ライフサイエンスコーパス: pneumonectomy

1 maged units to surviving normal units (e.g., pneumonectomy).

2 sels 5 weeks after MCT injury (4 weeks after pneumonectomy).

3 who had previous contralateral lobectomy or pneumonectomy.

4 ed T2N0 NSCLC and had undergone lobectomy or pneumonectomy.

5 perioperative complications of extrapleural pneumonectomy.

6 cute lung injury, as do large breaths during pneumonectomy.

7 e, complete resection, pathologic stage, and pneumonectomy.

8 cted with MCT (60 mg/kg) on Day 7 after left pneumonectomy.

9 arteries obtained at transplant surgery and pneumonectomy.

10 cted with MCT (60 mg/kg) on Day 7 after left pneumonectomy.

11 monary artery blood flow after contralateral pneumonectomy.

12 onary artery anastomosis was substituted for pneumonectomy.

13 ng adult alveolar regrowth following partial pneumonectomy.

14 dge resection (12.5%), lobectomy (67.8%), or pneumonectomy (19.7%).

15 greater than 5 percent for esophagectomy and pneumonectomy, 2 to 5 percent for gastrectomy, cystectom

16 Herein, we performed partial pneumonectomy, a model of lung regeneration, in mice lac

17 ial issues, such as the role of extrapleural pneumonectomy, adjuvant radiotherapy, and use of intensi

18 s was compared with animals receiving MCT or pneumonectomy alone.

19 hemotherapy in combination with extrapleural pneumonectomy - an emerging therapeutic option in the tr

20 Overcirculation was induced by pneumonectomy and by surgical creation of aortocaval fis

21 All patients who had undergone pneumonectomy and CT from January 2001 to August 2003, a

22 ere felt to be associated with the operative pneumonectomy and pericardiotomy.

23 atients who have had a previous lobectomy or pneumonectomy and require thoracic surgery.

24 , cystectomy, esophagectomy, pancreatectomy, pneumonectomy, and liver resection) between 1993 and 200

25 ulmonary artery remodeling in these MCT plus pneumonectomy animals was compared with animals receivin

26 , and CPI were significantly increased after pneumonectomy at both time points in group P.

27 efusal of surgery or RT, n = 5; extrapleural pneumonectomy at time of surgery, n = 2; or chemotherapy

28 that received monocrotaline and/or underwent pneumonectomy but did not undergo aortocaval fistula, th

29 e, complete resection, pathologic stage, and pneumonectomy, but not induction regimen, significantly

30 timal lesions resulted from injury plus post-pneumonectomy compensatory lung growth, rather than inju

31 n was administered, followed by extrapleural pneumonectomy (EPP) and hemithoracic radiation (RT), to

32 iew our 24-year experience with extrapleural pneumonectomy (EPP) in the treatment of epithelioid mali

33 The effects of extra-pleural pneumonectomy (EPP) on survival and quality of life in p

34 he world's leading proponent of extrapleural pneumonectomy (EPP), an operation in which all the pleur

35 tic resonance imaging underwent extrapleural pneumonectomy followed by combination chemotherapy and r

36 3) and control subjects (during lobectomy or pneumonectomy for cancer, n = 14).

37 ents undergoing lung resection (lobectomy or pneumonectomy) for lung cancer.

38 A 33-year-old woman underwent a right-sided pneumonectomy in 1995 for treatment of a lung adenocarci

39 KGF enhances compensatory lung growth after pneumonectomy in adult rats as indicated by increased LW

40 Extrapleural pneumonectomy is a radical and aggressive surgery that p

41 gic disruptions associated with extrapleural pneumonectomy is critical to effective management.

42 Anesthetic management of extrapleural pneumonectomy is further impacted by these developments.

43 PURPOSE OF REVIEW: Pneumonectomy is still associated with a 5% 30-day morta

44 the 180 patients who underwent lobectomy or pneumonectomy led to the elimination of sex and age, whi

45 s in lung regeneration, we used a unilateral pneumonectomy model that promotes the formation of new a

46 34 months +/- 67 (standard deviation) after pneumonectomy; multiple CT scans were obtained in 58 pat

47 ction (n = 2), tube thoracostomy (n = 2), or pneumonectomy (n = 1) for diagnosis or treatment.

48 r invasion, two arterial stump thrombi after pneumonectomy, one artifact).

49 eated animals or in animals receiving MCT or pneumonectomy only.

50 carotid endarterectomy (CEA), lung lobectomy/pneumonectomy, open and laparoscopic cholecystectomy, pa

51 and RVH were similar whether injury preceded pneumonectomy or vice versa.

52 and pelvic exenteration (P=.04), but not for pneumonectomy (P=.32).

53 d trials are well under way for extrapleural pneumonectomy plus intraoperative intracavitary hyperthe

54 In small mammals, partial pneumonectomy (PNX) elicits rapid hyperplastic compensat

55 lt lung regeneration, we employ a unilateral pneumonectomy (PNX) model that promotes regenerative alv

56 Patients who have undergone pneumonectomy (PNX) show limited exercise capacity, part

57 pment and for compensatory lung growth after pneumonectomy (PNX), but the mechanisms by which strain

58 els in vigorously growing canine lungs after pneumonectomy (PNX), suggesting a role for paracrine EPO

59 primary or multifocal, second primary after pneumonectomy, proximal to or involved with mediastinal

60 Lobectomy or pneumonectomy should be performed in stage I NSCLC.

61 Pathological examination of each pneumonectomy specimen revealed a well-differentiated ad

62 ection of the tumor (usually by lobectomy or pneumonectomy), the patients were randomly assigned to r

63 After a right and left pneumonectomy, there was a significant difference betwee

64 awley rats was followed 1 week later by left pneumonectomy to increase blood flow to the right lung.

65 or patients who underwent lobectomy, but not pneumonectomy, versus chemotherapy plus radiotherapy.

66 imulates lung regeneration following partial pneumonectomy via direct transcriptional regulation of g

67 ne 3% or propofol 8 to 10 mg/kg per hr until pneumonectomy was done; then propofol was used for all a

68 s were deemed ineligible if an unanticipated pneumonectomy was indicated, or if air leakage occurred

69 s were deemed ineligible if an unanticipated pneumonectomy was indicated, or if air leakage occurred

70 Left pneumonectomy was performed in group P, sham thoracotomy

71 Extrapleural pneumonectomy with adjuvant therapy is appropriate treat

72 oup P, sham thoracotomy in group S, and left pneumonectomy with administration of KGF (6.25 mg/week,

73 t options is the combination of extrapleural pneumonectomy with intraoperative intracavitary hyperthe