Your search keyword '"Jerome Valero"' showing total 12 results

1. Improving prognostic accuracy in lung transplantation using unique features of isolated human lung radiographs

Author

Bonnie T. Chao, Andrew T. Sage, Micheal C. McInnis, Jun Ma, Micah Grubert Van Iderstine, Xuanzi Zhou, Jerome Valero, Marcelo Cypel, Mingyao Liu, Bo Wang, and Shaf Keshavjee

Subjects

Computer applications to medicine. Medical informatics, R858-859.7

Abstract

Abstract Ex vivo lung perfusion (EVLP) enables advanced assessment of human lungs for transplant suitability. We developed a convolutional neural network (CNN)-based approach to analyze the largest cohort of isolated lung radiographs to date. CNNs were trained to process 1300 longitudinal radiographs from n = 650 clinical EVLP cases. Latent features were transformed into principal components (PC) and correlated with known radiographic findings. PCs were combined with physiological data to classify clinical outcomes: (1) recipient time to extubation of

Published

2024

2. A machine-learning approach to human ex vivo lung perfusion predicts transplantation outcomes and promotes organ utilization

Author

Andrew T. Sage, Laura L. Donahoe, Alaa A. Shamandy, S. Hossein Mousavi, Bonnie T. Chao, Xuanzi Zhou, Jerome Valero, Sharaniyaa Balachandran, Aadil Ali, Tereza Martinu, George Tomlinson, Lorenzo Del Sorbo, Jonathan C. Yeung, Mingyao Liu, Marcelo Cypel, Bo Wang, and Shaf Keshavjee

Subjects

Science

Abstract

Abstract Ex vivo lung perfusion (EVLP) is a data-intensive platform used for the assessment of isolated lungs outside the body for transplantation; however, the integration of artificial intelligence to rapidly interpret the large constellation of clinical data generated during ex vivo assessment remains an unmet need. We developed a machine-learning model, termed InsighTx, to predict post-transplant outcomes using n = 725 EVLP cases. InsighTx model AUROC (area under the receiver operating characteristic curve) was 79 ± 3%, 75 ± 4%, and 85 ± 3% in training and independent test datasets, respectively. Excellent performance was observed in predicting unsuitable lungs for transplantation (AUROC: 90 ± 4%) and transplants with good outcomes (AUROC: 80 ± 4%). In a retrospective and blinded implementation study by EVLP specialists at our institution, InsighTx increased the likelihood of transplanting suitable donor lungs [odds ratio=13; 95% CI:4-45] and decreased the likelihood of transplanting unsuitable donor lungs [odds ratio=0.4; 95%CI:0.16–0.98]. Herein, we provide strong rationale for the adoption of machine-learning algorithms to optimize EVLP assessments and show that InsighTx could potentially lead to a safe increase in transplantation rates.

Published

2023

3. Predicting donor lung acceptance for transplant during ex vivo lung perfusion: The EX vivo lung PerfusIon pREdiction (EXPIRE)

Author

Lorenzo Del Sorbo, Marcelo Cypel, Matteo Di Nardo, Jonathan C. Yeung, R. Ghany, Mingyao Liu, Jerome Valero, Shaf Keshavjee, A.T. Sage, and Jin Ma

Subjects

Extracorporeal Circulation, medicine.medical_specialty, 030230 surgery, Pulmonary compliance, Logistic regression, 03 medical and health sciences, 0302 clinical medicine, Internal medicine, medicine, Humans, Immunology and Allergy, Pharmacology (medical), Lung volumes, Lung, Transplantation, business.industry, Ex vivo lung perfusion, Organ Preservation, Tissue Donors, Donor lungs, Perfusion, medicine.anatomical_structure, Cohort, Cardiology, business, Lung Transplantation

Abstract

Ex vivo lung perfusion (EVLP) has being increasingly used for the pretransplant assessment of extended-criteria donor lungs. Mathematical models to predict lung acceptance during EVLP have not been reported so far. Thus, we hypothesized that predictors of lung acceptance could be identified and used to develop a mathematical model describing the clinical decision-making process used in our institution. Donor lungs characteristics and EVLP physiologic parameters included in our EVLP registry were examined (derivation cohort). Multivariable logistic regression analysis was performed to identify predictors independently associated with lung acceptance. A mathematical model (EX vivo lung PerfusIon pREdiction [EXPIRE] model) for each hour of EVLP was developed and validated using a new cohort (validation cohort). Two hundred eighty donor lungs were assessed with EVLP. Of these, 186 (66%) were accepted for transplantation. ΔPO2 and static compliance/total lung capacity were identified as independent predictors of lung acceptance and their respective cut-off values were determined. The EXPIRE model showed a low discriminative power at the first hour of EVLP assessment (AUC: 0.69 [95% CI: 0.62-0.77]), which progressively improved up to the fourth hour (AUC: 0.87 [95% CI: 0.83-0.92]). In a validation cohort, the EXPIRE model demonstrated good discriminative power, peaking at the fourth hour (AUC: 0.85 [95% CI: 0.76-0.94]). The EXPIRE model may help to standardize lung assessment in centers using the Toronto EVLP technique and improve overall transplant rates.

Published

2021

4. Electrophysiologic and Behavioral Outcomes of Cochlear Implantation in Children With Auditory Nerve Hypoplasia

Author

Blake C. Papsin, Jerome Valero, Susan Blaser, Adrian L. James, and Karen A. Gordon

Subjects

Male, Auditory perception, medicine.medical_specialty, Speech perception, Adolescent, medicine.medical_treatment, Child Behavior, Deafness, Audiology, Language Development, Severity of Illness Index, Speech and Hearing, Cochlear implant, Evoked Potentials, Auditory, Brain Stem, Reaction Time, Vestibulocochlear Nerve Diseases, medicine, Humans, Treatment Failure, Child, Cochlear Nerve, business.industry, Cranial nerves, Infant, medicine.disease, Cochlear Implantation, Hypoplasia, Electrophysiology, Auditory brainstem response, Otorhinolaryngology, Child, Preschool, Speech Perception, Female, Brainstem, business, Child Language

Abstract

Objectives Hypoplasia of the auditory nerve (AN) refers to significant narrowing of the VIIIth cranial nerve which could compromise stimulation of the nerve by electrical pulses delivered from a cochlear implant (CI), thereby hindering activity in other parts of the auditory pathways. To compensate, high current levels or increased charge may be required to elicit auditory perception causing current to spread to other cranial nerves and potentially resulting in unwanted myogenic responses. Deficits in central auditory activity could reduce perception of speech and language. In the present study, we measured auditory brainstem responses in children with and without hypoplasia of the AN to answer the following questions. In children with hypoplastic ANs, (a) can CI stimulation evoke typical patterns of activity from the AN and brainstem?, (b) do brainstem responses change with CI experience?, (c) are evoked responses dependent on the size of the AN pathway?, and (d) does auditory development measured by behavioral tests of speech perception develop more slowly than in peers with normal AN diameter? Design Of 807 children using CIs in our program, 20 (2.5%) were identified as having AN hypoplasia using high-resolution computed tomographic scan and/or magnetic resonance imaging. An age-matched control group of children using CIs with normal AN diameter were recruited to compare electrophysiological and behavioral measures. Radiologic imaging was used to measure the diameter of the internal auditory canal (IAC), auditory nerve canal (ANC), and AN. Electrophysiological testing of the evoked compound action potential and auditory brainstem response was performed at CI activation and every 3 mo after initial testing up to 2 yr. Peak latency and waveform morphology were compared between study and control groups. Tests of speech perception and discrimination were attempted every 12 mo after device activation up to 10 yr. Results : Hypoplastic AN was identified as moderate to critical stenosis of the IAC, ANC, and AN. Initial electrically evoked compound action potential responses were mostly absent in children with AN hypoplasia. In the time window when electrically evoked auditory brainstem responses would be expected, some responses included single amplitude peaks at normal wave eV latencies, but the majority were abnormal, with peaks at atypical latencies or with no observable wave peaks. All evoked responses were inconsistent over time and did not reflect a typical pattern of auditory brainstem development. Speech perception scores were significantly poorer in the study group compared with controls and did not improve with CI experience. The type of abnormal evoked waveform response was independent of IAC, ANC, or AN diameter and also independent of behavioral outcome measures. Conclusions : Evoked responses recorded in CI children with AN hypoplasia indicate a high incidence of nonauditory activity with CI use. The range of abnormal responses was not predicted by the severity of the hypoplastic AN or associated structures. This, along with poorer auditory development compared with peers with normal AN diameters, suggests that children with hypoplasia of the AN are poor candidates for cochlear implantation.

Published

2012

5. Investigating the role of the superior colliculus in active vision with the visual search paradigm

Author

Gregory S. Day, Martin Paré, Kelly Shen, and Jerome Valero

Subjects

Visual search, Communication, genetic structures, business.industry, General Neuroscience, Superior colliculus, Posterior parietal cortex, Eye movement, eye diseases, Saccadic suppression of image displacement, Saccade, Feature (machine learning), business, Active vision, Psychology, Neuroscience

Abstract

We review here both the evidence that the functional visuomotor organization of the optic tectum is conserved in the primate superior colliculus (SC) and the evidence for the linking proposition that SC discriminating activity instantiates saccade target selection. We also present new data in response to questions that arose from recent SC visual search studies. First, we observed that SC discriminating activity predicts saccade initiation when monkeys perform an unconstrained search for a target defined by either a single visual feature or a conjunction of two features. Quantitative differences between the results in these two search tasks suggest, however, that SC discriminating activity does not only reflect saccade programming. This finding concurs with visual search studies conducted in posterior parietal cortex and the idea that, during natural active vision, visual attention is shifted concomitantly with saccade programming. Second, the analysis of a large neuronal sample recorded during feature search revealed that visual neurons in the superficial layers do possess discriminating activity. In addition, the hypotheses that there are distinct types of SC neurons in the deeper layers and that they are differently involved in saccade target selection were not substantiated. Third, we found that the discriminating quality of single-neuron activity substantially surpasses the ability of the monkeys to discriminate the target from distracters, raising the possibility that saccade target selection is a noisy process. We discuss these new findings in light of the visual search literature and the view that the SC is a visual salience map for orienting eye movements.

Published

2011

6. Effects of stimulus manipulation on electrophysiological responses of pediatric cochlear implant users. Part II: Rate effects

Author

Taryn Davids, Blake C. Papsin, Jerome Valero, Karen A. Gordon, and Robert V. Harrison

Subjects

Male, Pulse repetition frequency, medicine.medical_specialty, Time Factors, Adolescent, medicine.medical_treatment, Stimulation, Deafness, Audiology, Stimulus (physiology), Cochlear implant, Evoked Potentials, Auditory, Brain Stem, otorhinolaryngologic diseases, medicine, Humans, Child, Cochlear implantation, Neurons, Neural adaptation, Auditory Threshold, Cochlear Implantation, Electric Stimulation, Sensory Systems, Electrophysiology, Cochlear Implants, medicine.anatomical_structure, Child, Preschool, Female, Brainstem, Psychology

Abstract

Electrophysiological thresholds do not accurately predict behavioral thresholds in pediatric cochlear implant users possibly due to differences in rate and duration of pulse presentation. We asked: (1) Is there an effect of rate of stimulus presentation on the electrophysiological responses of the auditory brainstem and thalamo-cortex? and (2) can the relationship between electrophysiological and behavioral thresholds be improved by using the same rate of pulse presentation? Behavioral and electrophysiological (EABR and EMLR) responses were elicited for 14 children to single electrical pulses and pulse trains of 2ms ranging in rate from 500 to 3600 pulses per second (pps). Low rate (500pps) pulse trains resulted in an increase in EABR wave eIII amplitude and a decrease in wave eV amplitude. Further rate increases resulted in smaller EABR wave amplitudes. EMLR amplitudes were unaffected by increases in rate as were EABR and EMLR latencies. Behavioral thresholds decreased with increasing rate, however, there was no associated reduction in electrophysiological thresholds. Correlation between behavioral and electrophysiological thresholds did not improve by using the same rate of electrical pulse stimulation. Results suggest: (1) Higher rates of electrical pulse presentation increase the potential for neural adaptation in the auditory brainstem and (2) using the same rate of electrical pulse presentation does not improve the ability of EABR and EMLR thresholds to predict behavioral thresholds.

Published

2008

7. Effects of stimulus manipulation on electrophysiological responses in pediatric cochlear implant users. Part I: Duration effects

Author

Taryn Davids, Jerome Valero, Blake C. Papsin, Robert V. Harrison, and Karen A. Gordon

Subjects

Male, Neurons, Time Factors, Adolescent, Auditory Threshold, Deafness, Cochlear Implantation, Electric Stimulation, Sensory Systems, Electrophysiology, Cochlear Implants, Evoked Potentials, Auditory, Brain Stem, Humans, Female, Child

Abstract

Discrepancies between electrophysiological and behavioral thresholds in cochlear implant users might be due to differences in stimuli such as the duration and rate of the electrical pulse train. In the present study, we asked: Is there an effect of stimulus duration on electrophysiological responses of the auditory brainstem, thalamo-cortex, and behavioral thresholds? In 5 pediatric cochlear implant users, behavioral thresholds in response to electrical pulse trains at 500 pulses per second (pps) were significantly lower for 40ms than 2ms duration pulse trains. Clear electrically evoked auditory brainstem responses (EABR) and electrically evoked middle latency responses (EMLR) were generated by single electrical pulses and 2, 6, and 10ms pulse trains (500pps) in 5 children. There was a linear decrease in the inter-wave latency between the eV of the EABR and the Na of the EMLR as duration increased. No significant effect of duration was found on eV latency relative to the last pulse in the train or Na latency relative to the onset of the stimuli. Behavioral threshold data is consistent with temporal integration of auditory activity. Electrophysiological data indicates that: (a) recognizable EABR and EMLR waveforms can be recorded in response to electrical pulse trains of up to 10ms; and (b) pulse train stimuli have unique effects on the auditory brainstem compared to thalamo-cortical areas.

Published

2008

8. Abnormal Timing Delays in Auditory Brainstem Responses Evoked by Bilateral Cochlear Implant Use in Children

Author

Blake C. Papsin, Richard van Hoesel, Jerome Valero, and Karen A. Gordon

Subjects

Male, medicine.medical_specialty, medicine.medical_treatment, Audiology, Functional Laterality, Cochlear implant, Recruitment Detection, Audiologic, Evoked Potentials, Auditory, Brain Stem, otorhinolaryngologic diseases, Humans, Medicine, business.industry, Infant, Electric Stimulation, Sensory Systems, Electrophysiology, Cochlear Implants, Auditory brainstem response, Otorhinolaryngology, Child, Preschool, Female, Neurology (clinical), Implant, Brainstem, Cues, business, Binaural recording

Abstract

A period of unilateral implant use before bilateral implantation affects timing of brainstem processes measured by the electrically evoked auditory brainstem response (EABR).EABR latencies decrease with unilateral implant use potentially disrupting binaural timing cues important in auditory brainstem processing of bilateral input.EABRs were evoked by electrical pulses from the left, right, and both implants simultaneously in 3 groups of children. All were initially implanted at ages younger than 3 years and had the following: 1) a long delay (2 yr [n = 16]), 2) a short delay (1 yr [n = 15]), or 3) no delay (n = 15) between left and right ear implantation. Responses were recorded on the first day of bilateral implant use and 3 and 9 months thereafter.Relative to responses evoked in the experienced ear, the naive ear showed prolonged latency in both the EABR peaks and the binaural difference response. After 3 and 9 months of bilateral implant use, the relative prolongation decreased in the long and short delay groups, but significant differences persisted in the former. No clear differences in latencies evoked by the left versus right implant were found at any time point in children receiving bilateral implants simultaneously.Results suggest potential disruptions to binaural brainstem processing based on timing cues in children receiving a second cochlear implant after more than 2 years of unilateral implant use that persist through at least the first 9 months of bilateral implant use.

Published

2008

9. Binaural processing in children using bilateral cochlear implants

Author

Blake C. Papsin, Karen A. Gordon, and Jerome Valero

Subjects

Sound localization, medicine.medical_specialty, Time Factors, Hearing loss, medicine.medical_treatment, Deafness, Audiology, Functional Laterality, Cochlear implant, Evoked Potentials, Auditory, Brain Stem, Reaction Time, medicine, Humans, Sound Localization, Evoked potential, Child, General Neuroscience, Infant, Electrodes, Implanted, Electrophysiology, Cochlear Implants, Child, Preschool, Brainstem, Implant, medicine.symptom, Psychology, Binaural recording

Abstract

Binaural auditory brainstem processing was examined using evoked potential measures in 40 children who were implanted early and received a second implant simultaneously or after long or short periods of unilateral implant use. Wave latencies were shorter when evoked by the experienced versus naïve implanted ear at initial bilateral activation. Binaural difference waves were detected in most children in response to apical but not basal electrode stimulation and were prolonged in latency in children implanted after long or short delays between implants. Timing differences between the implanted ears in children receiving sequential but not simultaneous bilateral implants reflect a relative immaturity of pathways innervating the second ear and results in abnormal timing of binaural processing at this initial implant stage.

Published

2007

10. Investigating the role of the superior colliculus in active vision with the visual search paradigm

Author

Kelly, Shen, Jerome, Valero, Gregory S, Day, and Martin, Paré

Subjects

Neurons, Superior Colliculi, Eye Movements, Visual Perception, Animals, Haplorhini, Vision, Ocular

Abstract

We review here both the evidence that the functional visuomotor organization of the optic tectum is conserved in the primate superior colliculus (SC) and the evidence for the linking proposition that SC discriminating activity instantiates saccade target selection. We also present new data in response to questions that arose from recent SC visual search studies. First, we observed that SC discriminating activity predicts saccade initiation when monkeys perform an unconstrained search for a target defined by either a single visual feature or a conjunction of two features. Quantitative differences between the results in these two search tasks suggest, however, that SC discriminating activity does not only reflect saccade programming. This finding concurs with visual search studies conducted in posterior parietal cortex and the idea that, during natural active vision, visual attention is shifted concomitantly with saccade programming. Second, the analysis of a large neuronal sample recorded during feature search revealed that visual neurons in the superficial layers do possess discriminating activity. In addition, the hypotheses that there are distinct types of SC neurons in the deeper layers and that they are differently involved in saccade target selection were not substantiated. Third, we found that the discriminating quality of single-neuron activity substantially surpasses the ability of the monkeys to discriminate the target from distracters, raising the possibility that saccade target selection is a noisy process. We discuss these new findings in light of the visual search literature and the view that the SC is a visual salience map for orienting eye movements.

Published

2011

11. Lateralization of interimplant timing and level differences in children who use bilateral cochlear implants

Author

Karen A. Gordon, Jerome Valero, Blake C. Papsin, Daniel D. E. Wong, Richard van Hoesel, and Claire A. M. Salloum

Subjects

Sound localization, Auditory perception, medicine.medical_specialty, Time Factors, medicine.medical_treatment, Audiology, Stimulus (physiology), Deafness, Lateralization of brain function, Speech and Hearing, Hearing, Cochlear implant, medicine, Evoked Potentials, Auditory, Brain Stem, Humans, Sound Localization, Child, Ear, Electric Stimulation, Cochlear Implants, Otorhinolaryngology, Acoustic Stimulation, Child, Preschool, Laterality, Auditory Perception, Implant, Cues, Psychology, Binaural recording

Abstract

Objectives Interaural level differences (ILD) and interaural timing differences (ITD) are important cues for locating sounds in space. Adult bilateral cochlear implant (CI) users use ILDs more effectively than ITDs. Few studies investigated the ability of children who use bilateral CIs to make use of these binaural cues. Our working hypothesis was that children using bilateral CIs are able to perceive changes in ITDs and ILDs similar to their normal-hearing (NH) peers. Design Participants were two groups of children; 19 bilateral implant users (CI) and nine NH children. The children in the CI group had received a second CI after 4.9 +/- 2.8 yrs of unilateral use. Children performed a four alternative forced-choice lateralization task in which they were asked to describe stimuli as coming from the left side, right side, middle of the head, or from both sides simultaneously. Stimuli were 500 msec trains of electrical pulses delivered to apical electrode no. 18 (CI group) or clicks (NH group) presented 11 times per second with either ITDs (0, 400, 1000, or 2000 microsec delay between sides) or level differences (0, 10, or 20 Current Units (CI group) or 0, 10, or 20 dB (NH group) difference between sides). ITDs were presented using current levels that were balanced using left and right electrically evoked brain stem responses. Stimulus levels evoking response amplitudes that were most similar were used. Results Responses from children in the CI group changed significantly with changes in ILD of bilateral stimuli, but not with changes in ITD. Responses from children in the CI group were significantly different from those in the NH group in three ways. Children in the CI group perceived bilaterally presented electrical pulses: (1) to come from the second implanted side more often than the first, (2) to rarely come from the middle, and (3) to come from both sides of the head simultaneously. Perceived changes in lateralization with ILD changes were correlated with differences in amplitudes of electrically evoked brain stem responses by the left versus right CI. Conclusions The results of this study illustrate that children who use bilateral CIs can lateralize stimuli on the basis of level cues, but have difficulty interpreting interimplant timing differences. Perceived lateralization of bilaterally presented stimuli to the second implanted side in many of the stimulus conditions may relate to the use of different device generations between sides. Further differences from normal lateralization responses could be due to abnormal binaural processing, possibly resulting from a period of unilateral hearing before the provision of a second implant or due to insufficiently matched interimplant stimuli. It may be possible to use objective measures such as electrically evoked auditory brain stem responses wave eV amplitudes to provide balanced levels of bilateral stimulation in children who have had no binaural hearing experience.

Published

2010

12. Effect of increasing duration of stimulation on the electrically evoked auditory brainstem and middle latency responses in pediatric cochlear implant users

Author

Taryn, Davids, Jerome, Valero, Blake C, Papsin, Robert V, Harrison, and Karen A, Gordon

Subjects

Male, Analysis of Variance, Cochlear Implants, Time Factors, Adolescent, Evoked Potentials, Auditory, Brain Stem, Humans, Auditory Threshold, Female, Child, Electric Stimulation

Abstract

Electrophysiologic responses used to predict behavioural stimulation levels in implant users are typically evoked with a single-pulse stimulus versus higher-rate pulse trains of longer duration. Unfortunately, electrophysiologic measures tend to overestimate behavioural responses. It may be possible to improve the predictive ability of evoked potential thresholds by increasing the duration of the stimulus. We asked if auditory brainstem and middle latency responses can be reliably measured using electrical pulse trains of increasing duration.Evoked potential testing was performed in five pediatric N24RE cochlear implant users aged 7.6 to 14.9 years.Cochlear Implant Program, Cochlear Implant Laboratory, The Hospital for Sick Children, Toronto.Responses were electrically evoked for durations of 2, 6, and 10 milliseconds by single pulses and pulse trains of 500 pulses per second.Evoked auditory brainstem response (EABR) and evoked middle latency response (EMLR) waveform latencies and amplitudes were compared between durations.Clear and replicable EABRs and EMLRs were recorded for all durations. There was no significant change in EABR wave eV latency relative to the stimulus offset. There was no significant change in EMLR wave latencies relative to the stimulus onset. This was confirmed by a linear decrease in the interwave latency between the EABR wave eV and the EMLR wave eNa. No significant changes in wave amplitude were found as the pulse train duration increased for the EABR or the EMLR.EABRs are dominated by the stimulus offset, whereas EMLRs appear to be dominated by stimulus onset. Clear, unchanging EABRs and EMLRs indicated that electrophysiologic measures were a valid tool for increasing durations.

Published

2009