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Query: UMLS:C0038187 (
starvation
)
24,951
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
We studied 40 elderly patients undergoing
cataract
surgery. Ten non-insulin-dependent diabetes mellitus (NIDDM) patients received standardized general anaesthesia, 10 NIDDM patients received local anaesthesia using retrobulbar block, 10 non-diabetic control patients received general anaesthesia and 10 non-diabetic controls received retrobulbar block. We measured sequential changes in blood glucose, lactate and beta-hydroxybutyrate, serum cortisol and insulin, and plasma non-esterified fatty acid concentrations until 4 h after operation. The results showed that in both general anaesthesia groups, NIDDM and control, blood glucose and serum cortisol concentrations increased significantly during surgery, before returning to normal by 4 h after operation; in both local anaesthesia groups, glucose and cortisol concentrations changed little during surgery. Serum insulin concentrations increased 30 min after operation to coincide with the peak of the glucose increase in the non-diabetic patients who received general anaesthesia, but no insulin response was seen in the diabetic general anaesthesia patients. Blood glucose and insulin concentrations increased in patients who received local anaesthesia (NIDDM and controls) when they ate after operation. The results show that
cataract
surgery under local anaesthesia provides improved metabolic control for the diabetic patient. Its use maintains glucose homeostasis, prevents the increases in cortisol and glucose which are seen under general anaesthesia and obviates the need for postoperative
starvation
.
...
PMID:Metabolic control of non-insulin-dependent diabetic patients undergoing cataract surgery: comparison of local and general anaesthesia. 777 20
Members of the British Ophthalmic Anaesthesia Society were surveyed using a postal questionnaire. The response rate was 72.3%. Respondents were asked about
starvation
before regional anaesthesia for
cataract
surgery, the use of sedation in these patients, monitoring and if oxygen supplementation was given. The results show that most patients are not starved before this type of regional anaesthesia, and that the majority of patients receive no supplementary sedation or intravenous analgesia. Over 70% of patients received oxygen supplementation.
...
PMID:Fasting regimens for regional ophthalmic anaesthesia. A survey of members of the British Ophthalmic Anaesthesia Society. 1143 63
The function of connexins, which form gap junctions, can be rapidly modulated by degradation, because they have half-lives of only a few hours. Autophagy is a degradation pathway that has been implicated in several diseases and can be induced by cellular stresses such as
starvation
. We investigated the involvement of autophagy in proteolysis of the wild-type connexins CX50 and CX43, and a
cataract
-associated connexin mutant, CX50P88S, which forms cytoplasmic accumulations. We observed that cytoplasmic connexins were partially (cup-shaped) or completely (ring-shaped) enclosed by structures containing the autophagy-related protein LC3. Intracellular connexins also colocalized with p62, a protein that might serve as a cargo receptor for autophagic degradation.
Starvation
induced a decrease in connexin levels that was blocked by treatment with chloroquine, a lysosomal protease inhibitor, or by knockdown of the autophagy-related protein Atg5. These results demonstrate that autophagy can regulate cellular levels of wild-type connexins and imply that the persistence of accumulations of CX50P88S results from insufficient degradation capacity of constitutive autophagy.
...
PMID:Autophagy: a pathway that contributes to connexin degradation. 2137 9
The eye lens consists of a layer of epithelial cells that overlay a series of differentiating fiber cells that upon maturation lose their mitochondria, nuclei and other organelles. Lens transparency relies on the metabolic function of mitochondria contained in the lens epithelial cells and in the immature fiber cells and the programmed degradation of mitochondria and other organelles occurring upon lens fiber cell maturation. Loss of lens mitochondrial function in the epithelium or failure to degrade mitochondria and other organelles in lens fiber cells results in lens
cataract
formation. To date, the mechanisms that govern the maintenance of mitochondria in the lens and the degradation of mitochondria during programmed lens fiber cell maturation have not been fully elucidated. Here, we demonstrate using electron microscopy and dual-label confocal imaging the presence of autophagic vesicles containing mitochondria in lens epithelial cells, immature lens fiber cells and during early stages of lens fiber cell differentiation. We also show that mitophagy is induced in primary lens epithelial cells upon serum
starvation
. These data provide evidence that autophagy occurs throughout the lens and that mitophagy functions in the lens to remove damaged mitochondria from the lens epithelium and to degrade mitochondria in the differentiating lens fiber cells for lens development. The results provide a novel mechanism for how mitochondria are maintained to preserve lens metabolic function and how mitochondria are degraded upon lens fiber cell maturation.
...
PMID:Autophagy and mitophagy participate in ocular lens organelle degradation. 2401 88
