Additive manufacturing of a point-of-care “polypill”: Fabrication of concept capsules of complex geometry with bespoke release against cardiovascular disease

Pereira, Beatriz, Isreb, Abdullah, Isreb, Mohammad, Forbes, Robert Thomas orcid iconORCID: 0000-0003-3521-4386, Oga, Enoche Florence orcid iconORCID: 0000-0002-2661-0574 and Alhnan, Mohamed (2020) Additive manufacturing of a point-of-care “polypill”: Fabrication of concept capsules of complex geometry with bespoke release against cardiovascular disease. Advanced Healthcare Materials, 9 (13). ISSN 2192-2640

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Official URL: http://doi.org/10.1002/adhm.202000236

Abstract

Polypharmacy is often needed for the management of cardiovascular diseases and is associated with poor adherence to treatment. Hence, highly flexible and adaptable systems are of in high demand to accommodate complex therapeutic regimens. A novel design approach was employed to fabricate highly modular 3D printed ‘polypill’ capsules with bespoke release patterns for multiple drugs. Complex structures were devised using combined fused deposition modelling 3D printing aligned with hot-filling syringes. Two unibody highly modular capsule skeletons with 4 separate compartments were devised: i) concentric format: two external compartments for early release whilst two inner compartments for delayed release, or ii) parallel format: where non-dissolving capsule shells with free-pass corridors and dissolution rate-limiting pores were used to achieve immediate and extended drug releases, respectively. Controlling drug release was achieved through digital manipulation of shell thickness in the concentric format or the size of the rate limiting pores in the parallel format. Target drug release profiles were achieved with variable orders and configurations, hence confirming the modular nature with capacity to accommodate therapeutics of different properties. Projection of the pharmacokinetic profile of this digital system capsules revealed how the developed approach could be applied in dose individualization and achieving multiple desired pharmacokinetic profiles.


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