Rajput Amarjitsing, Pingale Prashant, Telange Darshan, Musale Shubham, Chalikwar Shailesh
Department of Pharmaceutics, Bharti Vidyapeeth Deemed University, Poona College of Pharmacy, Erandwane, Pune, 411038, Maharashtra, India.
Department of Pharmaceutics, GES's Sir Dr. M. S. Gosavi College of Pharmaceutical Education and Research, Nashik, 422005, Maharashtra, India.
Heliyon. 2024 Apr 4;10(10):e29064. doi: 10.1016/j.heliyon.2024.e29064. eCollection 2024 May 30.
Almost all biological processes in the human body are regulated by circadian rhythm, which results in drastically different biochemical and physiological conditions throughout a 24 h period. Hence, suitable drug delivery systems should be efficiently monitored to attain the required therapeutic plasma concentration and therapeutic drug responses when needed as per chrono pharmacological concepts. "Chronotherapy" is the fast and transient release of a particular quantity of drug substance post a predetermined off-release period, termed as 'lag time'. Due to rhythmic variations, it is typically unnecessary to administer a medicine drug in an unhealthy condition constantly. Pulsatile drug delivery systems have received a lot of attention in pharmaceutical development because they give a quick or rate-controlled drug release after administration, followed by an anticipated lag period. Patients with various illnesses, such as asthma, hypertension, joint inflammation, and ulcers, can benefit from a pulsatile drug delivery system. Thus, a pulsatile drug delivery system may be a potential system for managing different diseases. This review mainly focuses on pulsatile drug delivery systems. It reviews and discusses the rationale, drug release mechanism, need, and system classification. In addition, it covers mainly externally regulated pulsatile drug delivery systems and recent advances in pulsatile systems like artificial intelligence and 3D printing. It also covers the ethical issues associated with pulsatile drug delivery systems.
人体中几乎所有的生物过程都受昼夜节律调节,这导致在24小时内出现截然不同的生化和生理状况。因此,根据时辰药理学概念,应有效监测合适的药物递送系统,以便在需要时达到所需的治疗血浆浓度和治疗药物反应。“时辰治疗法”是在预定的非释放期(称为“滞后时间”)后快速、瞬时释放特定量的药物物质。由于节律变化,通常无需在非健康状态下持续给药。脉冲式药物递送系统在药物研发中备受关注,因为给药后它们能实现快速或速率可控的药物释放,随后是预期的滞后阶段。患有各种疾病(如哮喘、高血压、关节炎症和溃疡)的患者可从脉冲式药物递送系统中受益。因此,脉冲式药物递送系统可能是一种用于管理不同疾病的潜在系统。本综述主要聚焦于脉冲式药物递送系统。它回顾并讨论了其原理、药物释放机制、需求和系统分类。此外,它主要涵盖外部调节的脉冲式药物递送系统以及脉冲式系统的最新进展,如人工智能和3D打印。它还涵盖了与脉冲式药物递送系统相关的伦理问题。