ライフサイエンスコーパス: osteotomy

1 12-week-old C57BL/6J mice underwent a femur osteotomy.

2 zone of dead and dying osteocytes around the osteotomy.

3 by muscle attachment to the lateral orbital osteotomy.

4 rwent a noncritical-sized transverse femoral osteotomy.

5 ion of the hip and periacetabular rotational osteotomy.

6 al nerve is damaged during preparation of an osteotomy.

7 reated by a specialized drill at the time of osteotomy.

8 me periods (D6, D10, D24, and D38) following osteotomy.

9 advantages of the use of this laser for bone osteotomies.

10 ce gingival tissue or foreign materials into osteotomies?

11 l (no treatment); 2) a positive control (bur osteotomy); 3) CO2 laser at 5 W (860 J/cm2); 4) CO2 lase

12 tion regarding the effect of grafting of the osteotomy after subcrestal implant placement.

13 alone, corticotomy-assisted tooth movement, osteotomy alone, osteotomy-assisted tooth movement, or t

14 Our study indicates that osteotomies and corticotomies induce different alveolar

15 options for symptomatic flatfeet may include osteotomies and/or fusions, but similarly high quality c

16 on, particulate bone graft was placed in the osteotomy and appropriately sized osteotomes were used f

17 rophied maxillae were treated with Le Fort I osteotomy and iliac bone grafting to allow for implant-b

18 tulous maxillae reconstructed with Le Fort I osteotomy and iliac bone grafting.

19 e loading of implants placed after Le Fort I osteotomy and interpositional iliac bone grafting could

20 tral membrane, implants were placed into the osteotomies, and primary closure was executed at the sam

21 The implants were placed into the osteotomies, and the international stability quotient (I

22 animals and distraction osteogenesis in the osteotomy-assisted tooth movement animals.

23 Corticotomy-assisted and osteotomy-assisted tooth movement involves surgical inci

24 my-assisted tooth movement, osteotomy alone, osteotomy-assisted tooth movement, or tooth movement alo

25 ation when reducing the number of drills for osteotomy compared to the conventional drilling protocol

26 The repair process of osteotomies created by the Er,Cr:YSGG laser, despite pro

27 he animals were subjected to a 2-mm-diameter osteotomy created by conventional drills (drill group) o

28 the histologic healing of bone in rat tibial osteotomy defects created either by a dental bur, CO2 la

29 te long-term healing, from 21 to 63 days, of osteotomy defects in the rat tibia created with the Nd:Y

30 Studies comparing healing of osteotomy defects prepared with rotary burs to those cre

31 Tibial osteotomy defects were created in 4 groups of 6 rats eac

32 In this animal model, laser-induced osteotomy defects, when compared to those prepared by ro

33 Prior tumor resection with lateral wall osteotomy, delay in IACC implementation or exenteration,

34 nderwent alveolar crest exposure and implant osteotomy followed by MIAMBE (> 10 mm).

35 th of the implant in the coronal half of the osteotomy for cement placement.

36 he sagittal plane for 15 minutes/day) of the osteotomy gap beginning on day 10 after the operation.

37 and 2 patients were combined with Le Fort I osteotomy guided by digital templates.

38 hese analytical tools with in vivo models of osteotomy healing and implant osseointegration to determ

39 ed in bone healing with implants, but not in osteotomy healing.

40 ontralateral critical-size 6 mm rat calvaria osteotomies in 18 animals.

41 y available drills were then used to produce osteotomies in a patient cohort and in the rat model.

42 well-delimited and smooth walls, whereas the osteotomies in the laser group were irregular and presen

43 to the sinus floor, apical extension of the osteotomy is significantly limited, and often a staged a

44 The segmental osteotomy may provide an alternative treatment to the re

45 is process, we developed a standardized oral osteotomy model in ovariectomized rats.

46 The treatment study using a mouse osteotomy model validated the micelles' therapeutic effi

47 n, reconstruction, size of defect, number of osteotomies needed, and complications.

48 of the abnormal cartilages, transverse wedge osteotomy of the anterior sternum, and internal support

49 The second step involved anti-valgus osteotomy of the right tibial bone.

50 domly implanting respective bone matrices in osteotomies on femurs for 14 and 28 days and evaluated b

51 In symptomatic children, orthotics, osteotomies, or fusions may be considered.

52 ctional deficits may benefit from orthotics, osteotomies, or fusions.

53 ts exist concerning healing of laser created osteotomies over an extended period of time.

54 ascertain whether opening-wedge high-tibial osteotomy (OW-HTO) corrected pathomechanical abnormaliti

55 We suggest that osteotomy plane 1.5 cm beyond the T1 tumour margin is sa

56 After ideal osteotomy preparation, particulate bone graft was placed

57 dure, atraumatic extractions were completed, osteotomies prepared in the ideal orientation, and impla

58 A segmental osteotomy procedure was used to reposition the implants.

59 ts a case report and review of the segmental osteotomy procedure.

60 is a strategically important landmark during osteotomy procedures.

61 The segmental osteotomy provides an important treatment approach for t

62 ect class relates to the size of the defect, osteotomy rate, and functional and aesthetic outcome, an

63 Preparation of an osteotomy results in a narrow zone of dead and dying ost

64 bone remodeling rates, mitotic activity, and osteotomy site healing in type III bone and high endogen

65 rm objective is to devise methods to improve osteotomy site preparation and, in doing so, facilitate

66 insights into the response of human bone to osteotomy site preparation.

67 sponses of human and rodent alveolar bone to osteotomy site preparation.

68 ch tooth replacement would result in a final osteotomy site that would compromise the overall thickne

69 ing the zone of osteocyte death will improve osteotomy site viability, leading to faster new bone for

70 on was utilized to prepare the final implant osteotomy site.

71 Implant osteotomy sites were prepared and standardized 3-walled

72 d be collected at multiple time points after osteotomy, the fate of the dead alveolar bone was follow

73 A transverse anterior sternal osteotomy was used on most patients.

74 Osteotomies were created in healed maxillary extraction

75 r premolar teeth were extracted; the implant osteotomies were prepared; and a uniform circumferential

76 Second, osteotomies were produced in healed tooth extraction sit

77 The osteotomy with the drill produced well-delimited and smo