A floating 3D printed polypill formulation for the coadministration and sustained release of antihypertensive drugs

剂型 氢氯噻嗪 药理学 化学 活性成分 药代动力学 阿替洛尔 药剂学 生物医学工程 色谱法 医学 血压 放射科
作者
Paola Zgouro,Orestis L. Katsamenis,Thomas Moschakis,Georgios K. Eleftheriadis,Athanasios S. Kyriakidis,Konstantina Chachlioutaki,Paraskevi Kyriaki Monou,Marianna Ntorkou,Constantinos K. Zacharis,Nikolaos Bouropoulos,Dimitrios G. Fatouros,Christina Karavasili,Christos I. Gioumouxouzis
出处
期刊:International Journal of Pharmaceutics [Elsevier BV]
卷期号:655: 124058-124058 被引量:9
标识
DOI:10.1016/j.ijpharm.2024.124058
摘要

Polypharmacy is a common issue, especially among elderly patients resulting in administration errors and patient inconvenience. Hypertension is a prevalent health condition that frequently leads to polypharmacy, as its treatment typically requires the co-administration of more than one different Active Pharmaceutical Ingredients (API's). To address these issues, floating hollow torus-shaped dosage forms were developed, aiming at providing prolonged gastric retention and sustained drug release. The dosage forms (polypills) containing three anti-hypertensive API's (diltiazem (DIL), propranolol (PRP) and hydrochlorothiazide (HCTZ)) were created via Fused Deposition Modelling 3D printing. A multitude of the dosage forms were loaded into a capsule and the resulting formulation achieved prolonged retention times over a 12-hour period in vitro, by leveraging both the buoyancy of the dosage forms, and the "cheerios effect" that facilitates the aggregation and retention of the dosage forms via a combination of surface tension and shape of the objects. Physicochemical characterization methods and imaging techniques were employed to investigate the properties and the internal and external structure of the dosage forms. Furthermore, an ex vivo porcine stomach model revealed substantial aggregation, adhesion and retention of the 3D printed dosage forms in porcine stomach. In vitro dissolution testing demonstrated almost complete first-order release of PRP and DIL (93.52 % and 99.9 %, respectively) and partial release of HCTZ (65.22 %) in the 12 h timeframe. Finally, a convolution-based single-stage approach was employed in order to predict the pharmacokinetic (PK) parameters of the API's of the formulation and the resemblance of their PK behavior with previously reported data.
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