ライフサイエンスコーパス: nerve block

1 a safe and technically simple liver-specific nerve block.

2 nction as a differential nociceptor-specific nerve block.

3 of patients responded to a greater occipital nerve block.

4 ind leg prior to CIP was used for peripheral nerve block.

5 , but there are no documented liver-specific nerve blocks.

6 le the ON was involved in only one of the 34 nerve blocks.

7 rates of peripheral compared with neuraxial nerve blocks.

8 em to bring better evidences than those with nerve blocks.

9 for pain management including utilization of nerve blocks.

10 onitoring options when performing peripheral nerve blocks.

11 usage of ultrasound guidance for peripheral-nerve blocks.

12 uide the placements of continuous peripheral nerve blocks.

13 o different from single injection peripheral nerve blocks.

14 ng and improving the use of lower peripheral nerve blocks.

15 further increased the utility of peripheral nerve blocks.

16 improve the performance of lower peripheral nerve blocks.

17 and measurement of efficacy for sympathetic nerve blocks.

18 data, most nerve blocks were effective (107 nerve blocks [57.5%]with >=50% pain reduction), quick (m

19 (median [IQR] time, 15 [12-20] minutes; 113 nerve blocks [90.0%] <25 minutes), and safe (1 minor hem

20 evaluation, therapy may include medication, nerve blocks, active physical therapy, behavioural inter

21 ision model by peri-incisional and popliteal nerve block administration combined with mechanical test

22 input before movement prevented BTP, whereas nerve block after movement failed to reverse BTP.

23 There is an urgent clinical need to develop nerve-blocking agents capable of inducing long duration

24 Intercostal nerve block analgesia had opioid-sparing effects; howeve

25 Intercostal nerve block analgesia was noninferior to TEA (mean score

26 Using pharmacological single-finger nerve block and 7-tesla neuroimaging, we first replicate

27 ble nerve stimulator that enables electrical nerve block and associated pain mitigation without these

28 ketamine, and techniques such as peripheral nerve block and local infiltration analgesia have become

29 models illustrate capabilities for complete nerve block and other key features of the technology.

30 patients, 103 (83%) received intraoperative nerve blocks and 106 (85.5%) used PCAs.

31 Nerve blocks and cryoanalgesia reduce the need for posto

32 s from 198 consecutively performed foraminal nerve blocks and foraminal epidural injections in the th

33 lies on subjective symptoms and responses to nerve blocks and Onabotulinum toxin A (Botox) injections

34 eroids in oral form or for greater occipital nerve block, and preventive treatments include verapamil

35 Neuraxial techniques, peripheral nerve blocks, and enteral and parenteral medications wer

36 s well as local treatments (such as surgery, nerve blocks, and external beam radiation).

37 bitors, gabapentinoids, ketamine, peripheral nerve blocks, and local infiltration analgesia benefit p

38 Continuous peripheral nerve blocks are an excellent additional modality to com

39 lgesics and ambulatory continuous peripheral nerve blocks are encouraged to achieve adequate postoper

40 Nerve blocks are instrumental in treating rib fracture p

41 Brachial plexus nerve blocks are performed to treat patients with chroni

42 luated the utility and efficiency of sciatic nerve block as an alternative method to relieve severe r

43 esia, regional analgesia, critically ill and nerve blocks, as well as a search of the Cochrane Librar

44 on who underwent unilateral versus bilateral nerve blocks at a single institution from 2017 to 2019 w

45 interest is the use of continuous peripheral nerve blocks at home and their potential effect upon hos

46 Use of continuous peripheral nerve blocks at home following outpatient surgery is an

47 asing interest in lower extremity peripheral nerve blocks because of their potential advantages and c

48 movement-induced afferent input by saphenous nerve block before, but not after, hindlimb movement blo

49 extremely potent, and can provide very long nerve blocks but the duration is limited by the associat

50 and reducing the irradiance needed to induce nerve block by 94%.

51 t it is possible to achieve onset-free KHFAC nerve block by causing CSI of VGSCs.

52 Nerve block by the released TTX is enhanced by administr

53 ere we show that prolonged sensory-selective nerve block can be produced by specific concentrations o

54 Nerve block caused a striking phase shift in the evoked

55 Upon bupivacaine nerve block, changes in expression were prevented.

56 Additional periods of nerve block could be induced by irradiation at 730 nm.

57 systemic morphine abolished CPP to saphenous nerve block, demonstrating control of ongoing pain.

58 sixty-two patients received an active vagal nerve block device and 77 received a sham device.

59 linical studies on neuraxial anaesthesia and nerve blocks did not bring so far a strong conclusion to

60 ree sequential SDL injections resulting in a nerve block duration of 18.1 +/- 3.4 d delayed the onset

61 des the light trigger, and cutting the optic nerve blocks efferent input and transient shedding.

62 ferent cVNS enabled by complete afferent KES nerve block enhances the anti-inflammatory benefits of c

63 Performance of peripheral nerve blocks, especially with ultrasound, is amenable in

64 s of cVNS; and (iii) incomplete afferent KES nerve block exacerbates systemic inflammation.

65 B), infrainguinal FICB (I-FICB), and femoral nerve block (FNB).

66 ity of paired efferent cVNS and afferent KES nerve block for achieving selective efferent cVNS, speci

67 received ultrasound-guided popliteal sciatic nerve block for the relief of severe rest pain during en

68 studies into the clinical use of peripheral nerve blocks for anesthesia and postoperative analgesia

69 se polymers produced a range of durations of nerve block, from several hours to 3 days, with minimal

70 loss was statistically greater in the vagal nerve block group (P = .002 for treatment difference in

71 At 12 months, 52% of patients in the vagal nerve block group achieved 20% or more excess weight los

72 In the intent-to-treat analysis, the vagal nerve block group had a mean 24.4% excess weight loss (9

73 ated serious adverse event rate in the vagal nerve block group was 3.7% (95% CI, 1.4%-7.9%), signific

74 he adverse events more frequent in the vagal nerve block group were heartburn or dyspepsia and abdomi

75 complications occurred in the hepatic hilar nerve block group.

76 Participants who received the nerve block had a lower mean visual analog scale score f

77 Local anesthesia with nerve blocks has not been shown to consistently reduce a

78 ss for anesthesia providers, many peripheral-nerve blocks have become quite amenable to being placed

79 Continuous peripheral nerve blocks have showed prolonged analgesia and great p

80 The use of intercostal nerve block (ICNB) analgesia with local anesthesia is co

81 Local-regional nerve blocks improve pain control and reduce oversedatio

82 tivity in the field of continuous peripheral nerve blocks in the ambulatory setting and places it in

83 ents with rare sensory disorders, as well as nerve blocks in typical individuals, to probe the neural

84 earm deafferentation was induced by ischemic nerve block (INB) in healthy volunteers.

85 rm deprivation of sensory input by ischaemic nerve block (INB) leads to functional reorganization in

86 hat representation during transient ischemic nerve block (INB) of the contralateral hand.

87 plasticity model, in which forearm ischemic nerve block (INB) was combined with low-frequency repeti

88 gesia with continuous epidural or peripheral nerve block infusions, judicious opioids, acetaminophen,

89 d from eosinophils to airway parasympathetic nerves blocks inhibitory M(2) muscarinic receptors on th

90 e sessions, tasks were preceded by bilateral nerve block injections to the sensory branches of the tr

91 thoracic surgery, thoracoscopy, thoracotomy, nerve block, intercostal nerves).

92 Regional nerve block is recommended for anesthesia and analgesia

93 Peripheral nerve block is the standard for anesthesia or analgesia

94 ations associated with continuous peripheral nerve blocks is very low and probably no different from

95 TX and the photosensitizer caused an initial nerve block lasting 13.5 +/- 3.1 h.

96 e reduced TTX systemic toxicity and produced nerve block lasting 9.7+/-2.0 h, in comparison to 1.6+/-

97 cocorticoid agonist dexamethasone to provide nerve blocks lasting ~1 wk from a single injection.

98 p block (PNGB) and lateral femoral cutaneous nerve block (LFCNB) on block range and analgesia as well

99 sibilities afforded by the use of peripheral nerve blocks mainly consist of prolonged analgesia, sele

100 uroprosthetic devices, whereas the on-demand nerve-blocking mechanism could offer effective clinical

101 in perfusion of [(14)C] sucrose; bupivacaine nerve block of CIP caused an attenuation of [(14)C] sucr

102 dies in humans, the effect of a differential nerve block on itch produced by intradermal insertion of

103 t the functional inhibition of the occipital nerve block on trigeminal nociceptive activity is likely

104 he differences between plasticity induced by nerve block or damage versus that induced by experience.

105 01) and were not associated with receiving a nerve block or PCA.

106 n-relieving treatments, including peripheral nerve block or spinal clonidine, an alpha2-adrenergic ag

107 lterations, are advantages of the peripheral nerve block over more central neural blocks.

108 ere has been an increasing use of peripheral nerve blocks (PNBs) in ambulatory surgery.

109 Continuous peripheral nerve blocks provide superior analgesia and are associat

110 Ultrasound-guided popliteal sciatic nerve block provides effective pain control, which resul

111 of local anesthetic required to accomplish a nerve block, reducing the potential for systemic toxicit

112 2004 using the search terms critically ill, nerve blocks, regional analgesia, and regional anesthesi

113 s recorded in the National Ultrasound-Guided Nerve Block Registry from January 1, 2022, to December 3

114 ded data from the National Ultrasound-Guided Nerve Block Registry, a retrospective multicenter observ

115 as similar in the 2 groups, with no reported nerve block-related complications.

116 vailable, and how they can be used to reduce nerve block-related complications.

117 p of widely applicable and relatively simple nerve blocks should be mastered by all graduates.

118 There is increasing interest in peripheral nerve blocks, single or continuous, mainly for periopera

119 the use of ambulatory continuous peripheral nerve blocks such as the interscalene, infraclavicular a

120 barriers to the widespread use of peripheral nerve block techniques across multiple disciplines.

121 Many traditional nerve block techniques have been significantly modified

122 Diagnosis was always confirmed by a positive nerve block test result.

123 wer limb mechanics with and without a tibial nerve block that prevented contraction of these muscles.

124 oscopically directed thoracic intraforaminal nerve blocks that showed few complications and anatomica

125 catheters for the performance of continuous nerve blocks, the use of adjuvants to extend the duratio

126 tients with morbid obesity, the use of vagal nerve block therapy compared with a sham control device

127 Upon nerve block, there was a significant decrease in thermal

128 iver the diol dexamethasone, which prolonged nerve block to 21.8+/-5.1 h.

129 rn to prefer a context paired with saphenous nerve block to elicit pain relief (i.e., conditioned pla

130 with kilohertz electrical stimulation (KES) nerve block to preferentially activate efferent pathways

131 Here, we applied ischemic nerve block to the intact hand of patients with chronic

132 the safety and efficacy of novel peripheral nerve blocks, transversus abdominis plane and ultrasound

133 Ultrasonography-guided nerve blocks (UGNBs) have become a core component of mul

134 greatly increasing the number of triggerable nerve blocks (up to nine triggerable events upon a singl

135 knowledge-to-practice intervention improved nerve block uptake, and nerve blocks were quick, safe, a

136 A hepatic nerve block, using similar technique and 0.25% bupivacai

137 rves to display the most clinically relevant nerve blocks utilized in the perioperative setting.

138 Peripheral nerve block was produced at the level of the popliteal f

139 jectives were to determine whether the vagal nerve block was superior in mean percentage excess weigh

140 ve pilot study, 12 patients who received the nerve block were compared with a control group regarding

141 ve blocks with pain effectiveness data, most nerve blocks were effective (107 nerve blocks [57.5%]wit

142 ntervention improved nerve block uptake, and nerve blocks were quick, safe, and mostly effective.

143 Conclusion A dedicated hepatic hilar nerve block with 0.25% bupivacaine can be safely perform

144 were randomized to receive ultrasound-guided nerve block with a 40 mL solution of local anesthetic an

145 ndomised study the influence of an occipital nerve block with lidocaine 1% on neuronal activation in

146 associate the effects of a lidocaine cornual nerve block with the location and pattern of a visual st

147 similar compounds can provide very prolonged nerve blocks with minimal systemic and local toxicity.

148 Among 186 nerve blocks with pain effectiveness data, most nerve bl

149 from 1997 to 2003 with 130 selective lumbar nerve blocks with triamcinolone or betamethasone.