Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound

---

Query: UMLS:C0344329 (collapse)
28,634 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Acute renal failure (ARF) with overhydration and edematous state may follow Acute endocapillary proliferative glomerulonephritis and extracapillary glomerulonephritis, because of reduction of the glomerular capillary area available for filtration. But ARF may also be observed in edematous patients with minimal change nephrotic syndrome; it may require dialysis until recovery and is attributable to some of the following factors: (1) ischemic renal injury, (2) hypovolemia, (3) interstitial edema with tubular collapse, (4) redistribution of renal blood flow (RBF) from cortical to juxtaglomerular nephrons, (5) decrease of capillary filtration coefficient (Kf), (6) use of nonsteroidal antiinflammatory drugs. Congestive heart failure also leads to prerenal azotemia and edema formation secondary to salt retention. Multiple organ dysfunction syndrome (MODS) is frequently associated with ARF; but edema occurs even without ARF in septic patients with severe inflammatory response syndrome (SIRS). ARF may follow severe burns; burned patients are frequently edematous because of a rapid leak of fluid from the vascular bed into the wound; edema in undamaged areas occurs in the 'flow phase', because of a fall of oncotic pressure because of massive loss of plasma proteins into the wound. Edema must be treated with diuretics or by dialysis.
...
PMID:Edema and acute renal failure. 1132 Apr 89

During ultra-endurance exercise, both increase in body temperature and dehydration due to sweat losses, lead to a decrease in central blood volume. The heart rate drift allows maintaining appropriate cardiac output, in order to satisfy both muscle perfusion and heat transfer requirements by increasing skin blood flow. The resulting dehydration can impair thermal regulation and increase the risks of serious accidents as heat stroke. Endurance events, lasting more than 8 hours, result in large sweat sodium chloride losses. Thus, ingestion of large amounts of water with poor salt intake can induce symptomatic hyponatremia (plasma sodium < 130 mEq/L) which is also a serious accident. Heat environment increases the thermal constraint and when the air humidity is high, evaporation of sweat is compromise. Thus, thermal stress becomes uncompensable which increases the risk of cardiovascular collapse. Cold exposure induces physiological responses to maintain internal temperature by both limiting thermal losses and increasing metabolic heat production. Cold can induce accidental hypothermia and local frost-bites; moreover, it increases the risk of arrhythmia during exercise. Some guidelines (cardiovascular fitness, water and electrolyte intakes, protective clothing) are given for each extreme condition.
...
PMID:[Sports and extreme conditions. Cardiovascular incidence in long term exertion and extreme temperatures (heat, cold)]. 1150 64

Structural analysis of the initial steps in protein folding is difficult because of the swiftness with which these steps occur. Hence, the link between initial polypeptide chain collapse and formation of secondary and other specific structures remains poorly understood. Here, an equilibrium model has been developed for characterizing the initial steps of folding of the small protein barstar, which lead to the formation of a productive molten globule in the folding pathway. In this model, the high-pH-unfolded form (D form) of barstar, which is shown to be as unstructured as the urea-denatured form, is transformed progressively into a molten globule B form by incremental addition of the salt Na(2)SO(4) at pH 12. At very low concentrations of Na(2)SO(4), the D form collapses into a pre-molten globule (P) form, whose volume exceeds that of the native (N) state by only 20%, and which lacks any specific structure as determined by far- and near-UV circular dichroism. At higher concentrations of Na(2)SO(4), the P form transforms into the molten globule (B) form in a highly noncooperative transition populated by an ensemble of at least two intermediates. The B form is a dry molten globule in which water is excluded from the core, and in which secondary structure develops to 65% and tertiary contacts develop to 40%, relative to that of the native protein. Kinetic refolding experiments carried out at pH 7 and at high Na(2)SO(4) concentrations, in which the rate of folding of the D form to the N state is compared to that of the B form to the N state, indicate conclusively that the B form is a productive intermediate that forms on the direct pathway of folding from the D form to the N state.
...
PMID:Mechanism of formation of a productive molten globule form of barstar. 1182 14

DNA self-assembly with polycations produces nanoparticles suitable for gene delivery, although there is no standard methodology to measure particle formation and stability. Here we have compared three commonly used assays, namely, light scattering, inhibition of ethidium bromide fluorescence, and modified electrophoretic mobility of DNA. Analysis by light scattering and loss of ethidium bromide fluorescence both showed poly(l-lysine) (pLL)/DNA nanoparticles form over the lysine/phosphate ratio range 0.6-1.0, although retardation of DNA electrophoretic mobility commenced at lower lysine/phosphate ratios. This probably indicates that the first two assays monitor DNA collapse into particles, while the electrophoresis assay measures neutralization of the charge on DNA. Gel analysis of the complexes showed disproportionation during nanoparticle formation, probably reflecting cooperative binding of the polycation. The assays were used to examine stability of complexes to dilution in water and physiological salts. Whereas all pLL/DNA nanoparticles were stable to dilution in water, the presence of physiological salts provoked selective disruption of complexes based on low-molecular-weight pLL. Polyelectrolyte complexes for targeted application in vivo should therefore be based on high-molecular-weight polycations, or should be stabilized to prevent their dissociation under physiological salt conditions.
...
PMID:Methodologies for monitoring nanoparticle formation by self-assembly of DNA with poly(l-lysine). 1184 78

Nucleoids of Escherichia coli were isolated by osmotic shock under conditions of low salt in the absence of added polyamines or Mg(2+). As determined by fluorescence microscopy, the isolated nucleoids in 0.2 M NaCl are expanded structures with an estimated volume of about 27 microm(3) according to a procedure based on a 50% threshold for the fluorescence intensity. The nucleoid volume is measured as a function of the concentration of added polyethylene glycol. The collapse is a continuous process, so that a coil-globule transition is not witnessed. The Helmholtz free energy of the nucleoids is determined via the depletion interaction between the DNA helix and the polyethylene glycol chains. The resulting compaction relation is discussed in terms of the current theory of branched DNA supercoils and it is concluded that the in vitro nucleoid is crosslinked in a physical sense. Despite the congested and crosslinked state of the nucleoid, the relaxation rate of its superhelical segments, as monitored by dynamic light scattering, turns out to be purely diffusional. At small scales, the nucleoid behaves as a fluid.
...
PMID:Polymer-mediated compaction and internal dynamics of isolated Escherichia coli nucleoids. 2569 81

Hyperhomocysteinemia (hHcys) has been recognized as a new risk factor for cardiovascular diseases independent of plasma lipid levels or other factors. However, it remains unknown whether hHcys is implicated in the target organ damages associated with hypertension. The present study first examined the possible role of hHcys in the development of glomerulosclerosis in Dahl salt-sensitive (DS) hypertensive rats. High-performance liquid chromatography showed that plasma total homocysteine (tHcys) concentration was 7.64 +/- 0.29 micromol/L in conscious DS rats on a low salt (0.4% NaCl) diet, which was higher than 5.23 +/- 0.25 micromol/L in Dahl salt-resistant normotensive rats. When these rats were exposed to a high salt (4% NaCl) diet, plasma tHcys markedly increased in DS rats (14.7 +/-1.31 micromol/L) but not in Dahl salt-resistant rats (5.34 +/- 0.54 micromol/L). An iron chelater, desferrioxamine (0.3 mg/kg IV per day), completely normalized high salt--induced elevations of plasma tHcys and significantly attenuated the sclerotic changes in the glomeruli in DS rats. To further determine whether hHcys has an independent effect in the development of glomerulosclerosis, Sprague-Dawley rats were fed drinking water containing methionine (1 g/kg per day) for 6 weeks to produce hHcys. In these rats, plasma tHcys increased to 12.5 +/- 1.9 micromol/L (versus 6.1 +/- 2.6 micromol/L in control rats), and the aorta exhibited typical sclerotic changes, but arterial pressure was not altered. Urinary protein excretion increased to 52 +/- 2 mg/24 hours (versus 17 +/- 2 mg/24 hours in control rats), and the glomerular mesangium was expanded with glomerular hypercellularity, capillary collapse, and fibrous deposition in the rats with hHcys. These results suggest that elevated plasma homocysteine may be an important pathogenic factor for glomerular damage in hypertension independent of arterial pressure.
...
PMID:Implications of hyperhomocysteinemia in glomerular sclerosis in hypertension. 1188 87

Thermo- and pH-sensitive hydrogels were synthesized using N-isopropylacrylamide (NIPA) and N-aminopropylmethacrylamide, cross-linked with N,N'-methylenebis(acrylamide). The dependence of the degree of swelling on the cross-linking density was analyzed according to the Flory-Huggins theory and a master curve obtained. To optimize the efficiency of these hydrogels in controlled release, we studied the loading and release of a divalent molecule (naphthalenedisulfonic acid, NS-2) in media of different ionic strengths and pH. The uptake process followed the Langmuir adsorption isotherm model. The highest loading occurred when the amino groups in the gel were protonated (acidic pH) and could come close each other to form a binding site for the two sulfonic groups of NS-2, i.e. low degree of cross-linking and collapsed state. Below the phase transition temperature (33 degrees C), NS-2 loaded hydrogels quickly released a significant amount of adsorbate until a new equilibrium between free NS-2 and adsorbed NS-2 was achieved. Above that temperature, hydrogels not only stopped the release but were even able to take free NS-2 up again from the medium, showing that the loading/release process was reversible and reproducible after several temperature cycles. At 37 degrees C, the release rate was independent of the degree of cross-linking (NIPA caused the hydrogel to collapse), but was strongly affected by the pH and salt concentrations of the medium, which condition the strength of the interaction between the hydrogel amino groups and the NS-2 sulfonic groups. In an acidic medium, the protonated amino groups bind NS-2 strongly and the amount released is small. In contrast, at pH 7.4 or in the presence of a high salt concentration, the hydrogel loses its affinity for NS-2 and the release rate increases, giving pH- or salt-sensitive delivery systems. Additionally, since the hydrogel is collapsed, the release can be prolonged for a long period of time.
...
PMID:Reversible adsorption by a pH- and temperature-sensitive acrylic hydrogel. 1194 2

Tetrakis-acridinyl peptide 1 assuming a right-handed helical stacked conformation of the acridinyl units can bind to DNA duplex with a very high affinity of 10(8) (M-bp)(-1) even at a high salt concentration of 0.2 M NaCl, irrespective of the base composition. Peptide 1 gave rise to 1600-times enhancement of its fluorescence upon binding to an AT polymer due to the collapse of this stacked structure, but the fluorescence is not enhanced with a GC polymer, though the binding constants of 1 for both polymers were the same.
...
PMID:Tetrakis-acridinyl peptide: a novel fluorometric reagent for nucleic acid analysis based on the fluorescence dequenching upon DNA binding. 1217 44

Given the increasing importance of reducing development time for new pharmaceutical products, formulation and process development scientists must continually look for ways to "work smarter, not harder." Within the product development arena, this means reducing the amount of trial and error empiricism in arriving at a formulation and identification of processing conditions which will result in a quality final dosage form. Characterization of the freezing behavior of the intended formulation is necessary for developing processing conditions which will result in the shortest drying time while maintaining all critical quality attributes of the freeze-dried product. Analysis of frozen systems was discussed in detail, particularly with respect to the glass transition as the physical event underlying collapse during freeze-drying, eutectic mixture formation, and crystallization events upon warming of frozen systems. Experiments to determine how freezing and freeze-drying behavior is affected by changes in the composition of the formulation are often useful in establishing the "robustness" of a formulation. It is not uncommon for seemingly subtle changes in composition of the formulation, such as a change in formulation pH, buffer salt, drug concentration, or an additional excipient, to result in striking differences in freezing and freeze-drying behavior. With regard to selecting a formulation, it is wise to keep the formulation as simple as possible. If a buffer is needed, a minimum concentration should be used. The same principle applies to added salts: If used at all, the concentration should be kept to a minimum. For many proteins a combination of an amorphous excipient, such as a disaccharide, and a crystallizing excipient, such as glycine, will result in a suitable combination of chemical stability and physical stability of the freeze-dried solid. Concepts of heat and mass transfer are valuable in rational design of processing conditions. Heat transfer by conduction--the dominant mechanism of heat transfer in freeze-drying--is inefficient at the pressures used in freeze-drying. Steps should be taken to improve the thermal contact between the product and the shelf of the freeze dryer, such as eliminating metal trays from the drying process. Quantitation of the heat transfer coefficient for the geometry used is a useful way of assessing the impact of changes in the system such as elimination of product trays and changes in the vial. Because heat transfer by conduction through the vapor increases with increasing pressure, the commonly held point of view that "the lower the pressure, the better" is not true with respect to process efficiency. The optimum pressure for a given product is a function of the temperature at which freeze-drying is carried out, and lower pressures are needed at low product temperatures. The controlling resistance to mass transfer is almost always the resistance of the partially dried solids above the submination interface. This resistance can be minimized by avoiding fill volumes of more than about half the volume of the container. The development scientist should also recognize that very high concentrations of solute may not be appropriate for optimum freeze-drying, particularly if the resistance of the dried product layer increases sharply with concentration. Although the last 10 years has seen the publication of a significant body of literature of great value in allowing development scientists and engineers to "work smarter," there is still much work needed in both the science and the technology of freeze-drying. Scientific development is needed for improving analytical methodology for characterization of frozen systems and freeze-dried solids. A better understanding of the relationship between molecular mobility and reactivity is needed to allow accurate prediction of product stability at the intended storage temperature based on accelerated stability at higher temperatures. This requires that the temperature dependence of glass transition-associated mobility, particularly at temperatures below the glass transition, be studied in greater depth. The relevance of the concept of strong and fragile glasses to frozen systems and freeze-dried solids has only begun to be explored. The list of pharmaceutically acceptable protective solutes is very short, and more imagination--and work--is needed in order to develop pharmaceutically acceptable alternative stabilizers. There is a need for technology development in process monitoring, particularly in developing a way to measure the status of the product during freezing and freeze-drying without placing temperature measurement probes in individual vials of product. The current practice of placing thermocouples in vials is uncertain with respect to reliability of the data, inconsistent with elimination of personnel in close proximity to open vials of product in an aseptic environment, and incompatible with technology for automatic material handling in freeze-drying. In addition, a method for controlling the degree of supercooling during freezing would allow better control of freezing rate and would, in many cases, result in more consistent product quality.
...
PMID:Fundamentals of freeze-drying. 1218 27

In November 1989, 23 leading hunger experts met in Bellagio, Italy, issues a document called the "Bellagio Declaration: Overcoming Hunger in the 1990s." The report lists 4 achievable goals: eliminate famine deaths; end hunger in half of the world's poorest households; reduce by half malnutrition of mothers and small children; and eradicate iodine and vitamin A deficiencies. Famine deaths can be eliminated by setting up early-warning systems and longer-term relief objectives. The only remaining obstacle is how to prevent warring nations from blocking food deliveries and destroying food. Hunger can be eliminated in half the world's poor households by giving the poor access to resources and credit, rehabilitating degraded ecosystems, using sustainable farming, and using existing markets to distribute food equitably. Malnutrition can be halved by sustained breastfeeding, and supplementation of food and micronutrients. Iodine and vitamin A deficiencies can be eliminated by giving iodized oil injections, vitamin A capsules and iodized salt. Ways of dealing with obstacles such as population, deforestation, soil and water shortages, pollution, global warming and capital deficits in the South are discussed. There is hope that these goals can be attained because of the outbreak of peace and democracy, freeing up substantial portions of the 1 trillion US dollars spent on defense; abatement of feat of worldwide economic collapse; and evolution of a worldwide logistic system to provide emergency food aid.
...
PMID:The Bellagio Declaration: overcoming hunger in the 1990's. 1234 52


<< Previous 1 2 3 4 5 6 7 8 9 10 Next >>

---