surface Potential Mapping, Reproducibility of Results, Ablation, Catheter, Subtraction Technique, Female, Artificial intelligence, business, Tomography, X-Ray Computed, Algorithms

Abstract

The integration of electroanatomic maps with highly resolved computed tomography cardiac images plays an important role in the successful planning of the ablation procedure of arrhythmias. In this paper, we present and validate a fully-automated strategy for the registration and fusion of sparse, atrial endocardial electroanatomic maps (CARTO maps) with detailed left atrial (LA) anatomical reconstructions segmented from a pre-procedural MDCT scan. Registration is accomplished by a parameterized geometric transformation of the CARTO points and by a stochastic search of the best parameter set which minimizes the misalignment between transformed CARTO points and the LA surface. The subsequent fusion of electrophysiological information on the registered CT atrium is obtained through radial basis function interpolation. The algorithm is validated by simulation and by real data from 14 patients referred to CT imaging prior to the ablation procedure. Results are presented, which show the validity of the algorithmic scheme as well as the accuracy and reproducibility of the integration process. The obtained results encourage the application of the integration method in post-intervention ablation assessment and basic AF research and suggest the development for real-time applications in catheter guiding during ablation intervention. © 2007 IOP Publishing Ltd.

Published

2007

34. Small-sample characterization of stochastic approximation staircases in forced-choice adaptive threshold estimation

Author

Leonardo Ricci, Francesco Pavani, Luca Faes, Renzo Antolini, Flavia Ravelli, Massimo Vescovi, Massimo Turatto, Giandomenico Nollo, Faes, Luca, Nollo, Giandomenico, Ravelli, Flavia, Ricci, Leonardo, Vescovi, Massimo, Turatto, Massimo, Pavani, Francesco, and Antolini, Renzo

Subjects

Psychology (all), Computer science, Coercion, Sensation, Differential Threshold, Experimental and Cognitive Psychology, Stochastic approximation, Midpoint, Choice Behavior, Psychometric function, Sensory threshold, Psychophysics, Humans, Psychology, Decision making, Psychophysical procedures, Psychometric function, General Psychology, Stochastic Processes, Psychophysical procedures, Stochastic process, Two-alternative forced choice, business.industry, Usability, Sensory Systems, Settore ING-INF/06 - Bioingegneria Elettronica E Informatica, Sensory System, business, Algorithm, Decision making

Abstract

Despite the widespread use of up—down staircases in adaptive threshold estimation, their efficiency and usability in forced-choice experiments has been recently debated. In this study, simulation techniques were used to determine the small-sample convergence properties of stochastic approximation (SA) staircases as a function of several experimental parameters. We found that satisfying some general requirements (use of the accelerated SA algorithm, clear suprathreshold initial stimulus intensity, large initial step size) the convergence was accurate independently of the spread of the underlying psychometric function. SA staircases were also reliable for targeting percent-correct levels far from the midpoint of the psychometric function and performed better than classical up—down staircases with fixed step size. These results prompt the utilization of SA staircases in practical forced-choice estimation of sensory thresholds.

Published

2007

35. New techniques in linear and non-linear laser optics in muscle research

Author

Gabriella Piazzesi, Nicoletta Piroddi, Francesco Vanzi, Roberto Bottinelli, Vincenzo Lombardi, Marco Capitanio, Leonardo Sacconi, Monica Canepari, V. Nucciotti, Riccardo Cicchi, Chiara Stringari, Renzo Antolini, Corrado Poggesi, Francesco S. Pavone, Chiara Tesi, Marco Linari, and Manuela Maffei

Subjects

Optical Tweezers, Physiology, Computer science, Myosins, Biochemistry, law.invention, Optics, law, Myosin, medicine, Electronic engineering, Animals, Microscopy, business.industry, Lasers, Muscles, Second-harmonic generation, Skeletal muscle, Cell Biology, Laser, medicine.anatomical_structure, Optical tweezers, Microscopy, Polarization, medicine.symptom, business, Focus (optics), Level of detail, Muscle contraction, Muscle Contraction

Abstract

This review proposes a brief summary of two applications of lasers to muscle research. The first application (laser tweezers), is now a well-established technique in the field, adopted by several laboratories in the world and producing a constant stream of original data, fundamental for our improved understanding of muscle contraction at the level of detail that only single molecule measurements can provide. As an example of the power of this technique, here we focus on some recent results, revealing the performance of the working stroke in at least two distinct steps also in skeletal muscle myosin. A second laser-based technique described here is second-harmonic generation; the application of this technique to muscle research is very recent. We describe the main results obtained thus far in this area and the potentially remarkable impact that this technology may have in muscle research.

Published

2006

36. Causal cross-spectral analysis of heart rate and blood pressure variability for describing the impairment of the cardiovascular control in neurally mediated syncope

Author

Renzo Antolini, M. Del Greco, Luca Faes, Giandomenico Nollo, L. Widesott, Faes, Luca, Widesott, Lamberto, Del Greco, Maurizio, Antolini, Renzo, and Nollo, Giandomenico

Subjects

Adult, Male, medicine.medical_specialty, Statistics as Topic, Biomedical Engineering, Blood Pressure, Neurally-mediated syncope, Cardiovascular control, Baroreflex, Cardiovascular System, Sensitivity and Specificity, Severity of Illness Index, Feedback, Electrocardiography, Heart Rate, Internal medicine, Severity of illness, Heart rate, Syncope, Vasovagal, medicine, Humans, Computer Simulation, Diagnosis, Computer-Assisted, Models, Statistical, medicine.diagnostic_test, business.industry, Transfer function, Models, Cardiovascular, Reproducibility of Results, Blood pressure, Data Interpretation, Statistical, Anesthesia, Cardiology, Regression Analysis, Female, business, Coherence, Algorithms, Syncope (phonology)

Abstract

A causal approach to the calculation of coherence and transfer function between systolic pressure (SP) and RR interval variability was applied in eight patients and eight control subjects during prolonged tilt test for investigating the impairment of cardiovascular control related to neurally mediated syncope. The causal analysis showed a depressed baroreflex regulation in resting patients, with reduced gain and increased latency from SP to RR, and a drop of the baroreflex coupling immediately before syncope. These findings, which were not elicited by traditional cross-spectral analysis, strongly suggest the use of the causal approach for the study of syncope mechanisms. © 2006 IEEE.

Published

2006

37. Global versus local linear beat-to-beat analysis of the relationship between arterial pressure and pulse transit time during dynamic exercise

Author

Alberto Porta, C. Gasperi, Massimo Pagani, Paolo Pizzinelli, Giandomenico Nollo, Renzo Antolini, and Daniela Lucini

Subjects

Supine position, Settore MED/09 - Medicina Interna, genetic structures, Biomedical Engineering, Blood Pressure, Models, Biological, Heart Rate, Heart rate, Statistics, Humans, Pulse, Exercise, Simulation, Mathematics, Settore M-EDF/01 - Metodi e Didattiche delle Attivita' Motorie, Pulse (signal processing), Linear model, Pulse Transit Time, Arteries, Arterial pressure, Cardiovascular variability, Dynamic exercise, Pulse transit time, eye diseases, Computer Science Applications, Blood pressure, Local analysis, Settore ING-INF/06 - Bioingegneria Elettronica e Informatica, Linear Models, Beat (music)

Abstract

Global linear analysis has been traditionally performed to verify the relationship between pulse transit time (PTT) and systolic arterial pressure (SAP) at the level of their spontaneous beat-to-beat variabilities: PTT and SAP have been plotted in the plane (PTT,SAP) and a significant linear correlation has been found. However, this relationship is weak and in specific individuals cannot be found. This result prevents the utilization of the SAP–PTT relationship to derive arterial pressure changes from PTT measures on an individual basis. We propose a local linear approach to study the SAP–PTT relationship. This approach is based on the definition of short SAP–PTT sequences characterized by SAP increase (decrease) and PTT decrease (increase) and on their search in the SAP and PTT beat-to-beat series. This local approach was applied to PTT and SAP series derived from 13 healthy humans during incremental supine dynamic exercise (at 10, 20 and 30% of the nominal individual maximum effort) and compared to the global approach. While global approach failed in some subjects, local analysis allowed the extraction of the gain of the SAP–PTT relationship in all subjects both at rest and during exercise. When both local and global analyses were successful, the local SAP–PTT gain is more negative than the global one as a likely result of noise reduction.

Published

2005

38. Wave similarity mapping shows the spatiotemporal distribution of fibrillatory wave complexity in the human right atrium during paroxysmal and chronic atrial fibrillation

Author

Flavia Ravelli, Marco Scaglione, Luca Sandrini, Fiorenzo Gaita, Giandomenico Nollo, Renzo Antolini, Luca Faes, Ravelli, Flavia, Faes, Luca, Sandrini, Luca, Gaita, Fiorenzo, Antolini, Renzo, Scaglione, Marco, and Nollo, Giandomenico

Subjects

Adult, Male, medicine.medical_specialty, Morphological similarity, Physiology, Arrhythmia (mechanisms), Heart Conduction System, Physiology (medical), Internal medicine, Atrial Fibrillation, medicine, Chronic atrial fibrillation, Humans, Wave, Heart Atria, Anatomic Location, Atrium (architecture), business.industry, Body Surface Potential Mapping, Spatiotemporal pattern, Atrial fibrillation, Middle Aged, medicine.disease, medicine.anatomical_structure, Mapping, Chronic Disease, Cardiology, Right atrium, Female, business, Lateral wall, Substrate, Cardiology and Cardiovascular Medicine, Electrophysiologic Techniques, Cardiac

Abstract

Introduction: The complexity of waveforms during atrial fibrillation may reflect critical activation patterns for the arrhythmia perpetuation. In this study, we introduce a novel concept of map, based on the analysis of the wave morphology, which gives a direct evidence in the human right atrium on the spatiotemporal distribution of fibrillatory wave complexity in paroxysmal (PAF) and chronic (CAF) atrial fibrillation. Methods and Results: Electrograms were recorded from a 64-electrode catheter in the right atrium of 15 patients during PAF (n = 8) and CAF (n = 7). Wave similarity maps were constructed by calculating the degree of morphological similarity of activation waves (S) at each atrial site and by following its temporal evolution. During PAF the spatiotemporal distribution of the waveforms was highly consistent across the subjects and was determined by the anatomic location. Wave similarity maps showed the existence of an extended area with low similarity index, which covered the low posteroseptal atrium (S = 0.28 ± 0.09) and the septal region (S = 0.22 ± 0.04), and the presence of a large tongue with high similarity index, which penetrated the lateral wall (S = 0.55 ± 0.08) starting from the high anterolateral atrium (S = 0.54 ± 0.06). A completely different spatiotemporal pattern was seen during CAF. No distinct regions with different similarity indexes were recognized, but a uniformly distributed low similarity index (S = 0.27 ± 0.07) was found. The spatial pattern was highly stable in time with fluctuations of S < 0.04. Conclusion: Quantification of the spatiotemporal distribution of fibrillatory wave complexity is feasible in humans by wave similarity mapping. Anatomic anchoring of waveforms during PAF and pattern destruction during CAF was determined.

Published

2005

39. Efficiency in endotoxin removal by a reprocessing protocol for electrophysiology catheters based on hydrogen peroxide plasma sterilization

Author

Francesco Tessarolo, Iole Caola, Giandomenico Nollo, Giovanni Maria Guarrera, Renzo Antolini, and Patrizio Caciagli

Subjects

medicine.medical_specialty, Cardiac Catheterization, Hydrogen Peroxide Sterilization, Depyrogenation, chemistry.chemical_compound, Tap water, medicine, Equipment Reuse, Humans, Plasma sterilization, Hydrogen peroxide, Decontamination, business.industry, Public Health, Environmental and Occupational Health, Sterilization, Hydrogen Peroxide, Sterilization (microbiology), Pulp and paper industry, Surgery, Electrophysiology, Endotoxins, Catheter, chemistry, Anti-Infective Agents, Local, Chlorine, business, Cardiac Catheters

Abstract

Electrophysiology and ablation cardiac catheters, which come in contact with blood during clinical use, are required to be non-pyrogenic (

Published

2005

40. Combined intracellular three-dimensional imaging and selective nanosurgery by a nonlinear microscope

Author

Renzo Antolini, Iva Marija Tolić-Norrelykke, Francesco S. Pavone, and Leonardo Sacconi

Subjects

Microscope, Cell division, Cell Survival, Infrared Rays, Biomedical Engineering, Nanotechnology, Microtubules, law.invention, Green fluorescent protein, Biomaterials, Imaging, Three-Dimensional, law, Microscopy, Schizosaccharomyces, Image Processing, Computer-Assisted, Laser power scaling, Lasers, fungi, Intracellular Membranes, Laser, Atomic and Molecular Physics, and Optics, Electronic, Optical and Magnetic Materials, Femtosecond, Biophysics, laser ablation, cells, microtubules, Intracellular

Abstract

We use near-IR femtosecond laser pulses for a combination of microscopy and nanosurgery on fluorescently labeled structures within living cells. Three-dimensional reconstructions of microtubule structures tagged with green fluorescent protein (GFP) are made during different phases of the cell cycle. Further, the microtubules are dissected using the same laser beam but with a higher laser power than for microscopy. We establish the viability of this technique for the cells of a fission yeast, which is a common model to study the mechanics of cell division. We show that nanosurgery can be performed with submicrometer precision and without visible collateral damage to the cell. The energy is primarily absorbed by the GFP molecules, and not by other native structures in the cell. GFP is particularly suitable for multiphoton excitation, as its excitation wavelength near 900 nm is benign for most cellular structures. The ability to use GFP to label structures for destruction by multiphoton excitation may be a valuable tool in cell biology.

Published

2005

41. Laser nanosurgery and manipulation in living cells

Author

Renzo Antolini, Iva Marija Tolić-Norrelykke, Leonardo Sacconi, and Francesco S. Pavone

Subjects

Dynamics (mechanics), Nanotechnology, Laser, Green fluorescent protein, law.invention, medicine.anatomical_structure, Optical tweezers, law, Lipid droplet, Microscopy, medicine, Biophysics, Nucleus, Intracellular

Abstract

We present a combination of nonlinear microscopy, laser nanosurgery and optical trapping applied to the 3D imaging and manipulation of intracellular structures in live cells. We use Titanium-sapphire laser pulses for a combined nonlinear microscopy and nanosurgery on microtubules tagged with green fluorescent protein (GFP) in fission yeast. The same laser source is also used to trap small round lipid droplets naturally present in the cell. The trapped droplets are used as handles to exert a pushing force on the nucleus, allowing for a displacement of the nucleus away from its normal position in the center of the cell. We show that nonlinear nanosurgery and optical manipulation can be performed with sub-micrometer precision and without visible collateral damage to the cell. We present this combination as an important tool in cell biology for the manipulation of specific structures in alternative to genetic methods or chemical agents. This technique can be applied to several fundamental problems in cell biology, including the study of dynamics processes in cell division.

Published

2005

42. Quantification of synchronization during atrial fibrillation by Shannon entropy: Validation in patients and computer model of atrial arrhythmias

Author

Marco Scaglione, Luca Faes, Michela Masè, Renzo Antolini, Flavia Ravelli, Masè, Michela, Faes, Luca, Antolini, Renzo, Scaglione, Marco, and Ravelli, Flavia

Subjects

Signal processing, medicine.medical_specialty, Time delays, Physiology, Entropy, Biomedical Engineering, Biophysics, Sensitivity and Specificity, Synchronization, Heart Conduction System, Arrhythmia (mechanisms), Internal medicine, Physiology (medical), medicine, Humans, In patient, Diagnosis, Computer-Assisted, Mathematics, Body Surface Potential Mapping, Models, Cardiovascular, Cardiac arrhythmia, Reproducibility of Results, Atrial fibrillation, Atrial arrhythmias, Computer simulation, medicine.disease, Electrophysiology, medicine.anatomical_structure, Biophysic, Cardiology, Right atrium, Algorithms

Abstract

Atrial fibrillation (AF), a cardiac arrhythmia classically described as completely desynchronized, is now known to show a certain amount of synchronized electrical activity. In the present work a new method for quantifying the level of synchronization of the electrical activity recorded in pairs of atrial sites during atrial fibrillation is presented. A synchronization index (Sy) was defined by quantifying the degree of complexity of the distribution of the time delays between sites by Shannon entropy estimation. The capability of Sy to discriminate different AF types in patients was assessed on a database of 60 pairs of endocardial recordings from a multipolar basket catheter. The analysis showed a progressive and significant decrease of Sy with increasing AF complexity classes as defined by Wells (AF type I Sy = 0.73 ± 0.07, type II Sy = 0.56 ± 0.07, type III Sy = 0.36 ± 0.04, p < 0.001). The extension of Sy calculation to the whole right atrium showed the existence of spatial heterogeneities in the synchronization level. Moreover, experiments simulated by a computer model of atrial arrhythmias showed that propagation patterns with different complexity could be the basis of different synchronization levels found in patients. In conclusion the quantification of synchronization by Shannon entropy estimation of time delay dispersion may facilitate the identification of different propagation patterns associated with AF, thus enhancing our understanding of AF mechanisms and helping in its treatment. © 2005 IOP Publishing Ltd.

Published

2005

43. Sequence analysis of pulse transit time and systolic blood pressure during dynamic exercise

Author

C. Gasperi, Alberto Porta, M. Pagani, Daniela Lucini, Giandomenico Nollo, and Renzo Antolini

Subjects

medicine.medical_specialty, Supine position, genetic structures, Arterial pulse, business.industry, Remote patient monitoring, Healthy subjects, Pulse Transit Time, eye diseases, Surgery, Blood pressure, Internal medicine, Systolic arterial pressure, Cardiology, Medicine, business

Abstract

The pulse transit time (PTT), i.e. the time necessary to the arterial pulse to reach the periphery, and systolic arterial pressure (SAP) are inversely related (i.e. PTT decreases when increasing SAP). This relationship, although significant, is very weak at the level of PTT and SAP beat-to-beat variabilities. The study searches for sequences of PTT and SAP values characterized by a PTT increase (decrease) and SAP decrease (increase) in SAP and PTT variability series (i.e. SAP-/PTT+ and SAP+/PTT- sequences) derived from 13 healthy subjects during mild supine incremental bicycle exercise. The presence of these sequences on real data should guarantee that the SAP-PTT relationship might be sufficiently strong to encourage its exploitation in continuous non-invasive beat-to-beat SAP monitoring

Published

2005

44. Determination of Synchronization of Electrical Activity in the Heart by Shannon Entropy Measure

Author

Flavia Ravelli, Michela Masè, Renzo Antolini, Luca Faes, Giandomenico Nollo, Masè, Michela, Faes, Luca, Nollo, Giandomenico, Antolini, Renzo, and Ravelli, Flavia

Subjects

Time delays, Series (mathematics), business.industry, Atrial fibrillation, Time resolution, Pattern recognition, medicine.disease, Measure (mathematics), Synchronization, Engineering (all), medicine.anatomical_structure, Control theory, Settore ING-INF/06 - Bioingegneria Elettronica E Informatica, medicine, Right atrium, Statistical dispersion, Artificial intelligence, business, Mathematics

Abstract

In this paper we propose a new index of synchronization for the study of heart’s electrical activity during atrial fibrillation (AF). The index relies on the measure of the time delays between correspondent activations in two atrial electrograms and on the characterization of their dispersion by a measure of Shannon Entropy. The algorithm was validated on simulated signals mimicking different degree of synchronization. Results showed the index was able to discriminate among different levels of organization, provided that it works on series of at least 50 activations (time resolution of almost 10 sec during AF). Moreover, we applied the algorithm to real bipolar electrograms, obtained from a multipolar basket catheter in right atrium in two patients during atrial fibrillation: this showed the index able to distinguish different levels of complexity in AF.

Published

2005

45. Radiofrequency Ablation on Heart-equivalent Phantom. Functionality Testing of Percutaneous Single-use Catheter

Author

Giandomenico Nollo, Francesco Tessarolo, Paolo Ferrari, and Renzo Antolini

Subjects

Materials science, Radiofrequency ablation, medicine.medical_treatment, Physics::Medical Physics, Catheter ablation, Ablation, Thermal conduction, Imaging phantom, law.invention, Spherical geometry, law, medicine, Deposition (phase transition), Circular symmetry, Biomedical engineering

Abstract

Aim of the presented experimental and theoretical model was to characterize the power deposition process in cardiac catheter ablation. A dedicated set-up, based on a transparent temperature-sensitive gel-phantom was developed. A liquid crystal film was used to map the temperature distribution during RF deposition. An infrared acquiring system and a postprocessing image software were used to define the heating zone and to quantify the device specific heating fingerprint. Experimental results were compared to a thermal conduction model with spherical symmetry, showing good agreement for ablation time 100

Published

2005

46. Causal transfer function analysis to describe closed loop interactions between cardiovascular and cardiorespiratory variability signals

Author

Sergio Cerutti, Alberto Porta, Giandomenico Nollo, Luca Faes, Renzo Antolini, Roberta Cucino, Faes, L., Porta, A., Cucino, R., Cerutti, S., Antolini, R., and Nollo, G.

Subjects

Adult, Male, General Computer Science, Linear transfer function, Blood Pressure, Bivariate analysis, Transfer function, Models, Biological, Feedback, Causality (physics), Cardiovascular Physiological Phenomena, Control theory, Coherence (signal processing), Humans, Computer Simulation, Lung, Mathematics, Computer Science (all), Linear model, Feed forward, Reproducibility of Results, Regression analysis, Heart, Autoregressive model, Cardiovascular control, Linear Models, Respiratory Physiological Phenomena, Regression Analysis, Female, Coherence, Algorithms, Biotechnology

Abstract

Although the concept of transfer function is intrinsically related to an input-output relationship, the traditional and widely used estimation method merges both feedback and feedforward interactions between the two analyzed signals. This limitation may endanger the reliability of transfer function analysis in biological systems characterized by closed loop interactions. In this study, a method for estimating the transfer function between closed loop interacting signals was proposed and validated in the field of cardiovascular and cardiorespiratory variability. The two analyzed signals x and y were described by a bivariate autoregressive model, and the causal transfer function from x to y was estimated after imposing causality by setting to zero the model coefficients representative of the reverse effects from y to x. The method was tested in simulations reproducing linear open and closed loop interactions, showing a better adherence of the causal transfer function to the theoretical curves with respect to the traditional approach in presence of non-negligible reverse effects. It was then applied in ten healthy young subjects to characterize the transfer functions from respiration to heart period (RR interval) and to systolic arterial pressure (SAP), and from SAP to RR interval. In the first two cases, the causal and non-causal transfer function estimates were comparable, indicating that respiration, acting as exogenous signal, sets an open loop relationship upon SAP and RR interval. On the contrary, causal and traditional transfer functions from SAP to RR were significantly different, suggesting the presence of a considerable influence on the opposite causal direction. Thus, the proposed causal approach seems to be appropriate for the estimation of parameters, like the gain and the phase lag from SAP to RR interval, which have a large clinical and physiological relevance. © Springer-Verlag 2004.

Published

2004

47. Cardiovascular response to sinusoidal neck suction in healthy volunteers and orthostatic intolerance patients

Author

Laura Diedrich, Renzo Antolini, L. Widesott, Giandomenico Nollo, André Diedrich, Raffaello Furlan, and Luciano Bernardi

Subjects

Frequency response, Suction, Blood pressure, Autoregressive model, business.industry, Anesthesia, RR interval, Healthy volunteers, Sympathetic nerve activity, medicine, Orthostatic intolerance, medicine.disease, business

Abstract

The dynamic response to sinusoidal neck suction, of the RR interval, systolic arterial blood pressure and muscle sympathetic nerve activity series, was studied in 10 controls and 5 patients with orthostatic intolerance. By using different spectral techniques (autoregressive, short time Fourier transformation), the cardiovascular and MSNA variability were analyzed during 0.1 Hz and 0.2 Hz frequency of neck suction. Moreover, by using the autoregressive model, a quantitative analysis of particular power spectral frequency bands was done. Finally, a chirp neck suction input signal was applied to qualitatively compare the frequency response. The patients with orthostatic intolerance showed a partial blood pressure response to NS, particularly over 0.1 Hz compared to controls.

Published

2003

48. A multi-relaxation (FD)/sup 2/-TD method for modeling dispersion in biological tissues

Author

Renzo Antolini, L. Cristoforetti, L. Cescatti, and R. Pontalti

Subjects

Electromagnetic field, Physics, Permittivity, Radiation, Wave propagation, business.industry, Relaxation (NMR), Finite difference method, Condensed Matter Physics, Electromagnetic radiation, Computational physics, Optics, Dispersion (optics), Electrical and Electronic Engineering, business, Excitation

Abstract

Pulse excitation in FD-TD provides multifrequency results with a single run of the code. The introduction of the Frequency Dependent FD-TD ((FD)/sup 2/-TD) has also recently provided a means to deal with dispersive materials on condition that they had a first order permittivity. The authors present a multirelaxation approach to widen the (FD)/sup 2/TD applicability to materials with more complex permittivity such as biological tissues. >

Published

1994

49. A causal probabilistic model for the estimation of risk of sudden death in athletes

Author

Renzo Antolini, Bettini R, A. Bertoldi, F. Furlanello, and W.J. Irler

Subjects

biology, Computer science, Athletes, business.industry, Bayesian probability, Statistical model, Cognition, Belief propagation, biology.organism_classification, Machine learning, computer.software_genre, Sudden death, Weighting, Artificial intelligence, business, Amateur, computer

Abstract

A causal probabilistic model is described which unifies the related arrhythmological and cardiopathological concepts in a homogeneous diagnostic network and gives a mechanism to estimate the risk when competitive sport activity is exercised. The records from 766 amateur and top-level athletes from 1974 to 1991 provided the medical expertise for the weighting of the nodes in the network. Some cognitive issues of Pearl's belief propagation for singly connected graphs explain the design. The model holds 60 finding nodes and 50 internal concepts. For a number of chosen athletes, the fitness estimation is compared with the clinical decision. >

Published

2002

50. Modeling the treatment scheme of sustained ventricular tachycardia with a Bayesian belief network

Author

A. Gerevini, F. Furlanello, Renzo Antolini, W.J. Irler, and G. Vergara

Subjects

Scheme (programming language), medicine.medical_specialty, Decision support system, business.industry, Bayesian network, Context (language use), Machine learning, computer.software_genre, Sustained ventricular tachycardia, medicine, Patient treatment, Artificial intelligence, Treatment decision making, business, Intensive care medicine, computer, computer.programming_language

Abstract

Patients with sustained ventricular tachycardia (SVT) need intensive electrophysiological testing for a treatment decision. A computer-based support for this decision has to take into account the clinical experience with SVT, the facets of the required electrophysiological tests, and the general characteristics of the potential therapy. A Bayesian belief network (BBN) is developed that allows the test-therapy relationships to be modeled. In the arrhythmological context, the events (the nodes in the network) are cardiological findings, pathophysiological states, test results, and therapeutic decisions. The basics of BBN as a tool for the design of medical decision support are presented and the essential knowledge issues of the arrhythmological problem are treated. >

Published

2002