ライフサイエンスコーパス: postoperative pain

1 in-induced nociception and acute thermal and postoperative pain.

2 no clear MR arthrographic finding to explain postoperative pain.

3 ure because it is frequently associated with postoperative pain.

4 s but with different strategies for managing postoperative pain.

5 o undergo surgery are almost certain to have postoperative pain.

6 ure because patients and doctors worry about postoperative pain.

7 sunlight had positive effects on anxiety and postoperative pain.

8 The primary outcome of the trial was postoperative pain.

9 ts to MWF surgery in terms of less edema and postoperative pain.

10 PK phosphatase (MKP)-3, in the resolution of postoperative pain.

11 stigate techniques that might further reduce postoperative pain.

12 d stability, shorter recovery time, and less postoperative pain.

13 Surgical techniques may affect postoperative pain.

14 treatment modalities and regimens for acute postoperative pain.

15 ernia repairs were significant predictors of postoperative pain.

16 D1 can each potently dampen inflammatory and postoperative pain.

17 dal analgesics to control moderate to severe postoperative pain.

18 nerve sheath catheters in the management of postoperative pain.

19 patients better quality of vision with less postoperative pain.

20 garding various modalities for management of postoperative pain after cardiac surgery.

21 The aim was to compare long-term postoperative pain after inguinal hernia surgery using 2

22 Controlling postoperative pain after knee replacement while reducing

23 have significant benefits in the control of postoperative pain after periodontal or oral surgical pr

24 study is to compare the tissue response and postoperative pain after the use of a diode laser (810 n

25 y outcome measures were occlusion at 7 days, postoperative pain, analgesic requirement, and bruising,

26 tom of most inflammatory conditions, such as postoperative pain and arthritis, and induction of COX2

27 possible if patient anxiety is addressed and postoperative pain and bowel function are managed.

28 ow the laparoscopic approach results in less postoperative pain and can be done with no increase in o

29 ant implications for the management of acute postoperative pain and chronic pain states, including di

30 Postoperative pain and consumption of opioids and analge

31 ce the rate of hernia recurrence, as well as postoperative pain and convalescence, the treatment of i

32 However, it causes greater postoperative pain and corneal aberrations, and poor gla

33 everal studies suggest that LASEK may reduce postoperative pain and corneal haze associated with PRK.

34 laser in situ keratomileusis and decreasing postoperative pain and corneal scarring associated with

35 lar average durable clinical improvements in postoperative pain and disability with nonsignificant in

36 idal ibuprofen for preventing or controlling postoperative pain and discomfort after surgical implant

37 sue expander placement significantly reduced postoperative pain and discomfort without complications.

38 P-3 prevents spontaneous resolution of acute postoperative pain and drives its transition to persiste

39 AP block procedure is beneficial in reducing postoperative pain and early morphine requirements in la

40 The best predictor of postoperative pain and function appears to be preoperati

41 s used, patients experienced minimal to mild postoperative pain and had a short recovery period, with

42 ciated with decreased blood loss and limited postoperative pain and hospital stay.

43 ntal tissues and in this way may help reduce postoperative pain and inflammation.

44 mage could lead to a paradoxical increase in postoperative pain and inflammation.

45 operated with TEP experienced less long-term postoperative pain and less limitation in their ability

46 ) and shorter LOS by 1.94 days (P<.001), but postoperative pain and LOS after surgery did not differ.

47 ideal number, surgeons can adequately treat postoperative pain and markedly decrease the number of o

48 esh and the peritoneum significantly reduces postoperative pain and narcotic use after LVHR.

49 The prevention and management of postoperative pain and nausea are also discussed.

50 ignificant benefits in patient satisfaction, postoperative pain and QOL.

51 nd when an open tension-free repair is used, postoperative pain and recovery periods are equally comp

52 r, the laparoscopic approach results in less postoperative pain and reduced postoperative emesis.

53 g procedure for haemorrhoids include reduced postoperative pain and shortened convalescence; however,

54 my by conventional thoracotomy, include less postoperative pain and shorter length of hospitalization

55 Although resulting in less postoperative pain and shorter sick leave, DGHAL was mor

56 Lightweight meshes reduce postoperative pain and stiffness in open anterior inguin

57 Open cardiac surgery may cause severe postoperative pain and the activation of a perioperative

58 morrhoidectomy has the potential to decrease postoperative pain and time off work.

59 out (KO) mice, a paw incision model of acute postoperative pain, and behavioral and molecular biology

60 y postoperative chest wall, causes only mild postoperative pain, and produces good physiologic and co

61 hort- and long-term cosmetic and body image, postoperative pain, and QoL in SPLC compared with 4PLC.

62 ss narcotics (P<0.001), recalled having less postoperative pain, and stopped taking pain medications

63 nociception in animal models of acute pain, postoperative pain, and visceral pain.

64 ly benzodiazepines), effective management of postoperative pain, and, perhaps, judicious use of antip

65 ly, reduction in antiemetic use and improved postoperative pain are also seen in the first 24 hours a

66 New techniques for the management of postoperative pain are highlighted, with an emphasis on

67 ms that drive the normal resolution of acute postoperative pain are not completely understood.

68 ed the standard approach to preventing acute postoperative pain, are being replaced by a combination

69 Postoperative pain assessed at each of the first 7 posto

70 The wIRA group showed lower postoperative pain at both the ITT (P = 0.092) and the F

71 RA contributes to both reduced SSI rates and postoperative pain but also effectively decreases morbid

72 py has been associated with markedly reduced postoperative pain but has not been widely applied to to

73 ravenous prodrug parecoxib are used to treat postoperative pain but may involve risk after coronary-a

74 avertebral block, not only in reducing acute postoperative pain, but also statistically significant r

75 ts and are being used more commonly to treat postoperative pain, but recent small studies have sugges

76 Postoperative pain can be ameliorated using topical and

77 There was no difference in chronic postoperative pain comparing ML, TEP, and TAPP including

78 ndary endpoints included operative duration, postoperative pain, complications, QoL, and length of ho

79 Acute and chronic postoperative pain continues to remain a major problem a

80 h morphine is commonly used to provide acute postoperative pain control after major surgery.

81 sia (EA) is used as an adjunct procedure for postoperative pain control during elective abdominal aor

82 Although adequate postoperative pain control is critical to patient and su

83 n gynecologic laparoscopy appears to improve postoperative pain control modestly, especially when giv

84 a better method than parenteral opioids for postoperative pain control remains controversial.

85 In separate experiments directed at postoperative pain control, subcutaneous administration

86 nic or elastomeric pumps, is recommended for postoperative pain control.

87 the 5th vital sign, increasing the focus on postoperative pain control.

88 utline methods of increasing the duration of postoperative pain control.

89 ation include the length of hospitalization, postoperative pain, cosmetic concerns, and the prolonged

90 hought to be safer for patients, causes less postoperative pain, cost less, and is associated with a

91 ides are at minimal levels during periods of postoperative pain despite high levels of arousal.

92 e epidural analgesia significantly decreases postoperative pain during hospitalization and long after

93 e a prolonged inhibition of muscle spasm and postoperative pain, facilitating tissue expander reconst

94 er surgery duration, lower blood loss, lower postoperative pain, faster recovery, improved cost-effec

95 -assisted thoracoscopic surgery include less postoperative pain, fewer operative complications, short

96 le for high recurrence rates and significant postoperative pain following tissue-based repairs led to

97 me of hernia repair would reduce the risk of postoperative pain for open tension-free sutured mesh re

98 The use of ketorolac to control postoperative pain for patients undergoing open donor ne

99 s play an important role in the treatment of postoperative pain; however, unused opioids may be diver

100 esthetic techniques can be used to alleviate postoperative pain in children undergoing pediatric surg

101 rolac is comparable to morphine in relief of postoperative pain in children.

102 de at home offers good short-term control of postoperative pain in the outpatient setting.

103 increase in quality of life and decrease in postoperative pain in the test group.

104 e until resumption of oral intake, decreased postoperative pain (in terms of decreased analgesic requ

105 issection ( P = .008), and more severe acute postoperative pain intensity at the seventh postoperativ

106 Postoperative pain is a potential adverse side effect of

107 The optimal management of postoperative pain is a prerequisite for early recovery

108 Control of cancer, neuropathic, and postoperative pain is frequently inadequate or compromis

109 Little is known about how well postoperative pain is managed in living liver donors, de

110 However, since the origin of postoperative pain is the surgically inflicted wound, th

111 The development of postoperative pain is uncommon, but at times debilitatin

112 ed knowledge of the origin and modulation of postoperative pain, it is clear that there are a variety

113 ion, intraoral hemorrhage, wound dehiscence, postoperative pain, lack of primary implant stability, i

114 ence of nonpharmacological interventions for postoperative pain management after total knee arthropla

115 Multimodal analgesia is needed for acute postoperative pain management due to adverse effects of

116 2012 exploring registered nurses' paediatric postoperative pain management practices were included.

117 Enhanced postoperative pain management requires dissemination of

118 clarified the impact of interactions between postoperative pain management strategies and sleep apnea

119 expert society analgesic recommendations for postoperative pain management, 49% received care conform

120 Postoperative pain management, feeding schedule, and dis

121 Even in the presence of aggressive postoperative pain management, preemptive epidural analg

122 echniques in children for intraoperative and postoperative pain management.

123 overy have revealed that different levels of postoperative pain may differentially affect quality of

124 any domains assessed by quality of recovery, postoperative pain may have a general detrimental effect

125 and complications, inpatient experience with postoperative pain, nausea, vomiting, and length of stay

126 have been shown to be effective in treating postoperative pain, noncardiac chest pain, fibromyalgia

127 nt mesh fixation can reduce the incidence of postoperative pain/numbness/groin discomfort by up to 50

128 The search terms used were: postoperative pain; nurs*; paediatrics; pediatrics; chil

129 Postoperative pain (on a standard scale ranging from 0 t

130 STG procedures incur a higher likelihood for postoperative pain or bleeding than SCTG procedures, whe

131 : Postoperative pain or recovery at 3 weeks after repair o

132 patient satisfaction, and intraoperative and postoperative pain ratings.

133 onized surgical care, significantly reducing postoperative pain, recovery time, and hospital stays wi

134 e advantages of faster visual recovery, less postoperative pain, reduced stromal haze, and faster epi

135 Postoperative pain relief (freedom from narcotic analges

136 in women who receive ketorolac (Toradol) for postoperative pain relief compared with other analgesic

137 , particularly with the promise of extensive postoperative pain relief for the ambulatory surgery pat

138 anced patient satisfaction with the improved postoperative pain relief.

139 Overall, epidural analgesia provides better postoperative pain relief.

140 f the three groups; all received opioids for postoperative pain relief.

141 eeping increase in their use in children for postoperative pain relief.

142 Despite these advances, postoperative pain remains a significant problem that ma

143 Although postoperative pain remains incompletely controlled in so

144 ns after surgery (P = .002), reported higher postoperative pain scores (P = .034), required more reop

145 body dysmorphic disorder tend to have higher postoperative pain scores and more postoperative complic

146 vs 4%, P < 0.001), whereas no difference in postoperative pain scores was noted.

147 Postoperative pain scores were comparable between the 2

148 Median postoperative pain scores were higher in monofocal IOL w

149 perioperative vasopressor requirements, and postoperative pain scores were secondary outcome measure

150 There was no difference in postoperative pain scores, opioid consumption, sedation

151 or (6) moderate-to-low trajectories based on postoperative pain scores.

152 perative time, conversion, complications and postoperative pain scores.

153 ions, and follow-up visits; preoperative and postoperative pain scores; and the technician word count

154 versus open gastric bypass demonstrated less postoperative pain, shorter length of hospital stay, few

155 Music reduced postoperative pain (SMD -0.77 [95% CI -0.99 to -0.56]),

156 Postoperative pain, swelling, and bleeding are the most

157 onnaire 1 week after the surgeries regarding postoperative pain, swelling, and bleeding.

158 emorrhoidectomy) may be associated with less postoperative pain than conventional haemorrhoidectomy.

159 erwent longer surgeries and experienced more postoperative pain than LL/LLS liver donors.

160 Current postoperative pain therapy revolves around the use of wo

161 lthough opioids are effective treatments for postoperative pain, they contribute to the delayed recov

162 not been shown to consistently reduce acute postoperative pain, though it has recently been demonstr

163 nd for 30 days after surgery, as well as for postoperative pain, time of ambulation, and length of ho

164 d to decrease the length of hospitalization, postoperative pain, time to convalescence and activity,

165 We hypothesized that inpatient postoperative pain trajectories are associated with 30-d

166 Postoperative pain trajectories identify populations at

167 Higher levels of postoperative pain typically correlate with a decrease i

168 Postoperative pain was absent in 47%.

169 Postoperative pain was assessed using a visual analog sc

170 Although postoperative pain was less in the SPLC-group (mean VAS

171 Postoperative pain was significantly lower after EVLA (P

172 er in whom an epidural catheter for treating postoperative pain was to be placed prior to the inducti

173 harge, postoperative bleeding, cosmesis, and postoperative pain, whereas the main disadvantage involv

174 Significant differences were observed for postoperative pain, which was measured on the visual ana

175 of >10 tacks doubles the incidence of early postoperative pain while having no effect on rates of re