Improved survival of microencapsulated islets during in vitro culture and enhanced metabolic function following transplantation

Korbutt, Gregory S.; Mallett, Aaron G.; Ao, Ziliang; M, Flashner; Rajotte, Ray V.

doi:10.1007/s00125-004-1531-3

Cited by 63 publications

(39 citation statements)

References 34 publications

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“…This strategy has provided a wide range of promising therapeutic treatments for central nervous system diseases (Borlongan et al 2004), diabetes (Korbutt et al 2004), hemophilia (Hortelano et al 1996), and anemia (Rinsch et al 2002) among others. This technology offers a safe and manufacturable method for the local and systemic delivery of therapeutic molecules from the enclosed cells.…”

Section: Cell Encapsulationmentioning

confidence: 98%

Nanotechnology for regenerative medicine

Khang

Carpenter

Chun

et al. 2008

Biomed Microdevices

103

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Future biomaterials must simultaneously enhance tissue regeneration while minimizing immune responses and inhibiting infection. While the field of tissue engineering has promised to develop materials that can promote tissue regeneration for the entire body, such promises have not become reality. However, tissue engineering has experienced great progress due to the recent emergence of nanotechnology. Specifically, it has now been well established that increased tissue regeneration can be achieved on almost any surface by employing novel nano-textured surface features. Numerous studies have reported that nanotechnology accelerates various regenerative therapies, such as those for the bone, vascular, heart, cartilage, bladder and brain tissue. Various nano-structured polymers and metals (alloys) have been investigated for their bio (and cyto) compatibility properties. This review paper discusses several of the latest nanotechnology findings in regenerative medicine (also now called nanomedicine) as well as their relative levels of success.

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Section: Cell Encapsulationmentioning

confidence: 98%

Nanotechnology for regenerative medicine

Khang

Carpenter

Chun

et al. 2008

Biomed Microdevices

103

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“…The material for encapsulation can be brown algae derived alginate which is currently being used in clinical trials [ 134 ]. Another material, polysulphone can also be utilized but it needs to be modifi ed in order to reduce insulin adsorption [ 135 ].…”

Section: Remaining Challenges and Clinical Perspectivesmentioning

confidence: 99%

Dental Stem Cell Differentiation Toward Endodermal Cell Lineages: Approaches to Control Hepatocytes and Beta Cell Transformation

Gnanasegaran¹,

Govindasamy²,

Nathan³

et al. 2016

Dental Stem Cells

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“…Moreover, Korbutt et al [9] have shown that immobilizing islets in alginate beads improves islet cell survival in vitro and in vivo. In the latter case, the improvement was not due to immunoprotection, since the experiments were conducted in either immuno-incompetent animals (NUDE mice) or a model of syngeneic transplantation.…”

Section: Introductionmentioning

confidence: 98%