Detailed Information on Publication Record
2023
Development of 3D Printed Multi-Layered Orodispersible Films with Porous Structure Applicable as a Substrate for Inkjet Printing
ELBL, Jan, Martin VESELÝ, Dagmar BLAHÁČKOVÁ, Jaroslav ONDRUS, Pavel KULICH et. al.Basic information
Original name
Development of 3D Printed Multi-Layered Orodispersible Films with Porous Structure Applicable as a Substrate for Inkjet Printing
Authors
ELBL, Jan (203 Czech Republic, belonging to the institution), Martin VESELÝ (203 Czech Republic, belonging to the institution), Dagmar BLAHÁČKOVÁ (203 Czech Republic, belonging to the institution), Jaroslav ONDRUS, Pavel KULICH, Eliska MASKOVA, Josef MASEK and Jan GAJDZIOK (203 Czech Republic, guarantor, belonging to the institution)
Edition
Pharmaceutics, Basel, MDPI, 2023, 1999-4923
Other information
Language
English
Type of outcome
Článek v odborném periodiku
Field of Study
30104 Pharmacology and pharmacy
Country of publisher
Switzerland
Confidentiality degree
není předmětem státního či obchodního tajemství
References:
Impact factor
Impact factor: 5.400 in 2022
RIV identification code
RIV/00216224:14160/23:00130562
Organization unit
Faculty of Pharmacy
UT WoS
000940009800001
Keywords in English
oral films; fast dissolving films; porous films; 3D print; inkjet print; individualized therapy
Tags
International impact, Reviewed
Změněno: 6/4/2023 15:21, JUDr. Sabina Krejčiříková
Abstract
V originále
The direct tailoring of the size, composition, or number of layers belongs to the advantages of 3D printing employment in producing orodispersible films (ODFs) compared to the frequently utilized solvent casting method. This study aimed to produce porous ODFs as a substrate for medicated ink deposited by a 2D printer. The innovative semi-solid extrusion 3D printing method was employed to produce multilayered ODFs, where the bottom layer assures the mechanical properties. In contrast, the top layer provides a porous structure for ink entrapment. Hydroxypropyl methylcellulose and polyvinyl alcohol were utilized as film-forming polymers, glycerol as a plasticizer, and sodium starch glycolate as a disintegrant in the bottom matrix. Several porogen agents (Aeroperl® 300, Fujisil®, Syloid® 244 FP, Syloid® XDP 3050, Neusilin® S2, Neusilin® US2, and Neusilin® UFL2) acted as porosity enhancers in the two types of top layer. ODFs with satisfactory disintegration time were prepared. The correlation between the porogen content and the mechanical properties was proved. A porous ODF structure was detected in most samples and linked to the porogen content. SSE 3D printing represents a promising preparation method for the production of porous ODFs as substrates for subsequent drug deposition by 2D printing, avoiding the difficulties arising in casting or printing medicated ODFs directly.
Links
MUNI/A/1151/2021, interní kód MU |
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