Peripheral Auditory System Function in Humans: Continuum of Maturation and Aging

人类外周听觉系统功能：成熟和衰老的连续过程

• 批准号: 7522410
• 负责人: Carolina Abdala
• 金额: $ 38.13万
• 依托单位: HOUSE RESEARCH INSTITUTE
• 依托单位国家: 美国
• 财政年份: 1998
• 资助国家: 美国
• 起止时间: 1998-08-01 至 2013-06-30
• 项目状态: 已结题
• 来源: https://reporter.nih.gov/project-details/7522410
• 关键词: Accounting; Address; Adolescent; Adult; Age; Age-Years; Aging; Aging-Related Process; Amplifiers; Arts; Auditory; Auditory Perception; Auditory Physiology; Auditory system; Basilar Membrane; Biological; Biological Assay; Birth; Characteristics; Child; Childhood; Clinical; Cochlea; Communication; Condition; Contralateral; Depth; Diagnosis; Ear; Elderly; Evaluation; External auditory canal; Frequencies; Generations; Goals; Health; Hearing; Hearing Tests; Human; Individual; Infant; Intervention; Invasive; Knowledge; Laboratories; Lead; Life; Longevity; Measurement; Measures; Medial; Methodology; Metric; Newborn Infant; Noise; Outer Hair Cells; Pattern; Perception; Performance; Peripheral; Phase; Physiology; Play; Population; Premature Infant; Prevalence; Principal Investigator; Process; Publishing; Range; Reflex action; Relative (related person); Role; Signal Transduction; Source; Specific qualifier value; Speech; Speech Perception; Stimulus; Structure; System; Techniques; Testing; Time; TimeLine; Work; age group; age related; base; indexing; middle age; neonate; novel strategies; otoacoustic emission; postnatal; research study; response; tool; young adult

DESCRIPTION (provided by applicant): The long-term goals of this project are to investigate changes in peripheral auditory function during maturation and aging and to investigate the relationship between these changes and concomitant changes in auditory perception. Specifically, we will: (1) define the time course for maturation and aging of distortion product otoacoustic emission (DPOAE) fine structure and the individual components comprising the distortion product, (2) define the time course for maturation and aging of the medial olivocochlear (MOC) reflex and (3) relate the observed changes in peripheral auditory physiology to changes in speech perception throughout the human lifespan. Past work has established that peripheral immaturities in the auditory system exist postnatally but the time course for maturation has not been defined, nor have the sources of this immaturity been fully specified. Experiments in this project will allow us to complete the maturational time line, examine the sources of immaturity by studying auditory function at multiple levels of the system, and consider how these changes in peripheral function impact communicative ability. The objectives will be achieved by implementing a novel approach that considers change in peripheral auditory function throughout the human lifespan as a continuum, including both maturational and aging processes. The first aim will be addressed by measuring DPOAE fine structure to parse out the relative contribution from two basilar membrane sources: the DPOAE generator region and the DP characteristic frequency (CF) region. State-of-the-art swept-tone methodology will be used in eight age groups ranging from premature infants to elderly adults. There are currently no published studies of DPOAE fine structure in infants although this issue may be highly relevant to questions of cochlear maturation. The second aim will be accomplished by implementing a DPOAE contralateral noise technique to measure MOC reflexes in the same eight age groups at three frequencies. This paradigm will take into account each subject's individual DPOAE fine structure pattern and record the MOC reflex at response peaks (maxima) only, to control for the relationship between DPOAE components during maturation and aging. The third aim will be accomplished by measuring speech perception in noise along with the two previously described metrics of peripheral auditory function, in adolescent through elderly subjects. This experiment will examine the relationship between changes in the periphery and communicative ability and define the extent to which changes in auditory peripheral physiology throughout life can account for changes in perception. This work is relevant to hearing health and clinical practice because it will provide a normative framework for changes in auditory peripheral function from birth through old age. Furthermore, defining DPOAE fine structure in the pediatric population will help specify which cochlear regions are evaluated during routine DPOAE hearing tests and, thus, have the potential to increase accuracy of hearing diagnoses in children. Finally, this project will lead to a clearer understanding of how natural changes in auditory peripheral function contribute to diminishing speech perception in latter years and will help parse out peripheral versus central contributions to this decline. This work will provide a normative framework for natural changes in auditory peripheral function during maturation and aging and will help specify which cochlear regions (and frequencies) are actually assessed during a routine pediatric hearing evaluation using otoacoustic emissions. This information has the potential to increase the sophistication and accuracy of hearing evaluations and thus, of subsequent intervention. This work will also lead to an understanding of how natural, lifetime changes in auditory peripheral function contribute to diminishing speech perception during the latter decades of life and help parse out peripheral versus central contributions to this decline.

描述（由申请人提供）：本项目的长期目标是研究成熟和衰老过程中外周听觉功能的变化，并研究这些变化与听觉感知伴随变化之间的关系。具体而言，我们将：（1）定义畸变产物耳声发射（DPOAE）精细结构和构成畸变产物的各个成分的成熟和老化的时间过程，（2）定义内侧橄榄耳蜗（MOC）反射的成熟和老化的时间过程，以及（3）将观察到的外周听觉生理学变化与整个人类寿命期间的言语感知变化相关联。过去的工作已经确定，外周听觉系统的不成熟存在postnatally，但成熟的时间过程尚未被定义，也没有这种不成熟的来源被完全指定。在这个项目中的实验将使我们能够完成成熟的时间线，通过研究系统的多个层次的听觉功能来检查不成熟的来源，并考虑这些外围功能的变化如何影响交际能力。这些目标将通过实施一种新的方法来实现，该方法将整个人类生命周期中外周听觉功能的变化视为一个连续体，包括成熟和衰老过程。第一个目标将通过测量DPOAE精细结构来解析出两个基底膜源的相对贡献：DPOAE发生器区域和DP特征频率（CF）区域。将在从早产儿到老年人的八个年龄组中使用最先进的扫音方法。目前还没有发表的婴儿DPOAE精细结构的研究，虽然这个问题可能是高度相关的耳蜗成熟的问题。第二个目标将通过实施DPOAE对侧噪声技术来实现，以测量在相同的八个年龄组在三个频率的MOC反射。该范例将考虑每个受试者的个体DPOAE精细结构模式，并仅在响应峰值（最大值）处记录MOC反射，以控制成熟和老化期间DPOAE组分之间的关系。第三个目标将通过测量噪声中的言语感知沿着先前描述的两个外周听觉功能指标，在青少年到老年受试者。本实验将研究周边变化和沟通能力之间的关系，并确定在何种程度上听觉周边生理变化在整个生命可以解释感知的变化。这项工作与听力健康和临床实践有关，因为它将为从出生到老年的听觉外周功能变化提供一个规范性框架。此外，在儿科人群中定义DPOAE精细结构将有助于指定在常规DPOAE听力测试期间评估哪些耳蜗区域，因此有可能提高儿童听力诊断的准确性。最后，这个项目将导致更清楚地了解听觉外周功能的自然变化如何有助于在晚年减少言语感知，并将有助于解析出外周与中枢对这种下降的贡献。这项工作将提供一个规范性的框架，在成熟和老化过程中的听觉外周功能的自然变化，并将有助于指定耳蜗区域（和频率），实际上是在一个常规的儿科听力评估使用耳声发射进行评估。这些信息有可能提高听力评估的复杂性和准确性，从而提高后续干预的复杂性和准确性。这项工作还将导致理解听觉外周功能的自然，终身变化如何有助于在生命的最后几十年减少言语感知，并帮助解析出这种下降的外周与中枢贡献。