Dept, of Physiology; Institute for Medical Research - Israel-Canada; Hebrew University-Hadassah Medical School, POB 12272, Jerusalem 91120, Israel.
J Occup Med Toxicol. 2011 May 8;6(1):14. doi: 10.1186/1745-6673-6-14.
The permanent hearing loss following exposure to intense noise can be due either to mechanical structural damage (tearing) caused directly by the noise or to metabolic (biochemical) damage resulting from the elevated levels of free radicals released during transduction of the sound overstimulation. Drugs which depress active cochlear mechanics (e.g. furosemide and salicylic acid) or anti-oxidants (which counteract the free radicals) are effective in reducing the threshold shift (TS) following broadband continuous noise. This study was designed to determine whether furosemide can reduce the TS following exposure to impulse noise, similar to its action with continuous broadband noise.
Shortly after furosemide injection, mice were exposed to simulated M16 rifle impulse noise produced by different loudspeakers and amplifiers in different exposure settings and, in other experiments, also to actual M16 rifle shots.
Depending on the paradigm, the simulated noises either did not produce a TS, or the TS was reduced by furosemide. The drug was not effective in reducing TS resulting from actual impulse noise.
Simulated M16 rifle impulse noise may not truly replicate the rapid rise time and very high intensity of actual rifle shots so that the TS following exposure to such noise can be reduced by these drugs. On the other hand, actual M16 impulse noise probably causes direct (frank) mechanical damage, which is not reduced by these drugs.
暴露于高强度噪声后引起的永久性听力损失可能是由于噪声直接引起的机械结构损伤(撕裂),也可能是由于在声音过度刺激过程中释放的自由基水平升高而导致的代谢(生化)损伤。抑制活跃耳蜗力学的药物(例如速尿和水杨酸)或抗氧化剂(对抗自由基)可有效降低宽带连续噪声后阈移(TS)。本研究旨在确定速尿是否可以减少脉冲噪声暴露后的 TS,类似于其在连续宽带噪声中的作用。
速尿注射后不久,将小鼠暴露于不同扬声器和放大器在不同暴露设置下产生的模拟 M16 步枪脉冲噪声中,并且在其他实验中还暴露于实际的 M16 步枪射击中。
根据不同的实验范式,模拟噪声要么不会产生 TS,要么速尿会降低 TS。该药物对实际脉冲噪声引起的 TS 无效。
模拟的 M16 步枪脉冲噪声可能无法真实复制实际步枪射击的快速上升时间和极高强度,因此这些药物可以降低此类噪声暴露后的 TS。另一方面,实际的 M16 脉冲噪声可能会导致直接(明显)的机械损伤,而这些药物无法减轻这种损伤。