Presbyacusis

Kunelskaya, N. L.; Levina, Yu. V.; Garov, E. V.; Dzuina, A. V.; Ogorodnikov, D. S.; Nosulya, E. V.; Luchsheva, Yu.V.

doi:10.17116/otorino20198404167

Cited by 13 publications

(7 citation statements)

References 20 publications

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“…The incidence was 66% in people over 80 years old compared to the minimal affection in adolescents. 10 Although, this does not negate the presence of diseases within infants. People with Down syndrome have high liability to develop audiological manifestations, including Presbycusis, since they were born.…”

Section: Presbycusis and Sensorineural Hearing Lossmentioning

confidence: 99%

“…However, some environmental factors and social factors may influence the process of hearing loss. 10 The pathophysiology of hearing loss in Presbycusis is idiopathic to the moment. However, the current evidence supports that the overstimulation to the auditory system for long periods, especially when hereditary factors are present, is linked to the aging degeneration process.…”

Section: Presbycusis and Sensorineural Hearing Lossmentioning

confidence: 99%

“…However, the current evidence supports that the overstimulation to the auditory system for long periods, especially when hereditary factors are present, is linked to the aging degeneration process. 10 Presbycusis is significant in the older age group compared to young adults and children. The incidence was 66% in people over 80 years old compared to the minimal affection in adolescents.…”

Section: Presbycusis and Sensorineural Hearing Lossmentioning

confidence: 99%

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Screening for hearing loss in the setting of primary care, and the most common used tests

Turkistani

Arqan

Alkhaibry

et al. 2021

Int J Community Med Public Health

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Hearing loss is considered among the most common chronic disorders affecting people worldwide, especially older adults and geriatrics. More than half of older adults have age-related hearing loss, which worsens with age. The role of public health to estimate and manage the issue is crucial as early screening and management for hearing loss patients can be promising. The symptoms and signs of hearing loss can appear one up to two years before the significant hearing affection. Major lessons learned from this review are that elderly individuals and geriatrics are the most common targeted population for age-related hearing loss, followed by ear wax accumulation. Therefore, routine checkup for people who are 50 years for audiological disorders is a must. Associated disorders secondary to hearing loss include depression and anxiety, which significantly burden productivity over time. To our knowledge, we performed the first complex review regarding the screening for hearing loss within the setting of primary care centers and mentioned the most standard test used to diagnose and detect the issue as early as possible.

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Section: Presbycusis and Sensorineural Hearing Lossmentioning

confidence: 99%

Section: Presbycusis and Sensorineural Hearing Lossmentioning

confidence: 99%

Section: Presbycusis and Sensorineural Hearing Lossmentioning

confidence: 99%

See 1 more Smart Citation

Screening for hearing loss in the setting of primary care, and the most common used tests

Turkistani

Arqan

Alkhaibry

et al. 2021

Int J Community Med Public Health

View full text Add to dashboard Cite

show abstract

“…It can be divided into two categories: conductive hearing loss (CHL) and sensorineural hearing loss (SNHL). SNHL makes up 90% of the cases and can be caused by damage to any of the more than 20 inner ear cell types responsible for hearing [2][3][4]. As with all other tissues in the body, damage to the inner ear can be caused by genetic, infectious, inflammatory, toxic, or degenerative mechanisms.…”

Section: Introductionmentioning

confidence: 99%

A Window of Opportunity: Perilymph Sampling from the Round Window Membrane Can Advance Inner Ear Diagnostics and Therapeutics

Peter

Warnecke

Staecker

2022

JCM

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In the clinical setting, the pathophysiology of sensorineural hearing loss is poorly defined and there are currently no diagnostic tests available to differentiate between subtypes. This often leaves patients with generalized treatment options such as steroids, hearing aids, or cochlear implantation. The gold standard for localizing disease is direct biopsy or imaging of the affected tissue; however, the inaccessibility and fragility of the cochlea make these techniques difficult. Thus, the establishment of an indirect biopsy, a sampling of inner fluids, is needed to advance inner ear diagnostics and allow for the development of novel therapeutics for inner ear disease. A promising source is perilymph, an inner ear liquid that bathes multiple structures critical to sound transduction. Intraoperative perilymph sampling via the round window membrane of the cochlea has been successfully used to profile the proteome, metabolome, and transcriptome of the inner ear and is a potential source of biomarker discovery. Despite its potential to provide insight into inner ear pathologies, human perilymph sampling continues to be controversial and is currently performed only in conjunction with a planned procedure where the inner ear is opened. Here, we review the safety of procedures in which the inner ear is opened, highlight studies where perilymph analysis has advanced our knowledge of inner ear diseases, and finally propose that perilymph sampling could be done as a stand-alone procedure, thereby advancing our ability to accurately classify sensorineural hearing loss.

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“…Среди заболеваний в старшей возрастной группе особо следует рассматривать хроническую сенсоневральную тугоухость (ХСНТ), нарушения слуха в значительной степени отражаются на психоэмоциональном статусе пациентов пожилого и старческого возраста, нередко усугубляя прогрессирование когнитивного дефицита и течение ряда коморбидных заболеваний, часть из которых имеет причинно-следственную связь со снижением слуха [1][2][3]. Экспертами Всемирной организации здравоохранения (ВОЗ) среди заболеваний, которые в значительной степени связаны с потерей слуха, рассматриваются сердечно-сосудистые заболевания (ССЗ), инсульт и онкологические заболевания [4][5][6][7].…”

Section: Introductionunclassified

Quality of life and comorbid status in persons of the older age group with chronic sensorineural hearing loss

Vladimirova¹,

Martynova²

2020

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A study was conducted of 300 patients with chronic sensorineural hearing loss (SNHL) in four age groups, allocated according to the age classification of the World Health Organization (WHO). For patients of the older age group, a high comorbidity index is noted, while among concomitant diseases, chronic non-infectious diseases that are likely to affect hearing (arterial hypertension, cardiovascular disease (CVDs), diabetes mellitus) are more often observed with age. A direct correlation was found between diseases that probably affect the auditory function and quality of life (QoL) of patients. It was noted that the proportion of people with moderate and severe hearing impairment increases with age, while the total QoL indicator correlated with age (inverse correlation in the elderly, direct correlation in senile people and long-livers) and the degree of SNHL (inverse correlation). Self-assessment of QOL level by the physical component in patients of the older age group corresponded to the pre-critical level.

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Presbyacusis

Cited by 13 publications

References 20 publications

Screening for hearing loss in the setting of primary care, and the most common used tests

Screening for hearing loss in the setting of primary care, and the most common used tests

A Window of Opportunity: Perilymph Sampling from the Round Window Membrane Can Advance Inner Ear Diagnostics and Therapeutics

Quality of life and comorbid status in persons of the older age group with chronic sensorineural hearing loss

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