Kiara F Bruggeman

Overview

Explore the profile of Kiara F Bruggeman including associated specialties, affiliations and a list of published articles.

Snapshot

Articles 10

Citations 202

Followers 0

Related Specialties

Biomedical Engineering

Biotechnology

Biology

Top 10 Co-Authors

David R Nisbet

Richard J Williams

Clare L Parish

Alexandra L Rodriguez

Yi Wang

Jessica A Kauhausen

Ting-Yi Wang

Rui Li

Karim Osouli-Bostanabad

Lachlan H Thompson

Published In

iScience

Adv Healthc Mater

Biomaterials

Cell Rep

Acta Biomater

Affiliations

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Recent Articles

Mining human clinical waste as a rich source of stem cells for neural regeneration

Eivazi Zadeh Z, Nour S, Kianersi S, Jonidi Shariatzadeh F, Williams R, Nisbet D, et al.

iScience . 2024 Aug; 27(8):110307. PMID: 39156636

Neural diseases are challenging to treat and are regarded as one of the major causes of disability and morbidity in the world. Stem cells can provide a solution, by offering...

Traction of 3D and 4D Printing in the Healthcare Industry: From Drug Delivery and Analysis to Regenerative Medicine

Osouli-Bostanabad K, Masalehdan T, Kapsa R, Quigley A, Lalatsa A, Bruggeman K, et al.

ACS Biomater Sci Eng . 2022 Jun; 8(7):2764-2797. PMID: 35696306

Three-dimensional (3D) printing and 3D bioprinting are promising technologies for a broad range of healthcare applications from frontier regenerative medicine and tissue engineering therapies to pharmaceutical advancements yet must overcome...

Is Viral Vector Gene Delivery More Effective Using Biomaterials?

Wang Y, Bruggeman K, Franks S, Gautam V, Hodgetts S, Harvey A, et al.

Adv Healthc Mater . 2020 Nov; 10(1):e2001238. PMID: 33191667

Gene delivery has been extensively investigated for introducing foreign genetic material into cells to promote expression of therapeutic proteins or to silence relevant genes. This approach can regulate genetic or...

Biomimetic Materials and Their Utility in Modeling the 3-Dimensional Neural Environment

Cembran A, Bruggeman K, Williams R, Parish C, Nisbet D

iScience . 2020 Jan; 23(1):100788. PMID: 31954980

The brain is a complex 3-dimensional structure, the organization of which provides a local environment that directly influences the survival, proliferation, differentiation, migration, and plasticity of neurons. To probe the...

Dynamic and Responsive Growth Factor Delivery from Electrospun and Hydrogel Tissue Engineering Materials

Bruggeman K, Williams R, Nisbet D

Adv Healthc Mater . 2017 Dec; 7(1). PMID: 29193871

Tissue engineering scaffolds are designed to mimic physical, chemical, and biological features of the extracellular matrix, thereby providing a constant support that is crucial to improved regenerative medicine outcomes. Beyond...

Temporally controlled growth factor delivery from a self-assembling peptide hydrogel and electrospun nanofibre composite scaffold

Bruggeman K, Wang Y, Maclean F, Parish C, Williams R, Nisbet D

Nanoscale . 2017 Sep; 9(36):13661-13669. PMID: 28876347

Tissue-specific self-assembling peptide (SAP) hydrogels designed based on biologically relevant peptide sequences have great potential in regenerative medicine. These materials spontaneously form 3D networks of physically assembled nanofibres utilising non-covalent...

Peptide-Based Scaffolds Support Human Cortical Progenitor Graft Integration to Reduce Atrophy and Promote Functional Repair in a Model of Stroke

Somaa F, Wang T, Niclis J, Bruggeman K, Kauhausen J, Guo H, et al.

Cell Rep . 2017 Aug; 20(8):1964-1977. PMID: 28834757

Stem cell transplants offer significant hope for brain repair following ischemic damage. Pre-clinical work suggests that therapeutic mechanisms may be multi-faceted, incorporating bone-fide circuit reconstruction by transplanted neurons, but also...

Temporally controlled release of multiple growth factors from a self-assembling peptide hydrogel

Bruggeman K, Rodriguez A, Parish C, Williams R, Nisbet D

Nanotechnology . 2016 Aug; 27(38):385102. PMID: 27517970

Protein growth factors have demonstrated great potential for tissue repair, but their inherent instability and large size prevents meaningful presentation to biologically protected nervous tissue. Here, we create a nanofibrous...

Characterisation of minimalist co-assembled fluorenylmethyloxycarbonyl self-assembling peptide systems for presentation of multiple bioactive peptides

Horgan C, Rodriguez A, Li R, Bruggeman K, Stupka N, Raynes J, et al.

Acta Biomater . 2016 May; 38:11-22. PMID: 27131571

Unlabelled: The nanofibrillar structures that underpin self-assembling peptide (SAP) hydrogels offer great potential for the development of finely tuned cellular microenvironments suitable for tissue engineering. However, biofunctionalisation without disruption of...

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Functionalized composite scaffolds improve the engraftment of transplanted dopaminergic progenitors in a mouse model of Parkinson's disease

Wang T, Bruggeman K, Kauhausen J, Rodriguez A, Nisbet D, Parish C

Biomaterials . 2015 Oct; 74:89-98. PMID: 26454047

With the brain's limited capacity for repair there is a need for new and innovative therapies to promote regeneration. Stem/progenitor cell transplantation has received increasing attention, and whilst clinical trials...