Anesthesia and analgesia
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Anesthesia and analgesia · Apr 2000
Prophylactic percutaneous sealing of lumbar postdural puncture hole with fibrin glue to prevent cerebrospinal fluid leakage in swine.
We explored the effect of fibrin glue injection at the site of dural puncture on cerebrospinal fluid (CSF) leakage in a swine model. Pigs were subjected to a lumbar dural CSF puncture in the sitting position with a 17-gauge Tuohy needle. Fibrin glue 1.4 mL was injected through the same needle into the epidural space. Evans blue dye was infused through the cisterna magna 15 min later, and the appearance of dyed CSF through the skin puncture and along the needle trajectory to the dura was inspected and categorized. In seven of eight animals, the CSF leak was sealed with fibrin glue. Control animals were injected with 1.4 mL saline. A sham operation group of animals underwent cisternal dye infusion without a lumbar puncture. CSF pressure at the cisterna magna was recorded throughout the procedure. No significant differences in the leakage indicators were found between the fibrin glue-injected and sham-operated group, whereas both groups showed significant differences with respect to the control group. The fibrin glue seal was effective against CSF pressures of 24.5 [17-31] cm H(2)O. We conclude that percutaneously injected fibrin glue is effective in stopping CSF leaks after dural puncture in this animal model. ⋯ In this swine study, we repaired a cerebrospinal fluid leak after a dural puncture by percutaneously injecting tissue adhesive. The technique of percutaneous injection of fibrin glue seems promising for the prophylaxis of headache associated with cerebrospinal fluid leakage, and may be an alternative to an epidural blood patch.
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Anesthesia and analgesia · Apr 2000
Safe and efficient emergency transvenous ventricular pacing via the right supraclavicular route.
Infraclavicular and internal jugular central venous access are techniques commonly used for temporary transvenous pacing. However, the procedure still has a considerable complication rate, with a high risk/benefit ratio because of insertion difficulties and pacemaker malfunction. To enlarge the spectrum of alternative access sites, we prospectively evaluated the right supraclavicular route to the subclavian/innominate vein for emergency ventricular pacing with a transvenous flow-directed pacemaker as a bedside procedure. For 19 mo, 17 consecutive patients with symptomatic bradycardia, cardiac arrest, or torsade de pointes requiring immediate bedside transvenous pacing were enrolled in the study. The success rate, insertional complications, pacemaker performance, and patients' outcomes were recorded. Supraclavicular venipuncture was successful in all patients, in 16 of 17 at the first attempt. Adequate ventricular pacing was achieved within 1 to 5 min (median, 2 min) after venipuncture and within 10 s to 4 min (median, 30 s) after lead insertion (=30 s in 15 of 17 patients). The median pacing threshold was 1 mA (range, 0.7 to 2.5 mA). No procedure-related complications were recorded. Throughout the pacing period of 1538 h (median: 62 h, range, 1-280 h) two reversible malfunctions caused by inadvertent lead dislodgement after 122 and 171 h were recorded; in one patient the pacemaker had to be removed because of local infection after 14 days of pacing. We conclude that the right supraclavicular route is an easy, safe, and effective first approach for transvenous ventricular pacing and might provide a useful alternative to traditional puncture sites, even in a preclinical setting. ⋯ Temporary transvenous cardiac pacing can yield high complication rates especially under emergency conditions. We investigated emergency pacing via the right supraclavicular access in 17 consecutive hemodynamically compromised patients and found good safety, efficacy, and a low complication rate.