Advances in Nanoparticulate Therapeutics for Acute Lung Injury:
Addressing Unmet Clinical Needs through Targeted Therapy and
Controlled Delivery of Drug
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引用次数: 0
Abstract
Acute lung injury (ALI) is a life-threatening condition characterized by
severe invasion of inflammatory cells, lung edema, and the development of intestinal fibrosis. The
activation of proinflammatory cytokines like TNF-α, IL-6, and others results in the development
of several risk factors for ALI. It has been observed that no viable therapies for lung injuries exist.
Therefore, there is a significant need for healthcare requirements. However, few effective nonpharmacological
and pharmacological treatments are available, which may have assisted doctors
in reducing the likelihood of illness development. Still, not much progress has been made in illness
management.
This review aimed to briefly discuss pharmacological and non-pharmacological approaches
for treating ALI.
Nowadays, drug delivery and illness diagnosis are the most advanced areas of modern
nanotechnology research, particularly concerning the lungs. So, we focused on various novel approaches,
viz., organic nanoparticles, inorganic nanoparticles, metal nanoparticles, and bio nanoparticles,
that combat ALI and improve lung functions. This review discussed many studies and
the advancement of different nanomaterials as novel drug carriers in the lungs that can influence
the immune system, suppressing proinflammatory cytokines and improving lung functions.
Another aspect of studying nanotechnology is the release kinetics of nanoparticles and
safety when administered to a targeted tissue.
The higher uptake of nanomaterials and, thus, the drugs is another advancement in
nanotechnology. Herein, we explored different approaches to improving and curing acute lung injury.
急性肺损伤(ALI)是一种危及生命的疾病,其特征是炎症细胞的严重入侵、肺水肿和肠纤维化的发展。TNF-α、IL-6 等促炎细胞因子的激活导致了多种 ALI 危险因素的出现。据观察,目前尚无治疗肺损伤的可行疗法。然而,目前有效的非药物和药物治疗方法很少,这可能有助于医生降低疾病发生的可能性。本综述旨在简要讨论治疗 ALI 的药物和非药物方法。如今,药物输送和疾病诊断是现代纳米技术研究的最前沿领域,尤其是在肺部方面。因此,我们重点研究了各种新型方法,即有机纳米粒子、无机纳米粒子、金属纳米粒子和生物纳米粒子,以对抗 ALI 并改善肺功能。研究纳米技术的另一个方面是纳米颗粒的释放动力学以及在靶组织中给药的安全性。在此,我们探讨了改善和治疗急性肺损伤的不同方法。
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