Evidence for independent peripheral and central age-related hearing impairment.
Creator
Bao Jianxin; Yu Yan; Li Hui; Hawks John; Szatkowski Grace; Dade Bethany; Wang Hao; Liu Peng; Brutnell Thomas; Spehar Brent; Tye-Murray Nancy
Publisher
Journal of neuroscience research
Date
2020
2020-05-16
Description
Deleterious age-related changes in the central auditory nervous system have been referred to as central age-related hearing impairment (ARHI) or central presbycusis. Central ARHI is often assumed to be the consequence of peripheral ARHI. However, it is possible that certain aspects of central ARHI are independent from peripheral ARHI. A confirmation of this possibility could lead to significant improvements in current rehabilitation practices. The major difficulty in addressing this issue arises from confounding factors, such as other age-related changes in both the cochlea and central non-auditory brain structures. Because gap detection is a common measure of central auditory temporal processing, and gap detection thresholds are less influenced by changes in other brain functions such as learning and memory, we investigated the potential relationship between age-related peripheral hearing loss (i.e., audiograms) and age-related changes in gap detection. Consistent with previous studies, a significant difference was found for gap detection thresholds between young and older adults. However, among older adults, no significant associations were observed between gap detection ability and several other independent variables including the pure tone audiogram average, the Wechsler Adult Intelligence Scale-Vocabulary score, gender, and age. Statistical analyses showed little or no contributions from these independent variables to gap detection thresholds. Thus, our data indicate that age-related decline in central temporal processing is largely independent of peripheral ARHI.
Otoprotective Effects of Stephania tetrandra S. Moore Herb Isolate against Acoustic Trauma.
Creator
Yu Yan; Hu Bing; Bao Jianxin; Mulvany Jessica; Bielefeld Eric; Harrison Ryan T; Neton Sarah A; Thirumala Partha; Chen Yingying; Lei Debin; Qiu Ziyu; Zheng Qingyin; Ren Jihao; Perez-Flores Maria Cristina; Yamoah Ebenezer N; Salehi Pezhman
Publisher
Journal of the Association for Research in Otolaryngology : JARO
Date
2018
2018-12
Description
Noise is the most common occupational and environmental hazard, and noise-induced hearing loss (NIHL) is the second most common form of sensorineural hearing deficit. Although therapeutics that target the free-radical pathway have shown promise, none of these compounds is currently approved against NIHL by the United States Food and Drug Administration. The present study has demonstrated that tetrandrine (TET), a traditional Chinese medicinal alkaloid and the main chemical isolate of the Stephania tetrandra S. Moore herb, significantly attenuated NIHL in CBA/CaJ mice. TET is known to exert antihypertensive and antiarrhythmic effects through the blocking of calcium channels. Whole-cell patch-clamp recording from adult spiral ganglion neurons showed that TET blocked the transient Ca(2+) current in a dose-dependent manner and the half-blocking concentration was 0.6 + 0.1 muM. Consistent with previous findings that modulations of calcium-based signaling pathways have both prophylactic and therapeutic effects against neural trauma, NIHL was significantly diminished by TET administration. Importantly, TET has a long-lasting protective effect after noise exposure (48 weeks) in comparison to 2 weeks after noise exposure. The otoprotective effects of TET were achieved mainly by preventing outer hair cell damage and synapse loss between inner hair cells and spiral ganglion neurons. Thus, our data indicate that TET has great potential in the prevention and treatment of NIHL.