Materiały źródłowe

• #1 The Epidemiology of Deafness

  https://pmc.ncbi.nlm.nih.gov/articles/PMC6719589/

  Hearing loss is the most common sensory deficit worldwide. It affects 5% of the world population, impacts people of all ages, and exacts a significant personal and societal cost. This review presents epidemiological data on hearing loss. […] There is significant disparity in rates of hearing loss between developed nations and developing nations. […] Approximately half of hearing loss cases have a genetic etiology. Genetic hearing loss accounts for at least 50%60% of childhood hearing loss cases in developed countries. […] Hearing loss is a major worldwide public health concern and in 2015 ranked as the fourth leading cause of years lived with disability. It affects approximately one-third of people over 65 years old and is disabling in 5% of the world population. […] Approximately two-thirds of people with hearing loss live in developing countries.

• #2

  https://www.who.int/health-topics/hearing-loss

  A person is said to have hearing loss if they are not able to hear as well as someone with normal hearing, meaning hearing thresholds of 20 dB or better in both ears. Major causes of hearing loss include congenital or early onset childhood hearing loss, chronic middle ear infections, noise-induced hearing loss, age-related hearing loss, and ototoxic drugs that damage the inner ear. […] Deafness and hearing loss are widespread and found in every region and country. Currently more than 1.5 billion people (nearly 20% of the global population) live with hearing loss; 430 million of them have disabling hearing loss. It is expected that by 2050, there could be over 700 million people with disabling hearing loss. […] Globally, 34 million children have deafness or hearing loss, of which 60% of cases are due to preventable causes. At the other end of the lifespan, approximately 30% of people over 60 years of age have hearing loss.

• #3

  https://www.who.int/news-room/fact-sheets/detail/deafness-and-hearing-loss

  By 2050, nearly 2.5 billion people are projected to have some degree of hearing loss, and more than 700 million will require hearing rehabilitation. […] Over 5% of the worlds population or 430 million people require rehabilitation to address their disabling hearing loss (including 34 million children). It is estimated that by 2050 over 700 million people or 1 in every 10 people will have disabling hearing loss. […] The prevalence of hearing loss increases with age, among those older than 60 years, over 25% are affected by disabling hearing loss. […] Many of the causes that lead to hearing loss can be avoided through public health strategies and clinical interventions implemented across the life course. […] In children, nearly 60% of hearing loss is due to avoidable causes that can be prevented through implementation of public health measures.

• #4

  https://sciety.org/articles/activity/10.21203/rs.3.rs-6161836/v1

  Background: Age-related hearing loss (ARHL) is a prevalent progressive hearing loss that can lead to emotional impairment and cognitive decline in older adults. […] The aim of this study was to investigate the epidemiologic characteristics of ARHL from 1990 to 2021. […] Prevalence and disability-adjusted life years (DALYs) for ARHL were obtained from the Global Burden of Disease (GBD) 2021. […] In 2021, there will be more than 700 million cases of ARHL globally, increasing by 137.43% from 300 million cases in 1990. […] The age-standardized rate (ASR) has also increased, with an estimated annual percentage change of 16%. […] Notably, as of the latest data, 204 countries and 21 regions globally still have significant health inequalities, although the slope index of inequality has declined over time.

• #5 Hearing Loss | Welch Center for Prevention, Epidemiology and Clinical Research

  https://publichealth.jhu.edu/welch-center-for-prevention-epidemiology-and-clinical-research/our-research/research-areas/hearing-loss

  The prevalence of hearing loss in the US has increased from 13 to 24 million in the past 30 years. […] Disabling hearing loss affects almost 25 percent of those aged 65 to 74 years and half of those 75 and older. […] In the Welch Center, we mentor trainees at all levels and are committed to preparing future leaders in epidemiology of conditions such as hearing loss.

• #6

  https://www.who.int/health-topics/hearing-loss

  Low- and middle-income countries bear a disproportionate burden from hearing loss. WHO estimates that global hearing aid production covers just 3% of the need in these countries. […] WHO estimates that 50% of hearing loss can be prevented through public health measures. Some prevention strategies target individual lifestyle choices such as exposure to loud sounds and music or wearing protective equipment such as earplugs. […] Hearing loss and deafness can also occur as a complication of other diseases such as measles, meningitis, rubella and mumps. Work to prevent these diseases through vaccination and hygiene programs can have a beneficial impact on rates of hearing loss and deafness.

• #7 Prevalence of hearing loss and factors associated with hearing loss in Ethiopia: findings from the 2023 National Ethiopia Hearing Survey | BMJ Open

  https://bmjopen.bmj.com/content/15/1/e086288

  Objectives To assess the prevalence and associated factors of hearing loss in Ethiopia, considering socioeconomic conditions, regional variations and age-related impacts. […] The overall prevalence of hearing loss among individuals aged 5+ years was 18.4%. The prevalence was 8.1% among children aged 5-14 years and 73.7% among adults aged 60+ years. […] Hearing loss is highly prevalent in Ethiopia, influenced by both modifiable and non-modifiable factors. Regional disparities in hearing loss suggest a need for targeted interventions. Evidence-based policies and strategies are essential to reduce ear diseases, improve hearing care services, and address disparities in hearing health across regions. […] The burden of hearing loss is particularly high in Africa, especially among the paediatric population.

• #8 Prevalence of hearing loss and factors associated with hearing loss in Ethiopia: findings from the 2023 National Ethiopia Hearing Survey | BMJ Open

  https://bmjopen.bmj.com/content/15/1/e086288

  WHO has estimated that the prevalence of disabling hearing impairment (defined as hearing loss (HL) of 35 dB or more) in adults aged 15 years and older is 15.7% in sub-Saharan Africa, compared with 4.9% in high-income countries. […] Even though there was no previous national hearing loss survey in Ethiopia, different studies have indicated that there is a high prevalence of hearing loss, especially in children in the country. […] This study aims to bridge this research gap by determining the prevalence of hearing loss and various factors influencing the prevalence of hearing loss in Ethiopia. […] The findings revealed significant variations of hearing loss across different regions. […] This finding indicates that the prevalence of hearing loss in Ethiopia is higher due to factors such as wax impaction, age, ear discharge, education level, geographical variation and lack of formal education.

• #9 Prevalence of hearing loss among patients attending the private otolaryngology clinic, Ramadi city, Anbar, Iraq | The Egyptian Journal of Otolaryngology | Full Text

  https://ejo.springeropen.com/articles/10.1186/s43163-024-00636-y

  The global prevalence of hearing loss (20 dB) is 19.3%, the highest in Western Pacific Region (21.5%) and the lowest (14.3%) in European region. […] The present study reported a prevalence of hearing impairment of 25.48% which was higher than the previous study from Germany. […] The vast majority of the cases in our investigation were of conductive type and of mild severity. This finding was consistent with other studies. […] Hearing impairment has a great burden on any population which necessitates certain action like newborn hearing screening program, proper treatment of different types of otitis media and meningitis, and early rehabilitation with hearing aids or cochlear implants to reduce the effect of this burden. […] Owing to the significance of hearing loss on the community as well as there is no population-based survey study in Iraq, such study at national level is highly recommended to inform the decision-makers taking appropriate solution to occupy this problem.

• #10

  https://journals.lww.com/ear-hearing/fulltext/2024/01000/hearing_loss_prevalence,_years_lived_with.24.aspx

  An estimated 72.88 million (95% uncertainty interval (UI) 68.53 to 77.30) people in the United States had hearing loss in 2019, accounting for 22.2% (20.9 to 23.6) of the total population. Hearing loss was responsible for 2.24 million (1.56 to 3.11) YLDs (3.6% (2.8 to 4.7) of total US YLDs). Age-standardized prevalence was higher in males (17.7% [16.7 to 18.8]) compared with females (11.9%, [11.2 to 12.5]). […] The all-age prevalence of hearing loss in the United States was 28.1% (25.7 to 30.8) higher in 2019 than in 1990, despite stable age-standardized prevalence. An estimated 9.7% (8.6 to 11.0) of individuals with mild to profound hearing loss utilized a hearing aid, while 32.5% (31.9 to 33.2) of individuals with hearing loss experienced tinnitus. Occupational noise exposure was responsible for 11.2% (10.2 to 12.4) of hearing loss YLDs.

• #11 Quick Statistics About Hearing, Balance, & Dizziness | NIDCD

  https://www.nidcd.nih.gov/health/statistics/quick-statistics-hearing

  About 2 to 3 out of every 1,000 children in the United States are born with a detectable level of hearing loss in one or both ears. […] Approximately 15% of American adults (37.5 million) ages 18 and over report some trouble hearing. […] Among adults ages 20-69, the overall annual prevalence of hearing loss dropped slightly from 16% (28.0 million) in the 1999-2004 period to 14% (27.7 million) in the 2011-2012 period. […] Age is the strongest predictor of hearing loss among adults ages 20-69, with the greatest amount of hearing loss in the 60-69 age group. […] Men are almost twice as likely as women to have hearing loss among adults ages 20-69. […] Non-Hispanic White adults are more likely than adults in other racial/ethnic groups to have hearing loss; non-Hispanic Black adults have the lowest prevalence of hearing loss among adults ages 20-69.

• #12 Quick Statistics About Hearing (from NIDCD) | ClearSound Hearing NY

  https://www.clearsoundhearingny.com/quick-statistics-about-hearing-from-nidcd/

  About 2 to 3 out of every 1,000 children in the United States are born with a detectable level of hearing loss in one or both ears.1 […] Approximately 15% of American adults (37.5 million) aged 18 and over report some trouble hearing.3 […] Among adults aged 20-69, the overall annual prevalence of hearing loss dropped slightly from 16 percent (28.0 million) in the 1999-2004 period to 14 percent (27.7 million) in the 20112012 period.4 […] Age is the strongest predictor of hearing loss among adults aged 20-69, with the greatest amount of hearing loss in the 60 to 69 age group.4 […] Men are almost twice as likely as women to have hearing loss among adults aged 20-69.4 […] Non-Hispanic white adults are more likely than adults in other racial/ethnic groups to have hearing loss; non-Hispanic black adults have the lowest prevalence of hearing loss among adults aged 20-69.4

• #13 Overall Statistics – All U.S. Industries | Noise and Hearing Loss | CDC

  https://www.cdc.gov/niosh/noise/surveillance/overall.html

  Approximately 12% of all workers have hearing difficulty. […] About 8% of all workers have tinnitus. […] About 20% of noise-exposed tested workers have a material hearing impairment. […] 13% of noise-exposed tested workers have hearing impairment in both ears. […] The prevalence for all industries combined decreased less than 1% over 30 years (1981-2010). […] The incidence for all industries combined decreased 2% over 25 years (1986-2010). […] The adjusted risk for all industries combined decreased 46% over 25 years (1986-2010).

• #14 Quick Statistics About Hearing, Balance, & Dizziness | NIDCD

  https://www.nidcd.nih.gov/health/statistics/quick-statistics-hearing

  Among adults ages 20-69 who report 5 or more years of exposure to very loud noise at work, about 18% have speech-frequency hearing loss in both ears. Among adults who report no occupational noise exposure, 5.5% have speech-frequency hearing loss in both ears. […] 1 in 8 people in the United States (13%, or 30 million) ages 12 or older has hearing loss in both ears, based on standard hearing examinations. […] About 5% of adults ages 45-54 have disabling hearing loss. The rate increases to 10% for adults ages 55-64. 22% of those ages 65-74 and 55% of those who are 75 and older have disabling hearing loss. […] About 28.8 million U.S. adults could benefit from using hearing aids. […] Among adults ages 70 and older with hearing loss who could benefit from hearing aids, fewer than 1 in 3 (30%) has ever used them. Even fewer adults ages 20-69 (approximately 16%) who could benefit from wearing hearing aids have ever used them. […] As of July 2022, more than 1 million cochlear implants have been implanted worldwide. In the United States, roughly 118,100 devices have been implanted in adults and 65,000 in children.

• #15 Global, regional, and national burden of hearing loss in children and adolescents, 1990–2021: a systematic analysis from the Global Burden of Disease Study 2021 | BMC Public Health | Full Text

  https://bmcpublichealth.biomedcentral.com/articles/10.1186/s12889-024-20010-0

  Hearing loss in children and adolescents is attracting increasing attention as a growing public health problem. This study aimed to analyze the burden of hearing loss in children and adolescents from 1990 to 2021 to provide a new basis for further epidemiological research, disease prevention, and public health policy development. […] In 2021, approximately 97.83 million children and adolescents under the age of 20 years were affected by hearing loss globally, resulting in approximately 3.91 million YLDs. From 1990 to 2021, the prevalence rate increased from 3537 per 100,000 to 3711 per 100,000, with an EAPC of 0.15%. The burden of hearing loss was greater in low-middle-SDI region and low-SDI region. […] The burden of hearing loss in children and adolescents has increased over the past three decades and remains high. The burden is greater in less economically developed countries or regions. Policymakers should pay attention to the increasing burden of hearing loss in children and adolescents and take targeted measures to control this burden.

• #16 Hearing Impairment: Practice Essentials, Anatomy, Pathophysiology

  https://emedicine.medscape.com/article/856116-overview

  Hearing loss occurs in approximately 5-10 per 1000 children in the United States. Roughly 1-3 in 1000 children are born with profound hearing loss, and 3-5 in 1000 are born with mild-to-moderate hearing loss that may affect language acquisition unless hearing, language, or both are aided. […] The prevalence of hearing loss requiring intervention among graduates from neonatal intensive care units (NICUs) is 1-4%. Acquired hearing loss in children may add another 10-20% to these numbers. […] The prevalence of hearing loss in adolescents aged 12-19 years appears to be increasing in the United States. […] Data from the United States Census show that almost 3% of the population in the workforce reports having some hearing loss, including CHL, SNHL, or mixed loss. […] Worldwide, SNHL occurs in 9-27 per 1000 children.

• #17 Hearing Impairment: Practice Essentials, Anatomy, Pathophysiology

  https://emedicine.medscape.com/article/856116-overview

  Most hearing loss in children is congenital or acquired perinatally. […] Approximately 10-20% of all cases of deafness are acquired postnatally, though some genetic causes of deafness result in hearing loss that begins during childhood or adolescence or is slowly progressive and therefore diagnosed in childhood or adolescence. […] No sex predilection is known. Some hereditary causes of deafness or acquired deafness may occur more frequently in one sex than in the other. However, the overall prevalence of deafness is equal in male and female individuals.

• #18 Revisiting Genetic Epidemiology with a Refined Targeted Gene Panel for Hereditary Hearing Impairment in the Taiwanese Population

  https://www.mdpi.com/2073-4425/14/4/880

  Hearing impairment is one of the most common sensory disorders in children. The estimated prevalence is 1.9 out of 1000 live births, which increases to approximately 2.7 per 1000 before the age of 5 years and 3.5 per 1000 during adolescence. Hereditary hearing impairment (HHI), the cause being attributed to pathological genetic variants, accounts for 50% of sensorineural hearing impairments (SNHI) in children. To date, more than 200 genes have been implicated in HHI. Because of its impact on speech/language development and cognitive functions, it is crucial to intervene in HHI early in life, and genetic testing assists in its prognostication and selection of management. […] In this study, the overall diagnostic yield of targeted NGS examinations was 52%, with slight differences in the distributions of genetic etiologies between patients with different degrees of SNHI and ages of onset. The diagnostic rates of the 30-gene and 214-gene panels were similar, regardless of clinical features, except that the 30-gene panel had a lower detection rate in patients with late-onset SNHI. The prognosis of hearing loss in patients with negative genetic testing results is highly variable and some might decline over time.

• #19 The Epidemiology of Deafness

  https://pmc.ncbi.nlm.nih.gov/articles/PMC6719589/

  It is estimated that up to 60% of hearing loss is attributed to preventable causes. Some studies suggest that CHL caused by treatable factors such as otitis media and cerumen impactions is the most common cause of hearing loss worldwide. A significant portion of SNHL in developing countries is likely preventable as well, including SNHL caused by consanguinity, infections, and environmental exposure to ototoxic medications and loud noises. […] The significant disparity in the prevalence of hearing loss between developed and developing countries underscores the opportunity to intervene.

• #20

  https://www.who.int/news-room/fact-sheets/detail/deafness-and-hearing-loss

  Likewise, most common causes of hearing loss in adults, such as exposure to loud sounds and ototoxic medicines, are preventable. […] Early identification of hearing loss and ear diseases is key to effective management. […] This requires systematic screening for detection of hearing loss and related ear diseases in those who are most at risk. […] Once hearing loss is identified, it is essential that it is addressed as early as possible and in an appropriate manner, to mitigate any adverse impact. […] Rehabilitation helps people with hearing loss to function at their optimum, which means they can be as independent as possible in everyday activities.

• #21 JMIR Public Health and Surveillance – Optimizing a Classification Model to Evaluate Individual Susceptibility in Noise-Induced Hearing Loss: Cross-Sectional Study

  https://publichealth.jmir.org/2024/1/e60373

  Background: Noise-induced hearing loss (NIHL), one of the leading causes of hearing loss in young adults, is a major health care problem that has negative social and economic consequences. […] Noise-induced hearing loss (NIHL), one of the leading occupational health concerns worldwide, is second only to presbycusis as a cause of hearing loss. […] Approximately 1.3 billion people experience hearing loss due to noise exposure. […] In order to strengthen prevention and mitigate its escalating public health impact, it is important to identify people who are very susceptible to noise damage. […] Classifying people who are susceptible to NIHL (referred to as the NIHL-susceptible group [NIHL-SG]) from those who are resistant (referred to as the NIHL-resistant group [NIHL-RG]) is important for both research and noise safety management.

• #22 Quick Statistics About Hearing (from NIDCD) | ClearSound Hearing NY

  https://www.clearsoundhearingny.com/quick-statistics-about-hearing-from-nidcd/

  About 18 percent of adults aged 20-69 have speech-frequency hearing loss in both ears from among those who report 5 or more years of exposure to very loud noise at work, as compared to 5.5 percent of adults with speech-frequency hearing loss in both ears who report no occupational noise exposure.4 […] One in eight people in the United States (13 percent, or 30 million) aged 12 years or older has hearing loss in both ears, based on standard hearing examinations.5 […] About 2 percent of adults aged 45 to 54 have disabling hearing loss. The rate increases to 8.5 percent for adults aged 55 to 64. Nearly 25 percent of those aged 65 to 74 and 50 percent of those who are 75 and older have disabling hearing loss.6 […] About 28.8 million U.S. adults could benefit from using hearing aids.8 […] Among adults aged 70 and older with hearing loss who could benefit from hearing aids, fewer than one in three (30 percent) has ever used them. Even fewer adults aged 20 to 69 (approximately 16 percent) who could benefit from wearing hearing aids have ever used them.9 […] As of December 2019, approximately 736,900 cochlear implants have been implanted worldwide. In the United States, roughly 118,100 devices have been implanted in adults and 65,000 in children.10 […] Five out of 6 children experience ear infection (otitis media) by the time they are 3 years old.11

• #23 What is the safe noise exposure level to prevent noise-induced hearing loss? | Journal of Exposure Science & Environmental Epidemiology

  https://www.nature.com/articles/s41370-024-00660-3

  Exposure to noise causes noise-induced hearing loss (NIHL) and two other auditory disorders, tinnitus and hyperacusis. The exposure-response relationship between noise and hearing loss in humans has been studied in the occupational setting for decades. Based on thousands of laboratory studies in a variety of animal models, the mechanisms by which noise exposure causes NIHL are also well understood, down to the ultrastructural, biochemical, and genetic effects of noise on cochlear hair cells and synaptic junctions. Knowledge of the safe noise exposure level to prevent NIHL should also help people avoid developing noise-induced tinnitus, and probably hyperacusis as well. […] NIHL is a major problem in the United States and the world. Approximately 25% of American adults age 20-69 have noise-induced hearing loss, half with no significant occupational noise exposure. According to the CDC, hearing loss is the third most common chronic physical condition in the United States. Globally, an estimated 5% of the world’s population has NIHL. The 2019 Global Burden of Disease Study found that hearing loss is the fourth leading cause of disability globally.

• #24

  https://sciety.org/articles/activity/10.21203/rs.3.rs-6161836/v1

  Projections of the global burden of ARHL over the next 30 years show a gradual increase in the ASR of DALYs and ASPR. […] The burden of ARHL varies by gender, age group, and geographic region. ASR has been on the rise over time and the burden of disease is high, particularly in low- and middle-income areas.

• #25 Sudden sensorineural hearing loss in adults – UpToDate

  https://www.uptodate.com/contents/sudden-sensorineural-hearing-loss-in-adults

  Sudden sensorineural hearing loss (SSNHL) is characterized by an acute sensorineural hearing loss, nearly always unilateral, that occurs within a 72-hour period. Most cases are idiopathic, and the prognosis for hearing recovery depends largely upon the severity of the hearing loss. […] The exact incidence of idiopathic sudden sensorineural hearing loss (SSNHL) is uncertain, since recovery may be spontaneous, and many affected people never seek medical attention. Estimates of incidence range from 11 to 77 per 100,000 people per year. […] Idiopathic SSNHL can occur at any age but most commonly affects individuals 43 to 53 years old, with similar numbers of males and females affected. […] Although SSNHL can result from a variety of identifiable causes (eg, neoplastic, infectious, autoimmune, neurologic, otologic, metabolic, or vascular diseases; ototoxic drugs; trauma), the majority of cases are idiopathic, with many proposed etiologies and risk factors.

• #26 Sudden Hearing Loss: Practice Essentials, Pathophysiology, Epidemiology

  https://emedicine.medscape.com/article/856313-overview

  Estimates of the annual incidence of sudden sensory hearing loss range from 5-20 cases per 100,000 persons. Many cases likely go unreported, and the incidence may be higher. A sudden hearing loss may resolve before the patient can be evaluated medically, making it unlikely for that individual to seek care. […] A South Korean study, by Kim et al, found the mean annual incidence of unilateral sudden sensorineural hearing loss (SSNHL) to be 17.76 cases per 100,000 population, with a rise in the unilateral conditions monthly incidence occurring over the reports 5-year study period. […] The female-to-male distribution appears to be equal. Combined data from several studies show a slight male preponderance, at 53%. Sex does not seem to be a risk factor. However, a large study of 1220 patients had slightly more females.

• #27 Sudden Hearing Loss: Practice Essentials, Pathophysiology, Epidemiology

  https://emedicine.medscape.com/article/856313-overview

  People of all age groups are affected by sudden hearing loss, but fewer cases are reported in children and the elderly. The peak incidence appears to be in the sixth decade of life. Young adults have incidence rates similar to those of middle-aged adults. The median age at presentation ranges from 40-54 years. […] A literature review by Sara et al indicated that the onset of bilateral sudden sensorineural hearing loss tends to occur at a younger age than the unilateral form.

• #28 Hearing Loss and Cognitive Impairment: Epidemiology, Common Pathophysiological Findings, and Treatment Considerations

  https://www.mdpi.com/2075-1729/11/10/1102

  Hearing loss and cognitive impairment are widely diffused conditions in the ageing population. The burden of hearing loss is constantly growing for the increased exposure to loud sounds during lifetime and for the increase in life expectancy. Actually, the global number of people with hearing loss is estimated at 360 million by the World Health Organization (WHO) and this number is expected to double to 720 million by 2050. In the world, one-third of the population over 65 suffer from disabling hearing impairment (i.e., a hearing loss over 40 dB in the better hearing ear) and this number may reach over 900 million people by 2050. […] Dementia is the greatest global challenge for health and social care in the 21st century. It occurs mainly in people older than 65 years and its incidence is also steadily rising because of increasing longevity: currently, there are around 50 million people living with this condition worldwide and this number is likely to grow by at least three times to nearly 152 million by 2050, with more than half of people aged 85 or older affected by cognitive impairment.

• #29 Hearing Loss and Cognitive Impairment: Epidemiology, Common Pathophysiological Findings, and Treatment Considerations

  https://www.mdpi.com/2075-1729/11/10/1102

  It is therefore evident that both hearing loss and cognitive impairment are age-related conditions that often coexist, especially among certain groups of the population, notably nursing home residents. […] Hearing loss and cognitive impairment also have a huge economic impact. WHO estimates that untreated hearing loss poses an annual global cost of US$ 750 billion and the current annual cost of dementia is about USD 1 trillion, predicted to double by 2030. The impressive impact on patients and their families, which cover nearly 85% of costs, is worrying to the point that prevention and treatment of dementia are a healthcare priority throughout the Western world. […] Today, hearing loss is considered as the most relevant modifiable risk factor for dementia, that, if eliminated, could reduce the risk of dementia by 9%. The youngest mean age in which the presence of hearing loss was shown to increase dementia risk is 55 years; several cohort studies have demonstrated that even mild levels of hearing loss increase the long-term risk of cognitive decline in individuals who are cognitively intact at baseline.

• #30 Hearing Loss, the Dementia Connection, and Public Health | Johns Hopkins | Bloomberg School of Public Health

  https://publichealth.jhu.edu/topics/hearing-loss-the-dementia-connection-and-public-health

  Addressing hearing loss and associated health issues, such as accelerated cognitive decline, depression, and early mortality […] After federally funded studies linked untreated hearing loss to health issues such as dementia, professor Frank Lin spearheaded policy changes making hearing aids easier and cheaper to acquire. […] A new study has found that older adults at greater risk of dementia may be able to decrease their risk of cognitive decline by nearly half by using hearing aids. […] Frank Lin, MD, PhD 08 studies the impact of adult hearing loss to advance federal policies and other initiatives for accessible, affordable, and effective hearing care. […] Jennifer Deal, PhD ’13, MHS ’07, leads research dedicated to improving the health and well-being of older adults, with a focus on brain aging, sensory health, and disability across the course of life.

• #31 Thieme E-Journals – Seminars in Hearing / Abstract

  https://www.thieme-connect.com/products/ejournals/abstract/10.1055/s-0039-1697643

  Hearing loss is a highly prevalent chronic condition. In addition to age, sex, noise exposure, and genetic predisposition, cardiovascular disease and its antecedents may precipitate hearing loss. Of emerging interest is the connection between diabetes and auditory dysfunction. Cross-sectional studies consistently suggest that prevalence of hearing loss is higher in persons with diabetes compared with those without diabetes, especially among younger persons. Furthermore, longitudinal studies have demonstrated higher incidence of hearing loss in persons with diabetes compared to those without diabetes. These findings seem to hold for both type 1 and type 2 diabetes, although considerably more population-based evidence is available for type 2 diabetes. […] Data on gestational diabetes and hearing outcomes are limited, as are data relating diabetes to otologic sequelae such as fungal infection. […] Here, we examine evidence from epidemiologic studies of diabetes and hearing loss and consider clinical and laboratory data where population-based data are lacking.

• #32 Baiduc RR, Helzner E. (2019). Epidemiology of diabetes and hearing loss. Seminars in Hearing, 40(4):281-291. PMID: 31602091 | The Hearing Epidemiology and Research Diagnostics (HEARD) Laboratory | University of Colorado Boulder

  https://www.colorado.edu/lab/heard/2019/10/09/baiduc-rr-helzner-e-2019-epidemiology-diabetes-and-hearing-loss-seminars-hearing-404281

  Hearing loss is a highly prevalent chronic condition. In addition to age, sex, noise exposure, and genetic predisposition, cardiovascular disease and its antecedents may precipitate hearing loss. Of emerging interest is the connection between diabetes and auditory dysfunction. Cross-sectional studies consistently suggest that prevalence of hearing loss is higher in persons with diabetes compared with those without diabetes, especially among younger persons. Furthermore, longitudinal studies have demonstrated higher incidence of hearing loss in persons with diabetes compared to those without diabetes. These findings seem to hold for both type 1 and type 2 diabetes, although considerably more population-based evidence is available for type 2 diabetes. […] Data on gestational diabetes and hearing outcomes are limited, as are data relating diabetes to otologic sequelae such as fungal infection. Here, we examine evidence from epidemiologic studies of diabetes and hearing loss and consider clinical and laboratory data where population-based data are lacking.

• #33 Occupational Hearing Loss Surveillance | Noise and Hearing Loss | CDC

  https://www.cdc.gov/niosh/noise/surveillance/index.html

  Surveillance is vital for preventing occupational hearing loss. […] Using surveillance data, NIOSH identifies high risk groups, guides prevention and research efforts, and evaluates the success or failure of interventions. Without surveillance data, researchers cannot measure progress in hearing loss prevention or the need for improvement in prevention efforts. […] Occupational hearing loss surveillance: Collects and analyzes worker hearing data and exposure data. […] Estimates how many workers are exposed to hearing hazards, have hearing loss, or have a health issue related to hearing loss. […] Determines which industries and occupations are most at risk for hearing loss and related health issues. […] Monitors trends over time. […] In 2009, NIOSH established the Occupational Hearing Loss Surveillance Program. […] The program uses the North American Industry Classification System (NAICS) to classify the industry associated with each audiogram. […] The program also analyzes other data sources to conduct occupational hearing loss surveillance and research.

• #34 Global, regional, and national burden of hearing loss in children and adolescents, 1990–2021: a systematic analysis from the Global Burden of Disease Study 2021 | BMC Public Health | Full Text

  https://bmcpublichealth.biomedcentral.com/articles/10.1186/s12889-024-20010-0

  Hearing loss was identified as the fourth and third leading cause of disability in the Global Burden of Disease (GBD) 2015 and GBD 2019 studies, respectively. […] In 2019, the Lancet Commission on Global Hearing Loss announced the convening of expert working groups on prevention, policy, technology, and conservation aimed at examining ways to reduce the burden of hearing loss. […] This study provides a comprehensive and detailed analysis of the prevalence and years lived with disability (YLDs) due to hearing loss in children and adolescents under 20 years of age from 1990 to 2021 at the global, regional, and national levels. […] The estimated annual percentage change (EAPC) was used to assess the trend in rates, and its calculation has been described in detail in previous studies. […] The results of the Pearson correlation analyses showed that hearing loss burden was negatively correlated with the SDI. Countries or regions with lower SDI typically face more scarce healthcare resources, and in these regions, there is a tendency to divert limited healthcare resources to life-threatening illnesses, and screening and treatment for hearing loss are often limited.

• #35 Epidemiology of Hearing Loss | Cochlear

  https://jhucochlearcenter.org/research/focus-areas/epidemiology-hearing-loss

  Epidemiologic research led by the Cochlear Center has highlighted the substantial impact of hearing loss in our aging society. […] Center researchers and trainees are investigating the prevalence of hearing loss and the impact that hearing loss has on functional domains, such as loneliness and physical functioning, using epidemiologic datasets. […] The Cochlear Center implements and manages high-quality audiometric data collection in several large epidemiologic studies. […] Ongoing work led by Jennifer Deal is investigating the modifiable vascular contributors to hearing loss in older adults. […] A new line of work by Cochlear Center health economist Emmanuel Garcia is exploring the impact of hearing loss on key economic outcomes. […] Jennifer Deal, Nicholas Reed, and Frank Lin continued to mentor several trainees in epidemiological analyses of hearing with cognitive, physical, and social functioning outcomes using data from ARIC.

• #36 Epidemiology of Childhood and Adult Deafness and the strategies for Prevention and Control in India

  https://www.jscimedcentral.com/jounal-article-info/Annals%C2%A0of-Otolaryngology-and-Rhinology/Epidemiology-of-Childhood-and–Adult-Deafness-and-the-strategies–for-Prevention-and-Control-in–India-4219

  The estimated number of ear, nose and throat (ENT) specialists and otologists in India are only 7000 and 2000, respectively. […] A probable strategy to ensure that children with hearing loss are identified and treated early is to ensure that every baby is screened for possible hearing loss at birth. […] Considering the enormous impact of deafness on social, economic and productive life in India due to its burden and also the large gaps in human resources to meet this challenge, primary healthcare remains the strategy of choice for the provision and implementation of prevention of deafness and hearing loss. […] The government of India initiated the National Program for Prevention and Control of Deafness in the year 2006. […] Burden of hearing impairment and deafness is huge in India and requires concerted efforts.

• #37 Hearing and Other Sensory or Communication Disorders Workgroup – Healthy People 2030 | odphp.health.gov

  https://odphp.health.gov/healthypeople/about/workgroups/hearing-and-other-sensory-or-communication-disorders-workgroup

  With the goal of reducing the prevalence and severity of disorders of hearing, balance, taste, smell, voice, speech, and language, the Hearing and Other Sensory or Communication Disorders (HOSCD) Workgroup developed the objectives related to sensory or communication disorders. The workgroup will provide data to track progress toward achieving the objectives throughout the decade. […] The World Health Organization estimates that 466 million people have disabling hearing loss and that this number will nearly double by 2050. In the United States, hearing loss is the third most common chronic physical condition, and an estimated 1 in 6 people have a moderate-to-severe communication disorder. […] The objectives selected by the HOSCD Workgroup aim to ensure that all Americans benefit from scientific advances in the prevention, diagnosis, and treatment of communication disorders.

• #38

  https://journals.lww.com/ear-hearing/fulltext/2024/01000/hearing_loss_prevalence,_years_lived_with.24.aspx

  Results indicate large burden of hearing loss in the United States, with an estimated 1 in 5 people experiencing this condition. While many cases of hearing loss in the United States were mild, growing prevalence, low usage of hearing aids, and aging populations indicate the rising impact of this condition in future years and the increasing importance of domestic access to hearing healthcare services. Large-scale audiometric surveys such as NHANES are needed to regularly assess hearing loss burden and access to healthcare, improving our understanding of who is impacted by hearing loss and what groups are most amenable to intervention.

• #39 Hearing and Other Sensory or Communication Disorders Workgroup – Healthy People 2030 | odphp.health.gov

  https://odphp.health.gov/healthypeople/about/workgroups/hearing-and-other-sensory-or-communication-disorders-workgroup

  Emerging issues in this field include: Lagging recognition of the impact of hearing loss on quality of life. […] Identifying the genetic components of many disorders. […] Improved understanding of co-occurring and related conditions for example, diagnosing neurological disease through tests of olfactory (smell) function and better understanding of the relationships between hearing loss and diabetes.

• #40 What is the safe noise exposure level to prevent noise-induced hearing loss? | Journal of Exposure Science & Environmental Epidemiology

  https://www.nature.com/articles/s41370-024-00660-3

  Terminology matters. The commonly used terms „presbycusis” and „age-related hearing loss” misleadingly imply that hearing loss is an inevitable part of normal aging. More accurate terms may be Kryter’s „sociocusis” or „noise-induced hearing loss in the elderly” (NIHL-E). The standard definition of noise, „noise is unwanted sound,” does not accurately reflect the harm that noise does. A better definition is „noise is unwanted and/or harmful sound.” […] Three things—the new definition of noise, an understanding that hearing loss with age is not part of normal physiological aging but largely represents noise damage, and public awareness of a lower safe noise exposure level to prevent NIHL—may prompt at least some individuals to reduce noise exposure for themselves and their children. Lower occupational noise exposure limits may lead to recommendations or regulations for lower public noise exposure.

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