Effect of minocycline and its nano-formulation on central auditory system in blast-induced hearing loss rat model

IF 1.4 Q2 OTORHINOLARYNGOLOGY
Venkatesan Perumal, Arun Reddy Ravula, Ningning Shao, Namas Chandra
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引用次数: 4

Abstract

Blast injuries are common among the military service members and veterans. One of the devastating effects of blast wave induced TBI is either temporary or permanent hearing loss. Treating hearing loss using minocycline is restricted by optimal drug concentration, route of administration, and its half-life. Therefore, therapeutic approach using novel therapeutic delivery method is in great need. Among the different delivery methods, nanotechnology-based drug delivery is desirable, which can achieve longer systemic circulation, pass through some biological barriers and specifically targets desired sites. The current study aimed to examine therapeutic effect of minocycline and its nanoparticle formulation in moderate blast induced hearing loss rat model through central auditory system. The I.v. administered nanoparticle at reduced dose and frequency than regularly administered toxic dose. After moderate blast exposure, rats had hearing impairment as determined by ABR at 7- and 30-days post exposure. In chronic condition, free minocycline also showed the significant reduction in ABR threshold. In central auditory system, it is found in this study that minocycline nanoparticles ameliorate excitation in inferior colliculus; and astrocytes and microglia activation after the blast exposure is reduced by minocycline nanoparticles administration. The study demonstrated that in moderate blast induced hearing loss, minocycline and its nanoparticle formulation exhibited the optimal therapeutic effect on the recovery of the ABR impairment and a protective effect through central auditory system. In conclusion, targeted and non-targeted nanoparticle formulation have therapeutic effect on blast induced hearing loss.

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米诺环素及其纳米制剂对爆炸致聋大鼠中枢听觉系统的影响
爆炸伤在军人和退伍军人中很常见。冲击波引起的创伤性脑损伤的破坏性影响之一是暂时性或永久性听力损失。使用米诺环素治疗听力损失受到最佳药物浓度、给药途径及其半衰期的限制。因此,迫切需要采用新的治疗递送方法进行治疗。在不同的递送方法中,基于纳米技术的药物递送是可取的,它可以实现更长的系统循环,穿过一些生物屏障,并专门针对所需的位点。本研究旨在通过中枢听觉系统检测米诺环素及其纳米颗粒制剂对中度冲击波诱导的听力损失大鼠模型的治疗效果。静脉注射给药的纳米粒子的剂量和频率比常规给药的毒性剂量低。中度冲击波暴露后,大鼠在暴露后7天和30天出现ABR测定的听力损伤。在慢性情况下,游离米诺环素也显示出ABR阈值的显著降低。在中枢听觉系统中,本研究发现米诺环素纳米颗粒改善了下丘的兴奋;并且冲击波暴露后的星形胶质细胞和小胶质细胞活化通过米诺环素纳米颗粒给药而减少。研究表明,在中度冲击波诱导的听力损失中,米诺环素及其纳米颗粒制剂对ABR损伤的恢复表现出最佳的治疗效果,并通过中枢听觉系统发挥保护作用。总之,靶向和非靶向纳米颗粒制剂对爆炸性听力损失具有治疗作用。
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来源期刊
Journal of Otology
Journal of Otology Medicine-Otorhinolaryngology
CiteScore
2.70
自引率
0.00%
发文量
461
审稿时长
18 days
期刊介绍: Journal of Otology is an open access, peer-reviewed journal that publishes research findings from disciplines related to both clinical and basic science aspects of auditory and vestibular system and diseases of the ear. This journal welcomes submissions describing original experimental research that may improve our understanding of the mechanisms underlying problems of basic or clinical significance and treatment of patients with disorders of the auditory and vestibular systems. In addition to original papers the journal also offers invited review articles on current topics written by leading experts in the field. The journal is of primary importance for all scientists and practitioners interested in audiology, otology and neurotology, auditory neurosciences and related disciplines. Journal of Otology welcomes contributions from scholars in all countries and regions across the world.
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