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Query: UMLS:C0020672 (
hypothermia
)
17,327
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
This
ethylene glycol
poisoning case had a blood pH of 6.58 and severe
hypothermia
(30.9 C). The patient received supportive care with dialysis and ethanol therapy. He survived in his premorbid state after 23 days in the hospital. A similar case survived
ethylene glycol
poisoning neurologicaly intact with an initial pH of 6.46. Although severe acidosis in the presence of serious illness is usually associated with a poor prognosis, our case emphasized the importance of aggressive supportive care and antidotal therapy for
ethylene glycol
poisoning even when there is a low pH.
...
PMID:Survival after ethylene glycol poisoning in a patient with an arterial pH of 6.58. 1204 72
Renal preservation at for 24 hours at
hypothermia
was studied in a rabbit model after flush cooling with sucrose-based solution (SBS), compared with a standard preservation solution (in this case, Marshall's Hypertonic Citrate solution - HCA).
Polyethylene glycol
supplementation to SBS (SBS-
PEG
) was also investigated. Renal function was measured by plasma creatinine assays during 1 months post transplantation, and pathology of the explanted kidneys was undertaken. Results showed that survival at 28 days was similar in all groups, (HCA - 3 out of 6; SBS - 2 out of 5; SBS-
PEG
- 3 out of 5), and there were no differences in recovery of plasma creatinine values. Histopathological evaluation of the grafts indicated that SBS preservation resulted in more severe damage after transplantation (P less than 0.05 in both corticomedullary region and medulla compared to HCA), whilst addition of
PEG
reduced the damage score to that seen with HCA. SBS can be used as a simple, inexpensive preservation solution for kidney cold storage provided that
PEG
is used as an additional colloid.
...
PMID:Hypothermic renal preservation with a sucrose/ polyethylene glycol solution in a rabbit renal transplant model. 1679 44
Polyethylene glycol
(
PEG
), a high-molecular-weight colloid present in new organ preservation solutions, protects against cold ischemia injuries leading to better graft function of transplanted organs. This protective effect cannot be totally explained by immuno-camouflaging property or signaling-pathway modifications. Therefore, we sought for an alternative mechanism dependent on membrane fluidity. Using the Langmuir-Pockles technique, we show here that PEGs interacted with lipid monolayers of defined composition or constituted by a renal cell lipid extract. High-molecular-weight PEGs stabilized the lipid monolayer at low surface pressure. Paradoxically, at high surface pressure, PEGs destabilized the monolayers.
Hypothermia
reduced the destabilization of saturated monolayer whereas unsaturated monolayer remained unaffected. Modification of ionic strength and pH induced a stronger stabilizing effect of
PEG 35
,000 Da which could explain its reported higher effectiveness on cold-induced injuries during organ transplantation. This study sheds a new light on
PEG
protective effects during organ preservation different from all classical hypotheses.
...
PMID:Polyethylene glycols interact with membrane glycerophospholipids: is this part of their mechanism for hypothermic graft protection? 1956 91
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