2000
DOI: 10.1002/1439-2054(20001001)282:1<5::aid-mame5>3.0.co;2-h
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Evaluation of biocompatibility of the surface of polyethylene films modified with various water soluble polymers using Ar plasma-post polymerization technique

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Cited by 30 publications
(27 citation statements)
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“…On the other hand the hinge material (SPR 220) can cause in-vivo inflammation. However, the SPR 220 biocompatibility can be improved by surface modification techniques like anticoagulant immobilization on carbodiimide activated surfaces 61 or deposition of a thin layer of Polyethylene (PE) 62 on the hinges, the nanometer thickness of the biocompatible polymer layers does not impact the self-folding yield. The cubic structures can be further encapsulated within a biocompatible polymer shell along with other microbot components to avoid triggering an immune response.
Figure 5Optical Image of the 500 μm three-dimensional cubic inclinometer.
…”
Section: Resultsmentioning
confidence: 99%
“…On the other hand the hinge material (SPR 220) can cause in-vivo inflammation. However, the SPR 220 biocompatibility can be improved by surface modification techniques like anticoagulant immobilization on carbodiimide activated surfaces 61 or deposition of a thin layer of Polyethylene (PE) 62 on the hinges, the nanometer thickness of the biocompatible polymer layers does not impact the self-folding yield. The cubic structures can be further encapsulated within a biocompatible polymer shell along with other microbot components to avoid triggering an immune response.
Figure 5Optical Image of the 500 μm three-dimensional cubic inclinometer.
…”
Section: Resultsmentioning
confidence: 99%
“…Sugiyami et al presented the biocompatibility of polyethylene grafted (g-PE) films modified with multiple polymer segments by measuring the adsorption of serum proteins to the surfaces and the rate of enzymatic reaction of thrombin with a synthetic substrate. It was found that PMPC-g-PE suppressed the amount of proteins adherent to the surface more than any other system because the PMPC segments have the largest amount of free water around the main chain (Sugiyami et al 2000).…”
Section: Biocompatibility and Toxicity Analysis Of Hydrogelsmentioning
confidence: 99%
“…Based on a technique developed by Chapman and colleagues [78] who successfully coupled synthetic methacryloyl-phosphorylcholine/lauryl-methacrylate (MPC:LM) copolymers with metal and synthetic surfaces [23], the process involves coating the surface polymer with a derivative of phosphorylcholine, the major lipid head component of the outer surface monolayer of biological cell surface membranes [9]. Due to its hydrophilic properties, MPC:LM is referred to as a hydrogel [79,80]. The hydrogel is relatively easily coated onto other polymer surfaces post fabrication, in a manner that is stable and safe with minimal leaching [9].…”
Section: Biomembrane Mimicrymentioning
confidence: 99%
“…There was also evidence of decreased factor XII activation [9]. Finally, when solubilized, the MPC inhibits thrombin by an as yet undefined mechanism [79].…”
Section: Biomembrane Mimicrymentioning
confidence: 99%