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Query: UMLS:C0023380 (
lethargy
)
5,697
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Treatment of critically ill patients who have heparin-induced thrombocytopenia and thrombosis (HITT) and also renal failure is a challenge. Recombinant hirudin (Refludan, Hoechst Marion Roussel) is a direct thrombin inhibitor indicated for anticoagulation in HITT and approved by the United States Food and Drug Administration. Because this drug is renally cleared, a single dose of hirudin may induce prolonged (up to one week) unpredictable anticoagulation in patients with renal insufficiency. There are a few case reports of patients with renal failure and suspected heparin-induced thrombocytopenia (HIT) in which patients were anticoagulated with Refludan for catheter thrombosis. There is no literature on the therapeutic use of Refludan to treat HITT in patients with diffuse thrombosis and renal failure. The authors report the case of a 44-year-old female dialysis patient with HITT and extensive life-threatening thrombosis. The patient developed common iliac vein occlusion extending to the right atrium with progressive right internal jugular vein thrombus developing while on heparin. Her platelet count dropped to 60,000/microL. She was
lethargic
and hemodynamically unstable. Refludan was initially given as a bolus of 0.2 mg/kg (total, 12 mg) at a 50% dose reduction based on the patient's ideal body weight. This dose was based on the published pharmacokinetics of Refludan in patients with renal failure. Only 2 additional boluses of 6 mg and 3 mg were needed to extend the duration of therapeutic anticoagulation (measured by PTT) to 140 hours. The patient improved both clinically and radiographically after the treatment with Refludan. There were no additional thromboembolic events or bleeding complications. The platelets returned to normal within a few days. The patient was transitioned to
coumadin
and discharged from the hospital. She remains stable at 1-year follow-up.
...
PMID:Use of recombinant hirudin in heparin-induced thrombocytopenia and thrombosis (HITT) and renal failure--a case report. 1166 36
The dose of vitamin D that some researchers recommend as optimally therapeutic exceeds that officially recognized as safe by a factor of two; it is therefore important to determine the precise mechanism by which excessive doses of vitamin D exert toxicity so that physicians and other health care practitioners may understand how to use optimally therapeutic doses of this vitamin without the risk of adverse effects. Although the toxicity of vitamin D has conventionally been attributed to its induction of hypercalcemia, animal studies show that the toxic endpoints observed in response to hypervitaminosis D such as anorexia,
lethargy
, growth retardation, bone resorption, soft tissue calcification, and death can be dissociated from the hypercalcemia that usually accompanies them, demanding that an alternative explanation for the mechanism of vitamin D toxicity be developed. The hypothesis presented in this paper proposes the novel understanding that vitamin D exerts toxicity by inducing a deficiency of vitamin K. According to this model, vitamin D increases the expression of proteins whose activation depends on vitamin K-mediated carboxylation; as the demand for carboxylation increases, the pool of vitamin K is depleted. Since vitamin K is essential to the nervous system and plays important roles in protecting against bone loss and calcification of the peripheral soft tissues, its deficiency results in the symptoms associated with hypervitaminosis D. This hypothesis is circumstantially supported by the observation that animals deficient in vitamin K or vitamin K-dependent proteins exhibit remarkable similarities to animals fed toxic doses of vitamin D, and the observation that vitamin D and the vitamin K-inhibitor
Warfarin
have similar toxicity profiles and exert toxicity synergistically when combined. The hypothesis further proposes that vitamin A protects against the toxicity of vitamin D by decreasing the expression of vitamin K-dependent proteins and thereby exerting a vitamin K-sparing effect. If animal experiments can confirm this hypothesis, the models by which the maximum safe dose is determined would need to be revised. Physicians and other health care practitioners would be able to treat patients with doses of vitamin D that possess greater therapeutic value than those currently being used while avoiding the risk of adverse effects by administering vitamin D together with vitamins A and K.
...
PMID:Vitamin D toxicity redefined: vitamin K and the molecular mechanism. 1714 39
