Yield-Stress and Creep Control Depot Formation and Persistence of Injectable Hydrogels Following Subcutaneous Administration

Jons, Carolyn K.; Grosskopf, Abigail K.; Baillet, Julie; Yan, Jerry; Klich, John H.; Appel, Eric A.

doi:10.1101/2022.04.20.488959

Cited by 10 publications

(14 citation statements)

References 44 publications

(47 reference statements)

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“…Previous work has shown that PNP hydrogels are biocompatible and are cleared from the subcutaneous space within several weeks, depending on the formulation and injection volume. 31,50…”

Section: Resultsmentioning

confidence: 99%

“…49 Finally, the yield stress of each formulation was determined to assess the ability of the depot to retain its shape under the forces present the site of injection; it has previously been demonstrated that yield stress is an important rheological property for subcutaneous depot formation and retention. 34,50 Yield stresses of 70 and 350 Pa were measured for the 1:5 and 2:10 formulations, respectively (Figure 2e). Again, previous work has shown that increasing nanoparticle content results in higher yield stress values.…”

Section: Rheological Characteristics Of the Pnp Hydrogelmentioning

confidence: 99%

“…49 Both of these formulations exhibit sufficiently high yield stress to form a persistent depot in the mouse subcutaneous space upon injection. 50 In addition, the hydrogel is rheologically stable for more than 5 weeks at room temperature (Figure S2).…”

Section: Rheological Characteristics Of the Pnp Hydrogelmentioning

confidence: 99%

See 2 more Smart Citations

Subcutaneous delivery of an antibody against SARS-CoV-2 from a supramolecular hydrogel depot

Kasse¹,

Yu²,

Chen

et al. 2022

Preprint

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Prolonged maintenance of therapeutically-relevant levels of broadly neutralizing antibodies (bnAbs) is necessary to enable passive immunization against infectious disease. Unfortunately, protection only lasts for as long as these bnAbs remain present at a sufficiently high concentration in the body. Poor pharmacokinetics and burdensome administration are two challenges that need to be addressed in order to make pre- and post-exposure prophylaxis with bnAbs feasible and effective. In this work, we develop a supramolecular hydrogel as an injectable, subcutaneous depot to encapsulate and deliver antibody drug cargo. This polymer-nanoparticle (PNP) hydrogel exhibits shear-thinning and self-healing properties that are required for an injectable drug delivery vehicle. In vitro drug release assays and diffusion measurements indicate that the PNP hydrogels prevent burst release and slow the release of encapsulated antibodies. Delivery of bnAbs against SARS-CoV-2 from PNP hydrogels is compared to standard routes of administration in a preclinical mouse model. We develop a multi-compartment model to understand the ability of these subcutaneous depot materials to modulate the pharmacokinetics of released antibodies; the model is extrapolated to explore the requirements needed for novel materials to successfully deliver relevant antibody therapeutics with different pharmacokinetic characteristics.

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“…Previous work has shown that PNP hydrogels are biocompatible and are cleared from the subcutaneous space within several weeks, depending on the formulation and injection volume. 31,50…”

Section: Resultsmentioning

confidence: 99%

Section: Rheological Characteristics Of the Pnp Hydrogelmentioning

confidence: 99%

See 1 more Smart Citation

Subcutaneous delivery of an antibody against SARS-CoV-2 from a supramolecular hydrogel depot

Kasse¹,

Yu²,

Chen

et al. 2022

Preprint

Self Cite

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show abstract

“…We characterized the rheological properties of PNP hydrogels prepared with and without bimatoprost to ensure the drug cargo does not interfere with the critical properties for injectability and depot formation ( Figure 2b-e ). [17, 20] Frequency-dependent oscillatory shear rheology showed that the frequency responses of the materials were unchanged with encapsulation of bimatoprost. Indeed, both formulations showed robust solid-like properties across the entire range of timescales evaluated, evident from the storage modulus G’ being larger than the loss modulus G’’ ( Figure 2b ).…”

Section: Resultsmentioning

confidence: 99%

“…[17] It is also important that this material recovers it’s mechanical properties rapidly following injection to limit drug burst release and form a robust depot for extended release. [20] To assess the self-healing of our materials, we applied consecutive periods of high (10 rad s −1 ) and low (1 rad s −1 ) stress to the hydrogel formulations and observed drops in viscosity at high stress and rapid recovery of the material properties at low stress over several cycles, indicating the high stress disrupts the non-covalent PNP interactions responsible for crosslinking in these systems, and these interactions reform once the stress is removed ( Figure 2e ). To further evaluate injectability of the PNP gels, we fit the steady shear flow rheology data with the power law , which relates viscosity (η) and shear rate for non-Newtonian complex fluids, and extracted values for the consistency index ( K ) and shear-thinning parameter ( n ).…”

Section: Resultsmentioning

confidence: 99%

Injectable polymer-nanoparticle hydrogel for the sustained intravitreal delivery of bimatoprost

Meany

Andaya²,

Tang³

et al. 2022

Preprint

Self Cite

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Vision impairment resulting from chronic eye diseases, such as macular degeneration and glaucoma, severely impacts patients' quality of life and poses an immense global financial burden. Current standard of care for such diseases includes daily eye drops or frequent intravitreal (ITV) injections, which are burdensome treatment modalities resulting in low patient compliance. There remains a growing need for easily administered long-acting delivery technologies for prolonging exposure of ocular therapeutics with each administration. Here, we deploy a supramolecular polymer-nanoparticle (PNP) hydrogel for ITV delivery of the glaucoma drug bimatoprost. PNP hydrogels are shear-thinning and self-healing, key properties for injectability, and enable slow release of molecular cargo in vitreous humor (VH) mimics. An in vivo study in New Zealand white rabbits demonstrated intravitreally injected PNP hydrogels form depots that degrade slowly over time, maintaining detectable levels of bimatoprost in the VH up to eight weeks following injection. Ophthalmic examinations and histopathology identified a mild foreign body response (FBR) to the hydrogel, characterized by rare clusters of foamy macrophages and giant cells associated with minimal, patchy fibroplasia. This work shows that PNP hydrogels exhibit numerous desirable traits for sustained drug delivery and further work will be necessary to optimize tolerability in the eye.

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Injectable Polymer‐Nanoparticle Hydrogel for the Sustained Intravitreal Delivery of Bimatoprost

Meany

Andaya²,

Tang³

et al. 2022

Advanced Therapeutics

View full text Add to dashboard Cite

Vision impairment resulting from chronic eye diseases, such as macular degeneration and glaucoma, severely impacts patients' quality of life and poses an immense global financial burden. Current standard of care for such diseases includes daily eye drops or frequent intravitreal (ITV) injections, which are burdensome treatment modalities resulting in low patient compliance. There remains a growing need for easily administered long-acting delivery technologies for prolonging exposure of ocular therapeutics with each administration. Here, this work deploys a supramolecular polymer-nanoparticle (PNP) hydrogel for ITV delivery of the glaucoma drug bimatoprost. PNP hydrogels are shear-thinning and self-healing, key properties for injectability, and enable slow release of molecular cargo in vitreous humor (VH) mimics. An in vivo study in New Zealand white rabbits demonstrated intravitreally injected PNP hydrogels form depots that degrade slowly over time, maintaining detectable levels of bimatoprost in the VH up to 8 weeks following injection. Ophthalmic examinations and histopathology identified a mild foreign body response (FBR) to the hydrogel, characterized by rare clusters of foamy macrophages and giant cells associated with minimal, patchy fibroplasia. This work shows that PNP hydrogels exhibit numerous desirable traits for sustained drug delivery and further work will be necessary to optimize tolerability in the eye.

show abstract

Yield-Stress and Creep Control Depot Formation and Persistence of Injectable Hydrogels Following Subcutaneous Administration

Cited by 10 publications

References 44 publications

Subcutaneous delivery of an antibody against SARS-CoV-2 from a supramolecular hydrogel depot

Subcutaneous delivery of an antibody against SARS-CoV-2 from a supramolecular hydrogel depot

Injectable polymer-nanoparticle hydrogel for the sustained intravitreal delivery of bimatoprost

Injectable Polymer‐Nanoparticle Hydrogel for the Sustained Intravitreal Delivery of Bimatoprost

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