Cecilia M Sahlgren

Overview

Explore the profile of Cecilia M Sahlgren including associated specialties, affiliations and a list of published articles.

Snapshot

Articles 23

Citations 481

Followers 0

Related Specialties

Cell Biology

Science

Biomedical Engineering

Top 10 Co-Authors

Carlijn V C Bouten

Tommaso Ristori

Oscar M J A Stassen

Sandra Loerakker

Jaap M J den Toonder

John E Eriksson

Jelle J F Sleeboom

Marika Sjoqvist

Mark C van Turnhout

Nicole C A van Engeland

Published In

Biomech Model Mechanobiol

Front Cell Dev Biol

Proc Natl Acad Sci U S A

Sci Rep

Adv Sci (Weinh)

Affiliations

Soon will be listed here.

Recent Articles

An model of cancer invasion with heterogeneous ECM created with droplet microfluidics

Jouybar M, Sleeboom J, Vaezzadeh E, Sahlgren C, den Toonder J

Front Bioeng Biotechnol . 2023 Dec; 11:1267021. PMID: 38076430

Metastasis is a multi-step process that is critically affected by cues from the tumor micro-environment (TME), such as from the extracellular matrix (ECM). The role of the ECM in the...

Environmental stiffness restores mechanical homeostasis in vimentin-depleted cells

Grolleman J, van Engeland N, Raza M, Azimi S, Conte V, Sahlgren C, et al.

Sci Rep . 2023 Oct; 13(1):18374. PMID: 37884575

Recent experimental evidence indicates a role for the intermediate filament vimentin in regulating cellular mechanical homeostasis, but its precise contribution remains to be discovered. Mechanical homeostasis requires a balanced bi-directional...

SFAlab: image-based quantification of mechano-active ventral actin stress fibers in adherent cells

Mostert D, Grolleman J, van Turnhout M, Groenen B, Conte V, Sahlgren C, et al.

Front Cell Dev Biol . 2023 Oct; 11:1267822. PMID: 37779894

Ventral actin stress fibers (SFs) are a subset of actin SFs that begin and terminate at focal adhesion (FA) complexes. Ventral SFs can transmit forces from and to the extracellular...

Shape-Morphing Photoresponsive Hydrogels Reveal Dynamic Topographical Conditioning of Fibroblasts

Bril M, Saberi A, Jorba I, van Turnhout M, Sahlgren C, Bouten C, et al.

Adv Sci (Weinh) . 2023 Sep; 10(31):e2303136. PMID: 37740666

The extracellular environment defines a physical boundary condition with which cells interact. However, to date, cell response to geometrical environmental cues is largely studied in static settings, which fails to...

A multiscale computational model of arterial growth and remodeling including Notch signaling

van Asten J, Latorre M, Karakaya C, Baaijens F, Sahlgren C, Ristori T, et al.

Biomech Model Mechanobiol . 2023 Apr; 22(5):1569-1588. PMID: 37024602

Blood vessels grow and remodel in response to mechanical stimuli. Many computational models capture this process phenomenologically, by assuming stress homeostasis, but this approach cannot unravel the underlying cellular mechanisms....

Notch signaling regulates strain-mediated phenotypic switching of vascular smooth muscle cells

Karakaya C, van Turnhout M, Visser V, Ristori T, Bouten C, Sahlgren C, et al.

Front Cell Dev Biol . 2022 Aug; 10:910503. PMID: 36036000

Mechanical stimuli experienced by vascular smooth muscle cells (VSMCs) and mechanosensitive Notch signaling are important regulators of vascular growth and remodeling. However, the interplay between mechanical cues and Notch signaling,...

Computational analysis of the role of mechanosensitive Notch signaling in arterial adaptation to hypertension

van Asten J, Ristori T, Nolan D, Lally C, Baaijens F, Sahlgren C, et al.

J Mech Behav Biomed Mater . 2022 Jul; 133:105325. PMID: 35839633

Arteries grow and remodel in response to mechanical stimuli. Hypertension, for example, results in arterial wall thickening. Cell-cell Notch signaling between vascular smooth muscle cells (VSMCs) is known to be...

Engineered patterns of Notch ligands Jag1 and Dll4 elicit differential spatial control of endothelial sprouting

Tiemeijer L, Ristori T, Stassen O, Ahlberg J, de Bijl J, Chen C, et al.

iScience . 2022 May; 25(5):104306. PMID: 35602952

Spatial regulation of angiogenesis is important for the generation of functional engineered vasculature in regenerative medicine. The Notch ligands Jag1 and Dll4 show distinct expression patterns in endothelial cells and,...

Engineering tissue morphogenesis: taking it up a Notch

Tiemeijer L, Sanlidag S, Bouten C, Sahlgren C

Trends Biotechnol . 2022 Feb; 40(8):945-957. PMID: 35181146

Recreating functional tissues through bioengineering strategies requires steering of complex cell fate decisions. Notch, a juxtacrine signaling pathway, regulates cell fate and controls cellular organization with local precision. The engineering-friendly...

10.

Mechano-regulated cell-cell signaling in the context of cardiovascular tissue engineering

Karakaya C, van Asten J, Ristori T, Sahlgren C, Loerakker S

Biomech Model Mechanobiol . 2021 Oct; 21(1):5-54. PMID: 34613528

Cardiovascular tissue engineering (CVTE) aims to create living tissues, with the ability to grow and remodel, as replacements for diseased blood vessels and heart valves. Despite promising results, the (long-term)...