Development of a novel valved drug-eluting glaucoma implant for safe and durable reduction of intraocular pressure

S. Siewert; A. Roock; W. Schmidt; M. Löbler; U. Hinze; B. Chichkov; R. Guthoff; K. Sternberg; K. P. Schmitz

doi:10.1515/bmt-2012-4312

Development of a novel valved drug-eluting glaucoma implant for safe and durable reduction of intraocular pressure

S. Siewert
, A. Roock
, W. Schmidt
, M. Löbler
, U. Hinze
, B. Chichkov
, R. Guthoff
, K. Sternberg
, K. P. Schmitz

Research output: Contribution to journal › Article › Research › peer review

Abstract

For the reduction of intraocular pressure, implants are well accepted in therapy of refractory glaucoma. Encapsulation and the resulting long term failure are the major limitations of todays' commercially available devices. This paper describes methods for the development and characterization of a novel drug-eluting microstent for glaucoma therapy. Microstents were coated with a polymer-drug compound of poly(4-hydroxybutyrate)/paclitaxel 85/15 % (w/w) and analyzed in vitro with regard to coating mass, morphology and release kinetic. Achieved coating mass was 485.7 ± 16.4 μg (n = 18). Release of therapeutic potent doses paclitaxel (5.8E^-7 ± 2.5E ^-7 mol L^-1, n = 4) within 1 month was proven. The presented technology is suitable for the reproducible manufacturing of drug-eluting microstents. Inhibition of fibrosis in vivo will be investigated in future trials.

Original language	English
Pages (from-to)	891-893
Number of pages	3
Journal	Biomedizinische Technik
Volume	57
Issue number	SUPPL. 1 TRACK-S
DOIs	https://doi.org/10.1515/bmt-2012-4312
Publication status	Published - 6 Sept 2012
Externally published	Yes

ASJC Scopus subject areas

Biomedical Engineering

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title = "Development of a novel valved drug-eluting glaucoma implant for safe and durable reduction of intraocular pressure",

abstract = "For the reduction of intraocular pressure, implants are well accepted in therapy of refractory glaucoma. Encapsulation and the resulting long term failure are the major limitations of todays' commercially available devices. This paper describes methods for the development and characterization of a novel drug-eluting microstent for glaucoma therapy. Microstents were coated with a polymer-drug compound of poly(4-hydroxybutyrate)/paclitaxel 85/15 \% (w/w) and analyzed in vitro with regard to coating mass, morphology and release kinetic. Achieved coating mass was 485.7 ± 16.4 μg (n = 18). Release of therapeutic potent doses paclitaxel (5.8E-7 ± 2.5E -7 mol L-1, n = 4) within 1 month was proven. The presented technology is suitable for the reproducible manufacturing of drug-eluting microstents. Inhibition of fibrosis in vivo will be investigated in future trials.",

author = "S. Siewert and A. Roock and W. Schmidt and M. L{\"o}bler and U. Hinze and B. Chichkov and R. Guthoff and K. Sternberg and Schmitz, \{K. P.\}",

note = "Funding information: This work is supported by the German Research Foundation (DFG) as a part of the Special Research Program Transregio 37 “Micro-and Nanosystems in Medicine – Reconstruction of Biological Functions”.",

year = "2012",

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doi = "10.1515/bmt-2012-4312",

language = "English",

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journal = "Biomedizinische Technik",

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AU - Siewert, S.

AU - Roock, A.

AU - Schmidt, W.

AU - Löbler, M.

AU - Hinze, U.

AU - Chichkov, B.

AU - Guthoff, R.

AU - Sternberg, K.

AU - Schmitz, K. P.

N1 - Funding information: This work is supported by the German Research Foundation (DFG) as a part of the Special Research Program Transregio 37 “Micro-and Nanosystems in Medicine – Reconstruction of Biological Functions”.

PY - 2012/9/6

Y1 - 2012/9/6

N2 - For the reduction of intraocular pressure, implants are well accepted in therapy of refractory glaucoma. Encapsulation and the resulting long term failure are the major limitations of todays' commercially available devices. This paper describes methods for the development and characterization of a novel drug-eluting microstent for glaucoma therapy. Microstents were coated with a polymer-drug compound of poly(4-hydroxybutyrate)/paclitaxel 85/15 % (w/w) and analyzed in vitro with regard to coating mass, morphology and release kinetic. Achieved coating mass was 485.7 ± 16.4 μg (n = 18). Release of therapeutic potent doses paclitaxel (5.8E-7 ± 2.5E -7 mol L-1, n = 4) within 1 month was proven. The presented technology is suitable for the reproducible manufacturing of drug-eluting microstents. Inhibition of fibrosis in vivo will be investigated in future trials.

AB - For the reduction of intraocular pressure, implants are well accepted in therapy of refractory glaucoma. Encapsulation and the resulting long term failure are the major limitations of todays' commercially available devices. This paper describes methods for the development and characterization of a novel drug-eluting microstent for glaucoma therapy. Microstents were coated with a polymer-drug compound of poly(4-hydroxybutyrate)/paclitaxel 85/15 % (w/w) and analyzed in vitro with regard to coating mass, morphology and release kinetic. Achieved coating mass was 485.7 ± 16.4 μg (n = 18). Release of therapeutic potent doses paclitaxel (5.8E-7 ± 2.5E -7 mol L-1, n = 4) within 1 month was proven. The presented technology is suitable for the reproducible manufacturing of drug-eluting microstents. Inhibition of fibrosis in vivo will be investigated in future trials.

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DO - 10.1515/bmt-2012-4312

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SN - 0013-5585

VL - 57

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JO - Biomedizinische Technik

JF - Biomedizinische Technik

IS - SUPPL. 1 TRACK-S

ER -

Development of a novel valved drug-eluting glaucoma implant for safe and durable reduction of intraocular pressure

Abstract

ASJC Scopus subject areas

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