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NCT03429036
Background: Researchers want to learn more about head and neck disorders. Understanding these disorders could help them find better treatments. To do this, they are collecting tissue samples for research. Objective: To create a repository of tissue samples and data to better study conditions of the head and neck. Eligibility: People who had or will have tissue samples taken because of a head or neck disorder. They must be ages 3 and older and not pregnant to join Part 2. Design: Participants will be screened with a questionnaire, medical history, and physical exam. Part 1. Participants will give permission for any of their tissue samples leftover from private care or other research protocols to be used. If participants tissue did not contain normal tissue or if they have a condition that suggests a genetic issue, they will be invited to join Part 2. Part 2: Participants will have additional samples collected. These could be: * Blood: Blood is drawn through a needle in the arm. * Cheek swab or brushing: A cotton swab or small brush is rubbed inside the cheek. * Saliva: They rinse their mouth with water and spit into a tube or cup. * Skin biopsy: They are injected with a numbing drug. A biopsy tool removes a small piece of skin. * Mucosal biopsy: They are injected in the mouth with a numbing medication. A small piece of tissue from the inside of the cheek is removed. Participants samples will be used for future research, including genetic testing.
NCT05973669
MED-EL Remote Care is a way for MED-EL cochlear implant users to check their hearing and cochlear implant device from any location, without the need for a scheduled, in-person appointment with their audiologist. This study will assess the effectiveness, efficiencies, and useability of MED-EL Remote Care.
NCT07416292
ListenFuture, a nation-wide multidisciplinary project, brings new knowledge on complex associations between listening, cognition, language, literacy, and psychosocial wellbeing in deaf and hard-of-hearing (DHH) adolescents. Earlier findings indicate that DHH adolescents remain at a risk to achieving age-appropriate skills. The associations among these skills can also be language-dependent. The investigators use behavioral methods and questionnaires. The investigators study speech perception in noise, listening, and listening-related fatigue to reveal how DHH adolescents cope in today's noisy environment. The investigators study cognitive skills and executive functions, spoken language and literacy skills to find out the current state-of-knowledge. The investigators study psychosocial wellbeing, school burnout and factors associated with them. The investigators will utilize supervised and interpretable machine learning to analyse the performance domains that could best predict the outcomes of DHH adolescents. The investigators expect our project to have broad societal impact for DHH adolescents, healthcare, school, and other stakeholders.
NCT07402941
The goal of this clinical trial is to learn if short electrical signals can be heard in adult subjects who are otherwise having surgery on their ear. The main question it aims to answer is: Can an individual accurately hear different frequencies resulting from the short electrical signals?
NCT06058767
Children who are deaf or hard-of-hearing (D/HH) are at risk of speech and language delays, which can be mitigated through early identification and intervention. Identifying hearing loss (HL) during preschool is crucial, but the most effective hearing screening method for preschoolers remains uncertain. The purpose of this study is to learn whether, compared to the gold-standard two-stage Pure-tone audiometry (PTA) + otoacoustic emissions (OAE) screening (TS-PO), single-stage OAE (SS-O) screening alone is not inferior at identifying hearing loss when performed in a community-based preschool setting. This study holds the potential to improve early hearing loss detection and intervention among D/HH children, reducing the likelihood of speech and language delays. A diverse group of 13,764 preschool-age children across community-based preschool centers will be recruited. The intervention involves all subjects undergoing both PTA and OAE screening, with the order determined through randomization. Children who show potential hearing issues based on screening results or teacher concerns will receive further testing to determine the final hearing outcome. Group allocation will be post-hoc, based on their screening results. In addition to the primary objective, the study will compare other hearing screening measures and outcomes between the two methods (TS-PO and SS-O). This approach aims to reflect the real-life effectiveness of hearing screening in a diverse population. Ultimately, the study seeks to provide insights into an optimal hearing screening method that could prevent speech and language delays among D/HH children.
NCT00341874
Objective: One objective of this study is to genetically map and identify mutated genes for human hereditary hearing loss. A second objective is to study the function of these genes in the auditory system using mouse models. Human hereditary hearing impairment is the result of abnormal ear development, abnormal ear function or both. Although the genes for numerous deafness loci have been mapped and identified, there are still many families segregating deafness as a monogenic trait but a mutant allele can t be ascribed to one of the currently reported deafness genes . In order to map and identify novel mutated genes associated with hearing loss in humans, we will continue to ascertain large families segregating syndromic and nonsyndromic deafness as a monogenic trait. Study population: This study will ascertain subjects from consanguineous Pakistani families segregating hearing loss consisting of both nonsyndromic and syndromic forms of deafness of genetic etiology. Since a majority of Pakistani marriages are between first cousins, this tends to bring together the same recessive mutations for hearing loss with multiple affected individuals within single family lines, which is an advantage for this genetic study. A few years ago we stopped ascertaining families in India. We continue to ascertain both affected and unaffected Pakistani family members from age 2 years and up. Adults provide informed consent both for themselves and their children who agree to participate in this study. We will ascertain both genders and all Pakistani races and ethnicities. Design: Subjects will be screened and consented by our collaborating Associate Investigator in Pakistan. After consenting, the subjects will undergo a history and physical, audiological assessment and testing, vestibular assessment and testing, and blood and urine analysis tests, along with a blood sample or buccal swab sample that will be used for genomic DNA extraction. Probands at the time of ascertainment are initially assumed to have a form of nonsyndromic deafness. Additional tests may be performed depending on the history or physical of the individual or after the deafness gene is identified. Data from functional studies in animal models may also point to other concomitant clinical features along with hearing loss. These additional tests may include: photographs or videotapes of a subject s body and face; eye and vision examinations for those with suspected or known eyesight problems related to their genetic hearing loss mutations, and EKGs and/or Echocardiograms for those with suspected or known heart problems related to their genetic hearing loss mutations. Urine and blood analyses may be requested for those individuals with genetic nephritic issues or infertility. For example, when a deaf female individual in a family is subsequently discovered to have Perrault syndrome, a recessive disorder characterized by hearing loss (usually the initial manifestation) and ovarian dysgenesis/primary amenorrhea, additional evaluations would then be conducted for a definitive diagnosis of Perrault syndrome. Such an evaluation would include a pelvic ultrasound scan and measurements of serum estrogen and gonadotropins. Similarly, in some of these families, hearing impaired males may be asked about their fertility since the possibility of male infertility in families segregating Perrault syndrome remains an open question. For genetic analyses, genomic DNA extracted from a blood sample or a buccal swab from affected and unaffected members of families segregating hereditary hearing loss will be genetically screened with polymorphic markers (STRs or SNPs) for linkage to the known deafness loci. The hearing phenotype of children (\>2 years old), adolescent and adult subjects will be assigned on the basis of performance from audiological examinations. Genomic DNA from families where deafness is found to be unlinked to the known deafness loci will then be used in genome wide screens with approximately 950,000 SNP markers distributed across the entire human genome to identify novel deafness loci. Alternatively, DNA samples from affected and unaffected individuals will undergo whole exome sequencing (WES) or whole genome sequencing (WGS) with a focus on potentially pathogenic variants located only in chromosomal regions of markers genetically linked to deafness. Subsequently, novel deafness genes will be positionally identified and their functions studied. Outcome measures: Novel deafness loci and genes associated with hearing loss will be identified and will provide new insight into mechanisms required for sound transduction in humans. Data from this study is likely to be the basis of commercially available tests for early diagnosis and timely genetic counseling for at risk couples as well as the development of strategies to preserve hearing and prevent hearing loss.
NCT07304024
The goal of this clinical trial is to determine the efficacy of Clemastine Fumarate in the presence of engineered sound to treat age-related central auditory processing disorder (CAPD). This disorder impacts 800M patients worldwide, including \~1/3 people over 40 years of age and \~1/2 people over 65, resulting in an inability to hear in noisy environments. The primary hypothesis this study aims to test is: engineered sound, driving localized neural circuit activity, will enable Clemastine Fumarate to mature Oligodendrocyte cells and thus remyelinate these activated neural circuits. This Localized Oligodendrocyte Optimization Therapy (LOOT) was highly effective in preclinical animal studies so this clinical trial aims to answer if this therapy will translate to humans. The study is an adaptive design intended to compare the efficacy of the drug in the presence or absence of the engineered sound for improving hearing in noise ability. Trial participants will be tested for hearing thresholds and ability to isolate a sound signal from background noise. If they meet the inclusion criteria, they will be enrolled into one of the four arms of the study and undergo the proposed one-month treatment (drug and sound or respective placebos). After the treatment period, trial participants will be tested again for hearing thresholds and their ability to isolate s sound source of interest from background noise. The hypothesis to be tested in this clinical trial is that the one-month treatment will significantly improve the participant's ability to isolate a sound source of interest from background noise. The design has four arms, drug+sound, placebo+sound, drug+white noise, and placebo+white noise. Based on our preclinical data, control arms are all expected to show identical results, thus our adaptive design includes interim analyses to allow for dropping of two of the three placebo arms should the preclinical results be replicated as anticipated. We will also monitor each participant's general health during the duration of the clinical trial, which will be done by performing a number of blood tests, an EKG and a general physical before and after the one-month treatment period. We expect no significant changes since participants will take the drug for the one-month period at dosages already demonstrated safe in several Phase II studies of multiple sclerosis. Similarly, the engineered sound will be listened to for one hour per day during this month at sound intensities well below threshold that might cause noise-induced hearing damage.
NCT06303180
Background: Many disorders of the head and neck can affect a person s hearing; balance; smell; taste; swallowing; voice; or speech. These disorders include cancers and genetic and inflammatory diseases. To find better ways to diagnose and treat these disorders, researchers need to study tissues and other biological samples from people who have them. Objective: To collect biological samples for a repository that will be used for research. Eligibility: People of any age with a disorder of the head and neck that requires the taking of biological samples. The conditions may be any that affect hearing; balance; smell; taste; swallowing; voice; or speech. Design: Part 1: Participants will give permission for their leftover tissue samples to be used for research. These are tissue samples from the head and neck that were collected in the course of routine tests and care or other research studies. Information on each participant s age, diagnosis, and previous treatments will also be collected. Part 2: Some participants may be asked for more samples. All those aged 3 years or older will have a physical exam. They will provide blood and saliva samples. A cotton swab or brush will be used to collect cells from the inside of the cheek. Participants 18 years or older may have additional tests. They may provide nasal secretions: A piece of gelfoam or a sponge will be placed in the nose to soak up secretions for 5 to 10 minutes. They may have biopsies: Small samples of tissue will be cut from the skin and the tissue lining the mouth. Samples may be used for genetic testing.
NCT07199972
COVID-19 is a respiratory disease caused by the coronavirus SARS-CoV-2, for which the first cases were reported in China, by December 2019. Previous studies reported cases of tinnitus following COVID infection, most of them mild and with similar characteristics to other forms of tinnitus. Our aim is to further explore the relationship between COVID-19 and tinnitus. For this purpose we analyzed people in the city of Volta Redonda, Brazil after a COVID-19 infection. In detail we compared those with new onset tinnitus during or after COVID-19 with those without tinnitus and those with tinnitus onset before the COVID-19 infection. Moreover we analyzed the prevalence of post-COVID tinnitus along the pandemic timeline, from 2020 to 2024.
NCT02189798
The purpose of this feasibility study is to evaluate whether low-frequency acoustic hearing sensitivity can be preserved in newly implanted adults with partial deafness (considerable low frequency acoustic hearing profiles with severe-to-profound high frequency sensorineural hearing loss) using the HiResolution™ 90K™ Advantage cochlear implant with the HiFocus™ Mid-Scala electrode to support the development of electro-acoustic stimulation technology (EAS).
NCT06164483
The study will analyze the auditory functions of patients with Multiple Sclerosis using auditory tests like pure tone auditory test, speech perception test, Auditory Brain Response (ABR) and Distortion Product Otoacustic Emission (DPOAE). CSF will be collected by lumbar puncture and analyzed looking for inflammatory markers. The results of DPOAE and CSF will be correlated to identify statistically significant correlation.
NCT04198909
Acoustic overexposure can induced temporary or hearing loss. Usually hearing loss is associated with cochlear cell damages. Recently, a new pathological entity was described and called "hidden hearing loss". In animal model, the histopathology revealed a selective reduction in the number of auditory fibers, resulting in a decrease in the amplitude of wave I of the auditory brainstem response. Electrocochleography (Ecog) is a method for recording the electrical potentials of the cochlea (e.g. wave I). In clinical routine, Ecog is performed invasively with sedation or local anesthesia. Actually, a non invasive approach could be perform but it seems necessary to optimize this method and to define reference values in healthy volunteers.
NCT05245799
The purpose of this study is to evaluate if the effects of in-person speech-language therapy with a novel digital storybook intervention platform (Hear Me Read) improves vocabulary, speech and language, and literacy outcomes in young children who are deaf or hard of hearing compared with in-person therapy alone.
NCT05467059
The proposed research is a non-interventional study made to evaluate different measurements on 1 group of participants, before and after taking a nap, aiming to potentially guide future investigations on nap-modulated tinnitus to better understand this phenomenon. The main hypothesis is that sleep apneas could be correlated with an increase of tinnitus intensity.
NCT05728203
1. Early detection of hearing affection in call center operators 2. Study the effect of this type of noise on the auditory brainstem response.
NCT04237207
This is a prospective within-subjects repeated-measures study that will enroll 24 adult users implanted with a HiResolution Bionic Ear System (HiRes 90K or newer). Subjects will be assigned to one of two cohorts based on audiometric results at the Baseline visit
NCT05189587
The investigators applied home-based transcranial electrical stimulation (TES) for neuromodulative treatment in patients with intractable chronic tinnitus.
NCT03847753
Mental disorders have been shown to be associated with a number of general medical conditions (also referred to as somatic or physical conditions). The investigators aim to undertake a comprehensive study of comorbidity among those with treated mental disorders, by using high-quality Danish registers to provide age- and sex-specific pairwise estimates between the ten groups of mental disorders and nine groups of general medical conditions. The investigators will examine the association between all 90 possible pairs of prior mental disorders and later GMC categories using the Danish national registers. Depending on whether individuals are diagnosed with a specific mental disorder, the investigators will estimate the risk of receiving a later diagnosis within a specific GMC category, between the start of follow-up (January 1, 2000) or at the earliest age at which a person might develop the mental disorder, whichever comes later. Follow-up will be terminated at onset of the GMC, death, emigration from Denmark, or December 31, 2016, whichever came first. Additionally for dyslipidemia, follow-up will be ended if a diagnosis of ischemic heart disease was received. A "wash-out" period will be employed in the five years before follow-up started (1995-1999), to identify and exclude prevalent cases from the analysis. Individuals with the GMC of interest before the observation period will be considered prevalent cases and excluded from the analyses (i.e. prevalent cases were "washed-out"). When estimating the risk of a specific GMC, the investigators will consider all individuals to be exposed or unexposed to the each mental disorder depending on whether a diagnosis is received before the end of follow-up. Persons will be considered unexposed to a mental disorder until the date of the first diagnosis, and exposed thereafter.
NCT02684175
The objective of this study is to compare remote and in-person audiological cochlear implant candidacy evaluations (including audiological (hearing) testing and counseling sessions) in a rural Appalachian region.
NCT04155138
The rationale is to determine (in individuals with limited perceived bimodal benefit) whether the CROS device may be a better solution for obtaining two-sided input. If yes, this study would be practice-changing.