Linnea Strid Orrhult

Showing 16 publications

2023

Adipose-Derived Stromal Cells Preserve Pancreatic Islet Function in a Transplantable 3D Bioprinted Scaffold

Shadab Abadpour, Essi M. Niemi, Linnea Strid Orrhult et al
Advanced healthcare materials. Vol. 12 (32)
Journal article
2022

Long-term in vivo survival of 3D-bioprinted human lipoaspirate-derived adipose tissue: proteomic signature and cellular content

Karin Säljö, Peter Apelgren, Linnea Strid Orrhult et al
Adipocyte. Vol. 11 (1), p. 34-46
Journal article
2021

3D Bioprinting of Functional Islets With Adipose-derived Stromal Cells in an Alginate/Nanocellulose Scaffold

Shadab Abadpour, Essi M. Niemi, Linnea Strid Orrhult et al
Transplantation. Vol. 105 (12S1), p. S25-S25
Other text in scientific journal
2021

Functional and morphological studies of in vivo vascularization of 3D-bioprinted human fat grafts

Matteo Amoroso, Peter Apelgren, Karin Säljö et al
Bioprinting. Vol. 23
Journal article
2021

Vascularization of tissue engineered cartilage - Sequential in vivo MRI display functional blood circulation

Peter Apelgren, Matteo Amoroso, Karin Säljö et al
Biomaterials. Vol. 276
Journal article
2021

Long-term in vivo integrity and safety of 3D-bioprinted cartilaginous constructs

Peter Apelgren, Matteo Amoroso, Karin Saljo et al
Journal of Biomedical Materials Research - Part B Applied Biomaterials. Vol. 109 (1), p. 126-136
Journal article
2020

Successful engraftment, vascularization, and In vivo survival of 3D-bioprinted human lipoaspirate-derived adipose tissue

Karin Säljö, Linnea Strid Orrhult, Peter Apelgren et al
Bioprinting. Vol. 17
Journal article
2019

3D Bioprinting of soft tissues using nanocellulose-based cell instructive bioinks

Erdem Karabulut, Linnea Strid Orrhult, Paul Gatenholm
Other conference contribution
2018

Skin Grafting on 3D Bioprinted Cartilage Constructs In Vivo

Peter Apelgren, Matteo Amoroso, Karin Saeljoe et al
Plastic and Reconstructive Surgery - Global Open. Vol. 6 (9)
Journal article
2018

Bioprinting of cartilage and skin tissue analogs utilizing a novel passive mixing unit technique for bioink precellularization

Patrick Scott Thayer, Linnea Strid Orrhult, Hector Martinez Avila
Journal of Visualized Experiments. Vol. 2018 (131)
Journal article
2017

Design and Synthesis of Cell Instructive Bioinks for Controlling Cell Fate and Functions in 3D Bioprinted Soft Tissue

Paul Gatenholm, Erdem Karabulut, Linnea Strid Orrhult
Other conference contribution
2017

3D Bioprinted Skin Tissue Models Using RGD Peptide Conjugated Nanocellulose Bioinks

Paul Gatenholm, Erdem Karabulut, Linnea Strid Orrhult
Other conference contribution
2017

3D Bioprinting of a Human Skin Tissue Model

Linnea Strid Orrhult, Janni Sundén, Paul Gatenholm
Tissue Engineering - Part A. Vol. 23, p. S76-S76
Other conference contribution
2017

Evaluation of 3D Bioprinted Human Skin Analogs Comprised of Distinct Bioinks

E. Ning, E. Gatenholm, Linnea Strid Orrhult et al
Tissue Engineering - Part A. Vol. 23, p. S91-S92
Other conference contribution
2017

In Vitro Chondrogenesis in 3D Bioprinted Human Cell-laden Hydrogel Constructs

S. Schwarz, Linnea Strid Orrhult, Erdem Karabulut et al
Tissue Engineering - Part A. Vol. 23, p. S16-S16
Other conference contribution
2017

In Vivo Chondrogenesis In 3D Bioprinted Human Cell-laden Hydrogel Constructs

Linnea Strid Orrhult, P. Apelgren, S. Schwarz et al
Tissue Engineering - Part A. Vol. 23, p. S112-S112
Other conference contribution

Download publication list

You can download this list to your computer.

Filter and download publication list

As logged in user (Chalmers employee) you find more export functions in MyResearch.

You may also import these directly to Zotero or Mendeley by using a browser plugin. These are found herer:

Zotero Connector
Mendeley Web Importer

The service SwePub offers export of contents from Research in other formats, such as Harvard and Oxford in .RIS, BibTex and RefWorks format.

There are no projects.
There might be more projects where Linnea Strid Orrhult participates, but you have to be logged in as a Chalmers employee to see them.