Intravenous delivery of furosemide using lipid-based versus polymer-based nanocapsules: in vitro and in vivo studies.

IF 2.6 4区 医学 Q2 PHARMACOLOGY & PHARMACY Pharmaceutical Development and Technology Pub Date : 2024-09-01 Epub Date: 2024-08-14 DOI:10.1080/10837450.2024.2389855
Yasmine N Kamel, Eman M El-Marakby, Heba A Gad
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Abstract

Objectives: Furosemide (FSM), a potent loop diuretic, is used to treat edema due to hypertension, congestive heart failure, and liver and renal failures. FSM applications are limited by its low bioavailability. Our aim is to use different nanoencapsulation strategies to control the release of FSM and enhance its pharmacokinetic properties.

Methods: Two types of FSM-loaded nanocapsules, namely FSM-loaded lipid nanocapsules (LNCs) and polymeric nanocapsules (PNCs), were developed, physicochemically characterized, and subjected to pharmacokinetic and pharmacodynamic studies. Lipid nanocapsules were prepared by the simple phase inversion method using LabrafacTM lipid, while the polymeric nanocapsules were prepared by nanoprecipitation method using polycaprolactone polymer.

Results: Transmission electron microscopy ascertains spherical structures, corroborating the nanometric diameter of both types of nanocapsules. The particle size of the optimized FSM-loaded LNCs and FSM-loaded PNCs was 32.19 ± 0.72 nm and 230.7 ± 5.13 nm, respectively. The percent entrapment efficiency was 63.56 ± 1.40% of FSM for the optimized PNCs. The in vitro release study indicated prolonged drug release compared to drug solutions. The two loaded nanocapsules systems succeeded in enhancing the pharmacokinetic parameters in comparison to the marketed FSM solution with superior diuretic activity (p < 0.05). The results of the stability study and the terminal sterilization by autoclave indicated the superiority of LNCs over PNCs in maintaining the physical parameters under storage conditions and the drastic conditions of sterilization.

Conclusions: LNCs and PNCs are considered promising nanosysems for improving the diuretic effect of FSM.

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使用脂质纳米胶囊和聚合物纳米胶囊静脉注射呋塞米:体外和体内研究。
呋塞米(FSM)是一种强效襻利尿剂,用于治疗高血压、充血性心力衰竭、肝肾功能衰竭引起的水肿。呋塞米的应用因其生物利用度低而受到限制。我们的目标是使用不同的纳米封装策略来控制 FSM 的释放,并增强其药代动力学特性。随后,我们开发了两种负载 FSM 的纳米胶囊,即负载 FSM 的脂质纳米胶囊(LNCs)和聚合物纳米胶囊(PNCs),对其进行了理化表征,并进行了药代动力学和药效学研究。脂质纳米胶囊是用 LabrafacTM 脂质通过简单的反相法制备的,而聚合物纳米胶囊则是用聚己内酯聚合物通过纳米沉淀法制备的。透射电子显微镜检查发现,两种类型的纳米胶囊均为球形结构,直径均为纳米级。优化后的 FSM 负载 LNCs 和 FSM 负载 PNCs 的粒径分别为 32.19 ± 0.72 nm 和 230.7 ± 5.13 nm。优化后的 PNCs 的夹带效率为 63.56 ± 1.40%。体外释放研究表明,与药物溶液相比,药物释放时间更长。与市场上销售的 FSM 溶液相比,这两种负载纳米胶囊系统成功地提高了药代动力学参数,并具有卓越的利尿活性(p
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来源期刊
CiteScore
5.90
自引率
2.90%
发文量
82
审稿时长
1 months
期刊介绍: Pharmaceutical Development & Technology publishes research on the design, development, manufacture, and evaluation of conventional and novel drug delivery systems, emphasizing practical solutions and applications to theoretical and research-based problems. The journal aims to publish significant, innovative and original research to advance the frontiers of pharmaceutical development and technology. Through original articles, reviews (where prior discussion with the EIC is encouraged), short reports, book reviews and technical notes, Pharmaceutical Development & Technology covers aspects such as: -Preformulation and pharmaceutical formulation studies -Pharmaceutical materials selection and characterization -Pharmaceutical process development, engineering, scale-up and industrialisation, and process validation -QbD in the form a risk assessment and DoE driven approaches -Design of dosage forms and drug delivery systems -Emerging pharmaceutical formulation and drug delivery technologies with a focus on personalised therapies -Drug delivery systems research and quality improvement -Pharmaceutical regulatory affairs This journal will not consider for publication manuscripts focusing purely on clinical evaluations, botanicals, or animal models.
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