1 Neuraxial anaesthesia also impairs central thermoregulat
2 Nevertheless, clinical studies on
neuraxial anaesthesia and nerve blocks did not bring so
3 Studies performed with
neuraxial anaesthesia seem to bring better evidences tha
4 eaths (2.3, 1.2-4.1, I(2)=73%) compared with
neuraxial anaesthesia.
5 to maintain normothermia during general and
neuraxial anaesthesia.
6 Neuraxial analgesia (ie, epidural or combined spinal-epi
7 compared with 1.4% (4226 of 302 603) without
neuraxial analgesia (risk difference, -0.12 per 100; 95%
8 dence of SMM was 1.3% (3486 of 272 291) with
neuraxial analgesia compared with 1.4% (4226 of 302 603)
9 Findings from this study suggest that use of
neuraxial analgesia for vaginal delivery is associated w
10 Use of labor
neuraxial analgesia for vaginal delivery is suggested to
11 Neuraxial analgesia in early labor did not increase the
12 ncreasing access to and utilization of labor
neuraxial analgesia may contribute to improving maternal
13 age with a postdural puncture headache after
neuraxial analgesia or anesthesia for childbirth.
14 es in the rates of general anesthesia use vs
neuraxial analgesia use.
15 er weighting, the aOR of SMM associated with
neuraxial analgesia was 0.86 (95% CI, 0.82-0.90).
16 Decreased risk of SMM associated with
neuraxial analgesia was similar between non-Hispanic Whi
17 os (aORs) and 95% CIs of SMM associated with
neuraxial analgesia were estimated using the inverse pro
18 The proportion of the association of
neuraxial analgesia with the risk of SMM mediated throug
19 5% CI, 14-28) of the observed association of
neuraxial analgesia with the risk of SMM was mediated th
20 xpanding, as they are gaining broader use in
neuraxial analgesia, and new applications are continuous
21 sk group, and 272 921 women (47.4%) received
neuraxial analgesia.
22 epidural or combined spinal-epidural) vs no
neuraxial analgesia.
23 Peripheral and
neuraxial analgesic techniques were associated with redu
24 gle-injection regional blocks and continuous
neuraxial and peripheral catheters can play a valuable r
25 Although publications are sparse,
neuraxial and peripheral regional techniques have been s
26 Potential complications of both
neuraxial and peripheral regional techniques include inf
27 In today's anesthesia practice, provision of
neuraxial anesthesia and analgesia is increasing.
28 Neuraxial anesthesia during general anesthesia is especi
29 The proportion of liability claims involving
neuraxial anesthesia have increased.
30 f true neurologic complications arising from
neuraxial anesthesia is not known, they appear to be ver
31 Neuraxial anesthesia may be associated with complaints o
32 Knowing the side effects from labor,
neuraxial anesthesia or both is important as anesthesiol
33 This real-world evidence suggests that
neuraxial anesthesia should not be contraindicated in pa
34 Compared with
neuraxial anesthesia, general anesthesia was associated
35 artum care, which includes the management of
neuraxial anesthesia, inotrope and vasopressor support,
36 he remains the most frequent complication of
neuraxial anesthesia.
37 ive complications in AS patients compared to
neuraxial anesthesia.
38 AS patients undergoing general anesthesia or
neuraxial anesthesia.
39 nation of enhanced recovery techniques and a
neuraxial anesthetic resulting in a 23-hour hospital sta
40 quent nerve deficit is usually blamed on the
neuraxial block provided.
41 rehensive review of the recent literature on
neuraxial blockade in infants and children, focusing on
42 Successful peripheral and
neuraxial blockade in obese patients requires an anesthe
43 eport difficulty in achieving peripheral and
neuraxial blockade in obese patients.
44 of complications associated with paediatric
neuraxial blockade is low, the potential risks must alwa
45 e procedures, wherein the adverse effects of
neuraxial blockade such as motor weakness, difficulty am
46 In contrast to adults,
neuraxial blockade using local anaesthetic solutions is
47 blocks serve as an excellent alternative to
neuraxial blockade, in patients who have a contraindicat
48 , in patients who have a contraindication to
neuraxial blockade, patients undergoing a unilateral pro
49 the choice of anesthetic techniques such as
neuraxial blocks and monitored anesthesia care.
50 , abscess), but most complications following
neuraxial blocks are associated with pregnancy and deliv
51 ther disparities in care that occur prior to
neuraxial catheter placement are associated with higher
52 Of those, 16 363 (82.1%) had
neuraxial labor analgesia in situ.
53 nal studies does not support the notion that
neuraxial labor analgesia is associated with an increase
54 Neuraxial labor analgesia is influenced by a common poly
55 derwent vaginal delivery and were exposed to
neuraxial labor analgesia.
56 E) and standard epidural are common modes of
neuraxial labor analgesia.
57 Presence of a procedure code indicating
neuraxial labor analgesia.
58 hers), with 484 752 (53.2%) being exposed to
neuraxial labor analgesia.
59 egeneration of neural crest depending on the
neuraxial level.
60 Here, we used animal models and show that
neuraxial morphine causes itch through neurons and not m
61 Neuraxial morphine is commonly used for analgesia after
62 d in women undergoing cesarean delivery with
neuraxial morphine.
63 NV and pruritus are frequent side-effects of
neuraxial morphine.
64 u-opioid receptor may affect the severity of
neuraxial-
morphine-induced pruritus.
65 Neuraxial-
morphine-induced side-effects are dose related
66 ed failure rates of peripheral compared with
neuraxial nerve blocks.
67 Neuraxial patterning is a continuous process that extend
68 ent for intraoperative analgesia, (4) repeat
neuraxial procedure, and (5) conversion to general anest
69 entified among 1.9 million deliveries with a
neuraxial procedure.
70 hniques or intentional dural puncture during
neuraxial procedures, such as a lumbar puncture or spina
71 lso be partitioned into the following: (1) a
neuraxial region of arcs and (2) an anterodorsal cap tha
72 was general in 40.9% of patients (n = 1696),
neuraxial regional in 45.8%, and local in 10.7% (n = 446
73 IHR by any surgical technique, under local,
neuraxial regional, or general anesthesia.
74 lipoxins raises the hypothesis that similar
neuraxial systems may also down-regulate injury-induced
75 e the more commonly used truncal blocks with
neuraxial techniques in children undergoing a variety of
76 % [8.8%] for peripheral and 17.6% [9.9%] for
neuraxial techniques).
77 Neuraxial techniques, peripheral nerve blocks, and enter
78 anol, which is generally accepted for use in
neuraxial techniques.