Digital light processing (DLP) 3D printing technique applied in the fabrication of two-layered tablets: the concept of a combined polypill
3D tehnika digitalne obrade svetlosti (DLP) primenjena u izradi dvoslojnih tableta: koncept kombinovane polipilule
Article (Published version)
Metadata
Show full item recordAbstract
Ever since 3D printing was introduced to the field of pharmacy, it has caused a paradigm
shift from the manufacturing of large-scale to small batches of medicines tailored accordingly to
the specific needs of patients. This study aimed to formulate and fabricate two-layered 3D tablets
using the digital light processing (DLP) technique. Hydrochlorothiazide (HHT,5%,w/w) and
warfarin sodium (WS,5%,w/w) were selected as model drugs. The printing process was initiated
with 0.1% of photoinitiator, at a constant ratio of poly(ethylene glycol)diacrylate and
poly(ethylene glycol) 400, 1:1, with the addition of water (10%,w/w). Single-layered tablets of
8.00 mm diameter and 1.50 mm thickness, containing HHT and WS respectively, were
successfully printed, as well as combined two-layered 3D tablets, with each of the active
substances in separate layers. Dissolution tests of single-layered tablets showed immediate, but
incomplete release of WS (81.47±1.47%, after 45min), and prolonged and... complete release of
HHT (98.17±3.11%, after 8h), while significantly slower and incomplete release of both drugs
from the combined two-layered 3D tablets was observed. The absence of drug-polymer
interaction and presence of a layered cross-sectional tablet structure were confirmed. DLP
technique enables simple and rapid fabrication of combined two-layered 3D tablets, while further
optimization of formulation factors is necessary to achieve complete drug release.
Uvođenje tehnologije 3D štampe u oblasti farmacije uslovilo je razvoj fundamentalnih promena, pri čemu serijska proizvodnja velikih šarži pretenduje da bude zamenjena malim serijama lekova prilagođenih prema specifičnim potrebama pacijenata. Cilj istraživanja bio je da se formulišu i izrade dvoslojne tablete primenom tehnike digitalne obrade svetlosti (DLP). Hidrohlortiazid (HHT, 5%, m/m) i varfarin-natrijum (WS, 5%, m/m) odabrani su kao model lekovite supstance. Proces štampanja sproveden je u prisustvu 0,1% fotoinicijatora, pri konstantnom masenom odnosu poli(etilen glikol)diakrilata i poli(etilen glikola) 400, 1:1, uz dodatak 10% vode. Jednoslojne 3D tablete prečnika 8,00 mm i debljine 1,50 mm, koje sadrže HHT, odnosno WS, kao i kombinovane dvoslojne 3D tablete, sa svakom od aktivnih supstanci u posebnom sloju, uspešno su odštampane. Prilikom ispitivanja brzine rastvaranja lekovite supstance iz jednoslojnih tableta, došlo je do trenutnog (81,47±1,47%, nakon 45 min), ali nepotpunog o...slobađanja WS, i produženog i potpunog oslobađanja HHT (98,17±3,11%, nakon 8 h), dok je iz kombinovanih tableta zapaženo znatno sporije i nepotpuno oslobađanje obe lekovite supstance. Potvrđeno je odsustvo interakcija i prisustvo slojevite strukture. DLP tehnika pruža mogućnost jednostavne i brze izrade kombinovanih tableta, pri čemu je dalja optimizacija formulacionih faktora neophodna u cilju postizanja potpunog oslobađanja lekovite supstance.
Keywords:
DLP technique / hydrochlorothiazide / warfarin sodium / combined two-layered 3D tablets / personalized medicine / DLP tehnika / hidrohlortiazid / varfarin-natrijum / kombinovane 3D tablete / personalizovana medicinaSource:
Arhiv za farmaciju, 2022, 72, 6, 674-688Publisher:
- Pharmaceutical Association of Serbia
Funding / projects:
Collections
Institution/Community
PharmacyTY - JOUR AU - Adamov, Ivana AU - Medarević, Đorđe AU - Ivković, Branka AU - Ivković, Aleksandar AU - Ibrić, Svetlana PY - 2022 UR - https://farfar.pharmacy.bg.ac.rs/handle/123456789/4411 AB - Ever since 3D printing was introduced to the field of pharmacy, it has caused a paradigm shift from the manufacturing of large-scale to small batches of medicines tailored accordingly to the specific needs of patients. This study aimed to formulate and fabricate two-layered 3D tablets using the digital light processing (DLP) technique. Hydrochlorothiazide (HHT,5%,w/w) and warfarin sodium (WS,5%,w/w) were selected as model drugs. The printing process was initiated with 0.1% of photoinitiator, at a constant ratio of poly(ethylene glycol)diacrylate and poly(ethylene glycol) 400, 1:1, with the addition of water (10%,w/w). Single-layered tablets of 8.00 mm diameter and 1.50 mm thickness, containing HHT and WS respectively, were successfully printed, as well as combined two-layered 3D tablets, with each of the active substances in separate layers. Dissolution tests of single-layered tablets showed immediate, but incomplete release of WS (81.47±1.47%, after 45min), and prolonged and complete release of HHT (98.17±3.11%, after 8h), while significantly slower and incomplete release of both drugs from the combined two-layered 3D tablets was observed. The absence of drug-polymer interaction and presence of a layered cross-sectional tablet structure were confirmed. DLP technique enables simple and rapid fabrication of combined two-layered 3D tablets, while further optimization of formulation factors is necessary to achieve complete drug release. AB - Uvođenje tehnologije 3D štampe u oblasti farmacije uslovilo je razvoj fundamentalnih promena, pri čemu serijska proizvodnja velikih šarži pretenduje da bude zamenjena malim serijama lekova prilagođenih prema specifičnim potrebama pacijenata. Cilj istraživanja bio je da se formulišu i izrade dvoslojne tablete primenom tehnike digitalne obrade svetlosti (DLP). Hidrohlortiazid (HHT, 5%, m/m) i varfarin-natrijum (WS, 5%, m/m) odabrani su kao model lekovite supstance. Proces štampanja sproveden je u prisustvu 0,1% fotoinicijatora, pri konstantnom masenom odnosu poli(etilen glikol)diakrilata i poli(etilen glikola) 400, 1:1, uz dodatak 10% vode. Jednoslojne 3D tablete prečnika 8,00 mm i debljine 1,50 mm, koje sadrže HHT, odnosno WS, kao i kombinovane dvoslojne 3D tablete, sa svakom od aktivnih supstanci u posebnom sloju, uspešno su odštampane. Prilikom ispitivanja brzine rastvaranja lekovite supstance iz jednoslojnih tableta, došlo je do trenutnog (81,47±1,47%, nakon 45 min), ali nepotpunog oslobađanja WS, i produženog i potpunog oslobađanja HHT (98,17±3,11%, nakon 8 h), dok je iz kombinovanih tableta zapaženo znatno sporije i nepotpuno oslobađanje obe lekovite supstance. Potvrđeno je odsustvo interakcija i prisustvo slojevite strukture. DLP tehnika pruža mogućnost jednostavne i brze izrade kombinovanih tableta, pri čemu je dalja optimizacija formulacionih faktora neophodna u cilju postizanja potpunog oslobađanja lekovite supstance. PB - Pharmaceutical Association of Serbia T2 - Arhiv za farmaciju T1 - Digital light processing (DLP) 3D printing technique applied in the fabrication of two-layered tablets: the concept of a combined polypill T1 - 3D tehnika digitalne obrade svetlosti (DLP) primenjena u izradi dvoslojnih tableta: koncept kombinovane polipilule VL - 72 IS - 6 SP - 674 EP - 688 DO - 10.5937/arhfarm72-40365 ER -
@article{ author = "Adamov, Ivana and Medarević, Đorđe and Ivković, Branka and Ivković, Aleksandar and Ibrić, Svetlana", year = "2022", abstract = "Ever since 3D printing was introduced to the field of pharmacy, it has caused a paradigm shift from the manufacturing of large-scale to small batches of medicines tailored accordingly to the specific needs of patients. This study aimed to formulate and fabricate two-layered 3D tablets using the digital light processing (DLP) technique. Hydrochlorothiazide (HHT,5%,w/w) and warfarin sodium (WS,5%,w/w) were selected as model drugs. The printing process was initiated with 0.1% of photoinitiator, at a constant ratio of poly(ethylene glycol)diacrylate and poly(ethylene glycol) 400, 1:1, with the addition of water (10%,w/w). Single-layered tablets of 8.00 mm diameter and 1.50 mm thickness, containing HHT and WS respectively, were successfully printed, as well as combined two-layered 3D tablets, with each of the active substances in separate layers. Dissolution tests of single-layered tablets showed immediate, but incomplete release of WS (81.47±1.47%, after 45min), and prolonged and complete release of HHT (98.17±3.11%, after 8h), while significantly slower and incomplete release of both drugs from the combined two-layered 3D tablets was observed. The absence of drug-polymer interaction and presence of a layered cross-sectional tablet structure were confirmed. DLP technique enables simple and rapid fabrication of combined two-layered 3D tablets, while further optimization of formulation factors is necessary to achieve complete drug release., Uvođenje tehnologije 3D štampe u oblasti farmacije uslovilo je razvoj fundamentalnih promena, pri čemu serijska proizvodnja velikih šarži pretenduje da bude zamenjena malim serijama lekova prilagođenih prema specifičnim potrebama pacijenata. Cilj istraživanja bio je da se formulišu i izrade dvoslojne tablete primenom tehnike digitalne obrade svetlosti (DLP). Hidrohlortiazid (HHT, 5%, m/m) i varfarin-natrijum (WS, 5%, m/m) odabrani su kao model lekovite supstance. Proces štampanja sproveden je u prisustvu 0,1% fotoinicijatora, pri konstantnom masenom odnosu poli(etilen glikol)diakrilata i poli(etilen glikola) 400, 1:1, uz dodatak 10% vode. Jednoslojne 3D tablete prečnika 8,00 mm i debljine 1,50 mm, koje sadrže HHT, odnosno WS, kao i kombinovane dvoslojne 3D tablete, sa svakom od aktivnih supstanci u posebnom sloju, uspešno su odštampane. Prilikom ispitivanja brzine rastvaranja lekovite supstance iz jednoslojnih tableta, došlo je do trenutnog (81,47±1,47%, nakon 45 min), ali nepotpunog oslobađanja WS, i produženog i potpunog oslobađanja HHT (98,17±3,11%, nakon 8 h), dok je iz kombinovanih tableta zapaženo znatno sporije i nepotpuno oslobađanje obe lekovite supstance. Potvrđeno je odsustvo interakcija i prisustvo slojevite strukture. DLP tehnika pruža mogućnost jednostavne i brze izrade kombinovanih tableta, pri čemu je dalja optimizacija formulacionih faktora neophodna u cilju postizanja potpunog oslobađanja lekovite supstance.", publisher = "Pharmaceutical Association of Serbia", journal = "Arhiv za farmaciju", title = "Digital light processing (DLP) 3D printing technique applied in the fabrication of two-layered tablets: the concept of a combined polypill, 3D tehnika digitalne obrade svetlosti (DLP) primenjena u izradi dvoslojnih tableta: koncept kombinovane polipilule", volume = "72", number = "6", pages = "674-688", doi = "10.5937/arhfarm72-40365" }
Adamov, I., Medarević, Đ., Ivković, B., Ivković, A.,& Ibrić, S.. (2022). Digital light processing (DLP) 3D printing technique applied in the fabrication of two-layered tablets: the concept of a combined polypill. in Arhiv za farmaciju Pharmaceutical Association of Serbia., 72(6), 674-688. https://doi.org/10.5937/arhfarm72-40365
Adamov I, Medarević Đ, Ivković B, Ivković A, Ibrić S. Digital light processing (DLP) 3D printing technique applied in the fabrication of two-layered tablets: the concept of a combined polypill. in Arhiv za farmaciju. 2022;72(6):674-688. doi:10.5937/arhfarm72-40365 .
Adamov, Ivana, Medarević, Đorđe, Ivković, Branka, Ivković, Aleksandar, Ibrić, Svetlana, "Digital light processing (DLP) 3D printing technique applied in the fabrication of two-layered tablets: the concept of a combined polypill" in Arhiv za farmaciju, 72, no. 6 (2022):674-688, https://doi.org/10.5937/arhfarm72-40365 . .