ライフサイエンスコーパス: neck dissection

1 larised tissue reconstruction, and extensive neck dissection.

2 t LN count is a potential quality metric for neck dissection.

3 val, and the health utility reduction from a neck dissection.

4 after chemoradiation do not require elective neck dissection.

5 d disease-free survival than did therapeutic neck dissection.

6 rrow-exposure SLNB, and completion selective neck dissection.

7 tus with that of nodes within the completion neck dissection.

8 rged lymph nodes who would otherwise undergo neck dissection.

9 he rates of patients with a negative post-RT neck dissection.

10 I underwent (18)F-FDG PET/CT before elective neck dissection.

11 e of surgery or CRT and the role of post-CRT neck dissection.

12 one patients (62%) underwent planned post-RT neck dissection.

13 g may identify patients who require adjuvant neck dissection.

14 included teeth #27 through #31 and a radical neck dissection.

15 ase should have at least a bilateral central neck dissection.

16 ll treatment time, and addition of a planned neck dissection.

17 ite was performed in 13 patients, and 39 had neck dissection.

18 ated the need for lateral (modified radical) neck dissection.

19 D) from 14 patients undergoing mastectomy or neck dissection.

20 chest, including three who also had radical neck dissection.

21 or delayed central and bilateral functional neck dissections.

22 Elective neck dissections (26 unilateral, 5 bilateral; a total of

23 Neck dissection after CCRT was associated with an increa

24 mary site (odds ratio, 4.17; P = .0041); and neck dissection after CRT (odds ratio, 2.39; P = .018).

25 e of the primary surgery or with therapeutic neck dissection after nodal relapse has been a matter of

26 Modern treatment of SCCUP by neck dissection alone, neck dissection followed by radia

27 mental mandibulectomy with ipsilateral right neck dissection and fibular free flap reconstruction.

28 ng from vagal nerve manipulation during deep neck dissection and partially by the fever he developed

29 Animals were anesthetized for neck dissection and placement of a 14-gauge catheter in

30 Therefore, total thyroidectomy with left neck dissection and segmental resection of the left inte

31 isease also underwent post-radiation therapy neck dissection and two more chemotherapy cycles.

32 he need for prophylactic central compartment neck dissection and use of recombinant human thyroid sti

33 hundred forty-one patients underwent planned neck dissection, and 18 patients received induction (17

34 ith routine central and bilateral functional neck dissection are recommended.

35 oral cancers should be treated with elective neck dissection at the time of the primary surgery or wi

36 val of elective node dissection (ipsilateral neck dissection at the time of the primary surgery) vers

37 surveillance and those who underwent planned neck dissection, but surveillance resulted in considerab

38 All patients had a central neck dissection (CND) combined with total parathyroidect

39 Prophylactic bilateral central neck dissection (CND) is gaining acceptance in the treat

40 However, elective neck dissection comes with greater upfront cost and pati

41 Central compartment neck dissection entails removal of the prelaryngeal, pre

42 treatment of SCCUP by neck dissection alone, neck dissection followed by radiation with or without co

43 Total thyroidectomy and central neck dissection followed by radioactive iodine ablation

44 s of RT alone and RT combined with a planned neck dissection for carcinoma of the tonsillar area and

45 ode dissection (watchful waiting followed by neck dissection for nodal relapse) in patients with late

46 nt a cost-effectiveness analysis of elective neck dissection for the initial surgical management of e

47 emotherapy and, therefore, had postradiation neck dissections, four of which were positive for residu

48 If a decision regarding the need for neck dissection had been based solely on PET/CT, 3 false

49 vantage among patients who received elective neck dissection in conjunction with primary surgery for

50 rall survival and lymph node (LN) count from neck dissection in patients with head and neck cancer.

51 incomplete or equivocal response) to planned neck dissection in patients with stage N2 or N3 disease.

52 guided surveillance as compared with planned neck dissection in the treatment of patients with squamo

53 4-1.52; P = .02) and a 22% increased rate of neck dissection (incident rate ratio, 1.22; 95% CI, 1.07

54 ary tumor is treated surgically, a selective neck dissection is now performed routinely in the patien

55 Modified radical neck dissection is recommended for patients when the pri

56 lliative operations consisted of reoperative neck dissection/mass excision (11), mediastinal mass res

57 n patients without residual lymphadenopathy, neck dissection may be withheld safely.

58 A neck dissection of a minimum of 10 LNs was required.

59 Previous ipsilateral CEA, neck dissection or irradiation was present in 10.6% of p

60 onary disease (COPD); prior ipsilateral CEA, neck dissection or irradiation; high carotid bifurcation

61 overall stage (P =.0131), and addition of a neck dissection (P =.0021).

62 luenced by overall stage (P =.0001), planned neck dissection (P =.0074), and histologic differentiati

63 wound complications increased after radical neck dissections (p < 0.00001).

64 ntial role of acupuncture in addressing post-neck dissection pain and dysfunction, as well as xerosto

65 Correlation of response with neck dissection pathology indicated a negative predictiv

66 By correlating post-RT CT to neck dissection pathology, criteria associated with a lo

67 eks after the end of chemoradiotherapy, with neck dissection performed only if PET-CT showed an incom

68 RT alone or combined with a planned neck dissection provides cure rates that are as good as

69 ur study found that the addition of elective neck dissection reduces costs and improves health outcom

70 weeks after RT can be spared from a post-RT neck dissection regardless of initial node stage.

71 epted treatment, but the need for subsequent neck dissection remains controversial.

72 ly-stage oral squamous-cell cancer, elective neck dissection resulted in higher rates of overall and

73 ients likely undergoing prophylactic central neck dissection resulted in three, four, and eight nodes

74 PET-CT-guided surveillance, as compared with neck dissection, resulted in savings of pound1,492 (appr

75 Routine central and bilateral functional neck dissections should be considered in all patients wi

76 were validated by biopsy, histopathology of neck dissection specimens (n = 18), or clinical and imag

77 PET-CT-guided surveillance resulted in fewer neck dissections than did planned dissection surgery (54

78 nically negative patients frequently undergo neck dissections that may not be necessary.

79 years) with rCR who did not undergo post-RT neck dissection, the 5-year ultimate neck control rate (

80 hat over a lifetime the addition of elective neck dissection to primary surgery reduced overall costs

81 alone (73 patients) or followed by a planned neck dissection (two patients) at the University of Flor

82 my based on tumor size, prophylactic central neck dissection, use of radioactive iodine, and degree o

83 e decrease in overall cost despite the added neck dissection was a result of less use of salvage ther

84 Neck dissection was considered for N2 or greater disease

85 Neck dissection was considered for patients with N2 or g

86 analysis found that treatment with elective neck dissection was cost effective 76% of the time at a

87 Central neck dissection was done only if the serum calcitonin wa

88 graphic response who did not undergo post-RT neck dissection was observed for recurrence.

89 ontrol was significantly better if a planned neck dissection was performed.

90 th chronic pain or dysfunction attributed to neck dissection were randomly assigned to weekly acupunc

91 n 1991 and 1994, 213 patients undergoing 311 neck dissections were accrued at three institutions.

92 Neck dissections were carried out and the vascular tree

93 Femoral, axillary, or modified neck dissections were performed using standardized surgi

94 positive when >/= 18 LNs are examined after neck dissection, which suggests that LN count is a poten

95 ld be considered in patients undergoing deep neck dissection who develop characteristic ECG changes i