Inhibiting Bacterial Adhesion by Mechanically Modulated Microgel Coatings

Abstract: Bacterial infection is a severe problem especially when associated with biomedical applications. This study effectively demonstrates that poly-N-isopropylmethacrylamide based microgel coatings prevent bacterial adhesion. The coating preparation via a spraying approach proved to be simple and both cost and time efficient creating a homogeneous dense microgel monolayer. In particular, the influence of cross-linking density, microgel size, and coating thickness was investigated on the initial bacterial adhesion. … Show more

“… 20 − 22 Recently, our group reported the effect of nanogel size, mechanical properties, and coating thickness on the antifouling behavior toward bacterial adhesion. 13 So far, nanogel coatings have been used for antifouling purposes toward proteins, 23 macrophage adhesion, 24 antifogging and antifrosting performance, 25 enzyme uptake capability for biosensor design, 26 controlling the cell proliferation and cell adhesion, 27 , 28 and controlling antimicrobial and anti-inflammatory properties via peptide-loading. 29 The surface coating preparation with nanogel particles is a facile method and predominantly based on the electrostatic interactions of a pretreated surface and the nanogel surface charge that is induced by the synthesis method.…”

Highly Efficient Antimicrobial and Antifouling Surface Coatings with Triclosan-Loaded Nanogels

“… 20 − 22 Recently, our group reported the effect of nanogel size, mechanical properties, and coating thickness on the antifouling behavior toward bacterial adhesion. 13 So far, nanogel coatings have been used for antifouling purposes toward proteins, 23 macrophage adhesion, 24 antifogging and antifrosting performance, 25 enzyme uptake capability for biosensor design, 26 controlling the cell proliferation and cell adhesion, 27 , 28 and controlling antimicrobial and anti-inflammatory properties via peptide-loading. 29 The surface coating preparation with nanogel particles is a facile method and predominantly based on the electrostatic interactions of a pretreated surface and the nanogel surface charge that is induced by the synthesis method.…”

Highly Efficient Antimicrobial and Antifouling Surface Coatings with Triclosan-Loaded Nanogels

“…Hydrogel nanoparticles or nanogels, have been used in various fields of research including catalysis, [8, 9] selective diagnostics and delivery, [10, 11] and anti‐fouling coatings [12, 13] . Even though these nanogels have found their way into the biomedical field, [14, 15] theranostics and multimodalities remain underdeveloped and mostly hybrid structures are being used (inorganic/organic) [16–18] .…”

“…[7] Hydrogel nanoparticles or nanogels, have been used in various fields of research includingc atalysis, [8,9] selectived iagnostics and delivery, [10,11] and anti-fouling coatings. [12,13] Even though these nanogelshave found their wayinto the biomedical field, [14,15] theranostics and multimodalities remainu nderdeveloped and mostly hybrid structuresa re being used (inorganic/organic). [16][17][18] Few examples have been developedt hat rely solely on hydrogel structures [17,[19][20][21][22][23] and when doing so, the multimodality originates from as ingle molecular species, [24] whichl imits the general applicability.…”

Nanogels with Selective Intracellular Reactivity for Intracellular Tracking and Delivery

“…Nanogels were synthesized by precipitation polymerization as previously described with some adaptations to suit this study purposes. 133 Prior to use, NIPMAM 97% was purified by recrystallization from n-hexane and dried at reduced pressure using a rotary evaporator. The SDS concentration ( Figure S1, Appendix A) and polymerization time ( Figure S2, Appendix A) affect the nanogels size and dispersity and were varied to obtain monodisperse nanogels at 200 and 400 nm range sizes and monodispersity.…”

“…This can possibly be explained by the NGs stiffness variation, where NG1.5 elastic modulus is about 20 kPa and NG5 120 kPa, while NG14 is about 350 kPa, as reported in our earlier work. 133 The lower uptake of soft NPs by macrophages is an indication of longer blood half-life in vivo and often leads to increased accumulation in tissues. As reported by Anselmo et al, not only blood circulation was longer for soft particles, but also organ retention was enhanced, including brain accumulation.…”

Bionanomateriais para o cruzamento de barreira biológica e entrega controlada