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1. Experimental Framework for Generating Reliable Ground Truth for Laryngeal Spatial Segmentation Tasks

Author

Ghasemzadeh, Hamzeh, Ford, David S., Powell, Maria E., and Deliyski, Dimitar D.

Subjects
Electrical Engineering and Systems Science - Image and Video Processing
Abstract

Objective: The validity of objective measures derived from high-speed videoendoscopy (HSV) depends, among other factors, on the validity of spatial segmentation. Evaluation of the validity of spatial segmentation requires the existence of reliable ground truths. This study presents a framework for creating reliable ground truth with sub-pixel resolution and then evaluates its performance. Method: The proposed framework is a three-stage process. First, three laryngeal imaging experts performed the spatial segmentation task. Second, regions with high discrepancies between experts were determined and then overlaid onto the segmentation outcomes of each expert. The marked HSV frames from each expert were randomly assigned to the two remaining experts, and they were tasked to make proper adjustments and modifications to the initial segmentation within disparity regions. Third, the outcomes of this reconciliation phase were analyzed again and regions with continued high discrepancies were identified and adjusted based on the consensus among the three experts. This three-stage framework was tested using a custom graphical user interface that allowed precise piece-wise linear segmentation of the vocal fold edges. Inter-rate reliability of segmentation was evaluated using 12 HSV recordings. 10% of the frames from each HSV file were randomly selected to assess the intra-rater reliability. Result and conclusion: The reliability of spatial segmentation progressively improved as it went through the three stages of the framework. The proposed framework generated highly reliable and valid ground truths for evaluating the validity of automated spatial segmentation methods.

Published
2024

2. Effects of Recording Condition and Number of Monitored Days on Discriminative Power of the Daily Phonotrauma Index

Author

Ghasemzadeh, Hamzeh, Hillman, Robert E., Van Stan, Jarrad H., and Mehta, Daryush D.

Subjects
Computer Science - Sound, Electrical Engineering and Systems Science - Audio and Speech Processing
Abstract

Objective: The Daily Phonotrauma Index (DPI) can quantify pathophysiological mechanisms associated with daily voice use in individuals with phonotraumatic vocal hyperfunction (PVH). Since DPI was developed based on week-long ambulatory voice monitoring, this study investigated if DPI can achieve comparable performance using (1) short laboratory speech tasks and (2) fewer than seven days of ambulatory data. Method: An ambulatory voice monitoring system recorded the vocal function/behavior of 134 females with PVH and vocally healthy matched controls in two different conditions. In the lab, the participants read the first paragraph of the Rainbow Passage and produced spontaneous speech (in-lab data). They were then monitored for seven days (in-field data). Separate DPI models were trained from in-lab and in-field data using the standard deviation of the difference between the magnitude of the first two harmonics (H1-H2) and the skewness of neck-surface acceleration magnitude. First, 10-fold cross-validation evaluated classification performance of in-lab and in-field DPIs. Second, the effect of the number of ambulatory monitoring days on the accuracy of in-field DPI classification was quantified. Results: The average in-lab DPI accuracy computed from the Rainbow passage and spontaneous speech were, respectively, 57.9% and 48.9%, which are close to chance performance. The average classification accuracy of in-field DPI was significantly higher with a very large effect size (73.4%, Cohens D = 1.8). Second, the average in-field DPI accuracy increased from 66.5% for one day to 75.0% for seven days, with the gain of including an additional day on accuracy dropping below 1 percentage point after 4 days., Comment: The paper is submitted to JSLHR

Published
2024

3. Toward Generalizable Machine Learning Models in Speech, Language, and Hearing Sciences: Estimating Sample Size and Reducing Overfitting

Author

Ghasemzadeh, Hamzeh, Hillman, Robert E., and Mehta, Daryush D.

Subjects
Computer Science - Machine Learning
Abstract

This study's first purpose is to provide quantitative evidence that would incentivize researchers to instead use the more robust method of nested cross-validation. The second purpose is to present methods and MATLAB codes for doing power analysis for ML-based analysis during the design of a study. Monte Carlo simulations were used to quantify the interactions between the employed cross-validation method, the discriminative power of features, the dimensionality of the feature space, and the dimensionality of the model. Four different cross-validations (single holdout, 10-fold, train-validation-test, and nested 10-fold) were compared based on the statistical power and statistical confidence of the ML models. Distributions of the null and alternative hypotheses were used to determine the minimum required sample size for obtaining a statistically significant outcome ({\alpha}=0.05, 1-\b{eta}=0.8). Statistical confidence of the model was defined as the probability of correct features being selected and hence being included in the final model. Our analysis showed that the model generated based on the single holdout method had very low statistical power and statistical confidence and that it significantly overestimated the accuracy. Conversely, the nested 10-fold cross-validation resulted in the highest statistical confidence and the highest statistical power, while providing an unbiased estimate of the accuracy. The required sample size with a single holdout could be 50% higher than what would be needed if nested cross-validation were used. Confidence in the model based on nested cross-validation was as much as four times higher than the confidence in the single holdout-based model. A computational model, MATLAB codes, and lookup tables are provided to assist researchers with estimating the sample size during the design of their future studies., Comment: Accepted at JSLHR

Published
2023
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8. Key management system for WSNs based on hash functions and elliptic curve cryptography

Author

Ghasemzadeh, Hamzeh, Payandeh, Ali, and Aref, Mohammad Reza

Subjects
Computer Science - Cryptography and Security
Abstract

Due to hostile environment and wireless communication channel, security mechanisms are essential for wireless sensor networks (WSNs). Existence of a pair of shared key is a prerequisite for many of these security mechanisms; a task that key management system addresses. Recently, an energy efficient method based on public key cryptography (PKC) was proposed. We analyze this protocol and show that it is vulnerable to denial of service (DOS) attacks and adversary can exhaust memory and battery of nodes. Then, we analyze this protocol and show that using a more knowledgeable BS this vulnerability can be solved very efficiently. Based on this observation we propose a modified version of the protocol that achieves immediate authentication and can prevent DOS attacks. We show that the improved protocol achieves immediate authentication at the expense of 1.82 mj extra energy consumption while retaining other desirable characteristics of the basic method., Comment: 9 pages, 7 figures, 5 tables, 2016 1st International Conference on New Research Achievements in Electrical and Computer Engineering

Published
2017

9. Calibrated Audio Steganalysis

Author

Ghasemzadeh, Hamzeh and Kayvanrad, Mohammad H.

Subjects
Computer Science - Multimedia
Abstract

Calibration is a common practice in image steganalysis for extracting prominent features. Based on the idea of reembedding, a new set of calibrated features for audio steganalysis applications are proposed. These features are extracted from a model that has maximum deviation from human auditory system and had been specifically designed for audio steganalysis. Ability of the proposed system is tested extensively. Simulations demonstrate that the proposed method can accurately detect the presence of hidden messages even in very low embedding rates. Proposed method achieves an accuracy of 99.3% (StegHide@0.76% BPB) which is 9.5% higher than the previous R-MFCC based steganalysis method., Comment: 7 pages, 4 figures, 3 tables, 2016 1st International Conference on New Research Achievements in Electrical and Computer Engineering, https://en.civilica.com/Paper-CBCONF01-CBCONF01_0107=Calibrated-Audio-Steganalysis.html

Published
2017

10. Multi-layer architecture for efficient steganalysis of Undermp3cover in multi-encoder scenario

Author

Ghasemzadeh, Hamzeh

Subjects
Computer Science - Cryptography and Security, Computer Science - Multimedia
Abstract

Mp3 is a very popular audio format and hence it can be a good host for carrying hidden messages. Therefore, different steganography methods have been proposed for mp3 hosts. But, current literature has only focused on steganalysis of mp3stego. In this paper we mention some of the limitations of mp3stego and argue that UnderMp3Cover (Ump3c) does not have those limitations. Ump3c makes subtle changes only to the global gain of bitstream and keeps the rest of bitstream intact. Therefore, its detection is much harder than mp3stego. To address this, joint distributions between global gain and other fields of mp3 bit stream are used. The changes are detected by measuring the mutual information from those joint distributions. Furthermore, we show that different mp3 encoders have dissimilar performances. Consequently, a novel multi-layer architecture for steganalysis of Ump3c is proposed. In this manner, the first layer detects the encoder and the second layer performs the steganalysis job. One of advantages of this architecture is that feature extraction and feature selection can be optimized for each encoder separately. We show this multi-layer architecture outperforms the conventional single-layer methods. Comparing results of the proposed method with other works shows an improvement of 20.4% in the accuracy of steganalysis., Comment: 9 pages, 7 tables, 6 figures, journal paper

Published
2017
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11. Calibrated steganalysis of mp3stego in multi-encoder scenario

Author

Ghasemzadeh, Hamzeh

Subjects
Computer Science - Cryptography and Security, Computer Science - Multimedia
Abstract

Comparing popularity of mp3 and wave with the amount of works published on each of them shows mp3 steganalysis has not found adequate attention. Furthermore, investigating existing works on mp3 steganalysis shows that a major factor has been overlooked. Experimenting with different mp3 encoders shows there are subtle differences in their outputs. This shows that mp3 standard has been implemented in dissimilar fashions, which in turn could degrade performance of steganalysis if it is not addressed properly. Additionally, calibration is a powerful technique which has not found its true potential for mp3 steganalysis. This paper tries to fill these gaps. First, we present our analysis on different encoders and show they can be classified quite accurately with only four features. Then, we propose a new set of calibrated features based on quantization step. To that end, we show quantization step is a band limited signal and steganography noise affects its high frequency components more prominently. By applying a low pass filter on quantization steps, we arrive at an estimation of quantization step, which in turn is used for calibrating the features., Comment: 8 pages, 4 Tables, 10 Figures, Submitted journal paper

Published
2017
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12. A Hybrid DOS-Tolerant PKC-Based Key Management System for WSNs

Author

Ghasemzadeh, Hamzeh, Payandeh, Ali, and Aref, Mohammad Reza

Subjects
Computer Science - Cryptography and Security
Abstract

Security is a critical and vital task in wireless sensor networks, therefore different key management systems have been proposed, many of which are based on symmetric cryptography. Such systems are very energy efficient, but they lack some other desirable characteristics. On the other hand, systems based on public key cryptography have those desirable characteristics, but they consume more energy. Recently based on authenticated messages from base station a new PKC based key agreement protocol was proposed. We show this method is susceptible to a form of denial of service attack where resources of the network can be exhausted with bogus messages. Then, we propose two different improvements to solve this vulnerability. Simulation results show that these new protocols retain desirable characteristics of the basic method and solve its deficiencies., Comment: Submitted journal paper

Published
2017

13. Jigsaw Cryptanalysis of Audio Scrambling Systems

Author

Ghasemzadeh, Hamzeh, Khass, Mehdi Tajik, and Mehrara, Hamed

Subjects
Computer Science - Cryptography and Security
Abstract

Recently it was shown that permutation-only multimedia ciphers can completely be broken in a chosen-plaintext scenario. Apparently, chosen-plaintext scenario models a very resourceful adversary and does not hold in many practical situations. To show that these ciphers are totally broken, we propose a cipher-text only attack on these ciphers. To that end, we investigate speech permutation-only ciphers and show that inherent redundancies of speech signal can pave the path for a successful cipher-text only attack. For this task different concepts and techniques are merged together. First, Short Time Fourier Transform (STFT) is employed to extract regularities of audio signal in both time and frequency. Then, it is shown that cipher-texts can be considered as a set of scrambled puzzles. Then different techniques such as estimation, image processing, branch and bound, and graph theory are fused together to create and solve these puzzles. After extracting the keys from the solved puzzles, they are applied on the scrambled signal. Conducted tests show that the proposed method achieves objective and subjective intelligibility of 87.8% and 92.9%. These scores are 50.9% and 34.6% higher than scores of previous method., Comment: Submitted journal paper

Published
2017

14. Comprehensive Review of Audio Steganalysis Methods

Author

Ghasemzadeh, Hamzeh and Kayvanrad, Mohammad H.

Subjects
Computer Science - Multimedia
Abstract

Recently, merging signal processing techniques with information security services has found a lot of attention. Steganography and steganalysis are among those trends. Like their counterparts in cryptology, steganography and steganalysis are in a constant battle. Steganography methods try to hide the presence of covert messages in innocuous-looking data, whereas steganalysis methods try to reveal existence of such messages and to break steganography methods. The stream nature of audio signals, their popularity, and their wide spread usage make them very suitable media for steganography. This has led to a very rich literature on both steganography and steganalysis of audio signals. This paper intends to conduct a comprehensive review of audio steganalysis methods aggregated over near fifteen years. Furthermore, we implement some of the most recent audio steganalysis methods and conduct a comparative analysis on their performances. Finally, the paper provides some possible directions for future researches on audio steganalysis., Comment: Submitted journal paper

Published
2017
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15. Universal Audio Steganalysis Based on Calibration and Reversed Frequency Resolution of Human Auditory System

Author

Ghasemzadeh, Hamzeh and Arjmandi, Meisam Khalil

Subjects
Computer Science - Multimedia
Abstract

Calibration and higher order statistics (HOS) are standard components of many image steganalysis systems. These techniques have not yet found adequate attention in audio steganalysis context. Specifically, most of current works are either non-calibrated or only based on noise removal approach. This paper aims to fill these gaps by proposing a new set of calibrated features based on re-embedding technique. Additionally, we show that least significant bit (LSB) is the most sensitive bit-plane to data hiding algorithms and therefore it can be employed as a universal embedding method. Furthermore, the proposed features are based on a model that has the maximum deviation from human auditory system (HAS), and therefore are more suitable for the purpose of steganalysis. Performance of the proposed method is evaluated on a wide range of data hiding algorithms in both targeted and universal paradigms. Simulation results show that the proposed method can detect the finest traces of data hiding algorithms and in very low embedding rates. The system detects steghide at capacity of 0.06 bit per symbol (BPS) with sensitivity of 98.6% (music) and 78.5% (speech). These figures are respectively 7.1% and 27.5% higher than state-of-the-art results based on RMFCC., Comment: Submitted journal paper

Published
2017
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21. Toward Generalizable Machine Learning Models in Speech, Language, and Hearing Sciences: Estimating Sample Size and Reducing Overfitting.

Author

Ghasemzadeh, Hamzeh, Hillman, Robert E., and Mehta, Daryush D.

Subjects
*ALLIED health education, *LANGUAGE & languages, *COMPUTER simulation, *SPEECH, *SPEECH therapy education, *SAMPLE size (Statistics), *PROBABILITY theory, *QUANTITATIVE research, *DESCRIPTIVE statistics, *SYSTEM analysis, *MACHINE learning, *HEARING, *COMPARATIVE studies
Abstract

Purpose: Many studies using machine learning (ML) in speech, language, and hearing sciences rely upon cross-validations with single data splitting. This study's first purpose is to provide quantitative evidence that would incentivize researchers to instead use the more robust data splitting method of nested k-fold cross-validation. The second purpose is to present methods and MATLAB code to perform power analysis for ML-based analysis during the design of a study. Method: First, the significant impact of different cross-validations on ML outcomes was demonstrated using real-world clinical data. Then, Monte Carlo simulations were used to quantify the interactions among the employed crossvalidation method, the discriminative power of features, the dimensionality of the feature space, the dimensionality of the model, and the sample size. Four different cross-validation methods (single holdout, 10-fold, train--validation--test, and nested 10-fold) were compared based on the statistical power and confidence of the resulting ML models. Distributions of the null and alternative hypotheses were used to determine the minimum required sample size for obtaining a statistically significant outcome (5% significance) with 80% power. Statistical confidence of the model was defined as the probability of correct features being selected for inclusion in the final model. Results: ML models generated based on the single holdout method had very low statistical power and confidence, leading to overestimation of classification accuracy. Conversely, the nested 10-fold cross-validation method resulted in the highest statistical confidence and power while also providing an unbiased estimate of accuracy. The required sample size using the single holdout method could be 50% higher than what would be needed if nested k-fold crossvalidation were used. Statistical confidence in the model based on nested k-fold cross-validation was as much as four times higher than the confidence obtained with the single holdout--based model. A computational model, MATLAB code, and lookup tables are provided to assist researchers with estimating the minimum sample size needed during study design. Conclusion: The adoption of nested k-fold cross-validation is critical for unbiased and robust ML studies in the speech, language, and hearing sciences. Supplemental Material: https://doi.org/10.23641/asha.25237045 [ABSTRACT FROM AUTHOR]

Published
2024
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22. Temporal and Spectral Models as Correlates to Auditory-Perceptual Judgments of Overall Severity and Listener Comfort in Tracheoesophageal Voice.

Author

Doyle, Philip C., Ghasemzadeh, Hamzeh, and Searl, Jeff

Subjects
ACOUSTIC models, SOCIAL impact, HUMAN voice, REGRESSION analysis, STATISTICAL correlation, AUTOMATIC speech recognition, LIQUID chromatography-mass spectrometry
Abstract

Introduction: This study pursued two objectives: (1) to determine the potential association between listener (n = 51) judgments of 20 male tracheoesophageal speaker samples for two auditory-perceptual dimensions of voice, overall severity (OS) and listener comfort (LC); and (2) to assess the temporal and spectral acoustic correlates for these auditory-perceptual dimensions. Methodology: Three separate correlation analyses were performed to evaluate the association between OS and LC. First, scores of OS and LC from all listeners were pooled together, and then the correlation between OS and LC was computed. Second, scores of OS and LC were averaged over all listeners to derive a single estimate of OS and LC for each TE speaker sample; the correlation between the average OS and LC was then computed. Third, listener-to-listener variability in the association between OS and LC was evaluated by computing the correlation between OS and LC scores from each listener across all TE samples. Finally, two stepwise multiple regression models were created to relate the average LC score to spectral and temporal variation in the acoustic signal. Results: While the pooled OS and LC scores had a moderate positive correlation (r = 0.66, p < 0.00001), the averaged OS and LC exhibited a near perfect positive correlation (r = 0.99, p < 0.00001). The significant differences between the pooled and averaged scores were explained by significant listener-to-listener variability in the association between OS and LC. OS and LC scores from 5 listeners had non-significant correlations, 10 had moderate correlations (r < 0.7), 35 listeners had high correlations (0.7 < r < 0.9), and 1 listener had a very high correlation (r < 0.9 < 1). Finally, the acoustic models created based on the spectral and temporal variations in the signal were able to account for 87.7% and 61.8% of variation in the average LC score. Conclusions: The strong correlations between OS and LC suggest that LC may, in fact, provide a more comprehensive auditory-perceptual surrogate for the voice quality of TE speakers. Although OS and LC are distinct conceptual dimensions, LC appears to have the advantage of assessing the social impact and potential communication disability that may exist in interactions between TE speakers and listeners. [ABSTRACT FROM AUTHOR]

Published
2024
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24. Image representation of the acoustic signal: An effective tool for modeling spectral and temporal dynamics of connected speech

Author

Ghasemzadeh, Hamzeh, Doyle, Philip C., and Searl, Jeff

Subjects
Speech Communication, Speech Production Measurement, Acoustics and Ultrasonics, Arts and Humanities (miscellaneous), Speech Perception, Speech, Acoustics, Speech Acoustics
Abstract

Recent studies have advocated for the use of connected speech in clinical voice and speech assessment. This suggestion is based on the presence of clinically relevant information within the onset, offset, and variation in connected speech. Existing works on connected speech utilize methods originally designed for analysis of sustained vowels and, hence, cannot properly quantify the transient behavior of connected speech. This study presents a non-parametric approach to analysis based on a two-dimensional, temporal-spectral representation of speech. Variations along horizontal and vertical axes corresponding to the temporal and spectral dynamics of speech were quantified using two statistical models. The first, a spectral model, was defined as the probability of changes between the energy of two consecutive frequency sub-bands at a fixed time segment. The second, a temporal model, was defined as the probability of changes in the energy of a sub-band between consecutive time segments. As the first step of demonstrating the efficacy and utility of the proposed method, a diagnostic framework was adopted in this study. Data obtained revealed that the proposed method has (at minimum) significant discriminatory power over the existing alternative approaches.

Published
2022

25. Detecting Mild Phonotrauma in Daily Life

Author

Van Stan, Jarrad H., primary, Burns, James, additional, Hron, Tiffiny, additional, Zeitels, Steven, additional, Panuganti, Bharat A., additional, Purnell, Phillip R., additional, Mehta, Daryush D., additional, Hillman, Robert E., additional, and Ghasemzadeh, Hamzeh, additional

Published
2023
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40. Optimum solution and evaluation of rectangular jigsaw puzzles based on branch and bound method and combinatorial accuracy.

Author

Arjmandi, Meisam K. and Ghasemzadeh, Hamzeh

Subjects
JIGSAW puzzles, BRANCH & bound algorithms, METAHEURISTIC algorithms, AMUSEMENTS, PATTERN perception
Abstract

Automatic solution of rectangular jigsaw puzzles can be broken down into two separate steps of calculating pairwise compatibility metrics and jigsaw assembling algorithm. This work discriminates between two different sources of errors, each corresponding to one of these two steps. In this regard, type I error is defined as the imperfection of the used compatibility metric, and type II error is reserved to measure the imperfection of jigsaw assembling algorithm. Differentiating between these two types of error allows us to tweak and optimize different parts of the algorithm to achieve the best performance. Based upon these defined terms, this study argues that current jigsaw assembling algorithms mainly rely on either greedy methods or metaheuristic algorithms, which may impose a considerable amount of type II error to the final solution. This paper demonstrates that a powerful and perfect (i.e., type II error-free) jigsaw assembling algorithm is achievable by combining branch and bound technique with graph theory. This perfect jigsaw assembling algorithm is then utilized to measure the performances of various compatibility metrics and color models. The superiority of red-green-blue (RGB) color model and Mahalanobis gradient compatibility (MGC) metric in solving rectangular jigsaw puzzles is shown by providing conclusive evidence. Additionally, a mean opinion score (MOS) test is conducted to examine the accuracy of the existing metrics. According to the results from MOS test, we argue that the existing performance criteria are not concise and accurate; thus, a new accuracy metric is proposed on the basis of comparing different sub-blocks of solutions. Finally, the efficiency of jigsaw assembling algorithm is measured by proposing a new performance criterion. [ABSTRACT FROM AUTHOR]

Published
2018
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41. Cipher Text Only Attack on Speech Time Scrambling Systems Using Correction of Audio Spectrogram.

Author

Ghasemzadeh, Hamzeh, Khasss, Mehdi Tajik, and Mehrara, Hamed

Subjects
CIPHER & telegraph codes, SPEECH scramblers, SPECTROGRAMS
Abstract

Recently permutation multimedia ciphers were broken in a chosen-plaintext scenario. That attack models a very resourceful adversary which may not always be the case. To show insecurity of these ciphers, we present a cipher-text only attack on speech permutation ciphers. We show inherent redundancies of speech can pave the path for a successful cipher-text only attack. To that end, regularities of speech are extracted in time and frequency using short time Fourier transform. We show that spectrograms of cipher-texts are in fact scrambled puzzles. Then, different techniques including estimation, image processing, and graph theory are fused together in order to create and solve these puzzles. Conducted tests show that the proposed method achieves accuracy of 87:8% and intelligibility of 92:9%. These scores are 50:9% and 34:6%, respectively, higher than scores of previous method. Finally a novel method, based on moving spectrogram distance, is proposed that can give accurate estimation of segment length of the scrambler system. [ABSTRACT FROM AUTHOR]

Published
2017

46. Vocal Fold Dissipated Power in Females with Hyperfunctional Voice Disorders.

Author

Ghasemzadeh H, Hillman RE, Espinoza VM, Erath BD, and Mehta DD

Abstract

Objective: Phonotrauma has been hypothesized to be associated with prolonged and/or accumulated biomechanical stress on vocal fold tissue. This hypothesis can be tested using ambulatory monitoring of vocal fold dissipated power, which requires a reliable method for its noninvasive estimation during the activity of daily living. The first aim of this study was to show that a laboratory-based estimate of vocal fold dissipated power computed from intraoral pressure (IOP) has significant discriminative power in individuals with phonotraumatic vocal hyperfunction (PVH). Considering that estimation of subglottal pressure from IOP is not practical for ambulatory applications, an alternative approach should be used. The second aim of this study was to test the impact of two alternative methods for the estimation of subglottal pressure on the discriminative power of vocal fold dissipated power in individuals with PVH and, hence, to provide an evidence-based recommendation for future ambulatory monitoring studies of vocal fold dissipated power., Method: Four groups of adult females were included in this study: 16 individuals with PVH, 16 individuals with nonphonotraumatic vocal hyperfunction (NPVH), and two groups of vocally typical controls matched to the participants in each patient group in terms of age and occupation. Each participant produced strings of five consecutive /pae/ syllables while wearing a pneumotachograph mask with an IOP tube. Neck-surface accelerometer and acoustic signals were recorded simultaneously using an ambulatory voice monitor and a head-mounted microphone, respectively. IOP was used to estimate subglottal pressure and subject-specific calibration factors were determined for the estimation of subglottal pressure from the accelerometer signal., Results: (1) Individuals with PVH had significantly higher dissipated power than controls (P = 0.001, Cohen's D=1.31) when the intraoral estimate of subglottal pressure was used in the computation of dissipated power. (2) The difference between the dissipated power of individuals with NPVH and their matched controls was not significant. (3) When microphone-based sound pressure levels was used for the estimation of subglottal pressure, the difference between individuals with PVH and their matched controls vanished (P = 0.23). (4) When subject-specific estimation of subglottal pressure from the accelerometer was used, the discriminative power returned with a very large effect size (P = 0.001, D=1.38)., Conclusion: Increased dissipated power is sensitive and specific to individuals with PVH among individuals with hyperfunctional voice disorders. The results provide evidence that accelerometer-based estimate of energy dissipation dose (power integrated over time) during daily life could be clinically useful., Competing Interests: Declaration of Competing Interest The authors declare the following financial interests/personal relationships which may be considered as potential competing interests: Robert Hillma reports a relationship with InnoVoyce LLC that includes: board membership. Daryush Mehta reports a relationship with InnoVoyce LLC that includes: consulting or advisory. If there are other authors, they declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper., (Copyright © 2024 The Voice Foundation. Published by Elsevier Inc. All rights reserved.)

Published
2024
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