Innovative superparamagnetic iron-oxide nanoparticles coated with silica and conjugated with linoleic acid: Effect on tumor cell growth and viability
G Muzio, M Miola, S Ferraris, M Maggiora… - Materials Science and …, 2017 - Elsevier
One of the goals for the development of more effective cancer therapies with reduced toxic
side effects is the optimization of innovative treatments to selectively kill tumor cells. The use …
side effects is the optimization of innovative treatments to selectively kill tumor cells. The use …
Innovative superparamagnetic iron-oxide nanoparticles coated with silica and conjugated with linoleic acid: Effect on tumor cell growth and viability
G Muzio, M Miola, S Ferraris, M Maggiora… - … AND ENGINEERING. C …, 2017 - iris.polito.it
One of the goals for the development of more effective cancer therapies with reduced toxic
side effects is the op-timization of innovative treatments to selectively kill tumor cells. The …
side effects is the op-timization of innovative treatments to selectively kill tumor cells. The …
Innovative superparamagnetic iron-oxide nanoparticles coated with silica and conjugated with linoleic acid: Effect on tumor cell growth and viability.
G Muzio, M Miola, S Ferraris, M Maggiora… - Materials Science & …, 2017 - europepmc.org
One of the goals for the development of more effective cancer therapies with reduced toxic
side effects is the optimization of innovative treatments to selectively kill tumor cells. The use …
side effects is the optimization of innovative treatments to selectively kill tumor cells. The use …
Innovative superparamagnetic iron-oxide nanoparticles coated with silica and conjugated with linoleic acid: Effect on tumor cell growth and viability
G Muzio, M Miola, S Ferraris, M Maggiora… - … and Engineering C, 2017 - research.uniupo.it
One of the goals for the development of more effective cancer therapies with reduced toxic
side effects is the optimization of innovative treatments to selectively kill tumor cells. The use …
side effects is the optimization of innovative treatments to selectively kill tumor cells. The use …
Innovative superparamagnetic iron-oxide nanoparticles coated with silica and conjugated with linoleic acid: Effect on tumor cell growth and viability
G Muzio, M Miola, S Ferraris… - … & engineering. C …, 2017 - pubmed.ncbi.nlm.nih.gov
One of the goals for the development of more effective cancer therapies with reduced toxic
side effects is the optimization of innovative treatments to selectively kill tumor cells. The use …
side effects is the optimization of innovative treatments to selectively kill tumor cells. The use …
Innovative superparamagnetic iron-oxide nanoparticles coated with silica and conjugated with linoleic acid: Effect on tumor cell growth and viability
G Muzio, M Miola, S Ferraris, M Maggiora… - Materials Science and …, 2017 - infona.pl
One of the goals for the development of more effective cancer therapies with reduced toxic
side effects is the optimization of innovative treatments to selectively kill tumor cells. The use …
side effects is the optimization of innovative treatments to selectively kill tumor cells. The use …
Innovative superparamagnetic iron-oxide nanoparticles coated with silica and conjugated with linoleic acid: Effect on tumor cell growth and viability
G Muzio, M Miola, S Ferraris, M Maggiora… - … AND ENGINEERING. C …, 2017 - iris.unito.it
One of the goals for the development of more effective cancer therapies with reduced toxic
side effects is the optimization of innovative treatments to selectively kill tumor cells. The use …
side effects is the optimization of innovative treatments to selectively kill tumor cells. The use …
Innovative superparamagnetic iron-oxide nanoparticles coated with silica and conjugated with linoleic acid: Effect on tumor cell growth and viability
G Muzio, M Miola, S Ferraris, M Maggiora… - MATERIALS SCIENCE …, 2017 - iris.uniupo.it
One of the goals for the development of more effective cancer therapies with reduced toxic
side effects is the optimization of innovative treatments to selectively kill tumor cells. The use …
side effects is the optimization of innovative treatments to selectively kill tumor cells. The use …
[PDF][PDF] Innovative superparamagnetic iron-oxide nanoparticles coated with silica and conjugated with linoleic acid: Effect on tumor cell growth and viability
M Ricci, E Borroni, RA Canuto, E Verné… - Materials Science and …, 2017 - core.ac.uk
Giuliana Muzio a, Marta Miola b, d, 1, Sara Ferraris b, 1, Marina Maggiora a, Elisa Bertone b,
Maria Paola Puccinelli c, Marina Ricci a, Ester Borroni d, Rosa Angela Canuto a, 1, Enrica …
Maria Paola Puccinelli c, Marina Ricci a, Ester Borroni d, Rosa Angela Canuto a, 1, Enrica …
Innovative superparamagnetic iron-oxide nanoparticles coated with silica and conjugated with linoleic acid: Effect on tumor cell growth and viability
G Muzio, M Miola, S Ferraris, M Maggiora… - … and Engineering C, 2017 - research.uniupo.it
One of the goals for the development of more effective cancer therapies with reduced toxic
side effects is the optimization of innovative treatments to selectively kill tumor cells. The use …
side effects is the optimization of innovative treatments to selectively kill tumor cells. The use …