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Literature DB >> 24746627

Gelatin carriers for drug and cell delivery in tissue engineering.

Marco Santoro¹, Alexander M Tatara², Antonios G Mikos³.

Abstract

The ability of gelatin to form complexes with different drugs has been investigated for controlled release applications. Gelatin parameters, such as crosslinking density and isoelectric point, have been tuned in order to optimize gelatin degradation and drug delivery kinetics. In recent years, focus has shifted away from the use of gelatin in isolation toward the modification of gelatin with functional groups and the fabrication of material composites with embedded gelatin carriers. In this review, we highlight some of the latest work being performed in these areas and comment on trends in the field. Specifically, we discuss gelatin modifications for immune system evasion, drug stabilization, and targeted delivery, as well as gelatin composite systems based on ceramics, naturally-occurring polymers, and synthetic polymers.

Entities: CellLine Chemical Disease Gene Species

Keywords: Cell delivery; Composite material; Controlled release; Drug delivery; Gelatin

Mesh：

Substances：

Year: 2014 PMID： 24746627 PMCID： PMC4142078 DOI： 10.1016/j.jconrel.2014.04.014

Source DB: PubMed Journal: J Control Release ISSN： 0168-3659 Impact factor: 9.776

104 in total

1. Preparation, characterization and in vitro release of gentamicin from coralline hydroxyapatite-gelatin composite microspheres.

Authors: M Sivakumar; K Panduranga Rao
Journal: Biomaterials Date: 2002-08 Impact factor: 12.479

Review 2. Gelatin as a delivery vehicle for the controlled release of bioactive molecules.

Authors: Simon Young; Mark Wong; Yasuhiko Tabata; Antonios G Mikos
Journal: J Control Release Date: 2005-11-02 Impact factor: 9.776

3. Porous scaffolds of gelatin-hydroxyapatite nanocomposites obtained by biomimetic approach: characterization and antibiotic drug release.

Authors: Hae-Won Kim; Jonathan C Knowles; Hyoun-Ee Kim
Journal: J Biomed Mater Res B Appl Biomater Date: 2005-08 Impact factor: 3.368

4. Enhanced solubility and modified release of poorly water-soluble drugs via self-assembled gelatin-oleic acid nanoparticles.

Authors: Phuong Ha-Lien Tran; Thao Truong-Dinh Tran; Beom-Jin Lee
Journal: Int J Pharm Date: 2013-07-19 Impact factor: 5.875

5. Studies on the characteristics of drug-loaded gelatin nanoparticles prepared by nanoprecipitation.

Authors: Eun Ju Lee; Saeed Ahmad Khan; Joong Kon Park; Kwang-Hee Lim
Journal: Bioprocess Biosyst Eng Date: 2011-09-10 Impact factor: 3.210

6. The combined effects of size and surface chemistry on the accumulation of boronic acid-rich protein nanoparticles in tumors.

Authors: Jing Wang; Wei Wu; Yajun Zhang; Xin Wang; Hanqing Qian; Baorui Liu; Xiqun Jiang
Journal: Biomaterials Date: 2013-10-21 Impact factor: 12.479

7. Poly(propylene fumarate) bone tissue engineering scaffold fabrication using stereolithography: effects of resin formulations and laser parameters.

Authors: Kee-Won Lee; Shanfeng Wang; Bradley C Fox; Erik L Ritman; Michael J Yaszemski; Lichun Lu
Journal: Biomacromolecules Date: 2007-02-28 Impact factor: 6.988

8. Factors affecting the degradation rate of poly(lactide-co-glycolide) microspheres in vivo and in vitro.

Authors: M A Tracy; K L Ward; L Firouzabadian; Y Wang; N Dong; R Qian; Y Zhang
Journal: Biomaterials Date: 1999-06 Impact factor: 12.479

9. In vitro and in vivo release of vascular endothelial growth factor from gelatin microparticles and biodegradable composite scaffolds.

Authors: Zarana S Patel; Hiroki Ueda; Masaya Yamamoto; Yasuhiko Tabata; Antonios G Mikos
Journal: Pharm Res Date: 2008-07-29 Impact factor: 4.200

10. A factorial analysis of the combined effects of hydrogel fabrication parameters on the in vitro swelling and degradation of oligo(poly(ethylene glycol) fumarate) hydrogels.

Authors: Johnny Lam; Kyobum Kim; Steven Lu; Yasuhiko Tabata; David W Scott; Antonios G Mikos; F Kurtis Kasper
Journal: J Biomed Mater Res A Date: 2013-11-15 Impact factor: 4.396

61 in total

1. Chitosan/gelatin scaffolds support bone regeneration.

Authors: Anthie Georgopoulou; Fotios Papadogiannis; Aristea Batsali; John Marakis; Kalliopi Alpantaki; Aristides G Eliopoulos; Charalampos Pontikoglou; Maria Chatzinikolaidou
Journal: J Mater Sci Mater Med Date: 2018-05-05 Impact factor: 3.896

2. B₁₂-dependent photoresponsive protein hydrogels for controlled stem cell/protein release.

Authors: Ri Wang; Zhongguang Yang; Jiren Luo; I-Ming Hsing; Fei Sun
Journal: Proc Natl Acad Sci U S A Date: 2017-05-22 Impact factor: 11.205

Review 3. Tissue Engineering in Orthopaedics.

Authors: Alexander M Tatara; Antonios G Mikos
Journal: J Bone Joint Surg Am Date: 2016-07-06 Impact factor: 5.284

4. A Pyk2 inhibitor incorporated into a PEGDA-gelatin hydrogel promotes osteoblast activity and mineral deposition.

Authors: Sumana Posritong; Regina Flores Chavez; Tien-Min Gabriel Chu; Angela Bruzzaniti
Journal: Biomed Mater Date: 2019-02-27 Impact factor: 3.715

5. Evaluation of Gelatin Microparticles as Adherent-Substrates for Mesenchymal Stem Cells in a Hydrogel Composite.

Authors: Steven Lu; Esther J Lee; Johnny Lam; Yasuhiko Tabata; Antonios G Mikos
Journal: Ann Biomed Eng Date: 2016-03-02 Impact factor: 3.934

Review 6. Strategies to direct the enrichment, expansion, and recruitment of regulatory cells for the treatment of disease.

Authors: Andrew J Glowacki; Riccardo Gottardi; Sayuri Yoshizawa; Franco Cavalla; Gustavo P Garlet; Charles Sfeir; Steven R Little
Journal: Ann Biomed Eng Date: 2014-09-23 Impact factor: 3.934