Development of nano- and microscale chondroitin sulfate particles for controlled growth factor delivery

Lim, Jeremy J.; Hammoudi, Taymour M.; Bratt-Leal, Andrés M.; Hamilton, Sharon K.; Kepple, Kirsten L.; Bloodworth, Nathaniel C.; McDevitt, Todd C.; Temenoff, Johnna S.

doi:10.1016/j.actbio.2010.10.009

Cited by 92 publications

(64 citation statements)

References 45 publications

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“…Chondroitin sulfate solution was characterized by higher proliferation properties than platelet lysate while the platelet lysate and chondroitin sulfate mixture presented the highest proliferation properties indicating a synergic effect between biopolymer and hemoderivative, as observed in the experimental set up with 96 well plate. As previously reported, chondroitin sulfate was able to prolong the biological activity of growth factors by means of electrostatic interactions resulting in stabilization and reduced degradation of growth factors in solutions (Lim et al, 2011;Sandri et al, 2012).…”

Section: Cs and Growth Factor Release From Contact Lensesmentioning

confidence: 60%

Platelet lysate and chondroitin sulfate loaded contact lenses to heal corneal lesions

Sandri

Bonferoni

Delfino

et al. 2016

International Journal of Pharmaceutics

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Section: Cs and Growth Factor Release From Contact Lensesmentioning

confidence: 60%

Platelet lysate and chondroitin sulfate loaded contact lenses to heal corneal lesions

Sandri

Bonferoni

Delfino

et al. 2016

International Journal of Pharmaceutics

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“…Many natural polymers, notably gelatin [107, 127–136], alginate [137], HA [137–140], chondroitin sulfate [109], and silk [126], have been used to create growth factor delivering MPs. Gelatin is a natural polymer derived from collagen, and by subjecting collagen precursors to either alkaline or acidic processing during the production of gelatin, basic or acidic gelatin with different isoelectric points can be obtained [127, 134].…”

Section: Biologic Delivery Methodsmentioning

confidence: 99%

Strategies for controlled delivery of biologics for cartilage repair

Lam

Kasper

et al. 2015

Advanced Drug Delivery Reviews

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The delivery of biologics is an important component in the treatment of osteoarthritis and the functional restoration of articular cartilage. Numerous factors have been implicated in the cartilage repair process, but the uncontrolled delivery of these factors may not only reduce their full reparative potential and can also cause unwanted morphological effects. It is therefore imperative to consider the type of biologic to be delivered, the method of delivery, and the temporal as well as spatial presentation of the biologic to achieve the desired effect in cartilage repair. Additionally, the delivery of a single factor may not be sufficient in guiding neo-tissue formation, motivating recent research towards the delivery of multiple factors. This review will discuss the roles of various biologics involved in cartilage repair and the different methods of delivery for appropriate healing responses. A number of spatiotemporal strategies will then be emphasized for the controlled delivery of single and multiple bioactive factors in both in vitro and in vivo cartilage tissue engineering applications.

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“…Support for this possibility comes from our experiments in the gap-closure assay, in which Wnt5a-stimulated hESC-CMs covered an *250-mm distance within a 24-h period. It might also be possible to harness the chemoattractant properties of Wnt5a by injecting Wnt5a-eluting controlled release microspheres [50,51] into the infarct border zone (perhaps with guidance by electroanatomic mapping). If this intervention resulted in an appropriately inductive Wnt5a gradient, hESC-CM grafts isolated in scar tissue might be drawn toward viable host muscle and/or better-coupled graft implants in the border zone.…”

Section: Discussionmentioning

confidence: 99%

Human Embryonic Stem Cell-Derived Cardiomyocytes Migrate in Response to Gradients of Fibronectin and Wnt5a

Moyes

Sip

Obenza

et al. 2013

Stem Cells and Development

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An improved understanding of the factors that regulate the migration of human embryonic stem cell-derived cardiomyocytes (hESC-CMs) would provide new insights into human heart development and suggest novel strategies to improve their electromechanical integration after intracardiac transplantation. Since nothing has been reported as to the factors controlling hESC-CM migration, we hypothesized that hESC-CMs would migrate in response to the extracellular matrix and soluble signaling molecules previously implicated in heart morphogenesis. To test this, we screened candidate factors by transwell assay for effects on hESC-CM motility, followed by validation via live-cell imaging and/or gap-closure assays. Fibronectin (FN) elicited a haptotactic response from hESC-CMs, with cells seeded on a steep FN gradient showing nearly a fivefold greater migratory activity than cells on uniform FN. Studies with neutralizing antibodies indicated that adhesion and migration on FN are mediated by integrins a-5 and a-V. Next, we screened 10 soluble candidate factors by transwell assay and found that the noncanonical Wnt, Wnt5a, elicited an approximately twofold increase in migration over controls. This effect was confirmed using the gap-closure assay, in which Wnt5a-treated hESC-CMs showed approximately twofold greater closure than untreated cells. Studies with microfluidic-generated Wnt5a gradients showed that this factor was chemoattractive as well as chemokinetic, and Wnt5a-mediated responses were inhibited by the Frizzled-1/2 receptor antagonist, UM206. In summary, hESC-CMs show robust promigratory responses to FN and Wnt5a, findings that have implications on both cardiac development and cell-based therapies.

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Development of nano- and microscale chondroitin sulfate particles for controlled growth factor delivery

Cited by 92 publications

References 45 publications

Platelet lysate and chondroitin sulfate loaded contact lenses to heal corneal lesions

Platelet lysate and chondroitin sulfate loaded contact lenses to heal corneal lesions

Strategies for controlled delivery of biologics for cartilage repair

Human Embryonic Stem Cell-Derived Cardiomyocytes Migrate in Response to Gradients of Fibronectin and Wnt5a

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