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Target Concepts:
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Query: UMLS:C0016382 (
flushing
)
6,387
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Polyethylene glycol-electrolyte lavage solution (PEG-ELS) is a whole gut lavage solution designed to cleanse the gastrointestinal tract prior to bowel surgery or endoscopy. This method relies on pediatric nurses safely administering a large volume of
PEG
-ELS, marketed as Golytely, to produce the
flushing
effect without significant absorption of the Golytely.
...
PMID:Preop use of Golytely in pediatrics. 258 5
This study evaluated the effect of specific scavengers of oxygen derived free radicals on the results of kidney preservation. The immediate function of rabbit kidneys preserved for 24 hr by hypothermic perfusion was studied on an ex vivo shunt. A significant improvement in creatinine clearance was seen when the perfusate was treated with superoxide dismutase (SOD) and catalase (CAT), with values of 261 +/- 82 ml/hr vs control values of 203 +/- 72 ml/hr, P less than 0.05. This effect was enhanced if a long-persistent polyethylene glycol-linked form of SOD, namely
PEG
-SOD, was used (330 +/- 58 ml/hr, P less than 0.01). Recipient treatment and other modifications designed to protect against free radicals resulted in similar improvement in function. In contrast, no effect of free radical scavengers could be demonstrated in kidneys which were preserved by flush cooling, whether the agents were added to the
flushing
solution, given to the recipient, or both.
...
PMID:The effects of oxygen free radicals on the preserved kidney. 329 97
Recent studies with
PEG
liposomes in patients have consistently shown that liposomes can induce side effects (
flushing
, tightness of the chest). Furthermore, the blood clearance of
PEG
liposomes was shown to be dose-dependent: at lipid doses lower than 1 micromol/kg,
PEG
liposomes do not show the long-circulation property but instead are cleared relatively rapidly from the bloodstream. Another remarkable observation was that repeated injections of
PEG
liposomes led to significant pharmacokinetic changes: the circulatory half-life of a second dose of radiolabeled
PEG
liposomes dramatically decreased when given from 5 days to up to 4 weeks after a first injection. In these three unexpected phenomena, proteins of the complement system seem to play a key role. Therefore, one has to consider that
PEG
liposomes are not inert drug-carrying vehicles in vivo. Pharmacological effects can occur, induced solely by using liposomal particles irrespective of the drug content.
...
PMID:In vivo applications of PEG liposomes: unexpected observations. 1178 75
Various combinations of
PEG
-silica, phenyl-silica and C18 columns in a single-column or serial (tandem) arrangement in the first dimension and a monolithic Chromolith column in the second dimension were tested for comprehensive two-dimensional (2D) LCxLC separation of phenolic and flavone natural antioxidants. The combinations of different stationary phase chemistries provided low selectivity correlations between the first-dimension and the second-dimension separation systems. Improvement in system orthogonality, bandwidths suppression, more regular band distribution over the whole 2D retention plane and increased peak capacity in different 2D setups was achieved by using gradients with matching profiles running in parallel in the two dimensions over the whole 2D separation time range. Instead of two sampling loops, two alternating trapping XTerra columns were used for sample fraction transfer from the first-dimension column to the second dimension. Stronger retention on the XTerra columns in comparison to
PEG
-silica or phenyl-silica columns in the first dimension allowed using focusing of sample fractions in narrow zones on the top of a trapping column and back-
flushing
into the second dimension in a very low volume of the mobile phase. This fraction transfer modulation provided significant bandwidth suppression in the second dimension. 2D systems with optimized stationary phase selectivity, parallel gradients and fraction transfer modulation using two trapping columns were applied for the analysis of natural antioxidants in beer and wine samples.
...
PMID:Comprehensive two-dimensional liquid chromatography with parallel gradients for separation of phenolic and flavone antioxidants. 1733 19
Suspension arrays for protein-based assays have been developed using shape-coded poly(ethylene glycol) (
PEG
) hydrogel microparticles to overcome the problems with current systems which use color-coded rigid microparticles as protein supports. Various shapes of hydrogel microparticles were fabricated by a two-step process consisting of photopatterning and
flushing
using a poly(dimethylsiloxane) (PDMS) channel as a molding insert. Hydrogel microparticles with lateral dimensions ranging from 50 to 300 micrometers were fabricated using different molecular weights of
PEG
(700, 3,400, and 8,000 Da), by which the water content and swelling behavior of the hydrogel microparticles could be controlled. Protein-entrapped hydrogel microparticles were prepared in a suspension array format, and
PEG
hydrogel could encapsulate proteins without deactivation for a week due to its high water content and soft nature. The sequential bienzymatic reaction of hydrogel-entrapped glucose oxidase (GOX) and peroxidase (POD) was successfully investigated using fluorescence detection, demonstrating one possible application of suspension arrays. Furthermore, a mixture of two different shapes of hydrogel microparticles containing GOX/POD and alkaline phosphatase (AP), respectively, was prepared and the shape-coded suspension array was used for simultaneous characterization of two different enzyme-catalyzed reactions.
...
PMID:Suspension arrays of hydrogel microparticles prepared by photopatterning for multiplexed protein-based bioassays. 1856 Oct 28
Immobilisation of liposomes and cells is often a prerequisite for long-term observations. The most common immobilisation approaches rely on surface modifications, encapsulation in porous materials or trapping in microfluidic channels by means of hurdle-like structures. While these approaches are useful for larger mammalian cells, the immobilisation of smaller organisms like bacteria and yeast or membrane model systems such as liposomes typically requires modification of their outer membrane to ensure that they are stably arrested at a defined position. Here, we present a protocol to immobilise biological objects, which can interact with hydrophobic cholesterol. A water-soluble molecule (cholesterol-
PEG
-biotin) is used as a linker, which can bind via avidin to biotinylated BSA (bBSA) previously absorbed on a glass surface. For better visualization, bBSA is arranged in a dot pattern by means of microcontact printing, and a microfluidic channel is used for sample supply. We show that our approach can be used to successfully immobilise artificial liposomes of different sizes, native (cell-derived) vesicles, vaccinia virions, Saccharomyces cerevisiae and Escherichia coli, simply by
flushing
the objects through the channel. Under these conditions, small liposomes and biological objects are stably arrested at high flow rates, while larger cells and liposomes can be released again by application of high shear stress. This protocol can be applied for long-term studies where fluids must be changed repeatedly, for measuring fast kinetics where rapid fluid exchange is essential, and to study the effects of shear stress.
...
PMID:A facile protocol for the immobilisation of vesicles, virus particles, bacteria, and yeast cells. 2314 42
