音乐的声学叠加是否能提高气溶胶对上颌窦的渗透?

Laurent Navarro, L. Leclerc, J. Pourchez
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This common disease is marked by chronic sinonasal symptoms persisting for greater than 12 weeks that above all diminish patients' quality of life. It is a significant and increasing health problem which results in a large financial burden on society. CRS reportedly affects 5% to 13% of the general population in the United States, Europe and China [3]. Recent years have seen numbers of findings and improvements in CRS treatment using nebulization process [4-5]. Targeting delivery of nebulized antibiotics into the maxillary sinuses, the sites of infection, could improve clinical outcomes in patients with CRS. Thus, nasal drug delivery by nebulization is widely used in sinus disorders, because of its safety and convenience and due to its advantages as a painless therapy. Topical delivery of antimicrobial drugs for treatment of CRS also brings intuitive advantages over systemic therapy. 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引用次数: 4

摘要

慢性鼻窦炎(CRS)是一种常见的疾病,其特征是鼻子和副鼻窦的粘膜炎症。近年来,在使用雾化工艺治疗CRS方面有了许多发现和改进。在感染部位上颌窦靶向给药,可以改善CRS患者的临床预后。因此,鼻喷雾剂给药由于其安全、方便和无痛治疗的优点而被广泛应用于鼻窦疾病。然而,促进气溶胶渗透到窦腔的雾化条件尚未很好地建立。尽管很少有研究显示临床益处,但气雾疗法治疗CRS的实践尚未得到彻底研究。本文表明,将音乐信号叠加到气溶胶中,为CRS患者的治疗提供了一种相当创新的解决方案。它包含频率值,其中患者上颌窦的共振频率与患者初始鼻窦解剖和病理阶段无关,因此更有效地将气溶胶输送到上颌窦。“音乐治疗”。这句格言通常被神经心理学家和音乐治疗师基于心理学方法研究[1]。不幸的是,人们知道这很难证明,因为它几乎是不可测量的[2]。此外,在这些研究中,音乐传统上是通过扬声器或耳机来使用的,就像它的设计初衷一样。同时,众所周知,音乐在信号属性方面具有复杂的特征,特别是当它被视为随机信号时。简而言之,音乐属于伪平稳性信号,这类信号既有统计随机性,又有平稳性。此外,音乐有一个很大的频谱,这主要与人耳的20Hz到20kHz的反应有关。大多数音乐信息位于40Hz-16kHz范围内,这个范围很大程度上取决于音乐风格。当此类频率范围必须用于诸如雾化过程之类的医疗时,可以利用这些特性。而不是使用像正弦信号或正弦信号之和这样的耳朵疲劳信号。然后,音乐可以用它的特点作为一个信号。如果是音乐,患者更容易接受信号的存在和听觉。慢性鼻窦炎(CRS)是一种以鼻和副鼻窦粘膜炎症为特征的疾病。这种常见病的特点是慢性鼻窦症状持续12周以上,从而降低患者的生活质量。这是一个日益严重的健康问题,给社会造成了巨大的经济负担。据报道,在美国、欧洲和中国,CRS影响了5%至13%的普通人群[3]。近年来,使用雾化工艺治疗CRS有了许多发现和改进[4-5]。在感染部位上颌窦靶向给药,可以改善CRS患者的临床预后。因此,鼻喷雾剂给药由于其安全、方便和无痛治疗的优点而被广泛应用于鼻窦疾病。局部使用抗菌药物治疗CRS也比全身治疗有直观的优势。它最大限度地减少了全身副作用的风险,在非靶向区域产生抗生素耐药性,并允许高局部药物浓度沉积,同时最小的全身吸附。然而,促进气溶胶渗透到窦腔的雾化条件尚未建立。尽管很少有研究显示临床益处,但气雾疗法治疗CRS的实践尚未得到彻底研究。为了增强雾化颗粒在通风不良区域(即健康人的鼻窦)或不通风区域(即鼻窦疾病患者的鼻窦)的渗透,可以在常规雾化器中加入由声波气流产生的压力梯度。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Does Acoustic Overlay of Music Improve Aerosol Penetration into Maxillary Sinuses?
Chronic rhinosinusitis (CRS) is a common disorder characterized by mucosal inflammation of the nose and paranasal sinuses. Recent years have seen numbers of findings and improvements in CRS treatment using nebulization process. Targeting delivery of nebulized antibiotics into the maxillary sinuses, the sites of infection, could improve clinical outcomes in patients with CRS. Thus, nasal drug delivery by nebulization is widely used in sinus disorders, because of its safety and convenience and due to its advantages as a painless therapy. However, the nebulization conditions to facilitate penetration of aerosols into the sinus cavities are not well established. The practice of aerosol therapy to treat CRS has not been studied thoroughly, despite few works have shown clinical benefit. This paper demonstrates that the music signal superimposed to aerosol provides a considerable innovative solution for the treatment of CRS patients. It encompasses frequency values among which the resonance frequency of the maxillary sinuses of patients regardless the initial sinus anatomy of the patient and the pathology stage and is thus more efficient to deliver the aerosol into the maxillary sinuses. "Music heals". This adage is generally studied by neuropsychologists and music therapists based on psychological approaches [1]. Unfortunately, one knows that it is difficult to prove since it is hardly measurable [2]. Moreover, in these studies, music is used traditionally through speakers or headphones as it was designed for. In the meantime, it is well known that music has complex features in terms of signal properties, especially if regarded as a random signal. In short, music belongs to the class of pseudo-stationarity signals which implies some statistical randomness but also some stationarity. In addition, music has a large frequency spectrum which is mainly linked to the human ear's response of 20Hz to 20kHz. Most of the musical information lies in the 40Hz-16kHz range, and this range depends a lot on the musical style. These characteristics can be exploited when such frequency ranges must be used for medical treatments like nebulization process. Instead of using ear-fatiguing signals like sinusoidal, or sum of sinusoidal, signals. Then, music can be used for its characteristics as a signal. Patients are more likely to accept the presence and the hearing of a signal if it is music. Chronic rhinosinusitis (CRS) is a disorder characterized by mucosal inflammation of the nose and paranasal sinuses. This common disease is marked by chronic sinonasal symptoms persisting for greater than 12 weeks that above all diminish patients' quality of life. It is a significant and increasing health problem which results in a large financial burden on society. CRS reportedly affects 5% to 13% of the general population in the United States, Europe and China [3]. Recent years have seen numbers of findings and improvements in CRS treatment using nebulization process [4-5]. Targeting delivery of nebulized antibiotics into the maxillary sinuses, the sites of infection, could improve clinical outcomes in patients with CRS. Thus, nasal drug delivery by nebulization is widely used in sinus disorders, because of its safety and convenience and due to its advantages as a painless therapy. Topical delivery of antimicrobial drugs for treatment of CRS also brings intuitive advantages over systemic therapy. It minimizes the risk of systemic side effects, the development of antibiotic resistance in non-targeted areas and allows a high topical drug concentration deposition with a minimal systemic adsorption. However, the nebulization conditions to facilitate penetration of aerosols into the sinus cavities are not well-established. The practice of aerosol therapy to treat CRS has not been studied thoroughly, despite few works have shown clinical benefit. To enhance the penetration of nebulized particles into badly ventilated areas (i.e. sinuses in healthy subject) or non-ventilated areas (i.e. sinuses in patients with sinus diseases), a pressure gradient generated by an acoustic airflow can be added to a usual nebulizer.
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