Results: ABR amplitudes were kept constantly if cochlear blood flow changes were mirror or moderate.
结果:耳蜗血流轻、中度下降时abr幅度无明显变化。
Conclusion: 5 HT could decrease the cochlear blood flow and result in cochlear microcirculation dysfunction.
结论:5- HT能减少耳蜗供血,导致耳蜗微循环紊乱。
Conclusion the superior cervical sympathectomy can influence the cochlear blood flow and auditory function in guinea pig.
结论交感颈上神经节切除对豚鼠耳蜗血流及听觉生理功能有一定的影响。
Objective: to investigate the effect of restricted cochlear microcirculation disorder on the cochlear blood flow, auditory function, and morphology.
目的:探讨耳蜗局灶性微循环障碍对耳蜗血流、听功能及耳蜗形态学的影响。
Results The cochlear blood flow and noise-induced level of temporary threshold shift were not affected by different concentration of Propranolol during noise exposure.
结果在噪声刺激期腹膜内注射不同浓度普萘洛尔,对耳蜗血流和噪声暂时性阈移无影响。
Conclusion: Prophylactic inhalation of negative air ions can increase the cochlear blood flow and promote microcirculation thus protecting the cochlea from acoustic trauma.
结论:预防性吸入空气负离子可增加耳蜗血流量,改善微循环,因而对保护噪声性耳蜗损伤是有益的。
Conclusion: Prophylactic inhalation of negative air ions can increase the cochlear blood flow and promote microcirculation thus protecting the cochlea from acoustic trauma.
结论:预防性吸入空气负离子可增加耳蜗血流量,改善微循环,因而对保护噪声性耳蜗损伤是有益的。
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