No abstract available.
Injections, Epidural*

No abstract available.
Injections, Epidural*

No abstract available.
Injections, Epidural* ; Ultrasonography*

We encountered a case of an accidental epidural injection of ondansetron through an epidural catheter. No neurological complications were noted. This case highlights the need for more attention to minimize the risk of epidural injections.
Catheters ; Injections, Epidural* ; Ondansetron*

No abstract available.
Headache ; Injections, Epidural ; Pneumocephalus

The use of fluoroscopy guidance together with the loss of resistance technique during epidural injections has been advocated lately; moreover, epidural injections in the absence of fluoroscopic guidance have a high rate of inaccurate needle-tip placement during the injections. However, the approach to the lower cervical and upper thoracic epidural space may be challenging due to its obscure lateral fluoroscopic views from overlying normal tissue structures. In this case, we report an alternative oblique C-arm fluoroscopy guided view approach to supplement the standard anterior-posterior and lateral fluoroscopic views to facilitate successful needle placement and precise anatomical localization of the epidural space.
Epidural Space ; Fluoroscopy ; Injections, Epidural ; Needles

No abstract available.
Colorectal Surgery* ; Injections, Epidural* ; Morphine*

The segmental spread of epidural analgesia was measured in seventeen surgical patients aged between 17 and 52 years, and in fourteen patients between 60 and 77 years. The upper level in the young was 6.29(+/-1.56) thoracic vertebra level, but in the elderly was 4 (+/-0.65_ thoracic vertebra level at 20 minutes after epidural injection of 1.5% lidocaine 20 ml. A given volume of solution spreads to 0.9, 1.07, 1.54, 2.29 segments greater upper extent at 5, 10, 15, 20 minutes after epidural injection and 0.57, 1.07 segments greater lower extent at 5, 10 minutes in the elder than young. So with increasing age relatively small amounts of solution are required, to produce the same extent of anesthesia in the young.
Aged* ; Analgesia, Epidural* ; Anesthesia ; Humans ; Injections, Epidural ; Lidocaine ; Spine

BACKGROUND: Combined spinal epidural anesthesia (CSE) often produces a more extensive spinal block than expected. This study was designed to evaluate the effects of CSE on subarachnoid block in patients undergoing lower extremity surgery. METHODS: Thirty-three patients who undergone lower extremity surgeries were randomly allocated to three groups of 11 patients each. Using needle through needle technique, all patients received a subarachnoid injection of hyperbaric 0.5% bupivacaine 1.6~2.0 ml through a 25G Whitacre spinal needle. Group 1 received no extradural injection for 25min, but group 2 and 3 received extradural saline 10 ml and bupivacaine 10 ml 5min after the subarachnoid injection, respectively. Levels of sensory and motor block were assessed at 4, 6, 8, 10, 15, 20, and 25 min after subarachnoid injection. RESULTS: The median values of maximum sensory block level were T7 in all groups. Levels of sensory blockade and the time to onset of maximum sensory blockade were similar among the three groups. There was no significant difference in the degree of motor block among three groups. CONCLUSIONS: This study suggests that extradural saline 10 ml or 0.5% bupivacaine 10 ml which injected 5min after subarachnoid injection does not significantly influence the level of subarachnoid block in lower extremity surgical patients. However, further study is required to declare the safety or optimal dose of extradural injection during CSE.
Anesthesia, Epidural* ; Bupivacaine ; Humans ; Injections, Epidural ; Lower Extremity* ; Needles

BACKGROUND: Lumbosacral transforaminal epidural injection (TFEI) is an effective treatment for spinal disease. However, TFEI may have several types of complications, some of which can be attributed to intravascular injection. We reviewed studies to compare the intravascular injection rate among different needle types. METHODS: We searched the literature for articles on the intravascular injection rate among different needle types used in TFEI. The search was performed using PubMed, MEDLINE, the Cochrane Library, EMBASE, and Web of Science. RESULTS: A total of six studies comprising 2359 patients were identified. Compared with the Quincke needle, the Whitacre needle reduced the intravascular injection rate (OR = 0.57, 95% CI = [0.44–0.73], P < 0.001). However, compared with the Quincke needle, the Chiba needle did not reduce the intravascular injection rate (OR = 0.80, 95% CI = [0.44–1.45], P = 0.46). In one study, the intravascular injection rate using a blunt-tip needle was lower than that using a sharp needle. In another study, the Whitacre and the blunt-tip needle have similar intravascular injection rates, while, the catheter-extension needle showed a reduced intravascular injection rate. CONCLUSIONS: This meta-analysis showed that the Whitacre needle reduced the intravascular injection rate as compared with the Quincke needle, but failed to establish that the Chiba needle can decrease the intravascular injection rate in TFEI. Moreover, the blunt-tip needle can reduce the intravascular injection rate compared with the Quincke needle, and the catheter-extension needle can reduce the intravascular injection rate compared with the Whitacre and the blunt-tip needle.
Anesthesia, Epidural ; Humans ; Injections, Epidural ; Needles ; Spinal Diseases