ライフサイエンスコーパス: right lobe

1 ft lobe graft, while LD transplants used the right lobe.

2 d with blood containing more oxygen than the right lobe.

3 le mediated transport were down-regulated in right lobe.

4 f information that flow through the left and right lobes.

5 dose was delivered to each lobe using glass (right lobe 117 Gy; left lobe 108 Gy) than using resin (r

6 r grafts (WLG) and 49 reduced size grafts (3 right lobes, 16 left lobes, and 30 left lateral segments

7 or liver transplants: 13 grafts (27.7%) were right lobes, 22 (46.8%) were left lobes, and 12 (25.5%)

8 antation Cohort Study, including 233 (85.0%) right lobes, 40 (14.6%) left lobes, and 1 (0.5%) left la

9 l grafts; of these, 11 (50.0%) were extended right lobes, 9 (40.9%) were left lateral segments, 1 (4.

10 amount of radiation-induced shrinkage of the right lobe and compensatory hypertrophy of the left lobe

11 ents and 3 left lobes; 59 adults received 50 right lobes and 9 left lobes.

12 33) between higher AUVs (from either left or right lobe) and higher components of pathologic Gleason

13 ) were left lateral segments, 1 (4.5%) was a right lobe, and 1 (4.5%) was a left lobe.

14 ght trisegments, 11 left lateral segments, 1 right lobe, and 1 left lobe.

15 s (from I-VIII), 16 bisegmentectomies of the right lobe, and 10 subsegmentectomies were performed.

16 50%) donated their left lateral segment, 27% right lobe, and 23% left lobe.

17 c studies demonstrated a large nodule in the right lobe, and a hemithyroidectomy was performed at the

18 ed to the standard of reference (SoR) liver, right lobe, and left lobe annotation was achieved.

19 vein, RP1 (1 vein) and RP2 (2 veins) for the right lobe; and for the hepatic duct, RB1/LB1 (1 duct),

20 Anatomical variations of the right lobe can be accommodated without donor complicatio

21 antly due to decreased sizes of the left and right lobes, corresponding to regions of decreased perfu

22 ported to date in the case of adult to adult right lobe donation.

23 ACT) volumetry and actual graft weight after right-lobe donation in 200 right-lobe donors.

24 Another right lobe donor had prolonged hyperbilirubinemia.

25 Right lobe donor hepatectomy is frequently required to o

26 Right lobe donors had three bile leaks from the cut surf

27 Right lobe donors were majority at 62.2% followed by lef

28 e 9 left lateral segment, 2 left lobe, and 3 right lobe donors.

29 raft weight after right-lobe donation in 200 right-lobe donors.

30 emorrhage from an iatrogenic laceration to a right lobe graft 11 days after transplantation.

31 Patient and graft survival for the right lobe graft was 95% and the left lateral segment 86

32 Right lobe graft weight (764.8 + 145.46 vs 703.24 + 125.

33 lted in three right trisegmental grafts, one right lobe graft, one left lobe graft, and three left la

34 ective replacement of the organ with another right lobe graft.

35 e use of an NHBD liver, which was cut into a right-lobe graft and implanted as an auxiliary partial o

36 Use of well-selected right lobe grafts (adequate future liver remnant in dono

37 onor liver transplantation (LDLT) mostly use right lobe grafts due to fears of providing recipients w

38 es of adult LDLT using LLG are comparable to right lobe grafts transplants.

39 was 1.6 hours (IQR: 1.0-2.3 hours) with 88% right lobe grafts.

40 , 152 right trisegment, 15 left lobe, and 13 right lobe grafts.

41 Fifty-one donors who provided right-lobe grafts underwent volumetric spiral computed t

42 ales (mean age 36.0+/-9.6 years) provided 51 right-lobe grafts.

43 phates in our group of donors that underwent right-lobe hepatectomies.

44 Right lobe hepatectomy can be performed safely in health

45 rd examination for 51 subjects who underwent right lobe hepatectomy.

46 Use of the donor right lobe in adult-to-adult living donor transplantatio

47 To determine risk factors for AVG infection, right lobe LDLT patients without AVG infections were sel

48 Right lobe LDLT with donors aged 50 years or older resul

49 Between January 2009 and January 2018, 1253 right lobe LDLTs were performed at our Transplant Instit

50 nt body weight ratio for right trisegmental, right lobe, left lobe, and left lateral segmental grafts

51 angiography were performed in 44 consecutive right lobe liver donors (25 men, 19 women; mean age, 37

52 blood flow were measured intraoperatively in right lobe liver donors and recipients with electromagne

53 c magnetic resonance imaging (MRI) in living right lobe liver donors and the recipients of these graf

54 y the reasons for nonmaturation of potential right lobe liver donors at our transplant center.

55 Right lobe liver graft recipients who have variant right

56 nt Institute, and MHV tributaries of the 640 right lobe liver grafts were reconstructed with AVG.

57 all size and multiple ducts, particularly in right lobe liver grafts, are major factors that contribu

58 Forty right lobe liver transplants were performed between adul

59 The authors identified all living right-lobe liver donor candidates who underwent CT chola

60 The principle in right lobe living donor liver transplantation is to use

61 Right lobe living donor liver transplantation poses chal

62 nt body weight ratio of 0.8% is adequate for right lobe living donor liver transplantation.

63 donor and recipient outcomes in 623 primary right lobe living donor liver transplantations, using gr

64 Twenty-five right lobe living donor liver transplants were performed

65 e 125 strictures among the 104 patients with right-lobe living donor liver transplantation were revie

66 From July 2000 to May 2002, we performed 95 right-lobe living-donor hepatectomies for 95 adult liver

67 ow preferential lymphatic drainage patterns: Right lobe mainly to hepatoduodenal ligament lymph node

68 MRI accurately determines right lobe mass.

69 The transplantation of the right lobe of a liver from a living adult donor into an

70 : prolonged surgery (OR = 1), surgery on the right lobe of the liver (OR = 1.6), neoadjuvant chemothe

71 The NIC of the right lobe of the liver (RNIC) was compared with liver s

72 diameter spherical VOI was placed within the right lobe of the liver above, below, and at the level o

73 features of a rare case of hypoplasia of the right lobe of the liver in a sigmoid cancer patient are

74 per, lower, or portal vein levels within the right lobe of the liver.

75 est in the aortic arch blood pool and in the right lobe of the liver.

76 t the upper, portal, and lower levels of the right lobe of the liver.

77 IVIM-DWI parameters were measured in the right lobe of the liver.

78 rmed and revealed a suspicious nodule in the right lobe of the prostate without any extraprostatic ex

79 Vascularized right lobe of the thymus was transplanted heterotopicall

80 All patients received the right lobe of their donor in a standard technique.

81 odiffusion coefficient [Dp]) in the left and right lobes of the liver, and in the pancreas, spleen, r

82 g and receptor activity were up-regulated in right lobe; ontological pathways related to cell signall

83 per 1000 for left lobe, and 1.5 per 1000 for right lobe; P = .8).

84 per 1000 for left lobe, and 3.3 per 1000 for right lobe; P = .9).

85 which displayed significant activity in the right lobe, particularly in regions such as the suppleme

86 lobes (68% liver mass) with ligation of the right lobes pedicle (24% liver mass), resulting in liver

87 Portal flow to the right lobe ranged from 601 to 1,102 ml/min before resect

88 atients with HCC and cirrhosis scheduled for right lobe RE, with external validation.

89 volume changes of the left liver lobe after right lobe RE.

90 Right lobe recipients are not disadvantaged by the proce

91 vein, the left lateral segment and extended right lobe remained equally perfused, as demonstrated by

92 Of 24 subjects who underwent right lobe retrieval, biliary tract anatomy determined a

93 actual volumes to provide estimates for both right lobe (RL) and left lateral segment (LLS) GV.

94 and complications for left lobe (LL) versus right lobe (RL) donors and recipients.

95 We investigated whether right lobe (RL) liver donation is associated with a high

96 resents one of the most challenging parts of right lobe (RL) living donor liver transplantations (LDL

97 SWE values obtained at the upper right lobe showed the highest correlation with estimatio

98 ll grafts had good early function except one right lobe split.

99 After removal of the right lobe, the donor artery was found to have an intima

100 41 were isolated, often multiple, segmental right lobe thrombi.

101 Current methods of living donor right lobe transplantation can be expanded for use in th

102 The hemodynamic pattern after right lobe transplantation is predictable and intraopera

103 ion and TIPS do not significantly complicate right lobe transplantation.

104 ntations, including six left lateral and two right lobe transplantations, between November 1994 and S

105 The right lobe was transplanted into a woman with FAP associ

106 the right portion of the median lobe and the right lobe, weighing 5.33 +/- O.58 g (53.6 +/- 2.2% of t

107 Lower left and lower right lobes were consistently more afflicted with poor a

108 as much liver parenchyma as possible in the right lobe while avoiding large vessels, on imager-gener