Automated Non-Sterile Pharmacy Compounding: A Multi-Site Study in European Hospital and Community Pharmacies with Pediatric Immediate Release Propranolol Hydrochloride Tablets

Niklas Sandler Topelius; Farnaz Shokraneh; Mahsa Bahman; Julius Lahtinen; Niko Hassinen; Sari Airaksinen; Soumya Verma; Ludmila Hrizanovska; Jana Lass; Urve Paaver; Janika Tähnas; Catharina Kern; Frederic Lagarce; Dominic Fenske; Julia Malik; Holger Scherliess; Sara P. Cruz; Mattias Paulsson; Jan Dekker; Katja Kammonen; Maria Rautamo; Hendrik Lück; Antoine Pierrot; Stephanie Stareprawo; Marija Tubic-Grozdanis; Stefanie Zibolka; Uli Lösch; Martina Jeske; Ulrich Griesser; Karin Hummer; Andreas Thalmeier; Anna Harjans; Alexander Kruse; Ralph Heimke-Brinck; Karim Khoukh; Fabien Bruno

doi:10.3390/pharmaceutics16050678

Automated Non-Sterile Pharmacy Compounding: A Multi-Site Study in European Hospital and Community Pharmacies with Pediatric Immediate Release Propranolol Hydrochloride Tablets

Niklas Sandler Topelius^*, Farnaz Shokraneh, Mahsa Bahman, Julius Lahtinen, Niko Hassinen, Sari Airaksinen, Soumya Verma, Ludmila Hrizanovska, Jana Lass, Urve Paaver, Janika Tähnas, Catharina Kern, Frederic Lagarce, Dominic Fenske, Julia Malik, Holger Scherliess, Sara P. Cruz, Mattias Paulsson, Jan Dekker, Katja KammonenMaria Rautamo, Hendrik Lück, Antoine Pierrot, Stephanie Stareprawo, Marija Tubic-Grozdanis, Stefanie Zibolka, Uli Lösch, Martina Jeske, Ulrich Griesser, Karin Hummer, Andreas Thalmeier, Anna Harjans, Alexander Kruse, Ralph Heimke-Brinck, Karim Khoukh, Fabien Bruno

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Pharmacy compounding, the art and science of preparing customized medications to meet individual patient needs, is on the verge of transformation. Traditional methods of compounding often involve manual and time-consuming processes, presenting challenges in terms of consistency, dosage accuracy, quality control, contamination, and scalability. However, the emergence of cutting-edge technologies has paved a way for a new era for pharmacy compounding, promising to redefine the way medications are prepared and delivered as pharmacy-tailored personalized medicines. In this multi-site study, more than 30 hospitals and community pharmacies from eight countries in Europe utilized a novel automated dosing approach inspired by 3D printing for the compounding of non-sterile propranolol hydrochloride tablets. CuraBlend^® excipient base, a GMP-manufactured excipient base (pharma-ink) intended for automated compounding applications, was used. A standardized study protocol to test the automated dosing of tablets with variable weights was performed in all participating pharmacies in four different iterative phases. Integrated quality control was performed with an in-process scale and NIR spectroscopy supported by HPLC content uniformity measurements. In total, 6088 propranolol tablets were produced at different locations during this study. It was shown that the dosing accuracy of the process increased from about 90% to 100% from Phase 1 to Phase 4 by making improvements to the formulation and the hardware solutions. The results indicate that through this automated and quality controlled compounding approach, extemporaneous pharmacy manufacturing can take a giant leap forward towards automation and digital manufacture of dosage forms in hospital pharmacies and compounding pharmacies.

Originalspråk	Engelska
Artikelnummer	678
Tidskrift	Pharmaceutics
Volym	16
Nummer	5
DOI	https://doi.org/10.3390/pharmaceutics16050678
Status	Publicerad - maj 2024
MoE-publikationstyp	A1 Tidskriftsartikel-refererad

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10.3390/pharmaceutics16050678

pharmaceutics-16-00678Slutlig publicerad version, 15,9 MBLicens: CC BY

https://urn.fi/URN:NBN:fi-fe2025021211652

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Sandler Topelius, N., Shokraneh, F., Bahman, M., Lahtinen, J., Hassinen, N., Airaksinen, S., Verma, S., Hrizanovska, L., Lass, J., Paaver, U., Tähnas, J., Kern, C., Lagarce, F., Fenske, D., Malik, J., Scherliess, H., Cruz, S. P., Paulsson, M., Dekker, J., ... Bruno, F. (2024). Automated Non-Sterile Pharmacy Compounding: A Multi-Site Study in European Hospital and Community Pharmacies with Pediatric Immediate Release Propranolol Hydrochloride Tablets. Pharmaceutics, 16(5), Artikel 678. https://doi.org/10.3390/pharmaceutics16050678

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title = "Automated Non-Sterile Pharmacy Compounding: A Multi-Site Study in European Hospital and Community Pharmacies with Pediatric Immediate Release Propranolol Hydrochloride Tablets",

abstract = "Pharmacy compounding, the art and science of preparing customized medications to meet individual patient needs, is on the verge of transformation. Traditional methods of compounding often involve manual and time-consuming processes, presenting challenges in terms of consistency, dosage accuracy, quality control, contamination, and scalability. However, the emergence of cutting-edge technologies has paved a way for a new era for pharmacy compounding, promising to redefine the way medications are prepared and delivered as pharmacy-tailored personalized medicines. In this multi-site study, more than 30 hospitals and community pharmacies from eight countries in Europe utilized a novel automated dosing approach inspired by 3D printing for the compounding of non-sterile propranolol hydrochloride tablets. CuraBlend{\textregistered} excipient base, a GMP-manufactured excipient base (pharma-ink) intended for automated compounding applications, was used. A standardized study protocol to test the automated dosing of tablets with variable weights was performed in all participating pharmacies in four different iterative phases. Integrated quality control was performed with an in-process scale and NIR spectroscopy supported by HPLC content uniformity measurements. In total, 6088 propranolol tablets were produced at different locations during this study. It was shown that the dosing accuracy of the process increased from about 90% to 100% from Phase 1 to Phase 4 by making improvements to the formulation and the hardware solutions. The results indicate that through this automated and quality controlled compounding approach, extemporaneous pharmacy manufacturing can take a giant leap forward towards automation and digital manufacture of dosage forms in hospital pharmacies and compounding pharmacies.",

keywords = "automated compounding, hospital and community pharmacies, integrated quality control, pharma inks",

author = "{Sandler Topelius}, Niklas and Farnaz Shokraneh and Mahsa Bahman and Julius Lahtinen and Niko Hassinen and Sari Airaksinen and Soumya Verma and Ludmila Hrizanovska and Jana Lass and Urve Paaver and Janika T{\"a}hnas and Catharina Kern and Frederic Lagarce and Dominic Fenske and Julia Malik and Holger Scherliess and Cruz, {Sara P.} and Mattias Paulsson and Jan Dekker and Katja Kammonen and Maria Rautamo and Hendrik L{\"u}ck and Antoine Pierrot and Stephanie Stareprawo and Marija Tubic-Grozdanis and Stefanie Zibolka and Uli L{\"o}sch and Martina Jeske and Ulrich Griesser and Karin Hummer and Andreas Thalmeier and Anna Harjans and Alexander Kruse and Ralph Heimke-Brinck and Karim Khoukh and Fabien Bruno",

note = "Publisher Copyright: {\textcopyright} 2024 by the authors.",

year = "2024",

month = may,

doi = "10.3390/pharmaceutics16050678",

language = "English",

volume = "16",

journal = "Pharmaceutics",

issn = "1999-4923",

publisher = "MDPI",

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Sandler Topelius, N, Shokraneh, F , Bahman, M, Lahtinen, J, Hassinen, N, Airaksinen, S, Verma, S, Hrizanovska, L, Lass, J, Paaver, U, Tähnas, J, Kern, C, Lagarce, F, Fenske, D, Malik, J, Scherliess, H, Cruz, SP, Paulsson, M, Dekker, J, Kammonen, K, Rautamo, M, Lück, H, Pierrot, A, Stareprawo, S, Tubic-Grozdanis, M, Zibolka, S, Lösch, U, Jeske, M, Griesser, U, Hummer, K, Thalmeier, A, Harjans, A, Kruse, A, Heimke-Brinck, R, Khoukh, K & Bruno, F 2024, 'Automated Non-Sterile Pharmacy Compounding: A Multi-Site Study in European Hospital and Community Pharmacies with Pediatric Immediate Release Propranolol Hydrochloride Tablets', Pharmaceutics, vol. 16, nr. 5, 678. https://doi.org/10.3390/pharmaceutics16050678

Automated Non-Sterile Pharmacy Compounding: A Multi-Site Study in European Hospital and Community Pharmacies with Pediatric Immediate Release Propranolol Hydrochloride Tablets. / Sandler Topelius, Niklas; Shokraneh, Farnaz ; Bahman, Mahsa et al.
I: Pharmaceutics, Vol. 16, Nr. 5, 678, 05.2024.

Forskningsoutput: Tidskriftsbidrag › Artikel › Vetenskaplig › Peer review

TY - JOUR

T1 - Automated Non-Sterile Pharmacy Compounding

T2 - A Multi-Site Study in European Hospital and Community Pharmacies with Pediatric Immediate Release Propranolol Hydrochloride Tablets

AU - Sandler Topelius, Niklas

AU - Shokraneh, Farnaz

AU - Bahman, Mahsa

AU - Lahtinen, Julius

AU - Hassinen, Niko

AU - Airaksinen, Sari

AU - Verma, Soumya

AU - Hrizanovska, Ludmila

AU - Lass, Jana

AU - Paaver, Urve

AU - Tähnas, Janika

AU - Kern, Catharina

AU - Lagarce, Frederic

AU - Fenske, Dominic

AU - Malik, Julia

AU - Scherliess, Holger

AU - Cruz, Sara P.

AU - Paulsson, Mattias

AU - Dekker, Jan

AU - Kammonen, Katja

AU - Rautamo, Maria

AU - Lück, Hendrik

AU - Pierrot, Antoine

AU - Stareprawo, Stephanie

AU - Tubic-Grozdanis, Marija

AU - Zibolka, Stefanie

AU - Lösch, Uli

AU - Jeske, Martina

AU - Griesser, Ulrich

AU - Hummer, Karin

AU - Thalmeier, Andreas

AU - Harjans, Anna

AU - Kruse, Alexander

AU - Heimke-Brinck, Ralph

AU - Khoukh, Karim

AU - Bruno, Fabien

PY - 2024/5

Y1 - 2024/5

N2 - Pharmacy compounding, the art and science of preparing customized medications to meet individual patient needs, is on the verge of transformation. Traditional methods of compounding often involve manual and time-consuming processes, presenting challenges in terms of consistency, dosage accuracy, quality control, contamination, and scalability. However, the emergence of cutting-edge technologies has paved a way for a new era for pharmacy compounding, promising to redefine the way medications are prepared and delivered as pharmacy-tailored personalized medicines. In this multi-site study, more than 30 hospitals and community pharmacies from eight countries in Europe utilized a novel automated dosing approach inspired by 3D printing for the compounding of non-sterile propranolol hydrochloride tablets. CuraBlend® excipient base, a GMP-manufactured excipient base (pharma-ink) intended for automated compounding applications, was used. A standardized study protocol to test the automated dosing of tablets with variable weights was performed in all participating pharmacies in four different iterative phases. Integrated quality control was performed with an in-process scale and NIR spectroscopy supported by HPLC content uniformity measurements. In total, 6088 propranolol tablets were produced at different locations during this study. It was shown that the dosing accuracy of the process increased from about 90% to 100% from Phase 1 to Phase 4 by making improvements to the formulation and the hardware solutions. The results indicate that through this automated and quality controlled compounding approach, extemporaneous pharmacy manufacturing can take a giant leap forward towards automation and digital manufacture of dosage forms in hospital pharmacies and compounding pharmacies.

AB - Pharmacy compounding, the art and science of preparing customized medications to meet individual patient needs, is on the verge of transformation. Traditional methods of compounding often involve manual and time-consuming processes, presenting challenges in terms of consistency, dosage accuracy, quality control, contamination, and scalability. However, the emergence of cutting-edge technologies has paved a way for a new era for pharmacy compounding, promising to redefine the way medications are prepared and delivered as pharmacy-tailored personalized medicines. In this multi-site study, more than 30 hospitals and community pharmacies from eight countries in Europe utilized a novel automated dosing approach inspired by 3D printing for the compounding of non-sterile propranolol hydrochloride tablets. CuraBlend® excipient base, a GMP-manufactured excipient base (pharma-ink) intended for automated compounding applications, was used. A standardized study protocol to test the automated dosing of tablets with variable weights was performed in all participating pharmacies in four different iterative phases. Integrated quality control was performed with an in-process scale and NIR spectroscopy supported by HPLC content uniformity measurements. In total, 6088 propranolol tablets were produced at different locations during this study. It was shown that the dosing accuracy of the process increased from about 90% to 100% from Phase 1 to Phase 4 by making improvements to the formulation and the hardware solutions. The results indicate that through this automated and quality controlled compounding approach, extemporaneous pharmacy manufacturing can take a giant leap forward towards automation and digital manufacture of dosage forms in hospital pharmacies and compounding pharmacies.

KW - automated compounding

KW - hospital and community pharmacies

KW - integrated quality control

KW - pharma inks

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U2 - 10.3390/pharmaceutics16050678

DO - 10.3390/pharmaceutics16050678

M3 - Article

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SN - 1999-4923

VL - 16

JO - Pharmaceutics

JF - Pharmaceutics

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ER -

Automated Non-Sterile Pharmacy Compounding: A Multi-Site Study in European Hospital and Community Pharmacies with Pediatric Immediate Release Propranolol Hydrochloride Tablets

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