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- Title
Computational modeling of the effect of skin pinch and stretch on subcutaneous injection of monoclonal antibodies using autoinjector devices.
- Authors
de Lucio, Mario; Leng, Yu; Wang, Hao; Ardekani, Arezoo M.; Vlachos, Pavlos P.; Shi, Galen; Gomez, Hector
- Abstract
Subcutaneous injection of monoclonal antibodies (mAbs) has experienced unprecedented growth in the pharmaceutical industry due to its benefits in patient compliance and cost-effectiveness. However, the impact of different injection techniques and autoinjector devices on the drug's transport and uptake is poorly understood. Here, we develop a biphasic large-deformation chemomechanical model that accounts for the components of the extracellular matrix that govern solid deformation and fluid flow within the subcutaneous tissue: interstitial fluid, collagen fibers and negatively charged proteoglycan aggregates. We use this model to build a high-fidelity representation of a virtual patient performing a subcutaneous injection of mAbs. We analyze the impact of the pinch and stretch methods on the injection dynamics and the use of different handheld autoinjector devices. The results suggest that autoinjector base plates with a larger device-skin contact area cause significantly lower tissue mechanical stress, fluid pressure and fluid velocity during the injection process. Our simulations indicate that the stretch technique presents a higher risk of intramuscular injection for autoinjectors with a relatively long needle insertion depth.
- Subjects
SUBCUTANEOUS injections; INTRAMUSCULAR injections; FLUID pressure; EXTRACELLULAR fluid; IRON &; steel plates; COMPUTATIONAL neuroscience; SKIN; MONOCLONAL antibodies
- Publication
Biomechanics & Modeling in Mechanobiology, 2023, Vol 22, Issue 6, p1965
- ISSN
1617-7959
- Publication type
Article
- DOI
10.1007/s10237-023-01746-x