ライフサイエンスコーパス: glenoid

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1 e external rotation with four appearances of glenoid.

2 ids, and 0 degrees for those with concentric glenoids.

3 d between the tendon insertion sites and the glenoid, acromion, and coracoid for the loaded ABER posi

4 Supraspinatus tendon to glenoid and infraspinatus tendon to glenoid minimum dist

5 -10 degrees for those with flat or biconcave glenoids, and 0 degrees for those with concentric glenoi

6 glenohumeral joints; 19 children, biconcave glenoid; and 17 children, pseudoglenoid.

7 ossa; flat, with flattening of the posterior glenoid; biconcave, with the humeral head in articulatio

8 l studies are crucial not only for detecting glenoid bone defects but also for measuring the amount o

9 Although we know that major glenoid bone loss requires surgical intervention, none o

10 fect as well as on algorithms with validated glenoid bone loss threshold values for therapeutic decis

11 rphological defects, partial fusion with the glenoid bone surface, reduced synovial cavity space, and

12 een the rotator cuff insertion sites and the glenoid decreased in the loaded ABER position.

13 ersally accepted measuring techniques of the glenoid defect as well as on algorithms with validated g

14 Presence and type of glenoid deformity were significantly associated with sev

15 ge, mutant mice exhibited hyperplasia in the glenoid fossa articular cartilage, articular disc, and s

16 eral head remained precisely centered on the glenoid fossa in all asymptomatic subjects, which is in

17 normal development of the articular eminence/glenoid fossa in the TMJ, and fusion of the articular di

18 ted in these mutants, demonstrating that the glenoid fossa is not required for development of these s

19 s of the TMJ are the mandibular condyle, the glenoid fossa of the temporal bone, and a fibrocartilage

20 ositioned between the mandibular condyle and glenoid fossa of the temporal bone, with important roles

21 lar ligament, and the direction of the human glenoid fossa strongly suggest that the ancestor of man

22 ears; mean age, 27 years) with an OCD in the glenoid fossa were identified.

23 Transverse images obtained through the glenoid fossa were totalled to determine the midpoint.

24 Mutant glenoid fossa, disc, synovial cells, and condyles displa

25 es, which disrupts normal development of the glenoid fossa.

26 , with the humeral head well centered on the glenoid fossa; flat, with flattening of the posterior gl

27 raspinatus and supraspinatus tendons and the glenoid in all eight volunteers.

28 the supraspinatus and infraspinatus with the glenoid in all volunteers.

29 ively evaluate rotator cuff contact with the glenoid in healthy volunteers placed in the unloaded and

30 lar contrast material leakage; rotator cuff, glenoid labrum, and anterior capsule conspicuity; and pa

31 the depiction of the rotator cuff tendons or glenoid labrum.

32 method of detecting and quantifying osseous glenoid lesions.

33 till no consensus on the exact percentage of glenoid loss that results in a higher risk of re-disloca

34 endon to glenoid and infraspinatus tendon to glenoid minimum distances also decreased significantly (

35 Glenoid morphology (version, vault depth, erosion), inju

36 scapula, the midpoint was near the anterior glenoid notch at about the position between 2- and 3-o'c

37 A glenoid OCD appeared as either a multiloculated cyst in

38 A glenoid OCD occurs most often as a result of acute traum

39 inatus and the posterior and posterosuperior glenoid, respectively.

40 the anteroinferior labrum associated with a glenoid rim fracture.

41 Deformation of the infraspinatus on the glenoid was seen in four volunteers, whereas supraspinat

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