ライフサイエンスコーパス: postoperative radiation

1 50% or less underwent definitive surgery and postoperative radiation.

2 ents selected, of whom 1153 (23.6%) received postoperative radiation.

3 of 39 resected patients received prescribed postoperative radiation.

4 RT) in women with cervical cancer undergoing postoperative radiation.

5 underwent R1 resection and were treated with postoperative radiation; 74 (84%) underwent R0 resection

6 Postoperative radiation and mental illness adversely imp

7 11 treated with definitive esophagectomy +/- postoperative radiation and/or chemotherapy.

8 y mastectomy (MAST), and who did not receive postoperative radiation during the same time period, ser

9 of surgical resection, with consideration of postoperative radiation if lumpectomy is performed.

10 ality therapy (preoperative chemotherapy and postoperative radiation) is thought to be the best that

11 t-sided breast cancer to discuss the role of postoperative radiation (RT) following wide local excisi

12 ntal mastectomy with axillary dissection and postoperative radiation (SegAx/XRT).

13 tes were similar between those who underwent postoperative radiation therapy (0 of 46) or observation

14 invasion (HR, 4.47; 95% CI, 1.43-13.99), and postoperative radiation therapy (HR, 0.10; 95% CI, 0.04-

15 tial response (n = 21) underwent surgery and postoperative radiation therapy (n = 15), palliative rad

16 National guidelines allow consideration of postoperative radiation therapy (PORT) among patients wi

17 has become the standard of care, the role of postoperative radiation therapy (PORT) has been controve

18 The volume treated with postoperative radiation therapy (PORT) is a mediator of

19 Timely initiation of postoperative radiation therapy (PORT) is associated wit

20 uamous cell carcinoma (HNSCC), initiation of postoperative radiation therapy (PORT) within 6 weeks of

21 Initiation of postoperative radiation therapy (PORT) within 6 weeks of

22 primary transoral surgery (TOS) and reduced postoperative radiation therapy (RT) in intermediate-ris

23 on alone, whereas 146 breasts (82%) received postoperative radiation therapy (RT).

24 atients were evaluated who were treated with postoperative radiation therapy (XRT) with or without ch

25 so no statistically significant benefit from postoperative radiation therapy among patients with marg

26 Median doses of 60.0 Gy at postoperative radiation therapy and 68.4 Gy at definitiv

27 l-regional and distant failure suggests that postoperative radiation therapy and/or chemotherapy may

28 Postoperative radiation therapy did not improve survival

29 Postoperative radiation therapy did not lower the recurr

30 Postoperative radiation therapy for close surgical margi

31 "The Role of Postoperative Radiation Therapy for Endometrial Cancer:

32 ediate-grade major salivary gland carcinoma, postoperative radiation therapy for positive margins was

33 vals evaluated were surgery to initiation of postoperative radiation therapy interval (S-PORT) and ra

34 If the need for postoperative radiation therapy is known, a delayed reco

35 rehabilitation after total laryngectomy and postoperative radiation therapy is the artificial larynx

36 of 7 days for 4 months; or 3) no therapy: no postoperative radiation therapy or chemotherapy.

37 th breast-conserving surgery with or without postoperative radiation therapy, according to the choice

38 platin, and prednisone), surgical resection, postoperative radiation therapy, and consolidation chemo

39 reatment included surgery alone, surgery and postoperative radiation therapy, and definitive radiatio

40 ong these patients there was no benefit from postoperative radiation therapy.

41 gin width is less than 1 mm can benefit from postoperative radiation therapy.

42 11 patients with NSCLC underwent surgery and postoperative radiation therapy.

43 argin width and whether the patient received postoperative radiation therapy.

44 A total of 305 patients (35%) underwent postoperative radiation therapy.

45 Questions such as preoperative versus postoperative radiation versus no radiation are key.

46 For the entire cohort, postoperative radiation was associated with a statistica

47 On subgroup analysis, postoperative radiation was associated with improved OS

48 Postoperative radiation was planned if R0 resection was

49 n overall survival (OS) from the addition of postoperative radiation with or without chemotherapy aft

50 ality treatment includes surgery followed by postoperative radiation with or without chemotherapy or

51 nt surgery followed by either observation or postoperative radiation with or without concurrent chemo