Theo G van Kooten
Overview
Explore the profile of Theo G van Kooten including associated specialties, affiliations and a list of published articles.
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Articles
47
Citations
637
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Recent Articles
1.
Reina-Mahecha A, Beers M, van der Veen H, Zuhorn I, van Kooten T, Sharma P
Tissue Eng Regen Med
. 2023 Oct;
20(7):1041-1052.
PMID: 37861960
Background: Osteoarthritis (OA) is the most common degenerative joint disease without an ultimate treatment. In a search for novel approaches, tissue engineering (TE) has shown great potential to be an...
2.
Patino Vargas M, Martinez-Garcia F, Offens F, Becerra N, Restrepo L, van der Mei H, et al.
Biomater Adv
. 2022 Jul;
139:212967.
PMID: 35882126
Dermal wound healing relies on the properties of the extracellular matrix (ECM). Thus, hydrogels that replicate skin ECM have reached clinical application. After a dermal injury, a transient, biodegradable fibrin...
3.
Forson A, Rosman C, van Kooten T, van der Mei H, Sjollema J
Front Cell Infect Microbiol
. 2022 Feb;
11:799845.
PMID: 35111695
Advancements in contemporary medicine have led to an increasing life expectancy which has broadened the application of biomaterial implants. As each implant procedure has an innate risk of infection, the...
4.
Patino M, Restrepo L, Becerra N, van der Mei H, van Kooten T, Sharma P
Hum Gene Ther
. 2021 May;
32(19-20):1147-1157.
PMID: 33980038
Inefficient autologous tissue recovery in skin wounds increases the susceptibility of patients to infections caused by multidrug resistant microorganisms, resulting in a high mortality rate. Genetic modification of skin cells...
5.
Busscher H, Woudstra W, van Kooten T, Jutte P, Shi L, Liu J, et al.
Biomaterials
. 2020 Jan;
232:119737.
PMID: 31901693
Preventing bacterial infections from becoming the leading cause of death by the year 2050 requires the development of novel, infection-control strategies, building heavily on biomaterials science, including nanotechnology. Pre-clinical (animal)...
6.
van Kooten T, Koopmans S, Terwee T, Langner S, Stachs O, Guthoff R
Acta Ophthalmol
. 2019 Mar;
97(6):e860-e870.
PMID: 30900825
Purpose: To reduce capsular opacification by a peri-surgical treatment of the lens capsule with drugs in an in vivo rabbit model. Lens-refilling surgery is a potential therapeutic intervention to treat...
7.
Liu Y, Ren Y, Li Y, Su L, Zhang Y, Huang F, et al.
Acta Biomater
. 2018 Sep;
79:331-343.
PMID: 30172935
Conventional antimicrobials are becoming increasingly ineffective for treating bacterial infection due to the emergence of multi-drug resistant (MDR) pathogens. In addition, the biofilm-mode-of-growth of infecting bacteria impedes antimicrobial penetration in...
8.
Zhai Y, Busscher H, Liu Y, Zhang Z, van Kooten T, Su L, et al.
Biomacromolecules
. 2018 Mar;
19(6):2023-2033.
PMID: 29584416
Inadvertent photosensitizer-activation and singlet-oxygen generation hampers clinical application of photodynamic therapies of superficial tumors or subcutaneous infections. Therefore, a reversible photoswitchable system was designed in micellar nanocarriers using ZnTPP as...
9.
Zhou Q, Castaneda Ocampo O, Guimaraes C, Kuhn P, van Kooten T, van Rijn P
ACS Appl Mater Interfaces
. 2017 Aug;
9(37):31433-31445.
PMID: 28825457
High-throughput screening (HTS) methods based on topography gradients or arrays have been extensively used to investigate cell-material interactions. However, it is a huge technological challenge to cost efficiently prepare topographical...
10.
Barros R, Gelens E, Bulten E, Tuin A, de Jong M, Kuijer R, et al.
J Biomed Mater Res A
. 2017 May;
105(8):2252-2265.
PMID: 28513985
Nanofibers are thought to enhance cell adhesion, growth, and function. We demonstrate that the choice of building blocks in self-assembling nanofiber systems can be used to control cell behavior. The...