ライフサイエンスコーパス: arthroscopic

1 All of the patients underwent arthroscopic ACL reconstruction with autologous hamstrin

2 ings were correlated with those at clinical, arthroscopic, and histologic examination.

3 We focus on arthroscopic approaches to problems of the hip, wrist, e

4 Arthroscopic assessment of patients with knee osteoarthr

5 Manipulation under anaesthesia and arthroscopic capsular release are costly and invasive tr

6 Arthroscopic capsular release, also done under general a

7 ) to receive manipulation under anaesthesia, arthroscopic capsular release, or early structured physi

8 Arthroscopic cartilage assessment with use of a modified

9 Second-look arthroscopic confirmation of meniscal status was availab

10 One of the five had arthroscopic confirmation.

11 There was arthroscopic correlation of findings in five patients.

12 Surgical or arthroscopic correlation was available as the so-called

13 4%] aged 71-80 years) were eligible for knee arthroscopic debridement for osteoarthritis; 2520, verte

14 d trial in 24 hospitals in the UK, comparing arthroscopic debridement of the subacromial space with b

15 Surgical treatment ranges from arthroscopic debridement to implantation of autologous c

16 e, the outcomes after arthroscopic lavage or arthroscopic debridement were no better than those after

17 f the knee were randomly assigned to receive arthroscopic debridement, arthroscopic lavage, or placeb

18 Hospital-specific rates of low-value knee arthroscopic debridement, vertebroplasty for osteoporoti

19 Patients with bacteremia, arthroscopic debridements and a follow-up <1 year were e

20 Patients with bacteremia, arthroscopic debridements, and a follow-up <1 year were

21 Clinical and arthroscopic diagnoses of rotator interval abnormalities

22 Arthroscopic examination of the anterior horn of the lat

23 ties of the cartilage that were evident upon arthroscopic examination.

24 ts and MRI scans in the 2 years prior to hip arthroscopic FAI surgery were analyzed with distribution

25 The imaging results were compared with arthroscopic findings for patient.

26 t's level of experience and knowledge of the arthroscopic findings, the sensitivity for diagnosis of

27 ted DL super-resolution shoulder MRI against arthroscopic findings.

28 d co-localization between the MR imaging and arthroscopic findings.

29 l bone marrow edema without knowledge of the arthroscopic findings.

30 of both interventions were compared with the arthroscopic findings.

31 the radiological findings to the respective arthroscopic findings.

32 review; the second was with knowledge of the arthroscopic findings.

33 the reported MR signs correlate poorly with arthroscopic findings.

34 MR findings were correlated with arthroscopic findings.

35 The results were compared with the arthroscopic findings.

36 oclavicular joint dislocation that undergone arthroscopic fixation procedure with single tunnel techn

37 es of the shoulder in patients who underwent arthroscopic follow-up were retrospectively reviewed by

38 al biopsies, we evaluate whether diameter of arthroscopic forceps influences histological quality of

39 gs of subchondral bone marrow edema with the arthroscopic grade of articular cartilage degeneration.

40 Arthroscopic grades showed cartilage abnormality in 23 o

41 ssified according to a modified standardized arthroscopic grading system.

42 l sulcus was the most frequent finding after arthroscopic hip surgery in both asymptomatic and sympto

43 asymptomatic and symptomatic patients after arthroscopic hip surgery.

44 tilage was graded blindly on both the MR and arthroscopic images with a modification of the Noyes cla

45 mages, 77% were graded identically on MR and arthroscopic images.

46 al devices, from artificial heart valves and arthroscopic joints to implantable sensors, often induce

47 In arthroscopic knee and shoulder surgery, there is growing

48 Among patients who underwent arthroscopic knee or shoulder surgery, a multimodal opio

49 age, 41.6 years) who subsequently underwent arthroscopic knee surgery.

50 , 39.1 years), who also underwent subsequent arthroscopic knee surgery.

51 age of 33 years) who subsequently underwent arthroscopic knee surgery.

52 roposterior radiography of the knee prior to arthroscopic knee surgery.

53 erwent MR imaging of the knee and subsequent arthroscopic knee surgery.

54 septic knee arthritis in patients undergoing arthroscopic knee washout are serious.

55 ective cohort study in patients who received arthroscopic knee washout for septic arthritis in Englan

56 teoarthritis of the knee, the outcomes after arthroscopic lavage or arthroscopic debridement were no

57 ssigned to receive arthroscopic debridement, arthroscopic lavage, or placebo surgery.

58 for samples obtained by needle aspiration or arthroscopic lavage, suggesting a widespread applicabili

59 ts with early OA cartilage damage undergoing arthroscopic meniscal procedures.

60 er medial meniscal tear and to canines after arthroscopic meniscal release markedly mitigated the app

61 undergone 1 of 7 common elective operations (arthroscopic meniscal repair [116 749]; laparoscopic cho

62 s without evidence of OA who were undergoing arthroscopic meniscectomy for meniscal injuries were rec

63 e patients without evidence of OA undergoing arthroscopic meniscectomy for meniscal injuries were rec

64 Arthroscopic meniscectomy is one of the most common orth

65 ts with traumatic meniscal injury undergoing arthroscopic meniscectomy without clinical or radiograph

66 ts with traumatic meniscal injury undergoing arthroscopic meniscectomy without radiographic evidence

67 treatments, a subset should be treated with arthroscopic or open surgery.

68 c classification showed correlation with the arthroscopic or surgical classification in 13 of 17 pati

69 Recent evidence shows that arthroscopic partial meniscectomy (APM) offers no benefi

70 data exist to identify who will benefit from arthroscopic partial meniscectomy (APM) versus nonoperat

71 sed physical therapy remained noninferior to arthroscopic partial meniscectomy for patient-reported k

72 Whether arthroscopic partial meniscectomy for symptomatic patien

73 Arthroscopic partial meniscectomy is one of the most com

74 Patients were randomly allocated to arthroscopic partial meniscectomy or 16 sessions of exer

75 Patients were randomly assigned to arthroscopic partial meniscectomy or sham surgery.

76 ate of injured human meniscus at the time of arthroscopic partial meniscectomy through transcriptome-

77 g-term effects (ie, 3-5 years and beyond) of arthroscopic partial meniscectomy vs exercise-based phys

78 ive medial meniscus tear, the outcomes after arthroscopic partial meniscectomy were no better than th

79 1 patients, resulting in significantly fewer arthroscopic procedures (P < .01).

80 f indications for diagnostic and therapeutic arthroscopic procedures involving virtually every periph

81 Complications of arthroscopic procedures occur very rarely.

82 cute knee injury by decreasing the number of arthroscopic procedures, improving clinician diagnostic

83 ith the preponderance of data generated with arthroscopic procedures.

84 nagement plans included 37% (27 of 73) fewer arthroscopic procedures.

85 For the remaining 23%, MR imaging and arthroscopic ratings were within one grade of each other

86 9,128) and 145 (97,171) minutes for open and arthroscopic repair respectively.

87 Modern arthroscopic repair techniques have improved recovery, b

88 e 17 (10,23) and 35 (23,50) for the open and arthroscopic repairs respectively.

89 It is unclear whether arthroscopic resection of degenerative knee tissues amon

90 With arthroscopic results as the reference standard, the sens

91 Medical charts and arthroscopic results, when available, were reviewed for

92 on by three radiologists who were blinded to arthroscopic results.

93 US findings were compared with arthroscopic results.

94 labrum while blinded to patient history and arthroscopic results.

95 meniscocapsular injury were correlated with arthroscopic results.

96 n time for two surgical procedures (open and arthroscopic rotator cuff repair).

97 D modeling for shoulder models developed for arthroscopic rotator cuff simulation was presented.

98 Adult patients undergoing outpatient arthroscopic shoulder or knee surgery were followed up f

99 Over the study period the number of arthroscopic shoulder procedures increased, except for s

100 fy the frequency of variants observed during arthroscopic shoulder surgeries, and to classify them ba

101 l rate of complications within 90 days after arthroscopic shoulder surgery (including reoperation) wa

102 DeBerardino et al. prospectively evaluated arthroscopic stabilization of acute shoulder dislocation

103 of a prospective randomized trial comparing arthroscopic stabilization to nonoperative treatment of

104 Arthroscopic sub-acromial decompression (decompressing t

105 We randomly assigned participants (1:1:1) to arthroscopic subacromial decompression, investigational

106 re similar when accounting for crossovers to arthroscopic surgery (13 of 86 [15.1%]) during follow-up

107 120 minutes or more (OR = 1.69, P = 0.027), arthroscopic surgery (OR = 5.16, P < 0.001), saphenofemo

108 Arthroscopic surgery (resection or debridement of degene

109 She has undergone arthroscopic surgery for a meniscal tear and has taken n

110 y analysis of a randomized clinical trial of arthroscopic surgery for patients with OA of the knee, a

111 umulative incidence was 10.2% vs 9.3% in the arthroscopic surgery group and control group, respective

112 6.8) years, 31 of 92 patients (33.7%) in the arthroscopic surgery group vs 36 of 86 (41.9%) in the co

113 d with OA of the knee referred for potential arthroscopic surgery in a tertiary care center specializ

114 We assessed these effects after arthroscopic surgery in patients with and without histol

115 ty consecutive patients proposed to shoulder arthroscopic surgery were selected.

116 ed among medical management, rehabilitation, arthroscopic surgery with post-operative rehabilitation,

117 tact rotator cuff tendons, were eligible for arthroscopic surgery, and had previously completed a non

118 e management with or without additional knee arthroscopic surgery.

119 rwent both MRI examination and MDSA prior to arthroscopic surgery.

120 an age, 35.5 years) who underwent subsequent arthroscopic surgery.

121 All 16 patients had undergone arthroscopic surgery.

122 Five underwent arthroscopic surgery.

123 To examine recent trends in the use of arthroscopic surgical techniques to address musculoskele

124 Arthroscopic synovectomy effectively controls the hypert

125 ee survival by surgery type (open surgery vs arthroscopic synovectomy), and prespecified risk factors

126 ms and refinements in the use of imaging and arthroscopic tools are reviewed.

127 study of symptomatic patients who underwent arthroscopic treatment for femoroacetabular impingement

128 o the traditional single tunnel technique in arthroscopic treatment of acute acromioclavicular joint

129 ce (MR) arthrography of the hip 1 year after arthroscopic treatment of femoroacetabular impingement.

130 njury, treatment may include immobilization, arthroscopic treatment, or open reduction and internal f