American journal of hospital pharmacy
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An overview of gram-negative sepsis is presented, and the need for improved treatment for this condition is emphasized. The availability of new and more potent antimicrobial agents has not substantially altered the mortality from sepsis and septic shock. Gram-negative infection, bacteremia, sepsis, and septic shock remain major clinical problems, particularly among hospitalized patients. ⋯ Because bacterial endotoxin plays a pivotal role in triggering the biological cascade of mediators in the septic process, a new therapy has been developed, immunotherapy with monoclonal antibodies that neutralize lipopolysaccharide by binding to lipid A. Successful treatment of gram-negative sepsis requires appropriate patient identification and timely intervention. While antimicrobial agents remain important, monoclonal antibodies hold promise as a new therapeutic intervention.
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The stability of fentanyl citrate and bupivacaine hydrochloride in an admixture with 0.9% sodium chloride injection in portable pump reservoirs with or without overwraps was investigated. Twelve 100-mL samples containing fentanyl 20 micrograms/mL and bupivacaine hydrochloride 1250 micrograms/mL were placed in the plastic drug reservoirs, and 1-mL quantities were withdrawn immediately after preparation and at intervals during 30 days of storage. Six reservoirs were refrigerated (3 degrees C) and six stored at room temperature (23 degrees C); three at each temperature were placed in overwraps. ⋯ No precipitation or change in color or pH was observed during the 30-day storage period. No loss of fentanyl or bupivacaine was detected in either the wrapped or the unwrapped samples. Fentanyl citrate and bupivacaine hydrochloride in 0.9% sodium chloride injection appear to be compatible, and admixtures containing the two drugs at the concentrations studied can be stored without overwraps for up to 30 days at refrigerated or room temperature without any significant loss of potency.
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The stability of ranitidine in concentrations of 0.5, 1.0, and 2.0 mg/mL in admixtures with commonly used i.v. fluids was studied. The admixture vehicles were 0.9% sodium chloride, 5% dextrose, 10% dextrose, 5% dextrose and 0.45% sodium chloride, and 5% dextrose with lactated Ringer's (DLR) injections in polyvinyl chloride bags. Three bags were prepared for each test solution and stored under each of the following conditions: seven days at room temperature (23 +/- 1 degrees C) in normal laboratory lighting, 30 days at 4 degrees C, and 60 days at -20 degrees C followed by either seven days at room temperature (in light) or 14 days at 4 degrees C. ⋯ Slight increases in the pH of some admixtures were noted. Ranitidine is stable for seven days at room temperature and 30 days at 4 degrees C at all concentrations and in all vehicles studied. At the studied concentrations, the drug is stable in admixtures frozen for 60 days and stored for seven days at room temperature or 14 days refrigerated, except in DLR admixtures; these admixtures should not be stored frozen.
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The use of spinally administered opioids to manage pain is discussed. Central action on opioid receptors of the substantia gelatinosa allows opioids to be administered spinally for pain originating anywhere inferior to the cranial nerves. Spinal opioids are most commonly administered for intractable midline sacral and perineal pain. ⋯ Adjuvant drugs used with spinal opioids include systemically administered analgesics, antidepressants, corticosteroids, and spinal local anesthetics. The administration of spinal opioids with systemic opioids or other CNS depressants may result in excessive sedation, respiratory depression, nausea, vomiting, constipation, pruritus, and other adverse effects. Spinally administered opioids can be used to manage severe chronic pain effectively, safely, and comfortably.
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The fiscal impact and acceptability of implementing a syringe-pump infusion system at a 900-bed university teaching hospital where the minibag system has been in use is reported. Researchers selected three models of syringe pumps for evaluation: the Bard Harvard Mini-Infuser 150XL, the Becton Dickinson 360 Infuser, and the Strato Stratofuse System. Each pump was evaluated for three weeks on a medical-surgical unit and a hematology-oncology unit. ⋯ The time required to prepare syringes did not differ substantially among syringe-pump models. It was estimated that using any of the evaluated pumps in place of the minibag system would save $126,500 during the three-year period 1988-91, primarily because of differences in the cost of disposable items. The syringe-pump infusion system is an acceptable and cost-effective alternative to the minibag system.