Long-term implant fibrosis prevention in rodents and non-human primates using crystallized drug formulations

Implantable medical devices have revolutionized modern medicine. However, immune-mediated foreign body response (FBR) to the materials of these devices can limit their function or even induce failure. Here we describe long-term controlled-release formulations for local anti-inflammatory release thro...

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Veröffentlicht in:	Nature materials 2019-08, Vol.18 (8), p.892-904
Hauptverfasser:	Farah, Shady, Doloff, Joshua C., Müller, Peter, Sadraei, Atieh, Han, Hye Jung, Olafson, Katy, Vyas, Keval, Tam, Hok Hei, Hollister-Lock, Jennifer, Kowalski, Piotr S., Griffin, Marissa, Meng, Ashley, McAvoy, Malia, Graham, Adam C., McGarrigle, James, Oberholzer, Jose, Weir, Gordon C., Greiner, Dale L., Langer, Robert, Anderson, Daniel G.
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Schlagworte:	631/154/152 631/61/54/993 639/166/985 639/301/54/152 692/308/575 Animals Biomaterials Biomedical materials Chemistry and Materials Science Condensed Matter Physics Controlled release Crystal lattices Crystal structure Crystallization Crystals Delayed-Action Preparations Drug Compounding Fibrosis Fibrosis - etiology Fibrosis - prevention & control Formulations Immune response Immune system Macrophages - drug effects Materials Science Medical devices Medical electronics Medical equipment Microencapsulation Muscles Nanotechnology Optical and Electronic Materials Primates Prostheses and Implants - adverse effects Rodentia Rodents Surgical implants
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creator	Farah, Shady Doloff, Joshua C. Müller, Peter Sadraei, Atieh Han, Hye Jung Olafson, Katy Vyas, Keval Tam, Hok Hei Hollister-Lock, Jennifer Kowalski, Piotr S. Griffin, Marissa Meng, Ashley McAvoy, Malia Graham, Adam C. McGarrigle, James Oberholzer, Jose Weir, Gordon C. Greiner, Dale L. Langer, Robert Anderson, Daniel G.
description	Implantable medical devices have revolutionized modern medicine. However, immune-mediated foreign body response (FBR) to the materials of these devices can limit their function or even induce failure. Here we describe long-term controlled-release formulations for local anti-inflammatory release through the development of compact, solvent-free crystals. The compact lattice structure of these crystals allows for very slow, surface dissolution and high drug density. These formulations suppress FBR in both rodents and non-human primates for at least 1.3 years and 6 months, respectively. Formulations inhibited fibrosis across multiple implant sites—subcutaneous, intraperitoneal and intramuscular. In particular, incorporation of GW2580, a colony stimulating factor 1 receptor inhibitor, into a range of devices, including human islet microencapsulation systems, electrode-based continuous glucose-sensing monitors and muscle-stimulating devices, inhibits fibrosis, thereby allowing for extended function. We believe that local, long-term controlled release with the crystal formulations described here enhances and extends function in a range of medical devices and provides a generalized solution to the local immune response to implanted biomaterials. Foreign body response can result in failure of biomaterials in vivo. Solvent-free crystals containing anti-fibrotic drugs now show the potential for long-term inhibition of fibrosis on a number of implantable devices in rodents and non-human primates.
doi_str_mv	10.1038/s41563-019-0377-5
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However, immune-mediated foreign body response (FBR) to the materials of these devices can limit their function or even induce failure. Here we describe long-term controlled-release formulations for local anti-inflammatory release through the development of compact, solvent-free crystals. The compact lattice structure of these crystals allows for very slow, surface dissolution and high drug density. These formulations suppress FBR in both rodents and non-human primates for at least 1.3 years and 6 months, respectively. Formulations inhibited fibrosis across multiple implant sites—subcutaneous, intraperitoneal and intramuscular. In particular, incorporation of GW2580, a colony stimulating factor 1 receptor inhibitor, into a range of devices, including human islet microencapsulation systems, electrode-based continuous glucose-sensing monitors and muscle-stimulating devices, inhibits fibrosis, thereby allowing for extended function. 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subjects	631/154/152 631/61/54/993 639/166/985 639/301/54/152 692/308/575 Animals Biomaterials Biomedical materials Chemistry and Materials Science Condensed Matter Physics Controlled release Crystal lattices Crystal structure Crystallization Crystals Delayed-Action Preparations Drug Compounding Fibrosis Fibrosis - etiology Fibrosis - prevention & control Formulations Immune response Immune system Macrophages - drug effects Materials Science Medical devices Medical electronics Medical equipment Microencapsulation Muscles Nanotechnology Optical and Electronic Materials Primates Prostheses and Implants - adverse effects Rodentia Rodents Surgical implants
title	Long-term implant fibrosis prevention in rodents and non-human primates using crystallized drug formulations
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