ライフサイエンスコーパス: multivisceral

1 estine alone, 75 liver and intestine, and 25 multivisceral.

2 small bowel/liver, 5.7% heart/lung, and 3.3% multivisceral.

3 bowel in nine, liver-bowel in five, and one multivisceral.

4 9, lung: 1, bone marrow: 1, liver-kidney: 1, multivisceral: 1).

5 intestine (24%), liver-intestine (62%), and multivisceral (14%).

6 were intestine (22%), liver/intestine (55%), multivisceral (16%), and modified multivisceral (7%).

7 ine (55%), multivisceral (16%), and modified multivisceral (7%).

8 aft rejection, but their role in small bowel/multivisceral allograft remains unclear.

9 the eight simultaneous LTx/KTx was part of a multivisceral allograft.

10 of organ-specific susceptibility to CR among multivisceral allografts with a tendency for the pancrea

11 f organ-specific susceptibility to ACR among multivisceral allografts with the small intestinal allog

12 o transplantation and achieve equity between multivisceral and liver-alone candidates on the liver tr

13 tacrolimus immunosuppression for intestinal, multivisceral, and liver transplantation.

14 ents received 24 grafts: 14 intestinal, nine multivisceral, and one liver-intestinal graft.

15 gans included isolated small bowel, modified multivisceral (bowel, pancreas, and stomach) and multivi

16 ivisceral (bowel, pancreas, and stomach) and multivisceral (bowel, pancreas, stomach, and liver).

17 Under current allocation policy, multivisceral candidates experience inferior waitlist ou

18 criptome of single cells derived from murine multivisceral CRC and delineated the intermetastatic cel

19 ng the cellular and molecular composition of multivisceral CRC metastasis in a sophisticated murine o

20 in the list for non-LT (heart, lung, kidney, multivisceral, etc.) it is mandatory to include the diag

21 re and liver autotransplantation (n = 8) and multivisceral ex vivo procedure (n = 7).

22 Multivisceral ex vivo surgery applying techniques of dec

23 We performed three cases of multivisceral ex vivo surgery involving temporary remova

24 f guidance around submission and approval of multivisceral exception requests may help improve their

25 Patients with a multivisceral graft experienced less episodes of severe

26 cessful procurement and transplantation of a multivisceral graft from a pediatric donor with polysple

27 ormed transplants of the spleen as part of a multivisceral graft in an attempt to decrease both the r

28 The multivisceral graft recipients were more likely to devel

29 Younger children, multivisceral graft recipients, and particularly those w

30 Our results show that the multivisceral graft seems to facilitate engraftment of t

31 llograft spleen can be transplanted within a multivisceral graft without significantly increasing the

32 The inclusion of the spleen in the multivisceral grafts tended to be at an increased risk o

33 We reviewed our experience with multivisceral grafts that included the entire pancreas.

34 e were no episodes of pancreatitis in the 44 multivisceral grafts which included a transplant pancrea

35 an era of severe organ shortage of pediatric multivisceral grafts, a valuable organ offer should not

36 ino children with gastroschisis who received multivisceral grafts.

37 lated bowel in two, liver-bowel in four, and multivisceral in nine (four with kidney).

38 Multivisceral left pancreatectomy is associated with wor

39 as the only risk factor for mortality in the multivisceral LP group.

40 he LP group and longer operative time in the multivisceral LP group.

41 ion in the LP group and ASA III or IV in the multivisceral LP group.

42 Multivisceral LP was associated with a higher rate of ma

43 ectomy as part of a multivisceral resection (multivisceral LP).

44 and worse overall outcomes after intestinal/multivisceral (MV) transplantation.

45 ine or liver-intestine (LI) (versus modified multivisceral [MV] or MV) allograft (P = 0.00003), alemt

46 receiving liver (OLTX), intestinal (ITX) or multivisceral (MVT) transplants.

47 tine (n = 28), liver and intestine (n = 27), multivisceral (n = 61), and multivisceral without the li

48 he 12 resuscitated grafts, two were used for multivisceral, one for a modified multivisceral, seven f

49 ACR and severe ACR: transplant type modified multivisceral or full multivisceral (P = 0.0009 and P <

50 ansplant type modified multivisceral or full multivisceral (P = 0.0009 and P < 0.000001), rATG/rituxi

51 retroperitoneal (P(interaction) = 0.84), and multivisceral (P(interaction) = 0.96) involvement.

52 5 centimeters (OR: 0.40, CI: 0.23-0.67), and multivisceral procedures (OR: 0.39, CI: 0.26-0.59).

53 All primary multivisceral recipients who received a donor spleen (N

54 In 79 intestine/multivisceral recipients, sera were prospectively screen

55 Recipients of multivisceral, redo, and lobar lung transplants and thos

56 Patients with RMP had much higher rates of multivisceral resection (40.4% vs 12.8%; relative risk,

57 m, P = 0.007) and were more often treated by multivisceral resection (LND: 47.8% vs no-LND: 18.1%; P

58 s underwent left pancreatectomy as part of a multivisceral resection (multivisceral LP).

59 een insufficiently studied in the context of multivisceral resection (MVR).

60 , TP with venous resection (type 2), TP with multivisceral resection (type 3), and TP with arterial r

61 ollected and the feasibility and efficacy of multivisceral resection for locally advanced clinical T4

62 orbidity and mortality rates, and an en bloc multivisceral resection should be performed in patients

63 the multivariable analysis, type 3 (TP with multivisceral resection) and type 4 (TP with arterial re

64 iate analysis adjusted for age, tumor stage, multivisceral resection, adjuvant treatment, and lymph n

65 The role of multivisceral resection, in the setting of locally advan

66 going left pancreatic resection as part of a multivisceral resection.

67 margin leads to high rates of conversion and multivisceral resection.

68 ections for tumor recurrences, including 121 multivisceral resections and 171 venous resections.

69 resection, including additional vascular or multivisceral resections, are rarely acknowledged when p

70 e used for multivisceral, one for a modified multivisceral, seven for liver-intestine, and two for is

71 In this modified multivisceral technique, the native spleen and pancreas

72 Candidates for multivisceral transplant (MVT) have experienced decrease

73 ITx as part of a combined liver-intestine or multivisceral transplant for a variety of indications, m

74 mporaneous parallel development of liver and multivisceral transplant models (Theme II).

75 lymphoma involving the intestinal graft of a multivisceral transplant patient.

76 homa affecting the intestinal allograft of a multivisceral transplant patient.

77 The Indiana University Intestinal and Multivisceral Transplant program experienced significant

78 We report an adult multivisceral transplant recipient who experienced recur

79 s were taken from 4 isolated intestine and 3 multivisceral transplant recipients at the time of any o

80 LR-VRE infections among a group of liver and multivisceral transplant recipients in a single intensiv

81 plication of this technique in two pediatric multivisceral transplant recipients--one to buttress a l

82 ed from 111 consecutive pediatric intestinal/multivisceral transplant recipients: 2155 were obtained

83 s a 7-year-old girl who underwent at age 5 a multivisceral transplant secondary to short gut syndrome

84 A multivisceral transplant was performed.

85 Multivisceral transplant was protective with respect to

86 tion with the stronger predictor "receipt of multivisceral transplant" was controlled (P=0.23).

87 in the long term after pediatric intestinal/multivisceral transplant.

88 Liver-sparing "modified" multivisceral transplantation (MMVTx) has recently been

89 of isolated intestinal transplantation (IIT)/multivisceral transplantation (MVT) are among those at t

90 Multivisceral transplantation (MVtx) involves simultaneo

91 t (SOT) group (n = 15; 12 ITX and 3 modified multivisceral transplantation [MMVTX]) and the SOT-AWTX

92 or combined liver-intestine transplantation (multivisceral transplantation [MVT]) remains unknown.

93 This new modification of multivisceral transplantation allows pancreaticosplenic

94 ential complications after isolated bowel or multivisceral transplantation and long-term graft surviv

95 Small intestinal allografts in multivisceral transplantation are felt to be more suscep

96 The patient underwent a multivisceral transplantation as a life-saving procedure

97 ysis of 98 consecutive patients who received multivisceral transplantation at our institution.

98 Multivisceral transplantation can be valuable for the tr

99 Intestinal and multivisceral transplantation could be considered in pat

100 Multivisceral transplantation cured the patient's underl

101 ld woman with short bowel syndrome underwent multivisceral transplantation due to total parenteral nu

102 Intestinal/multivisceral transplantation enables a more radical app

103 only one report in the literature mentioning multivisceral transplantation for a patient with life-th

104 his is the first report in the literature of multivisceral transplantation for MMIHS.

105 nts the outcomes of 4 patients who underwent multivisceral transplantation from HCV-nucleic acid test

106 A common requirement of multivisceral transplantation has been removal of the na

107 Multivisceral transplantation has recently evolved to be

108 Our case reports suggest that multivisceral transplantation is a valuable therapeutic

109 urgery applying techniques of deceased donor multivisceral transplantation is feasible in achieving l

110 Multivisceral transplantation is now an effective treatm

111 and contour in children undergoing bowel and multivisceral transplantation is often challenging due t

112 this study was to summarize the evolution of multivisceral transplantation over a decade of experienc

113 One multivisceral transplantation patient underwent isolated

114 In this cohort of small bowel/multivisceral transplantation patients, there was a high

115 3 isolated intestinal transplantation and 9 multivisceral transplantation patients.

116 We believe that multivisceral transplantation should be considered as a

117 Multivisceral transplantation should be considered as a

118 ience with three patients with MMIHS in whom multivisceral transplantation was performed.

119 Early experience with intestinal and multivisceral transplantation was plagued with high risk

120 In 2001, indications for multivisceral transplantation were expanded, and inducti

121 designed a new approach and have performed a multivisceral transplantation with splenopancreatic pres

122 l hemitransposition, portal arterialization, multivisceral transplantation) are associated with subop

123 Outcomes evaluated included need for liver/multivisceral transplantation, mortality, and the clinic

124 s (Tac) immunosuppression for intestinal and multivisceral transplantation.

125 unresponsive to all therapies, we performed multivisceral transplantation.

126 Three patients with MMIHS underwent multivisceral transplantation.

127 plantation and 7 patients underwent modified multivisceral transplantation.

128 hirty-seven patients underwent intestinal or multivisceral transplantation.

129 patients continue to be considered for liver/multivisceral transplantation.

130 with worse clinical outcomes after intestine/multivisceral transplantation.

131 sirolimus-associated PRES in the setting of multivisceral transplantation.

132 osure in both adults and pediatric liver and multivisceral transplantation.

133 15/11) obtained from recipients after SBT or multivisceral transplantation.

134 s now a common practice after intestinal and multivisceral transplantation.

135 . 25%, combined liver and SBTx=100% vs. 30%, multivisceral transplantation=25% vs. 50%.

136 Multivisceral transplanted patients experienced less epi

137 However, in a subset analysis of multivisceral transplanted patients since 2003, a favora

138 introduction of tacrolimus, small-bowel and multivisceral transplantion has increased to 100-200/yea

139 isolated intestinal transplants and modified multivisceral transplants (7 of 10, 70%).

140 Forty-six intestinal and multivisceral transplants (MVtx) were performed between

141 age <18 years, ABO incompatibility, redo or multivisceral transplants, partial grafts, malignancies

142 x, 9 after liver-small bowel Tx, and 1 after multivisceral Tx.

143 In multivariable analysis, use of a multivisceral (with or without liver) transplant (P = 0.

144 estine (n = 27), multivisceral (n = 61), and multivisceral without the liver (n = 7).