Your search keyword '"G. Tognola"' showing total 97 results

1. Assessment of the Variability of Human Exposure to Radiofrequency Electromagnetic Fields Arising from 5.9 GHz Vehicular Communication in Urban Environments.

Author

Tognola G, Benini M, Bonato M, Gallucci S, and Parazzini M

Subjects

Child, Adult, Humans, Reproduction, Automobiles, Electromagnetic Fields, Radio Waves

Abstract

This paper assessed the variability of radiofrequency exposure among road users in urban settings due to vehicle-to-vehicle (V2V) communication operating at 5.9 GHz. The study evaluated the absorbed dose of radiofrequencies using whole-body specific absorption rate (SAR) in human models spanning different age groups, from children to adults. To overcome limitations of previous studies, we developed a novel hybrid procedure that combines deterministic and stochastic approaches, enabling assessment across multiple urban layouts. Real urban conditions and varying propagation scenarios were considered in SAR calculations. By varying the road user's position within 1.5-300 m from transmitting cars, the SAR distribution was determined. Median SAR remained consistently low, around 0.70 mW/kg, even with multiple transmitting cars and multiple emitting antennas, using maximum power allowed in US (44.8 dBm). The 99th percentile of SAR distribution varied based on body mass, decreasing for heavier models (typically adults) and increasing with the number of transmitting cars and antennas. The highest absorbed dose (73 mW/kg) occurred in a child model. The SAR consistently remained below the 80 mW/kg limit for whole-body exposure to electromagnetic fields in the 100 kHz-300 GHz range.

Published

2023

2. Assessment of Children's Exposure to Intelligent Transport System 5.9 GHz Vehicular Connectivity Using Numerical Dosimetry.

Author

Benini M, Parazzini M, Bonato M, Gallucci S, Chiaramello E, Fiocchi S, and Tognola G

Subjects

Female, Humans, Child, Male, Radio Waves, Environmental Exposure, Electromagnetic Fields, Radiometry

Abstract

This study investigates the radio-frequency electromagnetic field exposure (RF-EMF) levels in pedestrians generated by vehicular communication technology. We specifically investigated exposure levels in children of different ages and both genders. This study also compares the children's exposure levels generated by such technology with those of an adult investigated in our previous study. The exposure scenario consisted of a 3D-CAD model of a vehicle equipped with two vehicular antennas operating at 5.9 GHz, each fed with 1 W power. Four child models were analyzed near the front and back of the car. The RF-EMF exposure levels were expressed as the Specific Absorption Rate (SAR) calculated over the whole body and 10 g mass (SAR 10g ) of the skin and 1 g mass (SAR 1g ) of the eyes. The maximum SAR 10g value of 9 mW/kg was found in the skin of the head of the tallest child. The maximum whole-body SAR was 0.18 mW/kg and was found in the tallest child. As a general result, it was found that children's exposure levels are lower than those of adults. All the SAR values are well below the limits recommended by the International Commission on Non-Ionizing Radiation Protection (ICNIRP) in the general population.

Published

2023

3. Assessment of EMF Human Exposure Levels Due to Wearable Antennas at 5G Frequency Band.

Author

Gallucci S, Bonato M, Benini M, Chiaramello E, Fiocchi S, Tognola G, and Parazzini M

Subjects

Humans, Radio Waves, Electromagnetic Fields, Wearable Electronic Devices

Abstract

(1) Background: This work aims to assess human exposure to EMF due to two different wearable antennas tuned to two 5G bands. (2) Methods: The first one was centered in the lower 5G band, around f = 3.5 GHz, whereas the second one was tuned to the upper 5G band, at 26.5 GHz. Both antennas were positioned on the trunk of four simulated human models. The exposure assessment was performed by electromagnetic numerical simulations. Exposure levels were assessed by quantifying the specific absorption rate averaged on 10 g of tissue (SAR 10g ) and the absorbed power density (S ab ), depending on the frequency of the wearable antenna. (3) Results: the higher exposure values that resulted were always mainly concentrated in a superficial area just below the antenna itself. In addition, these resulting distributions were narrowed around their peak values and tended to flatten toward lower values in farther anatomical body regions. All the exposure levels complied with ICNIRP guidelines when considering realistic input power. (4) Conclusions: This work highlights the importance of performing an exposure assessment when the antenna is placed on the human wearer, considering the growth of wearable technology and its wide variety of application, particularly regarding future 5G networks.

Published

2022

4. Road User Exposure from ITS-5.9 GHz Vehicular Connectivity.

Author

Benini M, Parazzini M, Bonato M, Gallucci S, Chiaramello E, Fiocchi S, and Tognola G

Subjects

Adult, Environmental Exposure, Humans, Skin, Electromagnetic Fields, Radio Waves

Abstract

This study addressed an important but not yet thoroughly investigated topic regarding human exposure to radio-frequency electromagnetic fields (RF-EMF) generated by vehicular connectivity. In particular, the study assessed, by means of computational dosimetry, the RF-EMF exposure in road users near a car equipped with vehicle-to-vehicle (V2V) communication antennas. The exposure scenario consisted of a 3D numerical model of a car with two V2V antennas, each fed with 1 W, operating at 5.9 GHz and an adult human model to simulate the road user near the car. The RF-EMF dose absorbed by the human model was calculated as the specific absorption rate (SAR), that is, the RF-EMF power absorbed per unit of mass. The highest SAR was observed in the skin of the head (34.7 mW/kg) and in the eyes (15 mW/kg); the SAR at the torso (including the genitals) and limbs was negligible or much lower than in the head and eyes. The SAR over the whole body was 0.19 mW/kg. The SAR was always well below the limits of human exposure in the 100 kHz-6 GHz band established by the International Commission on Non-Ionizing Radiation Protection (ICNIRP). The proposed approach can be generalized to assess RF-EMF exposure in different conditions by varying the montage/number of V2V antennas and considering human models of different ages.

Published

2022

5. Assessment of SAR in Road-Users from 5G-V2X Vehicular Connectivity Based on Computational Simulations.

Author

Bonato M, Tognola G, Benini M, Gallucci S, Chiaramello E, Fiocchi S, and Parazzini M

Subjects

Automobiles, Humans, Wireless Technology, Automobile Driving, Pedestrians

Abstract

(1) Background: Cooperative Intelligent Transportation Systems (C-ITS) will soon operate using 5G New-Radio (NR) wireless communication, overcoming the limitations of the current V2X (Vehicle-to-Everything) wireless communication technologies and increasing road-safety and driving efficiency. These innovations will also change the RF exposure levels of pedestrians and road-users in general. These people, in fact, will be exposed to additional RF sources coming from nearby cars and from the infrastructure. Therefore, an exposure assessment of people in the proximity of a connected car is necessary and urgent. (2) Methods: Two array antennas for 5G-V2X communication at 3.5 GHz were modelled and mounted on a realistic 3D car model for evaluating the exposure levels of a human model representing people on the road near the car. Computational simulations were conducted using the FDTD solver implemented in the Sim4Life platform; different positions and orientations between the car and the human model were assessed. The analyzed quantities were the Specific Absorption Rate on the whole body (SAR wb ), averaged over 10 g (SAR 10g ) in specific tissues, as indicated in the ICNIRP guidelines. (3) Results: the data showed that the highest exposure levels were obtained mostly in the head area of the human model, with the highest peak obtained in the configuration where the main beam of the 5G-V2X antennas was more direct towards the human model. Moreover, in all configurations, the dose absorbed by a pedestrian was well below the ICNIRP guidelines to avoid harmful effects. (4) Conclusions: This work is the first study on human exposure assessment in a 5G-V2X scenario, and it expands the knowledge about the exposure levels for the forthcoming use of 5G in connected vehicles.

Published

2022

6. Gold nanoparticles as enablers of cell membrane permeabilization by time-varying magnetic field: influence of distance and geometry.

Author

Chiaramello E, Fiocchi S, Bonato M, Gallucci S, Benini M, Tognola G, Ravazzani P, and Parazzini M

Subjects

Cell Membrane, Electromagnetic Fields, Gold, Metal Nanoparticles

Abstract

This study is based on the quantification of the influence of the presence of gold nanoparticles (Au NPs), of their geometry and their distance from cell membrane during time-varying electromagnetic fields cell membrane permeabilization on the pores opening dynamics. Results showed that the combined use of Au NPs and time-varying magnetic field can improve significantly the permeabilization of cell membrane. The presence of Au NPs allowed to reach transmembrane potential values enabling the cell membrane permeabilization only when placed at very short distance, equal to 20 nm. Both geometry and variability of the positioning in proximity of the cell membrane showed a strong influence on the probability of enabling pores opening. Clinical Relevance- This study provides a better comprehension about the mechanisms, still not completely understood, underlying cell membrane permeabilization by combining Au NPs and time-varying magnetic fields.

Published

2022

7. Human Exposure Assessment to Wearable Antennas: Effect of Position and Interindividual Anatomical Variability.

Author

Gallucci S, Bonato M, Chiaramello E, Fiocchi S, Tognola G, and Parazzini M

Subjects

Female, Humans, Male, Electromagnetic Fields, Wearable Electronic Devices

Abstract

(1) Background: This work aims to assess the human exposure to the RF-EMFs emitted by a wearable antenna. (2) Methods: a wearable antenna tuned at f = 2.45 GHz was tested by placing it in six realistic configurations relative to a male and female human model. The exposure assessment was performed by means of computational methods to estimate the SAR 10g distributions at 1W of input power. (3) Results: (i) for all the configurations the SAR 10g distributions resulted always mainly concentrated on a superficial area immediately below the antenna itself; (ii) the obtained values have shown that the configuration with the highest exposure value was when the antenna was posed on the arm; (iii) the exposure tends to be higher for male model. (4) Discussion and Conclusions: This work highlights the importance of performing an exposure assessment when the antenna is placed on the human wearer considering the growth of the wearable technology and its wide variety of fields of application, e.g., medical and military.

Published

2022

8. Assessment of Human Exposure Levels Due to Mobile Phone Antennas in 5G Networks.

Author

Bonato M, Dossi L, Gallucci S, Benini M, Tognola G, and Parazzini M

Subjects

Computers, Handheld, Electromagnetic Fields adverse effects, Humans, Skin, Cell Phone, Radio Waves adverse effects

Abstract

The recent deployment of 5G networks is bringing benefits to the population but it is also raising public concern about human RF-EMF exposure levels. This is particularly relevant considering the next 5G mobile devices, which are placed in close proximity to the subjects. Therefore, the aim of the following paper is focused on expanding the knowledge of the exposure levels in 5G exposure scenarios, specifically for mobile applications, using computational methods. The mobile antenna was designed considering the 5G technology innovations (i.e., mm-wave spectrum, beamforming capability, high gain and wide coverage), resulting in a phased-array antenna with eight elements at the working frequency of 27 GHz. To assess the exposure levels, different types of skin models with different grades of details and layers were considered. Furthermore, not only was the presence of a mobile phone user simulated, but also that of a person in their proximity, who could be hit by the main beam of the phased-array antenna. All the simulations were conducted in Sim4Life platform, where the exposure levels were assessed in terms of absorbed power density averaged over 4 cm 2 and 1 cm 2 , following the ICNIRP guidelines. The results highlighted that the use of the homogeneous skin model led to the absorbed power density peaks being greatly underestimated, with respect to those obtained in multilayer skin models. Furthermore, interestingly, we found that the exposure levels obtained for the person passing nearby were slightly higher than those experienced by the mobile phone user himself. Finally, using the allowed input power for real mobile applications, all the values remained below the limits indicated by the ICNIRP guidelines.

Published

2022

9. Exposure Assessment to Radiofrequency Electromagnetic Fields in Occupational Military Scenarios: A Review.

Author

Gallucci S, Fiocchi S, Bonato M, Chiaramello E, Tognola G, and Parazzini M

Subjects

Electromagnetic Fields, Humans, Radio Waves, Military Personnel, Occupational Exposure

Abstract

(1) Background: Radiofrequency radiations are used in most devices in current use and, consequently, the assessment of the human exposure to the radiofrequency radiations has become an issue of strong interest. Even if in the military field there is wide use of radiofrequency devices, a clear picture on the exposure assessment to the electromagnetic field of the human beings in the military scenario is still missing. (2) Methods: a review of the scientific literature regarding the assessment of the exposure of the military personnel to the RF specific to the military environment, was performed. (3) Results: the review has been performed grouping the scientific literature by the typology of military devices to which the military personnel can be exposed to. The military devices have been classified in four main classes, according to their intended use: communication devices, localization/surveillance devices, jammers and EM directed-energy weapons. (4) Discussion and Conclusions: The review showed that in the exposure conditions here evaluated, there were only occasional situations of overexposure, whereas in the majority of the conditions the exposure was below the worker exposure limits. Nevertheless, the limited number of studies and the lack of exposure assessment studies for some devices prevent us to draw definitive conclusions and encourage further studies on military exposure assessment.

Published

2022

10. Application of Stochastic Dosimetry for assessing the Human RFEMF Exposure in a 5G indoor Scenario.

Author

Bonato M, Dossi L, Chiaramello E, Benini M, Gallucci S, Fiocchi S, Tognola G, and Parazzini M

Subjects

Algorithms, Humans, Radiometry, Electromagnetic Fields, Radiation Dosage, Radio Waves

Abstract

In recent years the introduction of 5G networks is causing a drastically change of human exposure levels in the radio frequency range. The aim of this paper is on expanding the knowledge on this issue, assessing the exposure levels for a particular case of indoor 5G scenario, where the presence of an Access Point (AP) was simulated. Coupling the traditional deterministic computational method with an innovative stochastic approach, called Polynomial Chaos Kriging, allowed to evaluate the exposure variability of an user considering the 3D beamforming capability of the antenna. The exposure levels, expressed in terms of specific absorption rate (SAR) in specific tissues, showed low values compared to ICNIRP guidelines.

Published

2021

11. Contactless Cell Permeabilization by Time-Varying Magnetic fields: Modelling Transmembrane Potential and Mechanical Stress in in- vitro Experimental Set-Up.

Author

Chiaramello E, Fiocchi S, Bonato M, Gallucci S, Benini M, Tognola G, Ravazzani P, and Parazzini M

Subjects

Cell Membrane, Cell Membrane Permeability, Membrane Potentials, Stress, Mechanical, Magnetic Fields

Abstract

The feasibility of using time-varying magnetic field as a contactless cells permeabilization method was demonstrated by experimental results, but the underlying mechanism is still poorly understood. In this study a numerical analysis of the transmembrane potential (TMP) at cell membranes during permeabilization by time-varying magnetic fields was proposed, and a first quantification of mechanical stress induced by the magnetic and electric fields and hypothesized to play an important role in the permeabilization mechanism was carried out. TMP values induced by typical in-vitro experimental conditions were far below the values needed for membrane permeabilization, with a strong dependence on distance of the cell from the coil. The preliminary assessment of the mechanical pressure and potential deformation of cells showed that stress values evaluated in conditions in which TMP values were too low to cause membrane permeabilization were comparable to those known to influence the pore opening mechanisms.Clinical Relevance- Results represent a significant step towards a better comprehension of the mechanism underlying cell membrane permeabilization by time-varying magnetic fields.

Published

2021

12. Use of Machine Learning for the Estimation of Down- and Up-Link Field Exposure in Multi-Source Indoor WiFi Scenarios.

Author

Tognola G, Plets D, Chiaramello E, Gallucci S, Bonato M, Fiocchi S, Parazzini M, Martens L, Joseph W, and Ravazzani P

Subjects

Humans, Radio Waves, Machine Learning, Neural Networks, Computer

Abstract

A novel Machine Learning (ML) method based on Neural Networks (NN) is proposed to assess radio-frequency (RF) exposure generated by WiFi sources in indoor scenarios. The aim was to build an NN capable of addressing the complexity and variability of real-life exposure setups, including the effects of not only down-link transmission access points (APs) but also up-link transmission by different sources (e.g. laptop, printers, tablets, and smartphones). The NN was fed with easy to be found data, such as the position and type of WiFi sources (APs, clients, and other users) and the position and material characteristics (e.g. penetration loss) of walls. The NN model was assessed using an additional new layout, distinct from that one used to build and optimize the NN coefficients. The NN model achieved a remarkable field prediction accuracy across exposure conditions in both layouts, with a median prediction error of -0.4 to 0.6 dB and a root mean square error of 2.5-5.1 dB, compared with the target electric field estimated by a deterministic indoor network planner. The proposed approach performs well for the different layouts and is thus generally used to assess RF exposure in indoor scenarios. © 2021 The Authors. Bioelectromagnetics published by Wiley Periodicals LLC on behalf of Bioelectromagnetics Society., (© 2021 The Authors. Bioelectromagnetics published by Wiley Periodicals LLC on behalf of Bioelectromagnetics Society.)

Published

2021

13. Benefit of hearing aid use in the elderly: the impact of age, cognition and hearing impairment.

Author

Tognola G, Mainardi A, Vincenti V, and Cuda D

Subjects

Age Factors, Aged, Aged, 80 and over, Female, Humans, Male, Cognition, Hearing Aids, Hearing Loss rehabilitation

Published

2019

14. Cluster Analysis of Residential Personal Exposure to ELF Magnetic Field in Children: Effect of Environmental Variables.

Author

Tognola G, Chiaramello E, Bonato M, Magne I, Souques M, Fiocchi S, Parazzini M, and Ravazzani P

Subjects

Child, Cluster Analysis, Family, Family Characteristics, France, Humans, Records, Electricity, Electromagnetic Fields, Environmental Exposure analysis, Housing

Abstract

Personal exposure to Extremely Low Frequency Magnetic Fields (ELF MF) in children is a very timely topic. We applied cluster analysis to 24 h indoor personal exposures of 884 children in France to identify possible common patterns of exposures. We investigated how electric networks near child home and other variables potentially affecting residential exposure, such as indoor sources of ELF MF, the age and type of the residence and family size, characterized the magnetic field exposure patterns. We identified three indoor personal exposure patterns: children living near overhead lines of high (63-150 kV), extra-high (225 kV) and ultra-high voltage (400 kV) were characterized by the highest exposures; children living near underground networks of low (400 V) and mid voltage (20 kV) and substations (20 kV/400 V) were characterized by mid exposures; children living far from electric networks had the lowest level of exposure. The harmonic component was not relevant in discriminating the exposure patterns, unlike the 50 Hz or broadband (40-800 Hz) component. Children using electric heating appliances, or living in big buildings or in larger families had generally a higher level of personal indoor exposure. Instead, the age of the residence was not relevant in differentiating the exposure patterns.

Published

2019

15. An Application of eHealth Technology Toward the Digitization of the Health Records of Older Patients With Cochlear Implants.

Author

Tognola G, Murri A, and Cuda D

Subjects

Aged, Humans, Information Storage and Retrieval, Search Engine, Cochlear Implants, Electronic Health Records, Telemedicine

Abstract

Purpose Despite the current legislative indications toward the digitization of patient health records, 80% of health data are unstructured and in a format that cannot be used in electronic archives or in registries of diseases. An innovative automated system is here proposed to efficiently retrieve and digitize clinical information from original unstructured ear, nose, and throat (ENT) medical records, in order to reduce the manual workload in the retrieval and digitization process. Method The system, based on an eHealth technology named cognitive computing , interprets medical reports to transform unstructured clinical data (e.g., narrative text) into a structured digital format. The system has been tailored to handle the reports of aged cochlear implant (CI) patients by digitizing the information typically requested in electronic CI registries and by the current ENT/audiology guidelines. Results were obtained from the reports generated by an outpatient ENT care service from 52 older adult CI patients. Results The system allowed a quick and automated interpretation and retrieval of all the information required, such as the patient's medical history, risk factors, examination outcomes, communicative performances before and after CI implantation, and CI settings. The accuracy of the system in correctly interpreting and retrieving the above information from the original unstructured medical reports was very good (recall = 0.78; precision = 0.95). The system allowed to reduce the time needed to manually digitize the information from 20-30 min/report to only 20 s/report. Conclusion The proposed system is a viable solution for the automated digitization of unstructured health data as recommended by the ENT/audiology clinical best practices.

Published

2019

16. Introduction to the Special Issue: Select Papers From the Hearing Across the Lifespan (HEAL) 2018 Conference.

Author

Tognola G, Kramer SE, Humes LE, and Grandori F

Subjects

Humans, Periodicals as Topic, Hearing, Longevity

Abstract

[Figure: see text].

Published

2019

17. Assessment of Children Exposure Variability to Near-Field Sources using Stochastic Dosimetry.

Author

Bonato M, Chiaramello E, Fiocchi S, Tognola G, Parazzini M, and Ravazzani P

Subjects

Child, Electricity, Electromagnetic Fields, Environmental Exposure, Family, Humans, Peripheral Nervous System, Radiometry

Abstract

In this paper, the exposure of a child to a hairdryer model is evaluated. Nowadays, the assessment of children exposure to near-field sources has become in fact a topic of high interest, because it was found that even domestic appliances could be relevant for children exposure level. Therefore, the aim of the present work is to use a method based on stochastic dosimetry to assess the exposure variability due to near-field sources, not limiting it only on some worst-case exposure scenario. In particular, electric field amplitudes induced in specific tissues composing the central nervous system and the peripheral nervous system (following the ICNIRP guidelines) were analyzed. The results highlight a high exposure variability depending on the hairdryer position in respect with the child.

Published

2019

18. Computational simulation of electromagnetic fields on human targets for magnetic targeting applications.

Author

Fiocchi S, Chiaramello E, Bonato M, Tognola G, Catalucci D, Parazzini M, and Ravazzani P

Subjects

Computer Simulation, Humans, Magnetic Fields, Magnetics, Drug Delivery Systems, Electromagnetic Fields

Abstract

In the last few years, the use of nanoparticles for therapeutic applications has attracted the interest of many scientists, who are looking for effective methods to target nanoparticles linked to drugs directly to the diseased organs. Among them, magnetic targeting consists of magnetic systems (magnets or coils) which can impress high gradient magnetic fields and then magnetic forces on the magnetic nanoparticles. Despite some studies have reported an effective improvement in drug delivery by using this technique, there is still a paucity of studies able to quantify and explain the experimental results. In this scenario, "in silico" models allow to analyze and compare different magnetic targeting systems in their ability to generate the required magnetic field gradient for specific human targets.In this paper we then evaluated, by means of computational electromagnetics techniques, the attitude of various ad-hoc designed magnetic systems in targeting the heart tissues of differently aged human anatomical models.

Published

2019

19. Use of Machine Learning in the Analysis of Indoor ELF MF Exposure in Children.

Author

Tognola G, Bonato M, Chiaramello E, Fiocchi S, Magne I, Souques M, Parazzini M, and Ravazzani P

Subjects

Adolescent, Child, Child, Preschool, Cluster Analysis, Electricity, France, Housing, Humans, Infant, Infant, Newborn, Schools, Environmental Exposure analysis, Machine Learning, Magnetic Fields

Abstract

Characterization of children exposure to extremely low frequency (ELF) magnetic fields is an important issue because of the possible correlation of leukemia onset with ELF exposure. Cluster analysis-a Machine Learning approach-was applied on personal exposure measurements from 977 children in France to characterize real-life ELF exposure scenarios. Electric networks near the child's home or school were considered as environmental factors characterizing the exposure scenarios. The following clusters were identified: children with the highest exposure living 120⁻200 m from 225 kV/400 kV overhead lines; children with mid-to-high exposure living 70⁻100 m from 63 kV/150 kV overhead lines; children with mid-to-low exposure living 40 m from 400 V/20 kV substations and underground networks; children with the lowest exposure and the lowest number of electric networks in the vicinity. 63⁻225 kV underground networks within 20 m and 400 V/20 kV overhead lines within 40 m played a marginal role in differentiating exposure clusters. Cluster analysis is a viable approach to discovering variables best characterizing the exposure scenarios and thus it might be potentially useful to better tailor epidemiological studies. The present study did not assess the impact of indoor sources of exposure, which should be addressed in a further study.

Published

2019

20. Radio Frequency Electromagnetic Fields Exposure Assessment in Indoor Environments: A Review.

Author

Chiaramello E, Bonato M, Fiocchi S, Tognola G, Parazzini M, Ravazzani P, and Wiart J

Subjects

Cell Phone, Communication, Housing, Humans, Television, Transportation, Workplace, Electromagnetic Fields, Environmental Exposure, Radio Waves

Abstract

Exposure to radiofrequency (RF) electromagnetic fields (EMFs) in indoor environments depends on both outdoor sources such as radio, television and mobile phone antennas and indoor sources, such as mobile phones and wireless communications applications. Establishing the levels of exposure could be challenging due to differences in the approaches used in different studies. The goal of this study is to present an overview of the last ten years research efforts about RF EMF exposure in indoor environments, considering different RF-EMF sources found to cause exposure in indoor environments, different indoor environments and different approaches used to assess the exposure. The highest maximum mean levels of the exposure considering the whole RF-EMF frequency band was found in offices (1.14 V/m) and in public transports (0.97 V/m), while the lowest levels of exposure were observed in homes and apartments, with mean values in the range 0.13⁻0.43 V/m. The contribution of different RF-EMF sources to the total level of exposure was found to show slightly different patterns among the indoor environments, but this finding has to be considered as a time-dependent picture of the continuous evolving exposure to RF-EMF.

Published

2019

21. Cx26 partial loss causes accelerated presbycusis by redox imbalance and dysregulation of Nfr2 pathway.

Author

Fetoni AR, Zorzi V, Paciello F, Ziraldo G, Peres C, Raspa M, Scavizzi F, Salvatore AM, Crispino G, Tognola G, Gentile G, Spampinato AG, Cuccaro D, Guarnaccia M, Morello G, Van Camp G, Fransen E, Brumat M, Girotto G, Paludetti G, Gasparini P, Cavallaro S, and Mammano F

Subjects

Animals, Apoptosis, Connexin 26 metabolism, Female, Gene Deletion, Male, Mice, Mice, Inbred C57BL, Oxidation-Reduction, Presbycusis metabolism, Connexin 26 genetics, NF-E2-Related Factor 2 metabolism, Presbycusis genetics, Signal Transduction

Abstract

Mutations in GJB2, the gene that encodes connexin 26 (Cx26), are the most common cause of sensorineural hearing impairment. The truncating variant 35delG, which determines a complete loss of Cx26 protein function, is the prevalent GJB2 mutation in several populations. Here, we generated and analyzed Gjb2 +/- mice as a model of heterozygous human carriers of 35delG. Compared to control mice, auditory brainstem responses (ABRs) and distortion product otoacoustic emissions (DPOAEs) worsened over time more rapidly in Gjb2 +/- mice, indicating they were affected by accelerated age-related hearing loss (ARHL), or presbycusis. We linked causally the auditory phenotype of Gjb2 +/- mice to apoptosis and oxidative damage in the cochlear duct, reduced release of glutathione from connexin hemichannels, decreased nutrient delivery to the sensory epithelium via cochlear gap junctions and deregulated expression of genes that are under transcriptional control of the nuclear factor erythroid 2-related factor 2 (Nrf2), a pivotal regulator of tolerance to redox stress. Moreover, a statistically significant genome-wide association with two genes (PRKCE and TGFB1) related to the Nrf2 pathway (p-value < 4 × 10 -2 ) was detected in a very large cohort of 4091 individuals, originating from Europe, Caucasus and Central Asia, with hearing phenotype (including 1076 presbycusis patients and 1290 healthy matched controls). We conclude that (i) elements of the Nrf2 pathway are essential for hearing maintenance and (ii) their dysfunction may play an important role in the etiopathogenesis of human presbycusis., (Copyright © 2018 The Authors. Published by Elsevier B.V. All rights reserved.)

Published

2018

22. Introduction: Hearing Across the Lifespan (HEAL) 2016.

Author

Kramer SE, Tognola G, and Humes LE

Subjects

Congresses as Topic, Early Diagnosis, Hearing Loss epidemiology, Hearing Loss psychology, Hearing Tests, Humans, Italy, Mass Screening, Audiology, Cognition, Hearing Loss diagnosis, Telemedicine

Abstract

Purpose: This introduction overviews this special issue on the Hearing Across the Lifespan (HEAL) conference, which was held in Cernobbio, Italy, June 2-4, 2016.

Published

2017

23. The ALFA4Hearing Model (At-a-Glance Labeling for Features of Apps for Hearing Health Care) to Characterize Mobile Apps for Hearing Health Care.

Author

Paglialonga A, Pinciroli F, and Tognola G

Subjects

Humans, Audiology, Hearing Loss rehabilitation, Mobile Applications, Telemedicine

Abstract

Purpose: The aim of the study was to analyze, by using the ALFA4Hearing model (At-a-Glance Labeling for Features of Apps for Hearing Health Care), a sample of apps over a wide range of services in the hearing health care (HHC) domain in order to take a first picture of the current scenario of apps for HHC., Method: We tested 120 apps, and we characterized them by using the ALFA4Hearing model, which includes 29 features in 5 components (Promoters, Services, Implementation, Users, and Descriptive Information). We analyzed (a) the distribution of the 29 features in the sample, (b) the relationship between the Implementation features and the Services provided by the apps, and (c) the distribution of the 29 features in apps for professional use., Results: The analysis of our sample of apps by means of the ALFA4Hearing model highlighted interesting trends and emerging challenges. Also, results suggested many potential opportunities for research and clinical practice, such as greater involvement of stakeholders, improved evidence base, higher technical quality, and usability., Conclusions: The ALFA4Hearing model is able to represent, at a glance, a large amount of information about apps for HHC, highlighting trends and challenges. It might be useful to HHC professionals as a basis for app characterization and informed decision making.

Published

2017

24. Clinical Data Reuse or Secondary Use: Current Status and Potential Future Progress.

Author

Meystre SM, Lovis C, Bürkle T, Tognola G, Budrionis A, and Lehmann CU

Subjects

Delivery of Health Care, Forecasting, Humans, Biomedical Research, Data Mining

Abstract

Objective: To perform a review of recent research in clinical data reuse or secondary use, and envision future advances in this field. Methods: The review is based on a large literature search in MEDLINE (through PubMed), conference proceedings, and the ACM Digital Library, focusing only on research published between 2005 and early 2016. Each selected publication was reviewed by the authors, and a structured analysis and summarization of its content was developed. Results: The initial search produced 359 publications, reduced after a manual examination of abstracts and full publications. The following aspects of clinical data reuse are discussed: motivations and challenges, privacy and ethical concerns, data integration and interoperability, data models and terminologies, unstructured data reuse, structured data mining, clinical practice and research integration, and examples of clinical data reuse (quality measurement and learning healthcare systems). Conclusion: Reuse of clinical data is a fast-growing field recognized as essential to realize the potentials for high quality healthcare, improved healthcare management, reduced healthcare costs, population health management, and effective clinical research., Competing Interests: Disclosure The authors report no conflicts of interest in this work., (Georg Thieme Verlag KG Stuttgart.)

Published

2017

25. Evolution of Italian Universal Newborn Hearing Screening Programs.

Author

Bubbico L, Tognola G, and Grandori F

Subjects

Health Care Surveys, Hearing Disorders congenital, Hearing Disorders prevention & control, Hearing Tests trends, Humans, Infant, Infant, Newborn, Italy epidemiology, Nurseries, Hospital legislation & jurisprudence, Hearing Disorders diagnosis, Hearing Disorders epidemiology, Hearing Tests statistics & numerical data, Neonatal Screening legislation & jurisprudence, Neonatal Screening standards, Neonatal Screening trends, Nurseries, Hospital statistics & numerical data

Abstract

Background: The aim of this study was to evaluate the state of implementation of the Universal Newborn Hearing Screening Programs in Italy and to determine the effect that an ad hoc legislation may have on the percentage of infants screened for detection of hearing impairment in nurseries., Material and Methods: Italian Newborn Hearing Screening data were obtained during four national surveys (years 2003, 2006, 2008, and 2011). The screening rates obtained by the Regions which adopted or did not adopt a legislation to increase the newborns' coverage were compared., Results: In 2011, the average coverage rate was 78.3%, but in 12 out of 20 Regions it exceeded 95%. Coverage rate was greater in Regions that implemented an ad hoc legislation compared to Regions that did not. As a matter of fact, Regions which passed the legislation screened more than 95% of infants, whereas Regions without legislation reported a mean screening rate of nearly 67% of newborns., Conclusion: Current results seem to confirm that a specific legislation might have a decisive effect on the increase of rate of coverage of newborn hearing screenings.

Published

2017

26. Use of "off-the-shelf" information extraction algorithms in clinical informatics: A feasibility study of MetaMap annotation of Italian medical notes.

Author

Chiaramello E, Pinciroli F, Bonalumi A, Caroli A, and Tognola G

Subjects

Algorithms, Feasibility Studies, Humans, Italy, Information Storage and Retrieval, Natural Language Processing, Unified Medical Language System

Abstract

Information extraction from narrative clinical notes is useful for patient care, as well as for secondary use of medical data, for research or clinical purposes. Many studies focused on information extraction from English clinical texts, but less dealt with clinical notes in languages other than English. This study tested the feasibility of using "off the shelf" information extraction algorithms to identify medical concepts from Italian clinical notes. Among all the available and well-established information extraction algorithms, we used MetaMap to map medical concepts to the Unified Medical Language System (UMLS). The study addressed two questions: (Q1) to understand if it would be possible to properly map medical terms found in clinical notes and related to the semantic group of "Disorders" to the Italian UMLS resources; (Q2) to investigate if it would be feasible to use MetaMap as it is to extract these medical concepts from Italian clinical notes. We performed three experiments: in EXP1, we investigated how many medical concepts of the "Disorders" semantic group found in a set of clinical notes written in Italian could be mapped to the UMLS Italian medical sources; in EXP2 we assessed how the different processing steps used by MetaMap, which are English dependent, could be used in Italian texts to map the original clinical notes on the Italian UMLS sources; in EXP3 we automatically translated the clinical notes from Italian to English using Google Translator, and then we used MetaMap to map the translated texts. Results in EXP1 showed that the Italian UMLS Metathesaurus sources covered 91% of the medical terms of the "Disorders" semantic group, as found in the studied dataset. We observed that even if MetaMap was built to analyze texts written in English, most of its processing steps worked properly also with texts written in Italian. MetaMap identified correctly about half of the concepts in the Italian clinical notes. Using MetaMap's annotation on Italian clinical notes instead of a simple text search improved our results of about 15 percentage points. MetaMap's annotation of Italian clinical notes showed recall, precision and F-measure equal to 0.53, 0.98 and 0.69, respectively. Most of the failures were due to the impossibility for MetaMap to generate meaningful variants for the Italian language, suggesting that modifying MetaMap to allow generating Italian variants could improve the performance. MetaMap's performance in annotating automatically translated English clinical notes was in line with findings in the literature, with similar recall (0.75), F-measure (0.83) and even higher precision (0.95). Most of the failures were due to a bad Italian to English translation of medical terms, suggesting that using an automatic translation tool specialized in translating medical concepts might be useful to obtain better performances. In conclusion, performances obtained using MetaMap on the fully automatic translation of the Italian text are good enough to allow to use MetaMap "as it is" in clinical practice., (Copyright © 2016 Elsevier Inc. All rights reserved.)

Published

2016

27. Organisation of newborn hearing screening programmes in the European Union: widely implemented, differently performed.

Author

Vos B, Senterre C, Lagasse R, Tognola G, and Levêque A

Subjects

European Union, Hearing Tests statistics & numerical data, Humans, Infant, Newborn, Program Evaluation statistics & numerical data, Surveys and Questionnaires, Hearing Tests methods, Neonatal Screening methods, Program Evaluation methods

Abstract

Background: Implementation of newborn hearing screening programmes is widely recommended and programme organisational designs may differ in practice. The objective of this article was to establish an overview of the newborn hearing screening programmes in the 28 countries of the European Union on four topics (policy-decision, financing, general designs, organisational features)., Methods: National or regional programme coordinators completed an online self-administered questionnaire focusing on protocol description and programme organisation., Results: Thirty-nine key informants, representing 24 countries, from national or regional levels completed the questionnaire. Newborn hearing screening programmes are or will be shortly implemented largely in the European Union countries. Levels of policy decision-making and organisational decisions are diverse (national, regional or combined). Designs of the programmes (number of steps before diagnosis referral, single or dual target group protocol) highly varied. However, common organisational elements were observed: hearing screening tests are often performed by nursing staff, in hospitals and early in life. This pattern does not apply when a screening protocol is specifically implemented for newborns with risk factor(s) for hearing impairment or admitted to neonatal intensive care units. Hearing test financing frequently involved public sources, including government and public health funds., Conclusion: Despite the same goal of early identification of hearing-impaired children, there is a high level of diversity in programmes, including policy decisions, financing, general designs and pragmatic organisational choices (e.g. professionals involved, location or time for screening, number of steps in the protocol). Further investigations should analyse these differences in relation to the programmes' contexts and outcomes., (© The Author 2016. Published by Oxford University Press on behalf of the European Public Health Association. All rights reserved.)

Published

2016

28. Attempting to Use MetaMap in Clinical Practice: A Feasibility Study on the Identification of Medical Concepts from Italian Clinical Notes.

Author

Chiaramello E, Paglialonga A, Pinciroli F, and Tognola G

Subjects

Documentation, Electronic Health Records, Feasibility Studies, Italy, Terminology as Topic, Information Storage and Retrieval, Language, Software

Abstract

This study assessed the feasibility of using MetaMap to identify medical concepts from clinical notes written in Italian. We performed two experiments: in "EXP 1", we used MetaMap to annotate Italian texts using a knowledge source consisting of Italian UMLS sources only; in "EXP 2", we used MetaMap to analyze an English unsupervised translated version of the original Italian texts. We considered medical concepts related to three semantic categories: "Disorders", "Findings" and "Symptoms". Average recall, precision and F-measure were equal to 0.53, 0.98 and 0.69 in "EXP 1", and to 0.75, 0.95 and 0.83 in "EXP 2". For both "EXP 1" and "EXP 2" MetaMap showed better performances for the "Disorders" than for "Findings" and "Symptoms". In conclusion, when using MetaMap with the English translation of the Italian clinical notes, we obtained performances good enough to allow using MetaMap in clinical practice. Further investigation about the types of MetaMap's failures could be useful to understand how to improve performances even better.

Published

2016

29. Apps for Hearing Science and Care.

Author

Paglialonga A, Tognola G, and Pinciroli F

Subjects

Consumer Health Information, Hearing Loss diagnosis, Humans, Mass Screening, Correction of Hearing Impairment, Hearing Loss rehabilitation, Mobile Applications, Patient Education as Topic, Self-Help Devices

Abstract

Purpose: Our research aims at the identification and assessment of applications (referred to as apps) in the hearing health care domain. This research forum article presents an overview of the current availability, affordability, and variety of hearing-related apps., Method: The available apps were reviewed by searching on the leading platforms (iOS, Android, Windows Phone stores) using the keywords hearing, audiology, audio, auditory, speech, language, tinnitus, hearing loss, hearing aid, hearing sys tem, cochlear implant, implantable device, auditory training, hearing rehabilitation, and assistive technology/tool/device. O n the bas is of the offered services, apps were classified into 4 application domains: (a) screening and assessment, (b) intervention and rehabilitation, (c) education and information, and (d) assistive tools., Conclusions: A large variety of apps are available in the hearing health care domain. These cover a wide range of services for people with hearing or communication problems as well as for hearing professionals, families, or informal caregivers. This evolution can potentially bring along considerable advantages and improved outcomes in the field of hearing health care. Nevertheless, potential risks and threats (e.g., safety, quality, effectiveness, privacy, and regulation) should not be overlooked. Significant research—particularly in terms of assessment and guidance—is still needed for the informed, aware, and safe adoption of hearing-related apps by patients and professionals.

Published

2015

30. Objective measures of perceptual quality for predicting speech intelligibility in sensorineural hearing loss.

Author

Chiaramello E, Moriconi S, and Tognola G

Subjects

Hearing Aids, Hearing Loss, Sensorineural, Humans, Speech Perception, Speech Intelligibility

Abstract

An objective method to predict speech intelligibility in sensorineural hearing loss of different types and increasing degrees of severity is proposed and validated with experimental data. The novel approach is based on the combined use of acoustic simulations of impaired perception and objective measures of perceptual speech quality (PESQ). Acoustic simulations were obtained after degradation of the original, non distorted, speech waveforms by spectral smearing, expansive nonlinearity, and level scaling. PESQ was used to measure perceptual quality of the acoustic simulations obtained by varying the degree of the simulated hearing loss. A logistic function was applied to transform PESQ scores into predicted intelligibility scores. A set of CV and VC syllables in /a/, /u/, and /i/ contexts was used as reference test material. The method was validated with subjective measures of intelligibility of the degraded speech obtained in a group of 10 normal hearing subjects. Overall, prediction of experimental speech intelligibility through the transformed PESQ measures was good (R(2)=0.7; RMSE=0.08) revealing that the proposed approach could be a valuable aid in real clinical applications.

Published

2015

31. Susceptibility of linear and nonlinear otoacoustic emission components to low-dose styrene exposure.

Author

Tognola G, Chiaramello E, Sisto R, and Moleti A

Subjects

Adult, Cochlea drug effects, Cochlea physiology, Female, Humans, Male, Matched-Pair Analysis, Middle Aged, Otoacoustic Emissions, Spontaneous physiology, Signal-To-Noise Ratio, Manufacturing Industry, Noise, Occupational adverse effects, Occupational Exposure adverse effects, Otoacoustic Emissions, Spontaneous drug effects, Styrene toxicity

Abstract

Objective: To investigate potential susceptibility of active cochlear mechanisms to low-level styrene exposure by comparing TEOAEs in workers and controls., Design: Two advanced analysis techniques were applied to detect sub-clinical changes in linear and nonlinear cochlear mechanisms of OAE generation: the wavelet transform to decompose TEOAEs into time-frequency components and extract signal-to-noise ratio and latency of each component, and the bispectrum to detect and extract nonlinear TEOAE contributions as quadratic frequency couplings (QFCs)., Study Sample: Two cohorts of workers were examined: subjects exposed exclusively to styrene (N = 9), and subjects exposed to styrene and noise (N = 6). The control group was perfectly matched by age and sex to the exposed group., Results: Exposed subjects showed significantly lowered SNR in TEOAE components at mid-to-high frequencies (above 1.6 kHz) and a shift of QFC distribution towards lower frequencies than controls. No systematic differences were observed in latency., Conclusion: Low-level styrene exposure may have induced a modification of cochlear functionality as concerns linear and nonlinear OAE generation mechanisms. The lack of change in latency seems to suggest that the OAE components, where generation region and latency are tightly coupled, may not have been affected by styrene and noise exposure levels considered here.

Published

2015

32. Apps for hearing healthcare.

Author

Paglialonga A, Tognola G, and Pinciroli F

Subjects

Diagnosis, Computer-Assisted methods, Patient Education as Topic methods, Technology Assessment, Biomedical, Therapy, Computer-Assisted methods, Consumer Health Information methods, Correction of Hearing Impairment methods, Hearing Tests methods, Mobile Applications, Self Care methods, Telemedicine methods

Abstract

The hearing healthcare scenario is rapidly evolving due to the pervasive use of m-Health solutions, in particular mobile apps. This brings along significant advantages and opportunities (e.g., accessibility, affordability, personalized healthcare, patient empowerment) as well as significant potential risks and threats (e.g., safety, misuse, quality issues, privacy). Our research aims at the identification and assessment of apps in the hearing healthcare domain. In this article we present an overview of the current availability, variety, and penetration of hearing-related apps.

Published

2015

33. Analysis of subtle auditory dysfunctions in young normal-hearing subjects affected by Williams syndrome.

Author

Paglialonga A, Barozzi S, Brambilla D, Soi D, Cesarani A, Spreafico E, and Tognola G

Subjects

Acoustic Impedance Tests, Adolescent, Adult, Audiometry, Pure-Tone, Auditory Threshold physiology, Case-Control Studies, Child, Ear, Middle physiology, Female, Humans, Male, Otoacoustic Emissions, Spontaneous physiology, Otoscopy, Pressure, Reflex, Acoustic physiology, Young Adult, Williams Syndrome physiopathology

Abstract

Objective: To assess if young subjects affected by Williams syndrome (WS) with normal middle ear functionality and normal hearing thresholds might have subtle auditory dysfunctions that could be detected by using clinically available measurements., Methods: Otoscopy, acoustic reflexes, tympanometry, pure-tone audiometry, and distortion product otoacoustic emissions (DPOAEs) were measured in a group of 13 WS subjects and in 13 age-matched, typically developing control subjects. Participants were required to have normal otoscopy, A-type tympanogram, normal acoustic reflex thresholds, and pure-tone thresholds≤15 dB HL at 0.5, 1, and 2 kHz bilaterally. To limit the possible influence of middle ear status on DPOAE recordings, we analyzed only data from ears with pure-tone thresholds≤15 dB HL across all octave frequencies in the range 0.25-8 kHz, middle ear pressure (MEP)>-50 daPa, static compliance (SC) in the range 0.3-1.2 cm3, and ear canal volume (ECV) in the range 0.2-2 ml, and we performed analysis of covariance to remove the possible effects of middle ear variables on DPOAEs., Results: No differences in mean hearing thresholds, SC, ECV, and gradient were observed between the two groups, whereas significantly lower MEP values were found in WS subjects as well as significantly decreased DPOAEs up to 3.2 kHz after adjusting for differences in middle ear status., Conclusions: Results revealed that WS subjects with normal hearing thresholds (≤15 dB HL) and normal middle ear functionality (MEP>-50 daPa, SC in the range 0.3-1.2 cm3, ECV in the range 0.2-2 ml) might have subtle auditory dysfunctions that can be detected by using clinically available methods. Overall, this study points out the importance of using otoacoustic emissions as a complement to routine audiological examinations in individuals with WS to detect, before the onset of hearing loss, possible subtle auditory dysfunctions so that patients can be early identified, better monitored, and promptly treated., (Copyright © 2014 Elsevier Ireland Ltd. All rights reserved.)

Published

2014

34. A user-operated test of suprathreshold acuity in noise for adult hearing screening: The SUN (Speech Understanding in Noise) test.

Author

Paglialonga A, Tognola G, and Grandori F

Subjects

Adult, Humans, Hearing, Hearing Tests, Sensory Thresholds

Abstract

A novel, user-operated test of suprathreshold acuity in noise for use in adult hearing screening (AHS) was developed. The Speech Understanding in Noise test (SUN) is a speech-in-noise test that makes use of a list of vowel-consonant-vowel (VCV) stimuli in background noise presented in a three-alternative forced choice (3AFC) paradigm by means of a touch sensitive screen. The test is automated, easy-to-use, and provides self-explanatory results (i.e., 'no hearing difficulties', or 'a hearing check would be advisable', or 'a hearing check is recommended'). The test was developed from its building blocks (VCVs and speech-shaped noise) through two main steps: (i) development of the test list through equalization of the intelligibility of test stimuli across the set and (ii) optimization of the test results through maximization of the test sensitivity and specificity. The test had 82.9% sensitivity and 85.9% specificity compared to conventional pure-tone screening, and 83.8% sensitivity and 83.9% specificity to identify individuals with disabling hearing impairment. Results obtained so far showed that the test could be easily performed by adults and older adults in less than one minute per ear and that its results were not influenced by ambient noise (up to 65dBA), suggesting that the test might be a viable method for AHS in clinical as well as non-clinical settings., (Copyright © 2014 Elsevier Ltd. All rights reserved.)

Published

2014

35. Extraction of cochlear non-linearities with the bispectral analysis. An application to TEOAEs in styrene-exposed workers.

Author

Chiaramello E, Moriconi S, and Tognola G

Subjects

Adult, Algorithms, Auditory Threshold, Cochlea physiology, Humans, Models, Statistical, Nonlinear Dynamics, Cochlea drug effects, Evoked Potentials, Auditory drug effects, Hearing physiology, Occupational Exposure adverse effects, Styrene adverse effects

Published

2014

36. A bispectral approach to analyze nonlinear cochlear active mechanisms in transient evoked otoacoustic emissions.

Author

Marchesi S, Tognola G, and Paglialonga A

Subjects

Adult, Hearing physiology, Humans, Infant, Newborn, Signal Processing, Computer-Assisted, Cochlea physiology, Evoked Potentials, Auditory physiology, Nonlinear Dynamics, Otoacoustic Emissions, Spontaneous physiology, Sound Spectrography

Abstract

A new approach to study nonlinearity in cochlear active mechanisms, as evaluated in transient evoked otoacoustic emissions (TEOAEs), is presented. TEOAEs are signals generated in the cochlea by a mix of linear and nonlinear mechanisms. This new approach was designed to complement the traditional TEOAE analysis performed by currently available systems used in objective hearing screening and assessment. Nonlinearity of TEOAEs was studied by means of the bispectrum, which is able to find out quadratic frequency couplings (QFCs) that occur when a frequency is not only generated by an independent cochlear source, but it is the result of the interaction among a number of cochlear sources. To fit with the technical constraints of currently available TEOAE systems, the bispectrum was estimated by the third-order scaled polyperiodogram. The proposed method was characterized with synthesized TEOAEs as a function of the main TEOAE parameters and then used to analyze TEOAEs recorded in normal hearing adults and full-term neonates. Results revealed the presence of QFCs in both adult and neonatal TEOAEs, with peculiar patterns and significantly different frequency content in the two groups: adults had QFCs mainly around 2 kHz and neonates had QFCs mainly in the range 3.5-4 kHz.

Published

2013

37. Using the speech understanding in noise (SUN) test for adult hearing screening1.

Author

Paglialonga A, Grandori F, and Tognola G

Subjects

Acoustic Stimulation methods, Adolescent, Adult, Aged, Aged, 80 and over, Aging physiology, Audiometry, Pure-Tone, Audiometry, Speech methods, Humans, Middle Aged, Reproducibility of Results, Sensitivity and Specificity, Speech Perception physiology, Young Adult, Audiometry, Speech instrumentation, Hearing Loss diagnosis, Noise

Abstract

Purpose: To develop a novel speech-in-noise test for adult hearing screening-the Speech Understanding in Noise (SUN) test. The goal was to design a fast, automated, easy-to-use test to identify difficulties in speech communication., Method: The SUN test consists of a short list of intervocalic consonants in noise presented in a forced-choice paradigm by means of a touch screen. The SUN test was developed and evaluated in an overall population of >6,000 participants. The test is available in various languages (i.e., English, French, German, and Italian) and continues to be developed in others (e.g., Spanish, Portuguese, and Mandarin)., Results: Test time was <1 min/ear. Test-retest reliability was very good. The test showed good agreement with conventional clinical measures (e.g., pure-tone testing, speech-in-noise testing, and self-reported hearing handicap). The test's sensitivity and specificity to identify disabling hearing impairment were 84% and 75%, respectively. The same results were obtained in low and high ambient noise., Conclusion: The SUN test is fast, repeatable, easy to use, self-explanatory, specific to the impairment, and robust to ambient noise. It may be a viable approach for adult hearing screening in clinical as well as nonclinical settings.

Published

2013

38. Time-frequency analysis of transient-evoked otoacoustic emissions in children exposed to carboplatin chemotherapy.

Author

Bhagat S, Bass J, Qaddoumi I, Brennan R, Wilson M, Wu J, Galindo CR, Paglialonga A, and Tognola G

Subjects

Antineoplastic Agents administration & dosage, Antineoplastic Agents adverse effects, Audiometry, Pure-Tone, Auditory Threshold drug effects, Carboplatin administration & dosage, Child, Child, Preschool, Drug Monitoring methods, Female, Hearing Loss diagnosis, Humans, Infant, Infusions, Intravenous, Male, Reaction Time drug effects, Carboplatin adverse effects, Hearing Loss chemically induced, Otoacoustic Emissions, Spontaneous drug effects, Retinal Neoplasms drug therapy, Retinoblastoma drug therapy

Abstract

The aims of this study were to characterize and quantify time-frequency changes in transient-evoked otoacoustic emissions (TEOAEs) recorded in children diagnosed with retinoblastoma who were receiving carboplatin chemotherapy. A signal processing technique, the wavelet transform (WT), was used to analyze TEOAE waveforms in narrow-band frequency components. Ten children (aged 3-72 months) diagnosed with unilateral or bilateral retinoblastoma were enrolled in the study. TEOAEs were acquired from the children with linear sequences of 70 dB peak equivalent SPL clicks. After WT analysis, TEOAE energy, latency and normalized energy in the narrow-band frequency components were compared before and during carboplatin chemotherapy treatment (average dose 1693 mg/m2). On a group basis, no significant differences (p>0.05) in the TEOAE energy, latency or normalized energy before and after carboplatin treatment were observed. There were decreases in normalized energy on an individual basis in 10 out of 18 ears in the sample. Exposure to carboplatin chemotherapy did not cause significant changes in TEOAE energy, latency and normalized energy during treatment. However, long-term monitoring of hearing with measurements of TEOAEs is warranted, given the risks of delayed hearing loss in some children receiving carboplatin chemotherapy., (Copyright © 2012 S. Karger AG, Basel.)

Published

2013

39. Influence of tinnitus sound therapy signals on the intelligibility of speech.

Author

Paglialonga A, Fiocchi S, Parazzini M, Ravazzani P, and Tognola G

Subjects

Adaptation, Psychological, Adult, Data Interpretation, Statistical, Female, Humans, Male, Treatment Outcome, Young Adult, Acoustic Stimulation methods, Noise, Psychometrics, Speech Intelligibility physiology, Tinnitus therapy

Abstract

Objective: To assess the influence on speech intelligibility of various signals used in tinnitus sound therapy., Materials and Methods: We measured, in normal hearing subjects, the intelligibility of speech in the presence of three different sound therapy signals: wide-band noise, a recording of moving water, and a combination of tones., Results: For a given level of stimulation, speech intelligibility was worst in the presence of wide-band noise, compared with the other sound therapy signals. When the stimulation level of the three different signals was increased, speech intelligibility deteriorated more rapidly with wide-band noise, compared with the other two signals. The combination of tones had the least influence on speech intelligibility., Conclusion: The use of different tinnitus sound therapy signals can lead to significantly different effects on the intelligibility of speech. The use of natural sound recordings or combinations of tones may provide the patient with more flexibility to change the stimulation level during treatment.

Published

2011

40. Open ear hearing aids in tinnitus therapy: An efficacy comparison with sound generators.

Author

Parazzini M, Del Bo L, Jastreboff M, Tognola G, and Ravazzani P

Subjects

Adult, Analysis of Variance, Audiometry, Auditory Pathways physiopathology, Baltimore, Disability Evaluation, Equipment Design, Female, Hearing Loss diagnosis, Hearing Loss physiopathology, Humans, Italy, Male, Prospective Studies, Severity of Illness Index, Surveys and Questionnaires, Time Factors, Tinnitus diagnosis, Tinnitus physiopathology, Treatment Outcome, Acoustic Stimulation instrumentation, Correction of Hearing Impairment, Hearing Aids, Hearing Loss rehabilitation, Persons With Hearing Impairments rehabilitation, Sound, Tinnitus rehabilitation

Abstract

Objective: This study aimed to compare the effectiveness of tinnitus retraining therapy (TRT) with sound generators or with open ear hearing aids in the rehabilitation of tinnitus for a group of subjects who, according to Jastreboff categories, can be treated with both approaches to sound therapy (borderline of Category 1 and 2)., Design: This study was a prospective data collection with a parallel-group design which entailed that each subject was randomly assigned to one of the two treatments group: half of the subjects were fitted binaurally with sound generators, and the other half with open ear hearing aids. Both groups received the same educational counselling sessions., Study Sample: Ninety-one subjects passed the screening criteria and were enrolled into the study. Structured interviews, with a variety of measures evaluated through the use of visual-analog scales and the tinnitus handicap inventory self-administered questionnaire, were performed before the therapy and at 3, 6, and 12 months during the therapy., Results: Data showed a highly significant improvement in both tinnitus treatments starting from the first three months and up to one year of therapy, with a progressive and statistically significant decrease in the disability every three months., Conclusions: TRT was equally effective with sound generator or open ear hearing aids: they gave basically identical, statistically indistinguishable results.

Published

2011

41. Editorial.

Author

Tognola G

Published

2011

42. Functional evaluation and rehabilitation engineering.

Author

Aliverti A, Frigo C, Andreoni G, Baroni G, Bonarini A, Cerveri P, Crivellini M, Dellaca R, Ferrigno G, Galli M, Pedrocchi A, Rodano R, Santambrogio GC, Tognola G, and Pedotti A

Subjects

Adult, Child, Electromyography, Fiducial Markers, Gait, Humans, Motion, Neural Prostheses, Bioengineering methods, Computer-Aided Design, Rehabilitation methods, Task Performance and Analysis, Therapy, Computer-Assisted

Abstract

Life is complex and all about movement, which allows us to interact with the environment and communicate with each other. The human nervous system is capable of performing a simultaneous and integrated control of 100-150 mechanical degrees of freedom of movement in the body via tensions generated by about 700 muscles. In its widest context, movement is carried out by a sensory motor system comprising multiple sensors (visual,auditory, and proprioceptive),multiple actuators (muscles acting on the skeletal system),and an intermediary processor that can be summarized as a multiple-input–multiple-output nonlinear dynamic time-varying control system. This grand control system is capable of responding with remarkable accuracy,speed, appropriateness,versatility, and adaptability to a wide spectrum of continuous and discrete stimuli and conditions and is certainly orders of magnitude more complex and sophisticated than the most advanced robotic systems currently available. In the last decades,a great deal of research has been carried out in the fields of functional evaluation of human performance and rehabilitation engineering. These fields combine knowledge, concepts, and methods from across many disciplines (e.g., biomechanics,neuroscience, and physiology), with the aim of developing apparatuses and methods fort he measurement and analysis of complex sensory motor performance and the ultimate goal of enhancing the execution of different tasks in both healthy people and persons with reduced capabilities from different causes (injury, disease, amputation,and neural degeneration).

Published

2011

43. Pilot Initiatives of Adult Hearing Screening in Italy.

Author

Paglialonga A, Tognola G, and Grandori F

Abstract

A series of pilot initiatives of adult hearing screening programs were organized in eight large and small-size cities in Italy in the past two years. The screening initiatives were held in public places, supermarkets, drugstores, and in some universities of the third age, and involved an overall population of 2,278 screened subjects with age ranging from 13 to 93 years. Three different screening tests were used to assess hearing ability in the participants, i.e.: screening pure tone audiometry (PTA), an automated speech-in-noise screening test (the SUN-test), and a screening questionnaire of self-perceived hearing handicap (the HHIE-S). This paper describes the organization and management of these screening initiatives and reviews the main results obtained in the screened population, using the three different screening tests. Results obtained in these pilot initiatives showed that screening adults for hearing problems might be feasible, on a local level, in non clinical settings and can be performed quite easily with the support of local coordinators and partners, such as associations or local authorities. It is recognized that further initiatives and studies will have to be performed to better define the key aspects related to the organization and management of adult hearing screening programs, either at a local, regional, or national level.

Published

2011

44. SUN-test (Speech Understanding in Noise): A Method for Hearing Disability Screening.

Author

Paglialonga A, Tognola G, and Grandori F

Abstract

The SUN-test (Speech Understanding in Noise) is a speech-in-noise test to screen adults and older adults for hearing disability. The SUN-test consists in a short list of intervocalic consonants (VCV, vowel-consonant-vowel) in noise that are presented in a three-alternatives forced choice (3AFC) paradigm by means of a touch-screen interface. Based on the number of stimuli correctly identified, the tested subject gets one of three possible test outcomes: no listening difficulties, a hearing check would be advisable, or a hearing check is recommended. This paper reviews the main results obtained with the SUN-test in the Italian language in a population of nearly 1,300 adults and older adults with varying degrees of audiometric thresholds and audio-metric configurations, tested both in low and in high ambient noise settings. Results obtained in the tested population revealed that the outcomes of the SUN-test were in line with the outcomes of pure-tone testing, and that the test performance was similar both in low and in high ambient noise (up to 65 dB A). Results obtained with the SUN-test were not biased by the age of the subject because the performance of younger and older subjects in the test was similar. The mean duration of the SUN-test was nearly 40 s/ear, and was lower than 1 minute per ear even in subjects older than 80 years so that both ears could be tested, on average, in 2 minutes. The SUN-test was considered easy or slightly difficult by nearly 90% of subjects; test duration was judged short or fair by nearly 95% of subjects, and the overall evaluation of the test was pleasant, or neutral, in more than 90% of subjects. Overall, results of this study indicated that the SUN-test might be feasible for application in adult hearing screening. The test is fast, easy, self convincing, and reflects differences in hearing sensitivity between the tested subjects. The outcomes of the SUN-test were not influenced by the noise level in the test room (up to 65 dB A) indicating that the test, as such, might be feasible to screen adults and older adults both in clinical and in non clinical settings, such as convenient care clinics, hearing aid providers, or pharmacies, where the ambient noise is, typically, not controlled.

Published

2011

45. Quantitative analysis of cochlear active mechanisms in tinnitus subjects with normal hearing sensitivity: Time-frequency analysis of transient evoked otoacoustic emissions and contralateral suppression.

Author

Paglialonga A, Fiocchi S, Del Bo L, Ravazzani P, and Tognola G

Subjects

Acoustic Stimulation, Adult, Female, Hearing physiology, Humans, Male, Middle Aged, Reproducibility of Results, Young Adult, Cochlea physiopathology, Otoacoustic Emissions, Spontaneous physiology, Tinnitus physiopathology

Abstract

Objective: The aim of this study was to analyze the fine structure of transient evoked otoacoustic emissions (TEOAEs) and contralateral suppression effects in tinnitus subjects with normal hearing in order to assess whether a minor cochlear or efferent dysfunction, possibly limited in narrow cochlear regions, might play a role in tinnitus., Methods: TEOAEs were recorded, both in the absence and in the presence of contralateral acoustic stimulation, in 23 tinnitus patients with normal hearing sensitivity and in 31 non-tinnitus control subjects. The broad-band TEOAE recordings were analyzed by using an innovative algorithm and separated into a set of 33 narrow-band frequency components, that represent the different cochlear contributions to the whole TEOAE response. In each frequency component, three different parameters were analyzed and compared between tinnitus and non-tinnitus subjects, i.e., reproducibility, latency, and the suppression effects induced by contralateral acoustic stimulation., Results: Significantly lower reproducibility was observed in the frequency components of the tinnitus subjects compared to the controls, whereas no significant differences in latency and in suppression effects were observed between tinnitus and non-tinnitus ears., Conclusions: The analysis of the fine structure of TEOAEs revealed that the tinnitus subjects involved in this study might, possibly, have a minor dysfunction of the cochlear active mechanisms that resulted in frequency components with lower reproducibility. Conversely, the analysis of suppression effects in the narrow-band frequency components of TEOAE indicated that the subjects involved showed no relevant damage to the efferent regulatory mechanisms that control the cochlear activity, neither through the cochlea as a whole, nor in limited cochlear regions., (Copyright © 2010 Elsevier Ireland Ltd. All rights reserved.)

Published

2011

46. Cochlear active mechanisms in young normal-hearing subjects affected by Williams syndrome: time-frequency analysis of otoacoustic emissions.

Author

Paglialonga A, Barozzi S, Brambilla D, Soi D, Cesarani A, Gagliardi C, Comiotto E, Spreafico E, and Tognola G

Subjects

Acoustic Impedance Tests, Acoustic Stimulation, Adolescent, Analysis of Variance, Audiometry, Pure-Tone, Auditory Threshold, Case-Control Studies, Child, Female, Humans, Male, Phenotype, Reaction Time, Signal Processing, Computer-Assisted, Sound Spectrography, Time Factors, Young Adult, Cochlea physiopathology, Hearing, Otoacoustic Emissions, Spontaneous, Williams Syndrome physiopathology

Abstract

The aim of this study was to investigate the functionality of cochlear active mechanisms in normal-hearing subjects affected by Williams syndrome (WS). Transient evoked otoacoustic emissions (TEOAEs) were recorded in a group of young WS subjects and a group of typically developing control subjects, all having normal-hearing thresholds and normal middle-ear functionality. We also analysed the narrow-band frequency components of TEOAEs, extracted from the broad-band TEOAE recordings by using a time-frequency analysis algorithm based on the Wavelet transform. We observed that TEOAEs and the frequency components extracted from TEOAEs measured in WS subjects had significantly lower energy compared to the controls. Also, the narrow-band frequency components of TEOAEs measured in WS subjects had slightly increased latency compared to the controls. Overall, results would suggest a subtle (i.e., sub-clinical) dysfunction of the cochlear active mechanisms in WS subjects with otherwise normal hearing. Also, results point out the relevance of using otoacoustic emissions in the audiological evaluation and monitoring of WS subjects to early identify possible subtle auditory dysfunctions, before the onset of mild or moderate hearing loss that could exacerbate language or cognitive impairments associated with WS., (Copyright © 2010 Elsevier B.V. All rights reserved.)

Published

2011

47. Influence of compact disk recording protocols on reliability and comparability of speech audiometry outcomes: acoustic analysis.

Author

Di Berardino F, Tognola G, Paglialonga A, Alpini D, Grandori F, and Cesarani A

Subjects

Adult, Audiometry, Speech standards, Calibration, Female, Humans, Male, Reference Standards, Reproducibility of Results, Speech Reception Threshold Test methods, Speech Reception Threshold Test standards, Young Adult, Acoustics, Audiometry, Speech instrumentation, Compact Disks standards, Psychoacoustics, Tape Recording standards

Abstract

Objective: To assess whether different compact disk recording protocols, used to prepare speech test material, affect the reliability and comparability of speech audiometry testing., Material and Methods: We conducted acoustic analysis of compact disks used in clinical practice, to determine whether speech material had been recorded using similar procedures. To assess the impact of different recording procedures on speech test outcomes, normal hearing subjects were tested using differently prepared compact disks, and their psychometric curves compared., Results: Acoustic analysis revealed that speech material had been recorded using different protocols. The major difference was the gain between the levels at which the speech material and the calibration signal had been recorded. Although correct calibration of the audiometer was performed for each compact disk before testing, speech recognition thresholds and maximum intelligibility thresholds differed significantly between compact disks (p < 0.05), and were influenced by the gain between the recording level of the speech material and the calibration signal., Conclusion: To ensure the reliability and comparability of speech test outcomes obtained using different compact disks, it is recommended to check for possible differences in the recording gains used to prepare the compact disks, and then to compensate for any differences before testing.

Published

2010

48. Quantitative analysis of cochlear active mechanisms in tinnitus subjects with normal hearing sensitivity: multiparametric recording of evoked otoacoustic emissions and contralateral suppression.

Author

Paglialonga A, Del Bo L, Ravazzani P, and Tognola G

Subjects

Adult, Female, Hearing Loss, Sensorineural diagnosis, Humans, Male, Middle Aged, Young Adult, Cochlea pathology, Cochlea physiopathology, Evoked Potentials, Auditory physiology, Hearing Loss, Sensorineural etiology, Otoacoustic Emissions, Spontaneous physiology, Tinnitus complications, Tinnitus pathology, Tinnitus physiopathology

Abstract

Objective: Aim of this study was to investigate the possible role played by outer hair cells and cochlear efferent system functionality when tinnitus develops in normal hearing ears. A multiparametric approach was used, entailing recording and analysis of a set of otoacoustic emissions (OAEs): distortion product (DPOAEs), transient evoked (TEOAEs) and efferent-mediated TEOAE suppression in the presence of contralateral acoustic stimulation (CAS)., Methods: Fifty-four subjects with normal hearing sensitivity participated in the study. Twenty-three suffered from chronic subjective tinnitus whereas thirty-one did not have tinnitus and acted as control subjects. DPOAEs were measured with eliciting tones of frequency ratio 1.22 and intensity 65 and 55dB SPL in the frequency range 0.5-8kHz. TEOAEs were recorded with the 'linear' protocol using clicks at 60dB peak SPL both in the absence and in the presence of CAS at two different intensities. DPOAE amplitude, TEOAE amplitude, and TEOAE suppression were analysed as relevant parameters., Results: Significantly reduced DPOAE amplitude in the frequency range 1.5-8kHz, lower TEOAE amplitude, and slightly decreased TEOAE suppression were measured in tinnitus subjects compared to non-tinnitus controls. In particular, 74% of tinnitus subjects exhibited abnormal DPOAEs, 13% had abnormal TEOAEs, whereas abnormal TEOAE suppression was found in 9% of patients., Conclusion: Overall, the present work revealed the presence of abnormal OAEs, in particular at higher frequencies, in tinnitus subjects with normal hearing sensitivity. A minor (i.e., sub-clinical) outer hair cell dysfunction, particularly in high-frequency cochlear regions, might thus be assumed in normal hearing tinnitus subjects. In order to better put in light the possible role played by outer hair cells in low-frequency cochlear regions, or by the cochlear efferent system, additional analyses would be needed., (Copyright (c) 2009 Elsevier Ireland Ltd All rights reserved.)

Published

2010

49. Enhancement of neural stochastic firing in cochlear implant stimulation by the addition of noise: a computational study of the influence of stimulation settings and spontaneous activity.

Author

Paglialonga A, Fiocchi S, Ravazzani P, and Tognola G

Subjects

Computational Biology, Electric Stimulation, Humans, Stochastic Processes, Action Potentials physiology, Cochlear Implants, Cochlear Nerve physiology, Computer Simulation, Models, Neurological

Abstract

It is known that, in cochlear implants (CIs), the addition of noise to CI stimuli may enhance the stochastic firing in the auditory nerve (AN). The aim of this study was to investigate, by using a model of a fiber of the AN the influence of CI stimulation settings (i.e., stimulation rate and stimulus magnitude) and fiber spontaneous activity on the enhancement of stochastic firing when CI stimuli are combined with noise. Results showed that the stimulation rate had an effect on the enhancement of stochastic firing in the AN, whereas the stimulus magnitude and the spontaneous firing rate had no influence., (Copyright 2010 Elsevier Ltd. All rights reserved.)

Published

2010

50. Transient evoked otoacoustic emission latency and estimates of cochlear tuning in preterm neonates.

Author

Moleti A, Sisto R, Paglialonga A, Sibella F, Anteunis L, Parazzini M, and Tognola G

Subjects

Acoustic Stimulation, Audiometry, Evoked Response, Hair Cells, Auditory, Outer physiology, Humans, Infant, Newborn, Cochlea physiology, Evoked Potentials, Auditory physiology, Infant, Premature physiology, Otoacoustic Emissions, Spontaneous physiology, Reaction Time physiology

Abstract

The latency of transient evoked otoacoustic emissions has been evaluated in a sample of 58 ears from 34 preterm neonates, to understand if the estimates of cochlear tuning based on the otoacoustic emission latency show signs of developmental changes. A previous study on the same otoacoustic emissions analyzed here [Tognola et al. (2005). "Cochlear maturation and otoacoustic emissions in preterm infants: A time-frequency approach," Hear. Res., 199, 71-80] reported indeed a significant change in the otoacoustic emission latency with postconception age. This last result, which would imply a significant decrease of tuning, was partially biased by the presence of spontaneous emissions. In this study, the same neonate data are reanalyzed using a novel time-frequency algorithm, less sensitive to spontaneous emissions. Asymmetry between right and left ears has been found, with the left ears showing no significant change, whereas in the right ears and in the 1.5-2.5 kHz frequency range only, a slow decrease of latency with postconception age (0.1-0.2 ms/week) was observed. The correspondent tuning estimates based on latency decrease by 0.4-0.5/week. Significant differences between neonate and adult latency were confirmed, which could be either cochlear or middle ear in nature. These findings are compared to previous studies on distortion product suppression tuning curves in preterm neonates.

Published

2008