A Deployable 4D Printed, Mucoadhesive and Magnetically Guided Patch for Local Therapy of Gastric Cancer
Dina B. Mahmoud, Martin Börner, Christian Wölk, Michaela Schulz‐Siegmund

TL;DR
A 4D printed, mucoadhesive, and magnetically guided patch is developed to deliver high drug doses directly to gastric cancer sites, improving treatment effectiveness.
Contribution
A novel 4D printed gastric patch with magnetic guidance and localized drug delivery for personalized cancer treatment is introduced.
Findings
The agarose-based patch can curl and shrink upon drying, enabling compact ingestion and deployment in the stomach.
Modification with chitosan and SPIONs enhances mucoadhesion and enables magnetic guidance for targeted drug delivery.
The patch design allows for personalized adjustments in size, shape, and drug dosage.
Abstract
A new perspective for treatment of gastric cancer utilizing a four‐dimensional (4D) printed design for deployable and magnetically guided local drug releasing patches is proposed. The deployed patches are envisioned to adhere at the tumor site in order to locally deliver high drug amounts to the tissue. The approach is considered as a platform for a gastric patch design that is flexible with reference to size and shape, active pharmaceutical ingredient (API) and dosages as well as providing unidirectional drug release. Agarose is employed as main component for the patch for its water‐actuated shape transformation (curling‐shrinkage/deployment) capabilities. This patch can be compactly deformed upon drying for easy ingestion. The patch is envisioned to rehydrate and expand in the stomach. In order to promote mucoadhesion, agarose hydrogel is modified with chitosan and included SPIONs to…
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Taxonomy
Topics3D Printing in Biomedical Research · Hydrogels: synthesis, properties, applications · Advanced Materials and Mechanics
