ライフサイエンスコーパス: fibula

1 condensations in the hindlimb (femur, tibia, fibula).

2 iately under the periosteum of the tibia and fibula.

3 ally to the tibia and insert distally in the fibula.

4 No difference was noted at the fibula.

5 cken as well as between the chicken ulna and fibula.

6 tibia (17%, 17 of 101), and distal tibia and fibula (14% each, 14 of 101).

7 The most common free flap was fibula (8/17, 47%).

8 tomy of the muscle, subcutaneous fat, tibia, fibula and arteries in the lower legs of teenagers and y

9 lied to characterise pathologies of the left fibula and fused caudal vertebrae of the non-avian dinos

10 g bones, including the femur, the tibia, the fibula and the tarsometatarsals.

11 radius and tibia were malformed, whereas the fibula and ulna remained unmineralized.

12 lter-Harris I and II fractures of the distal fibula), and to compare the potential reduction in radio

13 lood cell fraction, platelet fraction, tibia/fibula, and femur was significantly greater in the mice

14 with fracture location: scaphoid, tibia plus fibula, and femur were most likely to be nonunion.

15 pre-chondrogenic condensations of the tibia, fibula, and footplate, raising the possibility that re-e

16 images and included the distal tibia, distal fibula, and full talus.

17 ich is comprised of the distal tibia, distal fibula, and proximal talus.

18 Posterior elements (such as ulna and fibula) appear prior to their anterior counterparts (rad

19 Salter-Harris I fractures of the distal fibula are rare in children with radiograph fracture-neg

20 Vascularized fibulas are used for reconstruction of bony defects afte

21 hat exhibits structural changes in tibia and fibula as well as patterning alterations in patella and

22 skeletal elements, the radius/ulna and tibia/fibula, as well as transformation of the sacral region t

23 the common peroneal nerve at the head of the fibula, decreased the presynaptic inhibition.

24 tritiated thymidine uptake by the tibia and fibula demonstrates that Hox genes can pattern the limb

25 obtained, and anatomic axes of the tibia and fibula extracted to calculate tibiofibular joint positio

26 study to investigate the impact of a second fibula flap or a soft tissue flap combined with bridging

27 20 patients underwent a fibula flap reconstruction whereas 41 had a soft tissue

28 ection rate, and plate exposure rate to free fibula flaps alone.

29 Free fibula flaps may result in a decreased risk for prolonge

30 Despite the widespread use of fibula free flap (FFF) surgery for head and neck reconst

31 Among both groups, 14 patients underwent fibula free flap, 22 patients underwent subscapular syst

32 Studies comparing perioperative outcomes of fibula free flaps (FFFs), osteocutaneous radial forearm

33 d with anterolateral thigh or osteocutaneous fibula free flaps.

34 Freeing of the fibula from the ankle joint later enabled mobilization o

35 In mutant knees, both tibia and fibula fully articulated with an enlarged femoral epiphy

36 nd incision was made at the mid-point of the Fibula (half-way between the fibular head and the latera

37 id-twentieth century(1,2), the reduced avian fibula has sparked sustained curiosity(3-6).

38 ture with hypoplasia/aplasia of the ulna and fibula, has been postulated to be the homozygous form of

39 or fibers were more distal, attaching to the fibula in close proximity to the PITFL.

40 of the lower affected leg, muscle, tibia and fibula in unilateral CTEV participants were consistently

41 7), pelvis (n = 150), and shaft of the tibia/fibula (n = 141) cases who fell at the time of their fra

42 oximal humerus (n = 448), shaft of the tibia/fibula (n = 168), and pelvis (n = 172) fractures and 1,9

43 xteen bone lesions (midtibia, n = 14; distal fibula, n = 1; and proximal femur, n = 1) were evident.

44 iple biomolecular assays on a well-preserved fibula of the dinosaur Edmontosaurus from the Cretaceous

45 d (radius and ulna of the forearm, tibia and fibula of the leg) are not well understood, although the

46 received head and neck reconstruction with a fibula osteocutaneous free flap between January 11, 2010

47 s quartus muscle in the region of the distal fibula ranged from 100% muscle to 100% tendon.

48 pattern the zeugopod (radius/ulna and tibia/fibula), remain regionally expressed in the adult skelet

49 te this assumption and show that the reduced fibula serves a crucial function in enabling extreme kne

50 Salter-Harris type I fracture of the distal fibula (SH1DF) and managed with immobilization and ortho

51 y nine anatomical terms: humerus, handplate, fibula, tibia, femur, ribs, petrous part, scapula and he

52 ft tissue fusion as well as the absence of a fibula to 100% penetrance in the FVB genetic background.

53 was affixed to the skin over the head of the fibula to permit estimation of the percentage of radiogr

54 The fibula transformed throughout dinosaur evolution from a

55 examinations (signs restricted to the distal fibula) would have high-risk fractures (all fractures ex