Bapi Sarker

Overview

Explore the profile of Bapi Sarker including associated specialties, affiliations and a list of published articles.

Snapshot

Articles 21

Citations 488

Followers 0

Related Specialties

Biomedical Engineering

Biotechnology

Anatomy & Histology

Top 10 Co-Authors

Aldo R Boccaccini

Rainer Detsch

Raquel Silva

Joachim Kaschta

Iwona Cicha

Raminder Singh

Amit Pathak

Tobias Zehnder

Dimitrios G Papageorgiou

Konstantinos Chrissafis

Published In

Int J Biol Macromol

ACS Biomater Sci Eng

Biofabrication

Materials (Basel)

J Mater Chem B

Affiliations

Soon will be listed here.

Recent Articles

11.

Encapsulation of Rat Bone Marrow Derived Mesenchymal Stem Cells in Alginate Dialdehyde/Gelatin Microbeads with and without Nanoscaled Bioactive Glass for In Vivo Bone Tissue Engineering

Rottensteiner-Brandl U, Detsch R, Sarker B, Lingens L, Kohn K, Kneser U, et al.

Materials (Basel) . 2018 Oct; 11(10). PMID: 30275427

Alginate dialdehyde (ADA), gelatin, and nano-scaled bioactive glass (nBG) particles are being currently investigated for their potential use as three-dimensional scaffolding materials for bone tissue engineering. ADA and gelatin provide...

12.

Hydrogel matrices based on elastin and alginate for tissue engineering applications

Silva R, Singh R, Sarker B, Papageorgiou D, Juhasz-Bortuzzo J, Roether J, et al.

Int J Biol Macromol . 2018 Mar; 114:614-625. PMID: 29572141

Hydrogels from natural polymers are widely used in tissue engineering due to their unique properties, especially when regarding the cell environment and their morphological similarity to the extracellular matrix (ECM)...

13.

and Biocompatibility of Alginate Dialdehyde/Gelatin Hydrogels with and without Nanoscaled Bioactive Glass for Bone Tissue Engineering Applications

Rottensteiner U, Sarker B, Heusinger D, Dafinova D, Rath S, Beier J, et al.

Materials (Basel) . 2017 Aug; 7(3):1957-1974. PMID: 28788549

In addition to good mechanical properties needed for three-dimensional tissue engineering, the combination of alginate dialdehyde, gelatin and nano-scaled bioactive glass (45S5) is supposed to combine excellent cellular adhesion, proliferation...

14.

Bioplotting of a bioactive alginate dialdehyde-gelatin composite hydrogel containing bioactive glass nanoparticles

Leite A, Sarker B, Zehnder T, Silva R, Mano J, Boccaccini A

Biofabrication . 2016 Jul; 8(3):035005. PMID: 27432012

Alginate dialdehyde-gelatin (ADA-GEL) constructs incorporating bioactive glass nanoparticles (BGNPs) were produced by biofabrication to obtain a grid-like highly-hydrated composite. The material could induce the deposition of an apatite layer upon...

15.

Biofabrication of 3D Alginate-Based Hydrogel for Cancer Research: Comparison of Cell Spreading, Viability, and Adhesion Characteristics of Colorectal HCT116 Tumor Cells

Ivanovska J, Zehnder T, Lennert P, Sarker B, Boccaccini A, Hartmann A, et al.

Tissue Eng Part C Methods . 2016 Jun; 22(7):708-15. PMID: 27269631

Hydrogels are an important class of biomaterials as they could mimic the extracellular matrix (ECM). Among the naturally occurring biopolymers, alginate and gelatin are extensively used for many biomedical applications....

16.

Soft-matrices based on silk fibroin and alginate for tissue engineering

Silva R, Singh R, Sarker B, Papageorgiou D, Juhasz J, Roether J, et al.

Int J Biol Macromol . 2016 May; 93(Pt B):1420-1431. PMID: 27156697

Soft tissue regeneration requires the use of matrices that exhibit adequate mechanical properties as well as the ability to supply nutrients and oxygen, and to remove metabolic bio-products. In this...

17.

Evaluation of hydrogel matrices for vessel bioplotting: Vascular cell growth and viability

Singh R, Sarker B, Silva R, Detsch R, Dietel B, Alexiou C, et al.

J Biomed Mater Res A . 2015 Oct; 104(3):577-585. PMID: 26474421

Developing matrices biocompatible with vascular cells is one of the most challenging tasks in tissue engineering. Here, we compared the growth of vascular cells on different hydrogels as potential materials...

18.

Evaluation of an alginate-gelatine crosslinked hydrogel for bioplotting

Zehnder T, Sarker B, Boccaccini A, Detsch R

Biofabrication . 2015 Apr; 7(2):025001. PMID: 25850438

Using additive manufacturing to create hydrogel scaffolds which incorporate homogeneously distributed, immobilized cells in the context of biofabrication approaches represents an emerging and expanding field in tissue engineering. Applying hydrogels...

19.

Alginate-based hydrogels with improved adhesive properties for cell encapsulation

Sarker B, Rompf J, Silva R, Lang N, Detsch R, Kaschta J, et al.

Int J Biol Macromol . 2015 Apr; 78:72-8. PMID: 25847839

Hydrogel-based biomaterials are ideal scaffolding matrices for microencapsulation, but they need to be modified to resemble the mechanical, structural and chemical properties of the native extracellular matrix. Here, we compare...

20.

Evaluation of fibroblasts adhesion and proliferation on alginate-gelatin crosslinked hydrogel

Sarker B, Singh R, Silva R, Roether J, Kaschta J, Detsch R, et al.

PLoS One . 2014 Oct; 9(9):e107952. PMID: 25268892

Due to the relatively poor cell-material interaction of alginate hydrogel, alginate-gelatin crosslinked (ADA-GEL) hydrogel was synthesized through covalent crosslinking of alginate di-aldehyde (ADA) with gelatin that supported cell attachment, spreading...