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Query: UMLS:C0149871 (
deep vein thrombosis
)
12,364
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
The ability of indium to target fibrin in vitro was evaluated. The radionuclide (114m)Indium (114mIn) was prepared as a soluble and colloidal (In:In) form, as well as, a mixed indium:calcium phosphate (In:CaP) colloid. Soluble 114mIn was prepared by maintaining acid pH (50 mM
HCl
). Colloidal 114mIn (In:In) was prepared under slightly basic conditions (50 mM Tris-Cl, pH 7.6). The mixed In:CaP colloid was prepared by incubation of 114mIn with calcium (10 mM) and phosphate (250 microM) under slightly basic conditions (50 mM Tris-Cl, pH 7.6). To assess fibrin binding, the three 114mIn preparations were mixed with diluted human plasma (source of fibrinogen). Fibrin polymerization was initiated by addition of calcium (5 mM) and thrombin (0.5 U/ml). Following incubation (15 min, 37 degrees C), the fibrin matrix was condensed, removed from the reaction mixture, and washed briefly. Fibrin uptake of 114mIn (soluble, colloidal, or In:CaP) was determined by gamma counting. Results demonstrated that soluble 114mIn exclusively bound a plasma protein electrophoretically and immunologically identified as transferrin. Although both colloidal 114mIn and 114mIn:CaP bound fibrin, the mixed 114mIn:CaP colloid demonstrated substantially higher fibrin binding activity (about 2-fold). The target of indium binding was confirmed as fibrin due to the presence of characteristic cross-linked gamma-gamma dimers (100 kDa) and beta-monomers (58 kDa) by SDS-PAGE. 114mIn colloid and the mixed 114mIn:CaP colloid demonstrated no ability to bind fibrin's precursor, fibrinogen. 114mIn:CaP fibrin binding was associated with formation of CaP, as evidenced by its dependence on phosphate concentration. The biocompatibility of CaP including its ability to bind 114mIn and specifically target fibrin may be of potential value for diagnostic imaging studies to identify regions of occult vascular stenosis (i.e., atherosclerotic plaques,
deep vein thrombosis
, pulmonary embolus).
...
PMID:An indium:calcium phosphate colloid that specifically targets fibrin. 1591 2
Inadequate pain control in the postoperative period not only contributes to patient discomfort, but also causes physiological changes that may result in increased risk of myocardial ischaemia,
deep vein thrombosis
and pulmonary embolism. These events complicate postoperative recovery and may lead to longer hospital stays as well as increased healthcare costs. Patient-controlled analgesia (PCA) has emerged as an effective way for patients to manage their pain, allowing self-administration of small doses of analgesics to maintain a certain level of pain control. PCA is most commonly delivered via an intravenous (IV) or epidural route, and while patient satisfaction is higher with PCA than with conventional methods of analgesic administration, the invasiveness, costs and risk of errors associated with currently available modalities may limit their utility. These systems also require significant healthcare resources, as nurses must manually program the pumps to deliver the correct amount of medication. Several new PCA modalities are being developed to address these limitations. These systems deliver drug through a variety of routes, including nasal transmucosal and transdermal. Most notably, a self-contained, credit card-sized, transdermal PCA system is currently in the final stages of development. The fentanyl
HCl
patient-controlled transdermal system (PCTS; IONSYS, Ortho-McNeil Pharmaceutical, Inc., Raritan, NJ) uses an imperceptible, low-intensity direct current to transfer fentanyl on demand across the skin into the systemic circulation. This compact system is patient-activated, can be applied to the patient's upper arm or chest, and is designed to manage moderate-to-severe pain requiring opioid analgesia. The system delivers a preprogrammed amount of fentanyl HCI over 10 minutes, for a total of 80 doses, or for 24 hours, whichever occurs first. The on-demand dosing and pharmacokinetics of this system differentiate it from the passive transdermal formulation of fentanyl designed for the management of chronic pain. Clinical studies have shown that the fentanyl
HCl
PCTS is effective in the management of acute postoperative pain. These studies have also demonstrated that the system is safe and well tolerated by patients.
...
PMID:The fentanyl HCl patient-controlled transdermal system (PCTS): an alternative to intravenous patient-controlled analgesia in the postoperative setting. 1615 10
