932 23 938
- Unit:
- SINTEF Industry
- Department:
- Biotechnology and Nanomedicine
- Office:
- Trondheim
Mainly involved in projects related to nanomedicine. Encapsulation of drugs into nanoparticles can enable a more targeted delivery, improved efficacy and reduced toxicity. Also involved in projects where ultrasound is used in combination with microbubbles to enhance delivery of various drugs to tumor tisse and across the blood-brain barrier for treatment of brain diseases.
Education
MSc Nanotechnology, PhD Biophysics
Competence and research areas
Cancer, nanomedicine, biophysics, ultrasound, microbubbles, microscopy, medical imaging, drug delivery, blood-brain barrier, brain diseases
Highlighted publications
- Sonopermeation enhances uptake and therapeutic effect of free and encapsulated cabazitaxel
- Multi-timescale microscopy methods for the characterization of fluorescently-labeled microbubbles for ultrasound-triggered drug release
- Efficient Enhancement of Blood–Brain Barrier Permeability Using Acoustic Cluster Therapy (ACT)
- Ultrasound and microbubbles to beat barriers in tumors: Improving delivery of nanomedicine
- Sonopermeation to improve drug delivery to tumors: from fundamental understanding to clinical translation
Other publications
- Formulation and characterisation of drug-loaded antibubbles for image-guided and ultrasound-triggered drug delivery
- Sonopermeation with nanoparticle-stabilized microbubbles reduces solid stress and improves nanomedicine delivery to tumors
- Promovideo for podkasten Smart Forklart; Her er forskernes nye kreftkur
- ENPERITO: Polymeric nanoparticles for treatment of peritoneal metastases
- Biodistribution of Poly(alkyl cyanoacrylate) Nanoparticles in Mice and Effect on Tumor Infiltration of Macrophages into a Patient-Derived Breast Cancer Xenograft
- Nå får de første pasientene forskernes nye kreftkur
- Sonoporation using nanoparticle-loaded microbubbles increases cellular uptake of nanoparticles compared to co-incubation of nanoparticles and microbubbles
- PACAB: A nanoparticle technology platform for hard-to-treat cancers
- Erratum to “Ultrasound-mediated delivery enhances therapeutic efficacy of MMP sensitive liposomes” [Journal of Controlled Release, Volume 325 (10 September 2020) 121–134] (Journal of Controlled Release (2020) 325 (121–134), (S016836592030359X), (10.1016/j.jconrel.2020.06.024))
- Ultrasound-mediated delivery enhances therapeutic efficacy of MMP sensitive liposomes