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Query: UMLS:C0020672 (
hypothermia
)
17,327
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
During the past decade, efforts to limit the extent of myocardium exhibiting infarction once ischemia has been initiated have focused on manipulation of myocardial oxygen supply and demand as well as the process of injury itself. Interventions of promise range from the conventional, moderate increase in inspired oxygen content, to administration of
hyaluronidase
or intracoronary thrombolysis to augment oxygen supply; use of beta-adrenergic blocking drugs and nitroglycerin to diminish demand; and administration of calcium antagonists and prostaglandin synthesis inhibitors to limit the injury process. The ultimate effects on infarct size and long-term mortality have yet to be established unequivocally for any of these approaches in the clinical setting of acute myocardial infarction, but significant preservation of ischemic myocardium with
hypothermia
and with administration of nifedipine during coronary-artery bypass surgery have been documented. Several prospective, large-scale, blinded, and random sample selection clinical trials are currently in progress. Their results should definitively elucidate the clinical utility of specific interventions under defined conditions and should help to further improve the management of patients with ischemic heart disease.
...
PMID:Pharmacological salvage of myocardium. 612 93
This work studies the effect of
hyaluronidase
on myocardium subjected to long-term aortic cross-clamping (three hours) and moderate
hypothermia
(28 degrees C). Animals receiving
hyaluronidase
(1,00o U per liter) through the root of the aorta with a procaine-potassium chloride-lasmalyte cardioplegic solution showed better functional, electrical, and morphological response than the untreated animals. These findings, although preliminary, appear to be promising for potential clinical application.
...
PMID:Protective effect of hyaluronidase after long-term aortic cross-clamping: initial experimental observations. 736 28
Full-thickness skin ulceration after extravasation of the commonly used vesicant chemotherapeutic agent doxorubicin hydrochloride (Adriamycin) is a significant source of morbidity in cancer patients. Controversy exists regarding the appropriate management of this extravasation injury. Current therapy includes local
hypothermia
, local clysis with
hyaluronidase
, and surgical excision of the involved tissue. Experimental data supporting local clysis with
hyaluronidase
are limited despite its current use clinically. The purpose of this study was to determine the efficacy of local infiltration with heparin sodium,
hyaluronidase
, and saline in the prevention of extravasation ulcers in a rat model. One hundred fifty male Sprague-Dawley rats (Upjohn, Milan, Italy) weighing 240 to 260 g, anesthetized with sodium pentobarbital, were used in this study. One hundred thirty rats received a 0.3-ml subcutaneous flank injection of doxorubicin (1.5 mg/ml) followed 15 minutes later by local infiltration with saline (n = 10), 25 to 100 units of heparin (n = 30), or 2.5 to 10.0 units of
hyaluronidase
(n = 90). Control animals received either subcutaneous doxorubicin (n = 10) or subcutaneous saline alone (n = 10). Volumes of the infiltration solution were less than 1 ml in all groups. All animals were sacrificed at 4 weeks; presence and size of ulcers at the injection site were quantified. Statistical analysis was performed using the two-sided Fisher's exact test and Student's t test. Control rats injected with saline alone did not develop ulceration in any case. All rats injected with doxorubicin alone developed ulcers with an average size of 33 mm2. Heparin infiltration decreased ulcer rate by 20 to 40 percent and decreased ulcer size by up to 67 percent. Local infiltration with
hyaluronidase
decreased ulcer rate by 50 to 60 percent (p < 0.05, two-sided Fisher's exact test) and decreased ulcer size by up to 50 percent ( p < 0.05, Student's t test). In this rat extravasation injury model, local infiltration with saline, heparin, or
hyaluronidase
decreased ulcer size after doxorubicin extravasation. This effect may be secondary to dilution of the extravasant. Additionally, local infiltration with
hyaluronidase
decreased ulcer rate by at least 50 percent. The mechanism of this phenomenon presumably relates to the ability of
hyaluronidase
to temporarily decrease the viscosity of the hyaluronic acid component of ground substance, thus allowing greater diffusion of doxorubicin into the surrounding tissue and therefore decreasing its local concentration.
...
PMID:Prevention of adriamycin-induced full-thickness skin loss using hyaluronidase infiltration. 946 69
This study is designed to evaluate the effect of
hyaluronidase
on the canine myocardial edema derived from ischemia/reperfusion injury. The mongrel dog's heart received 90 minutes of ischemia under cardiopulmonary bypass consisting of 30 minutes of normothermia alone and 60 minutes of
hypothermia
with cardioplegic arrest. Reperfusion for 60 minutes was added thereafter. Two kinds of cardioplegic solution, 4 degrees C St. Thomas' Hospital solution with or without 3000 units/L of
hyaluronidase
, were prepared. The solution was given antegradely every 30 minutes during cardioplegic arrest. Cardiac lymph was collected continuously from the afferent duct of the cardiac lymph node by cannulation. Hyaluronidase in the cardioplegic solution increased cardiac lymph volume significantly and improved postischemic recovery of cardiac function. A high level of adenosine triphosphate was maintained at that time. The myocardial water content at the end of reperfusion revealed a minimum increase with
hyaluronidase
use. Active drainage of cardiac lymph by
hyaluronidase
alleviates the myocardial edema formation, thereby preserving cardiac function.
...
PMID:Experimental study of cardiac lymph dynamics and edema formation in ischemia/reperfusion injury--with reference to the effect of hyaluronidase. 955 33
Traumatic spinal cord injuries (SCIs) affect 1.3 million North Americans, producing devastating physical, social, and vocational impairment. Pathophysiologically, the initial mechanical trauma is followed by a significant secondary injury which includes local ischemia, pro-apoptotic signaling, release of cytotoxic factors, and inflammatory cell infiltration. Expedient delivery of medical and surgical care during this critical period can improve long-term functional outcomes, engendering the concept of "Time is Spine". We emphasize the importance of expeditious care while outlining the initial clinical and radiographic assessment of patients. Key evidence-based early interventions (surgical decompression, blood pressure augmentation, and methylprednisolone) are also reviewed, including findings of the landmark Surgical Timing in Acute Spinal Cord Injury Study (STASCIS). We then describe other neuroprotective approaches on the edge of translation such as the sodium-channel blocker riluzole, the anti-inflammatory minocycline, and therapeutic
hypothermia
. We also review promising neuroregenerative therapies that are likely to influence management practices over the next decade including
chondroitinase
, Rho-ROCK pathway inhibition, and bioengineered strategies. The importance of emerging neural stem cell therapies to remyelinate denuded axons and regenerate neural circuits is also discussed. Finally, we outline future directions for research and patient care.
...
PMID:Recent advances in managing a spinal cord injury secondary to trauma. 2730 44
Some dogs do not make a full recovery following medical or surgical management of acute canine intervertebral disc herniation (IVDH), highlighting the limits of currently available treatment options. The multitude of difficulties in treating severe spinal cord injury are well-recognized, and they have spurred intense laboratory research, resulting in a broad range of strategies that might have value in treating spinal cord-injured dogs. These include interventions that aim to directly repair the spinal cord lesion, promote axonal sparing or regeneration, mitigate secondary injury through neuroprotective mechanisms, or facilitate functional compensation. Despite initial promise in experimental models, many of these techniques have failed or shown mild efficacy in clinical trials in humans and dogs, although high quality evidence is lacking for many of these interventions. However, the continued introduction of new options to the veterinary clinic remains important for expanding our understanding of the mechanisms of injury and repair and for development of novel and combined strategies for severely affected dogs. This review outlines adjunctive or emerging therapies that have been proposed as treatment options for dogs with acute IVDH, including discussion of local or lesion-based approaches as well as systemically applied treatments in both acute and subacute-to-chronic settings. These interventions include low-level laser therapy, electromagnetic fields or oscillating electrical fields, adjunctive surgical techniques (myelotomy or durotomy), systemically or locally-applied
hypothermia
, neuroprotective chemicals, physical rehabilitation, hyperbaric oxygen therapy, electroacupuncture, electrical stimulation of the spinal cord or specific peripheral nerves, nerve grafting strategies, 4-aminopyridine,
chondroitinase
ABC, and cell transplantation.
...
PMID:Emerging and Adjunctive Therapies for Spinal Cord Injury Following Acute Canine Intervertebral Disc Herniation. 3319 91
