ライフサイエンスコーパス: rotator cuff

1 nventional SE sequence for evaluation of the rotator cuff.

2 on of calcium crystals in the tendons of the rotator cuff.

3 United States resulting in retearing of the rotator cuff.

4 plete- and 12 partial-thickness tears of the rotator cuff.

5 sion criteria included a full-thickness torn rotator cuff.

6 r was present in the anterior portion of the rotator cuff.

7 h tendon tears in the anterior aspect of the rotator cuff.

8 ective care for patients suspected of having rotator cuff abnormality.

9 Rotator cuff adipose stromal cells represent a new cell

10 Rotator cuff adipose stromal cells resist fibrotic micro

11 Rotator cuff tears cause fibrosis of rotator cuff adipose tissue; this fibrosis does not impa

12 Calcific tendinitis frequently affects the rotator cuff and may cause shoulder pain and reduction o

13 a synovial-like tissue that sits between the rotator cuff and the acromion.

14 ative rotator cuff, patients with a repaired rotator cuff, and patients who have undergone shoulder r

15 Keywords: Rotator Cuff, Artificial Intelligence, Segmentation, Fat

16 the expected location and orientation of the rotator cuff cable.

17 le option for symptom relief associated with rotator cuff calcific deposits.

18 Rotator cuff calcific tendinopathy is a common condition

19 Two radiologists graded rotator cuff contact on a three-point scale.

20 To prospectively evaluate rotator cuff contact with the glenoid in healthy volunte

21 In 238 patients with rotator cuff diagnoses at surgery, preoperative magnetic

22 Rotator cuff disease (RCD) is the most common cause of s

23 to guide the imaging evaluation of suspected rotator cuff disease in patients with a native rotator c

24 odology in a tenotomy-induced sheep model of rotator cuff disease, we tested whether mitochondrial dy

25 se of injury, particularly in the context of rotator cuff disease.

26 painful shoulders with clinically suspected rotator cuff disease.

27 luded patients aged 18 years or older with a rotator cuff disorder (new episode within the past 6 mon

28 with "all shoulder" diagnoses, including 772 rotator cuff disorder patients.

29 t corticosteroid injection, in adults with a rotator cuff disorder.

30 njection, for the treatment of patients with rotator cuff disorders (GRASP): a multicentre, pragmatic

31 ercise programmes are commonly used to treat rotator cuff disorders but the treatments' effectiveness

32 ovided no long-term benefit in patients with rotator cuff disorders.

33 ermine their relationship to patient age and rotator cuff disorders.

34 ecular, and biomechanical alterations of the rotator cuff enthesis with maturation and aging in a mou

35 nologists to astronaut operators to complete rotator cuff evaluation.

36 nd promoting myogenesis as those from intact rotator cuffs, further supporting autologous clinical us

37 Common injury sites include the rotator cuff, glenohumeral joint, acromioclavicular join

38 n; extraarticular contrast material leakage; rotator cuff, glenoid labrum, and anterior capsule consp

39 Rotator cuff grading was similar for fast SE and convent

40 endations will lead to greater uniformity in rotator cuff imaging and more cost-effective care for pa

41 lgorithm was tested on coronal images of the rotator cuff in a series of 144 patients, and the improv

42 reliable detection of calcifications in the rotator cuff in patients with calcific tendonitis by usi

43 Rotator cuff injuries result in more than 500,000 surger

44 We used a rat model of rotator cuff injury in this study because the rotator cu

45 Rotator cuff injury is a very common pathology in patien

46 ing of bursa samples from nine patients with rotator cuff injury, we show that the bursa responds to

47 f muscle involved in muscle repair following rotator cuff injury.

48 y and specificity to MRI in the diagnosis of rotator cuff injury.

49 sterior and anterior cystic abnormalities at rotator cuff insertion site on the greater tuberosity an

50 Distances between the rotator cuff insertion sites and the glenoid decreased i

51 Calcific tendinopathy of the rotator cuff is a common condition caused by the deposit

52 Adipose tissue within the rotator cuff is a novel and understudied source of thera

53 r and intertechnique agreement for detecting rotator cuff lesions were measured and compared with kap

54 rography and MR arthrography in depiction of rotator cuff lesions.

55 Standard rotator cuff MR sequences yielded a sensitivity of 59% (

56 er sensitivity and specificity than standard rotator cuff MR sequences.

57 otator cuff injury in this study because the rotator cuff muscle group is particularly prone to the d

58 uscle-specific cell populations derived from rotator cuff muscle involved in muscle repair following

59 APs) and satellite stem cells (SCs) from rat rotator cuff muscle tissue and analyzed the effects of F

60 For grading fatty infiltration of rotator cuff muscles, kappa and Z statistics were used.

61 e to microgravity than the joint-stabilizing rotator cuff muscles.

62 ed by the presence of calcification into the rotator cuff or in the subacromial-subdeltoid bursa.

63 elping identify abnormalities that may mimic rotator cuff or labral abnormalities at clinical examina

64 fect on image quality or on the depiction of rotator cuff or labral tears.

65 re was no difference in the detectability of rotator cuff or labral tears.

66 evice use and shorter pain chronicity, while rotator cuff outcomes were equivalent to all shoulder co

67 The subacromial bursa has been implicated in rotator cuff pathogenesis and healing.

68 tator cuff disease in patients with a native rotator cuff, patients with a repaired rotator cuff, and

69 Some tears are traumatic, but most rotator cuff problems are degenerative.

70 management sufficient for most patients with rotator cuff problems.

71 Objective analysis of rotator cuff (RC) atrophy and fatty infiltration (FI) fr

72 ee-dimensional (3D) segmentation of all four rotator cuff (RC) muscles to quantify intramuscular fat

73 Rotator cuff (RC) tears are a common cause of shoulder p

74 Massive rotator cuff (RC) tendon tears are associated with progr

75 1111 patients at risk, but was higher after rotator cuff repair (0.2%, 0.2% to 0.2%), with one in 52

76 nstrate the powerful potential of FGF-8b for rotator cuff repair by altering the fate of muscle under

77 relevant device that substantially enhances rotator cuff repair by distributing stresses over the at

78 rmation regarding clinical outcome following rotator cuff repair has been limited.

79 Rotator cuff repair surgeries fail frequently, with 20 t

80 o surgical procedures (open and arthroscopic rotator cuff repair).

81 were grouped into subacromial decompression, rotator cuff repair, acromioclavicular joint excision, g

82 oplasty, partial knee meniscectomy, shoulder rotator cuff repair, wrist arthroscopy, or ankle arthros

83 degree of residual pain and disability after rotator cuff repair.

84 ay reduce the risk of tendon retearing after rotator cuff repair.

85 e worse clinical outcome scores 1 year after rotator cuff repair.

86 was associated with impingement syndrome and rotator cuff rupture (n = 2).

87 r shoulder models developed for arthroscopic rotator cuff simulation was presented.

88 er joint, suggesting that its removal during rotator cuff surgery should be reconsidered.

89 oth-inspired device as an adjunct to current rotator cuff suture repair and found that it nearly doub

90 n the two groups in terms of the size of the rotator cuff tear (p > 0.05).

91 ity; and partial-thickness or full-thickness rotator cuff tear and labral tear detectability.

92 Here we use massive irreparable rotator cuff tear as a model to study the impact of chro

93 nderwent surgical repair of a full-thickness rotator cuff tear at a single institution between April

94 in, did not demonstrate an increased risk of rotator cuff tear based on their MRI compared to patient

95 ck of similarity between the impingement and rotator cuff tear groups.

96 r width and medial-lateral retraction of the rotator cuff tear on the preoperative MRI and assessed t

97 The frequency of rotator cuff tear was found to be significantly higher i

98 If rotator cuff tear was present, tendon retraction and loc

99 Massive irreparable rotator cuff tear was used as a model to study the impac

100 en the localisation of calcification and the rotator cuff tear, and only in 4.4% of the participants

101 Out the 68 patients with rotator cuff tear, supraspinatus was the most commonly a

102 arthrography had 100% accuracy in depicting rotator cuff tear, whereas both indirect MR arthrography

103 Participants had an irreparable rotator cuff tear, which had not resolved with conservat

104 AT and AI have a direct correlation with rotator cuff tear.

105 g rotator cuff tenotomy - a model of chronic rotator cuff tear.

106 llular processes that are dysregulated after rotator cuff tear.

107 determined between calcific tendinopathy and rotator cuff tear.

108 t accurate for diagnosis of a full-thickness rotator cuff tear.

109 confirm the presence or absence of labral or rotator cuff tear.

110 t labral tear and 88% in depicting recurrent rotator cuff tear.

111 e presence or absence of recurrent labral or rotator cuff tear.

112 romiale ( OR odds ratio = 138, P < .001) and rotator cuff tears ( OR odds ratio = 5.4, P = .015) afte

113 roups: those without shoulder impingement or rotator cuff tears (31 patients), those with shoulder im

114 er impingement (22 patients), and those with rotator cuff tears (31 patients).

115 erformed well with respect to full thickness rotator cuff tears (FTT).

116 Massive rotator cuff tears (MRCTs) of the shoulder cause disabil

117 ultrasound (USG) and MRI in the diagnosis of rotator cuff tears (RCT) and to determine if high resolu

118 Rotator cuff tears (RCT) are the common aetiology of sho

119 Rotator cuff tears (RCTs) represent a significant propor

120 Symptomatic, partial-thickness rotator cuff tears (sPTRCT) are problematic.

121 (SGHL), presence of biceps tendinopathy, and rotator cuff tears adjacent to the rotator interval.

122 nt to the development of an os acromiale and rotator cuff tears after age 25 years.

123 r and intertechnique agreement for measuring rotator cuff tears and grading muscle fatty infiltration

124 A higher prevalence of rotator cuff tears and impingement associated with low l

125 shows promising results in the diagnosis of rotator cuff tears and in differentiating partial from c

126 comes have been linked to fatty expansion in rotator cuff tears and repairs.

127 Partial-thickness rotator cuff tears are a common cause of pain and disabi

128 Rotator cuff tears are the most common upper extremity c

129 Rotator cuff tears are the most common upper extremity o

130 Rotator cuff tears begin as degenerative changes within

131 Rotator cuff tears cause fibrosis of rotator cuff adipos

132 skeletal pain caused, among other things, by rotator cuff tears due to narrowing of subacromial space

133 Here, we detail the impact rotator cuff tears have on adipose tissue within the sho

134 luate the prevalence of partial and complete rotator cuff tears in magnetic resonance images of patie

135 The pathophysiology of rotator cuff tears is complex and encompasses an interpl

136 However, the diagnosis of rotator cuff tears is controversial.

137 with the development of an os acromiale and rotator cuff tears later in life was assessed with follo

138 ifference between US and MRI in detection of rotator cuff tears of any type (RCT) or FTT.

139 determine whether patients with more severe rotator cuff tears of the shoulder at preoperative MRI h

140 lues were matched, were compared in terms of rotator cuff tears on their shoulder MRI images.

141 otal of 40 patients were diagnosed as having rotator cuff tears on ultrasound (USG) and MRI.

142 s, 31 patients who had positive findings for rotator cuff tears on ultrasound and/or MRI were finally

143 ve surgical device used to treat people with rotator cuff tears that cannot be repaired.

144 study, 40 patients with clinically suspected rotator cuff tears underwent both ultrasound and MRI of

145 We assessed the association of rotator cuff tears with commonly used radiographic param

146 ing degenerative changes in animal models of rotator cuff tears, but reports of their impact on clini

147 e radiographic acromial characteristics with rotator cuff tears, but the results have not been conclu

148 Conclusion Patients with larger rotator cuff tears, more tendon retraction, and more sev

149 ery good/absent]) as well as the presence of rotator cuff tears, superior and anteroinferior labral t

150 s performed to assess for joint subluxation, rotator cuff tears, tendinosis, subacromial-subdeltoid b

151 In the diagnosis of rotator cuff tears, the strength of agreement between ul

152 and are central to developing full-thickness rotator cuff tears.

153 InSpace balloon for people with irreparable rotator cuff tears.

154 ace balloon for the treatment of irreparable rotator cuff tears.

155 s the investigation of choice for diagnosing rotator cuff tears.

156 it a modality of first choice for evaluating rotator cuff tears.

157 ess the accuracy of US and MRI in diagnosing rotator cuff tears.

158 terature on the causes and classification of rotator cuff tears.

159 ry cause of shoulder impingement syndrome or rotator cuff tears.

160 st consistent positive treatment effects for rotator cuff tendinitis were achieved by ultrasound-guid

161 ded fibrillar structure perpendicular to the rotator cuff tendon (average thickness and width, 1.2 mm

162 young time period; (2) the increased risk of rotator cuff tendon injuries in the elderly population i

163 Rotator cuff tendon injuries often occur at the tendon-t

164 isolated from patients with chronic shoulder rotator cuff tendon tears have dysregulated resolution r

165 diagnostic performance for the evaluation of rotator cuff tendon tears.

166 st common overuse tendinopathies involve the rotator cuff tendon, medial and lateral elbow epicondyle

167 se but no alteration in the depiction of the rotator cuff tendons or glenoid labrum.

168 hematoxylin-eosin stain) from three resected rotator cuff tendons were inspected for fibers in the ex

169 omial pain for at least 3 months with intact rotator cuff tendons, were eligible for arthroscopic sur

170 ears or older with osteoarthritis and intact rotator cuff tendons.

171 r than in conjunction with injuries to other rotator cuff tendons.

172 role of NFkappaB in muscle atrophy following rotator cuff tenotomy - a model of chronic rotator cuff

173 e, and potentially superior, cell source for rotator cuff therapies.

174 cell type that can be impactful in advancing rotator cuff therapies.

175 6 patients with calcific tendinopathy of the rotator cuff treated with ultrasound-guided puncture and

176 spected of having calcific tendonitis of the rotator cuff were included.

177 Partial tears of rotator cuff were more common than complete tears.

178 ith tendon tears, SAF ASCs sourced from torn rotator cuffs were equally effective at resisting fibrob

179 n in cases of partial-thickness tears of the rotator cuff with a horizontal component.

180 Two radiologists independently graded the rotator cuff with separate and side-by-side assessment o

181 Despite a fibrotic signature in SAF from rotator cuffs with tendon tears, SAF ASCs sourced from t