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Query: UMLS:C0020672 (
hypothermia
)
17,327
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
With the current available information, the use of RCP for cerebral protection during HCA in the clinical setting will continue to be debated. Laboratory evaluation in a variety of animal models has thus far produced conflicting results and a variety of mixed information. Accumulating clinical evidence has confirmed that RCP is safe, provided flow rates and central venous (intracerebral) pressures are maintained at relatively low levels. The use of RCP is clinically safe and does not incur additional expense. In the event that the only clinical benefits of RCP are the maintenance of cerebral
hypothermia
and the
flushing
of air and particulate debris from the arterial circulation, consequently reducing the risk of embolism, then the continued use and investigation of RCP techniques is justified.
...
PMID:Retrograde cerebral perfusion is an effective means of neural support during deep hypothermic circulatory arrest. 930 19
Many lower vertebrates (reptilian and amphibian species) are capable of surviving natural episodes of hypoxia and
hypothermia
. It is by specific metabolic adaptations that anurans are able to tolerate prolonged exposure to harsh environmental stresses. In this study, it was hypothesized that livers from an aquatic frog would possess an inherent metabolic ability to sustain high levels of ATP in an isolated organ system, providing insight into a metabolic system that is well-adapted for low temperature in vitro organ storage. Frogs of the species, R. pipiens were acclimated at 20 degrees C and at 5 degrees C. Livers were preserved using a clinical preservation solution after
flushing
. Livers from 20 degrees C-acclimated frogs were stored at 20 degrees C and 5 degrees C and livers from 5 degrees C-acclimated frogs were stored at 5 degrees C. The results indicated that hepatic adenylate status was maintained for 96 h during 5 degrees C storage, but not longer than 4-10 h during 20 degrees C storage. In livers from 5 degrees C-acclimated animals subjected to 5 degrees C storage, ATP was maintained at 100% throughout the 96-h period. Warm acclimation (20 degrees C) and 20 degrees C storage resulted in poorer maintenance of ATP; energy charge values dropped to 0.50 within 2 h and by 24 h, only 24% of control ATP remained. Lactate levels remained less than 25 mumol/g dry weight in all 5 degrees C-stored livers; 20 degrees C-stored livers exhibited greater accumulation of this anaerobic endproduct (lactate reached 45-50 mumol/g by 10 h). The data imply that hepatic adenylate status is largely dependent on exposure to hypothermic hypoxia and although small amounts of ATP were accounted for by anaerobic glycolysis, there must have been either a substantial reduction in cellular energy-utilization or an efficient use of low oxygen tensions.
...
PMID:Effects of hypothermic hypoxia on anaerobic energy metabolism in isolated anuran livers. 987 41
Despite advances in preservation solutions,
hypothermia
remains a critical component of organ preservation for transplantation. Many surgeons involved in multi-organ procurement procedures have expressed concern about the possible detrimental effects of cardiopulmonary bypass and profound hypothermic circulatory arrest on non-thoracic transplant organ function. In order to assess the validity of these concerns, a review of 20 multi-organ harvest procedures performed utilizing cardiopulmonary bypass and profound hypothermic circulatory arrest was undertaken. In all instances this technique was combined with organ
flushing
utilizing cold preservation solution. Adequate data was available to assess post-transplant organ function of all organs recovered in 16 procedures. Indication for the use of this technique was procurement of a heart-lung bloc in 16 instances and donor instability (hypotension) refractory to volume loading and inotropic agents in 4 instances. Organs obtained, including all organs from unstable donors which would otherwise have been lost, functioned, acceptably. Additionally, blood drained into the pump was used for recipient transfusion in 8 instances. This report documents that cardiopulmonary bypass and profound hypothermic circulatory arrest may be easily combined with traditional procurement
flushing
techniques and it provides excellent organ preservation for subsequent transplantation. This approach can optimize organ recovery from hemodynamically unstable donors, increasing the number available for transplantation.
...
PMID:Multi-organ procurement utilizing cardiopulmonary bypass and profound hypothermic circulatory arrest. 1014 42
Current methods of preserving lung tissue for transplantation are inadequate. In this study, we tested whether the combination of
hypothermia
plus prostaglandin E(1) (PGE(1)) treatment would have synergistic attenuation on ischemia-reperfusion (I/R) lung injury. Isolated rat lung experiments with ischemia for 1 h then reperfusion for 1 h, were conducted using six different perfusates: (1) University of Wisconsin solution (UW) at 30 degrees C (n = 5), (2) UW at 22 degrees C (n = 5), (3) UW at 10 degrees C (n = 4), (4) UW+PGE(1) at 30 degrees C (n = 4), (5) UW+PGE(1) at 22 degrees C (n = 4), and (6) UW+PGE(1) at 10 degrees C (n = 4). Hemodynamic changes, lung weight gain, capillary filtration coefficients, and lung pathology were analyzed to evaluate the I/R injury. Compared with 30 degrees C UW, animals treated with 22 degrees C UW and 10 degrees C UW had less I/R lung injury, with the groups receiving 22 degrees C UW showing superior results to group receiving 10 degrees C UW. The addition of PGE(1) to UW solution produced more attenuation of I/R injury than did UW alone. Among the six groups, 10 degrees C UW+PGE(1) produced the most reduction of I/R injury. This study has shown that
hypothermia
can attenuate I/R injury with the optimal
flushing
temperature being near 22 degrees C. PGE(1) also has a protective effect on I/R. Furthermore,
hypothermia
and PGE(1) have synergistic attenuation of I/R lung injury. We propose that pulmonary artery flushed with cooling UW+PGE(1) might improve lung preservation and improve results in lung transplantation.
...
PMID:Hypothermia and prostaglandin E(1) produce synergistic attenuation of ischemia-reperfusion lung injury. 1050 24
The hepatic uptake of histidine and carnosine (histidyl-alanine), used as buffer agents in four preservation solutions, was studied during 24-h hypothermic storage of rat livers by use of (1)H nuclear magnetic resonance (NMR) spectroscopy. Results demonstrated that there was a progressive, concentration-linked passive diffusion of histidine into liver tissues throughout the storage period. A similar inward diffusion of carnosine was also noted. Of the carbohydrate osmotic buffers in the preservation solutions, mannitol permeated the liver tissues to a greater degree and more rapidly than raffinose after the
flushing
with equivalent concentrations and storage at
hypothermia
. In general, many solutes from preservation solutions will increasingly penetrate the hepatic inter- and intracellular spaces during extended hypothermic preservation and (1)H NMR spectroscopy is one technique that can assist in the identification of these changes.
...
PMID:Hepatic uptake of solutes from the preservation solution during hypothermic storage: a (1)H NMR study in rat liver. 1174 39
Aldehyde dehydrogenase 2 (ALDH2) is an important enzyme that oxidizes acetaldehyde. Approximately 45% of Chinese and Japanese individuals are inactive ALDH2 phenotype; acute acetaldehyde toxicity has not been evaluated in these populations. We compared the acute acetaldehyde toxicity between wild-type (Aldh2+/+) and Aldh2-inactive transgenic (Aldh2-/-) mice who were administered an intraperitoneal (ip) injection of a single dose of acetaldehyde. This comparison was made based on the LD(50) values of acetaldehyde and the symptoms following the ip injection. Blood acetaldehyde level was measured in the 400 mg/kg dose group. Immediately after administration of acetaldehyde, the mice exhibited hypoactivity and staggering gait. Subsequently, symptoms such as pale skin, prone position, coma, and abnormal deep respiration were observed. In cases of death, dyspnea, wheezing, and
hypothermia
were observed from 15 to 30 min after the administration. In cases of survival, crouching, bradypnea,
flushing
and piloerection were observed. Significant latency of symptom recovery was found in the Aldh2+/- mice as compared with the Aldh2+/+ mice; however, no statistical difference was observed in the acetaldehyde LD(50) values. This might be attributable to the absence of a significant difference in the blood acetaldehyde concentrations in both mice during the first 0-15 min following administration; however, acetaldehyde elimination delay was observed in the Aldh2-/- mice as compared with the Aldh2+/+ mice. Acetaldehyde toxicity difference was observed between the Aldh2+/+ and Aldh2-/- mice; however, no difference in acetaldehyde lethality was observed by administration of a single dose of an ip acetaldehyde injection.
...
PMID:Aldehyde dehydrogenase 2 activity affects symptoms produced by an intraperitoneal acetaldehyde injection, but not acetaldehyde lethality. 1640 40
The restoration of blood flow to ischemic tissues causes additional damage, which is termed reperfusion injury. All tissues are susceptible to reperfusion injury, but this susceptibility varies between tissues. Reperfusion has wide clinical relevance. It influences the outcome of patients after myocardial infarction, stroke, organ transplantation, and cardiovascular surgery. Advances in the treatment of reperfusion injury have created an opportunity for plastic surgeons to apply these treatments to flaps and reimplanted tissues. The main putative mechanisms identified in animal models involve leukocyte-endothelium interactions, reactive oxygen species, and the complement system. However, it has become evident that these fundamental biological systems are controlled by many interrelated pathways. Attempts to bypass this complexity have led to a search for the early "upstream" initiating events, rather than the "downstream" cascading events. This contrasts with current clinical efforts that are directed toward
hypothermia
, intraarterial
flushing
, and preconditioning. This article outlines the molecular and cellular events that occur during reperfusion injury and then reviews the efforts that have been made to exploit this knowledge for clinical advantage.
...
PMID:Reperfusion injury. 1652 3
Hypothermia
reduces cell death and promotes recovery in models of cerebral ischemia, intracerebral hemorrhage and trauma. Clinical studies report significant benefit for treating cardiac arrest and studies are investigating
hypothermia
for stroke and related conditions. Both local (head) and generalized
hypothermia
have been used. However, selective brain cooling has fewer side effects than systemic cooling. In this study, we developed a method to induce local (hemispheric) brain
hypothermia
in rats. The method involves using a small metal coil implanted between the Temporalis muscle and adjacent skull. This coil is then cooled by
flushing
it with cold water. In our first experiment, we tested whether this method induces focal brain
hypothermia
in anesthetized rats. Brain temperature was assessed in the ipsilateral cortex and striatum, and contralateral striatum, while body temperature was kept normothermic. Focal, ipsilateral cooling was successfully produced, while the other locations remained normothermic. In the second experiment, we implanted the coil, and brain and body temperature telemetry probes. The coil was connected via overhead swivel to a cold-water source. Brain
hypothermia
was produced for 24 h, while body temperature remained normothermic. A third experiment measured brain and body temperature along with heart rate and blood pressure. Brain cooling was produced for 24 h without significant alterations in pressure, heart rate or body temperature. In summary, our simple method allows for focal brain
hypothermia
to be safely induced in anesthetized or conscious rats, and is, therefore, ideally suited to stroke and trauma studies.
...
PMID:A simple method to induce focal brain hypothermia in rats. 1667 Jun 96
Currently, autologous peripheral stem cell transplantation used as a therapeutic modality in the treatment of various hematological malignancies is gaining more popularity day by day. In this method, the patient's own peripheral stem cells are collected by a proper method and stored at -80 degrees C until they are reinfused into the patient after being rewarmed in water bath at 37 degrees C. A number of complications have been reported related to reinfusion of the cryopreserved cells into the patient. These may include noncardiovascular complications such as nausea, vomiting,
flushing
, abdominal pain, chest discomfort, and headache, as well as cardiovascular complications like arrhythmias, hypotension, and hypertension.
Hypothermia
related to rapid infusion has been reported as the main factor underlying the cardiovascular complications. Electrocardiographic findings of
hypothermia
include sinusal bradycardia, prolonged QT and PR intervals, widened QRS complexes, and J wave, which is a ECG abnormality characterized by supraventricular and ventricular arrhythmias. We here present two cases of giant J wave caused by
hypothermia
during infusion of cryopreserved autologous peripheral stem cell that is detected by ECG and regressed after infusion ceased.
...
PMID:Hypothermia during the infusion of cryopreserved autologous peripheral stem cell causes electrocardiographical changes: report of two cases. 1690 91
The preservation of livers to be transplanted is currently obtained by static cold storage at 4 C degrees and
flushing
with UW solution. New methods of preservation are being studied that take advantage of machines for continuous hypothermic perfusion of the organ. Such machines have permitted a lengthening of preservation times and the use of livers from non-beating-heart donors. In an attempt to eliminate the damage due to
hypothermia
, to lengthen preservation times, and to extend the availability of livers to be transplanted, also using those subjected to short periods of warm ischaemia, we have constructed a transportable machine that produces a hyperbaric atmosphere and allows continuous perfusion of the liver. Ten pig livers from beating-heart donors were perfused with Ringer solution in hyperbaric conditions with oxygen at temperatures ranging from 10 to 25 degrees C for periods of up to 24 hours and studied by means of histopathological analysis and tests of mitochondrial activity (FAU) in order to verify cell viability. The group of livers perfused up to 15 hours yielded an FAU value of 169.40 +/- 5.5 compared to the value of the non-perfused livers (controls) established as 100 and those perfused up to 24 hours had a FAU value of 139.18 +/- 10.7 compared to the controls established as 100, thus demonstrating cell viability. The viability of the organs after preservation with our procedure in the hyperbaric oxygenation perfusion machine gives us good reason to believe that, after appropriate further confirmation of the results, it will be possible to use the machine for the transplantation both of livers subjected to warm ischaemia and of livers preserved for longer periods than is currently the case.
...
PMID:[A new transportable machine for the preservation of livers to be transplanted by means of hyperbaric oxygenation perfusion]. 1801 46
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