Inkjet Printing of Pharmaceuticals

Carou‐Senra, Paola; Rodríguez‐Pombo, Lucía; Awad, Atheer; Basit, Abdul W.; Alvarez‐Lorenzo, Carmen; Goyanes, Alvaro

doi:10.1002/adma.202309164

Cited by 8 publications

(4 citation statements)

References 234 publications

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“…In recent years, 3D printing technologies have garnered substantial attention across various industries [ 81 , 82 ], including medicine, owing to their capacity to create 3D objects layer-by-layer from digital models [ 83 ]. Particularly within the pharmaceutical realm, 3D printing offers unique opportunities to fabricate customized pharmaceutical products [ 84 , 85 ], providing full design customization, flexibility, and high control over drug release, dose personalization, and the capacity to print multiple drugs [ 86 , 87 , 88 , 89 ].…”

Section: Navigating Metabolic Mazes: Pioneering Precision Medicine In...mentioning

confidence: 99%

“…Comparatively, tableting machines, the traditional counterparts, also come with considerable costs. Moreover, the raw materials used in 3D printing—similar to those used in conventional tablet manufacturing—do not incur additional expenses [ 89 , 119 , 156 ]. Furthermore, the majority of developed formulations generally eliminate the need for extra post-printing steps, thus not incurring added costs.…”

Section: Regulatory and Financial Challengesmentioning

confidence: 99%

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3D Printing of Dietary Products for the Management of Inborn Errors of Intermediary Metabolism in Pediatric Populations

Carou-Senra,

Rodríguez-Pombo,

Monteagudo-Vilavedra

et al. 2023

Nutrients

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The incidence of Inborn Error of Intermediary Metabolism (IEiM) diseases may be low, yet collectively, they impact approximately 6–10% of the global population, primarily affecting children. Precise treatment doses and strict adherence to prescribed diet and pharmacological treatment regimens are imperative to avert metabolic disturbances in patients. However, the existing dietary and pharmacological products suffer from poor palatability, posing challenges to patient adherence. Furthermore, frequent dose adjustments contingent on age and drug blood levels further complicate treatment. Semi-solid extrusion (SSE) 3D printing technology is currently under assessment as a pioneering method for crafting customized chewable dosage forms, surmounting the primary limitations prevalent in present therapies. This method offers a spectrum of advantages, including the flexibility to tailor patient-specific doses, excipients, and organoleptic properties. These elements are pivotal in ensuring the treatment’s efficacy, safety, and adherence. This comprehensive review presents the current landscape of available dietary products, diagnostic methods, therapeutic monitoring, and the latest advancements in SSE technology. It highlights the rationale underpinning their adoption while addressing regulatory aspects imperative for their seamless integration into clinical practice.

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Section: Navigating Metabolic Mazes: Pioneering Precision Medicine In...mentioning

confidence: 99%

Section: Regulatory and Financial Challengesmentioning

confidence: 99%

3D Printing of Dietary Products for the Management of Inborn Errors of Intermediary Metabolism in Pediatric Populations

Carou-Senra,

Rodríguez-Pombo,

Monteagudo-Vilavedra

et al. 2023

Nutrients

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“…One of the main challenges associated with droplet-based printing techniques in the preparation of personalized medicines is the development of pharmaceutical inks (similar to bioinks in bioprinting) with suitable mechanical characteristics and adjustable drug release time. 13,19,20 Pharmaceutical inks are meticulously formulated inks that contain drugs and excipient substances. The formulation and components of pharmaceutical inks are the keys to precise and adaptable material deposition in the printing process.…”

Section: ■ Introductionmentioning

confidence: 99%

“…Biomedical additive manufacturing is gaining popularity for low-cost prototyping and manufacturing due to its advantages in noncontact printing, speed, and accuracy. − Recently, droplet-based two-dimensional (2D) and three-dimensional (3D) printing techniques like inkjet printing have become hot research focus for appropriate pharmaceutical applications, − allowing the creation of personalized medicine and targeted drug delivery system through automated control over drug doses and releases, making the vision of patient-specific treatment on the horizon tangible reality. ,,− However, further exploration and optimization are needed to fully utilize the capabilities of droplet-based 2D and 3D printing techniques in healthcare applications. One of the main challenges associated with droplet-based printing techniques in the preparation of personalized medicines is the development of pharmaceutical inks (similar to bioinks in bioprinting) with suitable mechanical characteristics and adjustable drug release time. ,, Pharmaceutical inks are meticulously formulated inks that contain drugs and excipient substances. The formulation and components of pharmaceutical inks are the keys to precise and adaptable material deposition in the printing process.…”

Section: Introductionmentioning

confidence: 99%

Altering Mechanical and Dissolution Properties of Coffee Deposit by Adding Glucose

Beigtan,

Haddadnezhad,

Weon

2024

Langmuir

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Glucose modifies the mechanical stability of coffee films and facilitates their dissolution dynamics at the microscale, rendering glucose-coffee a valuable natural biomaterial system for studying pharmaceutical applications. We show the glucosedependent inhibition of crack propagation during the evaporation of glucose-coffee droplets. The addition of glucose increases the hardness, stiffness, and shear modulus of films, as measured by surface nanomechanical testing. The glucose-coffee film dissolves faster and more evenly than the pure coffee film through interfaces. The water penetrates through well-dissolved glucose channels. The modified mechanical properties and adjustable dissolution time, coupled with edibility, position the glucose-modified coffee as an excellent candidate for developing pharmaceutical inks for personalized medicine droplet-based printing.

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Tailor‐Made Doses of Pharmaceuticals by Tunable Modular Design: A Case Study on Tapering Antidepressant Medication

Ahola,

Raijada,

Cornett

et al. 2024

Advanced Materials

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An abrupt cessation of antidepressant medication can be challenging due to the appearance of withdrawal symptoms. A slow hyperbolic tapering of an antidepressant, such as citalopram hydrobromide (CHB), can mitigate the withdrawal syndrome. However, there are no viable dosage forms on the market to implement the tapering scheme. A solution using a modular design approach to produce flexible and accurate doses of CHB is proposed. This design consists of two parts: (1) a module with a fixed amount of preloaded CHB in a freeze‐dried polymer matrix, and (2) fine‐tuning the CHB dose by inkjet printing. A non‐contact food‐grade printer, used for the first time for printing pharmaceuticals, is modified to allow for accurate printing of the highly concentrated CHB ink on the porous CHB‐free or CHB‐preloaded modules. The produced modules with submicron precision are bench‐marked with commercially available CHB tablets that are manually divided. The proposed tunable modular design (TMD) covers the entire range of doses needed for the tapering (0.5‐23.8 mg). The greatest variance is 13% and 88% when comparing TMD and self‐tapering, respectively. Self‐tapering is proven inaccurate and showcases the need for the TMD to make available accurate and personalized doses to wean off treatment with CHB.This article is protected by copyright. All rights reserved

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Inkjet Printing of Pharmaceuticals

Cited by 8 publications

References 234 publications

3D Printing of Dietary Products for the Management of Inborn Errors of Intermediary Metabolism in Pediatric Populations

3D Printing of Dietary Products for the Management of Inborn Errors of Intermediary Metabolism in Pediatric Populations

Altering Mechanical and Dissolution Properties of Coffee Deposit by Adding Glucose

Tailor‐Made Doses of Pharmaceuticals by Tunable Modular Design: A Case Study on Tapering Antidepressant Medication

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