ライフサイエンスコーパス: left lobe

1 (4.5%) was a right lobe, and 1 (4.5%) was a left lobe.

2 eft lateral segment, 27% right lobe, and 23% left lobe.

3 1 left lateral segments, 1 right lobe, and 1 left lobe.

4 livers were reduced to 50% by resecting the left lobes.

5 bes; 59 adults received 50 right lobes and 9 left lobes.

6 There were 91 left lateral segments and 9 left lobes.

7 to each lobe using glass (right lobe 117 Gy; left lobe 108 Gy) than using resin (right 50.8 Gy; left

8 ger) received 47 left lateral segments and 3 left lobes; 59 adults received 50 right lobes and 9 left

9 0 for left lateral segment, 2.8 per 1000 for left lobe, and 1.5 per 1000 for right lobe; P = .8).

10 ft lateral segment, 152 right trisegment, 15 left lobe, and 13 right lobe grafts.

11 There were 9 left lateral segment, 2 left lobe, and 3 right lobe donors.

12 0 for left lateral segment, 2.8 per 1000 for left lobe, and 3.3 per 1000 for right lobe; P = .9).

13 ht ratio for right trisegmental, right lobe, left lobe, and left lateral segmental grafts was 1.31%,

14 ncluding 233 (85.0%) right lobes, 40 (14.6%) left lobes, and 1 (0.5%) left lateral section.

15 ts (27.7%) were right lobes, 22 (46.8%) were left lobes, and 12 (25.5%) were left lateral segments.

16 nd 49 reduced size grafts (3 right lobes, 16 left lobes, and 30 left lateral segments) were transplan

17 rd of reference (SoR) liver, right lobe, and left lobe annotation was achieved.

18 Left lobes can provide an important resource in an era o

19 The peripheries of the median and left lobes displayed decreased perfusion in regions corr

20 an intraoperative biopsy from both right and left lobes, evaluated and scored in a blinded manner.

21 ssification scheme was applied to the stable left lobe finding.

22 r grafts were split into full right and full left lobes for 42 adult recipients.

23 isegmental grafts, one right lobe graft, one left lobe graft, and three left lateral segmental grafts

24 nsplants were performed with a full right or left lobe graft, while LD transplants used the right lob

25 the technical challenges presented by using left lobe grafts (LLGs).

26 Risk of EAD was associated with left lobe grafts, lower graft weight among left lobes, h

27 Overall, there were 397 right and 184 left lobe grafts.

28 the setting of increasing use of smaller and left lobe grafts.

29 h left lobe grafts, lower graft weight among left lobes, higher preoperative bilirubin, higher portal

30 gical findings in paired biopsies--right and left lobe--in the diagnosis of NAFLD in morbidly obese s

31 ght lobe and compensatory hypertrophy of the left lobe is difficult for clinicians to predict.

32 appropriate brain-dead donors into right and left lobes is technically and logistically feasible.

33 nduced by occluding the vascular supplies of left lobe liver for 60 minutes followed by reperfusion f

34 aimed to utilize machine learning to predict left lobe liver hypertrophy in patients with HCC and cir

35 ence or severity of donor complications than left lobe (LL) liver and left lateral segment (LLS) live

36 selection on outcomes and complications for left lobe (LL) versus right lobe (RL) donors and recipie

37 howed no change in size or appearance of the left lobe (not shown).

38 cancer cells are directly implanted into the left lobe of syngeneic mice.

39 The left lobe of the fetal liver is supplied with blood cont

40 CVs of Dt were relatively high (>20%) in the left lobe of the liver and relatively low (<10%) in the

41 ddition, visible cysts were removed from the left lobe of the liver in nonanatomical resection and su

42 ted abnormally increased WBC activity in the left lobe of the liver, thus, diagnosis of an infected c

43 ter found to have a fishbone impacted in the left lobe of the liver, which had perforated the stomach

44 sultant portal venous gas involving only the left lobe of the liver.

45 rogeneous mass in the lateral segment of the left lobe of the liver.

46 were subjected to 30 min of ischemia to the left lobe of the liver.

47 regions of interest placed in the right and left lobes of the liver on three sections and signal int

48 atic vein (MHV) and separating the right and left lobes of the liver.

49 Sixty-nine percent of patients had enlarged left lobes on magnetic resonance imaging, 92% had increa

50 n are often malpositioned in children with a left lobe or left lateral segmental liver transplant.

51 The patient successfully underwent a left-lobe orthotopic liver transplant; however, she deve

52 A second mortality occurred in a left lobe recipient, from a fungal brain abscess at 90 d

53 Complications were more common in left lobe resections (55%) than in left lateral segment

54 hepatoduodenal ligament lymph node 1 (LN1); left lobe to hepatoduodenal ligament LN1 + LN2 concurren

55 The left lobe was dissected and formalin-fixed at 20 cm H2O

56 A cadaveric donor liver was split and the left lobe was grafted into a child with biliary atresia.

57 iary duct dilatation involving the right and left lobes was observed in four patients (12%).

58 es targeting the stiffest regions (right and left lobes) were performed in HCV+LT recipients.

59 n with SWE values except for values from the left lobe, which showed correlation with steatosis (r =

60 unction was identified in one recipient of a left lobe, who did not undergo transplantation because o