Effects of Active and Passive Hearing Protection Devices on Sound Source Localization, Speech Recognition, and Tone Detection

Brown, Andrew D.; Beemer, Brianne T.; Greene, Nathaniel T.; Argo, Theodore F.; Meegan, G. Douglas; Tollin, Daniel J.

doi:10.1371/journal.pone.0136568

Cited by 43 publications

(59 citation statements)

References 29 publications

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“…Indeed, in the case of hearing aids, the sound quality is one of the most important factors to overall satisfaction and (dis)comfort is partly or completely characterized by acoustical attributes such as the "occlusion effect" and "acoustic feedback" (Branda 2012;French-Saint George and Barr-Hamilton 1978;Furstenberg, Gordon, and Baccaro 1988;Mackenzie, Browning, and McClymont 1989). In the same way, acoustical attributes are included in the construct of comfort in studies dealing with hearing protectors dedicated to musicians (Bernier 2013) or workers for which spatial acoustic information is of upmost importance and should not be altered (e.g., military or law enforcement) (Brown et al 2015;Ribera et al 1995).…”

Section: Concepts and Constructs Found In The Literaturementioning

confidence: 99%

A critical review of the literature on comfort of hearing protection devices: definition of comfort and identification of its main attributes for earplug types

Doutres

Sgard

Terroir

et al. 2019

International Journal of Audiology

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Objective: This paper presents a comprehensive literature review of past works addressing Hearing Protection Devices (HPD) comfort and to put them into perspective regarding a proposed holistic multidimensional construct of HPD comfort. Design: Literature review. Study samples: Documents were hand searched and Internet searched using "PubMed", "Web of Science", "Google Scholar", "ProQuest Dissertations and Theses Professional", "Scopus" or "Google" search engines. While comfort constructs and measurement methods are reviewed for both earplugs and earmuff types, results and analyses are provided for the earplug type only. Results: This paper proposed a multidimensional construct of HPD comfort based on four dimensions: physical, functional, acoustical and psychological. Seen through the prism of the proposed holistic construct of HPD comfort, the main comfort attributes of earplugs have been identified for each comfort dimension. Conclusions: The observed lack of consensus on the definition of HPD comfort in the scientific community makes it difficult to prioritize the importance of comfort attributes yet necessary for future design of comfortable earplugs.

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Section: Concepts and Constructs Found In The Literaturementioning

confidence: 99%

A critical review of the literature on comfort of hearing protection devices: definition of comfort and identification of its main attributes for earplug types

Doutres

Sgard

Terroir

et al. 2019

International Journal of Audiology

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show abstract

“…Soldiers frequently wear little or no ear protection, citing a necessity for situational awareness through unhindered sound localization (Abel, 2008, Brown et al., 2015, Clasing and Casali, 2014, Jones and Pearson, 2016). If the hypotension induced in our rats by high-intensity blast via the ear canal also occurs in humans, it would likely induce syncope, preventing an individual's ability to react to threats, seek safety or help, or treat themselves until help arrives.…”

Section: Discussionmentioning

confidence: 99%

“…The advanced combat helmet, the current helmet of the U.S. Army, uses layers of Kevlar and a foam suspension to protect the skull from penetrating and blunt-force injuries, but leaves the ears, eyes, nose, and mouth all exposed to the surrounding air, permitting pressure from a blast to interact (Meaney et al., 2014, Moore et al., 2009). Nonetheless, soldiers frequently wear little to no ear protection, citing a necessity for situational awareness through unhindered sound localization (Abel, 2008, Brown et al., 2015, Clasing and Casali, 2014, Jones and Pearson, 2016). A perforated eardrum is the most frequently reported blast injury (Cernak and Noble-Haeusslein, 2010, Choi, 2012, Darley and Kellman, 2010, DePalma et al., 2005, Gan et al., 2016, Garth, 1994, Helling, 2004, Katz et al., 1989, Kronenberg et al., 1993, Mayorga, 1997, Patterson and Hamernik, 1997, Phillips, 1986).…”

Section: Introductionmentioning

confidence: 99%

Autonomic responses to blast overpressure can be elicited by exclusively exposing the ear in rats

Sandlin

Huang

et al. 2018

Journal of Otology

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Blast overpressure has become an increasing cause of brain injuries in both military and civilian populations. Though blast's direct effects on the cochlea and vestibular organs are active areas of study, little attention has been given to the ear's contribution to the overall spectrum of blast injury. Acute autonomic responses to blast exposure, including bradycardia and hypotension, can cause hypoxia and contribute to blast-induced neurotrauma. Existing literature suggests that these autonomic responses are elicited through blast impacting the thorax and lungs. We hypothesize that the unprotected ear also provides a vulnerable locus for blast to cause autonomic responses. We designed a blast generator that delivers controlled overpressure waves into the ear canal without impacting surrounding tissues in order to study the ear's specific contribution to blast injury. Anesthetized adult rats' left ears were exposed to a single blast wave ranging from 0 to 110 PSI (0–758 kPa). Blast exposed rats exhibited decreased heart rates and blood pressures with increased blast intensity, similar to results gathered using shock tubes and whole-body exposure in the literature. While rats exposed to blasts below 50 PSI (345 kPa) exhibited increased respiratory rate with increased blast intensity, some rats exposed to blasts higher than 50 PSI (345 kPa) stopped breathing immediately and ultimately died. These autonomic responses were significantly reduced in vagally denervated rats, again similar to whole-body exposure literature. These results support the hypothesis that the unprotected ear contributes to the autonomic responses to blast.

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“…As a result, the patients can experience normal hearing without the negative consequences of aversive alarms. By globally decrease acoustic input, these in-ear devices may contribute to a decrease in PICS and ICU delirium [125,126].…”

Section: The Future Of Multisensory Designmentioning

confidence: 99%

Living and Working in a Multisensory World: From Basic Neuroscience to the Hospital

Burdick

Courtney

Wallace

et al. 2019

MTI

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The intensive care unit (ICU) of a hospital is an environment subjected to ceaseless noise. Patient alarms contribute to the saturated auditory environment and often overwhelm healthcare providers with constant and false alarms. This may lead to alarm fatigue and prevent optimum patient care. In response, a multisensory alarm system developed with consideration for human neuroscience and basic music theory is proposed as a potential solution. The integration of auditory, visual, and other sensory output within an alarm system can be used to convey more meaningful clinical information about patient vital signs in the ICU and operating room to ultimately improve patient outcomes.

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Effects of Active and Passive Hearing Protection Devices on Sound Source Localization, Speech Recognition, and Tone Detection

Cited by 43 publications

References 29 publications

A critical review of the literature on comfort of hearing protection devices: definition of comfort and identification of its main attributes for earplug types

A critical review of the literature on comfort of hearing protection devices: definition of comfort and identification of its main attributes for earplug types

Autonomic responses to blast overpressure can be elicited by exclusively exposing the ear in rats

Living and Working in a Multisensory World: From Basic Neuroscience to the Hospital

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