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1 and one (<1%) patient in the placebo group (hepatic failure).
2 (1%) patient in the 5.4 mg/kg group (due to hepatic failure).
3 resented with acute BCS leading to fulminant hepatic failure.
4 o liver transplantation for the treatment of hepatic failure.
5 gulopathy, hyperbilirubinemia, and fulminant hepatic failure.
6 epatocytes is a seminal feature of fulminant hepatic failure.
7 nting and treating viral and toxic fulminant hepatic failure.
8 atients with acetaminophen-induced fulminant hepatic failure.
9 flammatory response, which accompanies acute hepatic failure.
10 n developed to support patients in fulminant hepatic failure.
11 n improve liver function in a mouse model of hepatic failure.
12 ients awaiting transplantation for fulminant hepatic failure.
13 Rosiglitazone may be associated with hepatic failure.
14 nt of intracranial hypertension in fulminant hepatic failure.
15 est results to rapidly progressive and fatal hepatic failure.
16 yptogenic cirrhosis and idiopathic fulminant hepatic failure.
17 treatment of organic acidemias and fulminant hepatic failure.
18 ncluding cryptogenic cirrhosis and fulminant hepatic failure.
19 efined selection, particularly for fulminant hepatic failure.
20 develop cirrhosis, portal hypertension, and hepatic failure.
21 mild elevations in liver tests to fulminant hepatic failure.
22 sfully performed in a patient with fulminant hepatic failure.
23 halopathy but appears unchanged in fulminant hepatic failure.
24 encephalopathy and brain edema in fulminant hepatic failure.
25 r the death rate from sepsis and progressive hepatic failure.
26 function of hepatic allografts and fulminant hepatic failure.
27 c laboratory derangements to fatal fulminant hepatic failure.
28 progressive hepatic fibrosis, cirrhosis and hepatic failure.
29 iated with increased mortality and fulminant hepatic failure.
30 associated with high mortality and fulminant hepatic failure.
31 fibrogenesis, cirrhosis, carcinogenesis, and hepatic failure.
32 e excluded patients with frailty or renal or hepatic failure.
33 otransplantation for patients with fulminant hepatic failure.
34 d to acute hepatitis and rarely to fulminant hepatic failure.
35 in lymph nodes rescued the mice from lethal hepatic failure.
36 isease that can be severe resulting in acute hepatic failure.
37 brain injury, ischemic stroke, and fulminant hepatic failure.
38 of normal but almost never causes fulminant hepatic failure.
39 inical strategies for the treatment of human hepatic failure.
40 s to steatosis with mitochondrial injury and hepatic failure.
41 able, minimally invasive form of therapy for hepatic failure.
42 complications and mortality associated with hepatic failure.
43 for isolated, rapidly progressive infantile hepatic failure.
44 itonitis, hepatorenal syndrome, or fulminant hepatic failure.
45 odynamic instability or significant renal or hepatic failure.
46 s leading to liver transplantation for acute hepatic failure.
47 one of the few treatable causes of fulminant hepatic failure.
48 ival in patients with fulminant/subfulminant hepatic failure.
49 r coronary bypass surgery and the other from hepatic failure.
50 ntive lamivudine group developed HBV-related hepatic failure (0 of 108 patients vs. 21 of 162 patient
51 1.60 [95% CI, 1.45-1.76] for SDI), and acute hepatic failure (1.51 [95% CI, 0.92-2.46] for SVI and 1.
52 of 11) of patients with idiopathic fulminant hepatic failure, 18% (2 of 11) of patients with a histor
53 s (3%), fatigue (3%), gastric stenosis (3%), hepatic failure (3%), liver abscesses (3%), paroxysmal a
54 under 5 years of age, including 16 for acute hepatic failure, 46 for chronic liver disease, and 11 re
56 lantation if they have evidence of fulminant hepatic failure, a life-threatening systemic complicatio
60 on at concentrations commonly encountered in hepatic failure, an event preceding the suppression of i
61 cation to prevent amplification of fulminant hepatic failure and acetaminophen-induced hepatotoxicity
63 inous clinical course leading to progressive hepatic failure and death if liver transplantation is no
66 (1%) patients in the durvalumab group (acute hepatic failure and hepatitis), two (1%) patients in the
67 unts for 20-40% of all instances of clinical hepatic failure and is a common reason for withdrawal of
71 ity is commonly seen at imaging in fulminant hepatic failure and usually reflects a combination of al
73 ransferred to our institution with fulminant hepatic failure and worsening hepatic encephalopathy of
74 plications of acute liver failure (fulminant hepatic failure) and a major cause of death in this cond
76 ting in failure to thrive, hepatomegaly, and hepatic failure, and an average life expectancy of less
77 c regression, mortality predictors were: MV, hepatic failure, and cardiovascular failure for the grou
80 as acute kidney injury, respiratory failure, hepatic failure, and hemodynamic failure; multiple organ
83 entifying patients with toxic liver disease, hepatic failure, and jaundice among patients with system
84 in settings such as traumatic brain injury, hepatic failure, and migraine headache has yet to be ful
86 ficantly higher risk of hepatoma, cirrhosis, hepatic failure, and overall hepatic disease than those
87 cryptogenic cirrhosis, idiopathic fulminant hepatic failure, and patients with other forms of advanc
88 ere was a trend for UNOS status 1, fulminant hepatic failure, and presence of LPD to be associated wi
89 s of sudden infant death syndrome, fulminant hepatic failure, and severe complications during pregnan
92 who die from paracetamol overdose fulminant hepatic failure as accurately as King's College criteria
93 cases, as well as in patients with fulminant hepatic failure at high risk for mortality who have not
94 nderwent liver transplantation for fulminant hepatic failure at our institution during a 5-year perio
96 lantation is associated with acute fulminant hepatic failure, biliary tract necrosis and leaks, or re
97 ause of morbidity and mortality in fulminant hepatic failure but has not been well documented as a co
98 olongs survival during LPS- and GalN-induced hepatic failure by temporarily protecting hepatocytes ag
99 lows: a) chronic liver failure; b) fulminant hepatic failure; c) patients immediately status post-ort
100 T for the BMT group (39% overall mortality); hepatic failure, cardiovascular failure, and persistent
101 ention to hepatic injury and monitor risk of hepatic failure caused by coronavirus disease 2019 (COVI
103 reditary tyrosinemia type I (HT1) results in hepatic failure, cirrhosis, and hepatocellular carcinoma
104 use of vasopressors/inotropes, pancreatitis, hepatic failure/cirrhosis with ascites, gastrointestinal
105 igh mortality rate associated with fulminant hepatic failure combined with the limited availability o
106 ients, including one who developed fulminant hepatic failure complicated by cerebral edema, were taki
108 combination treatment group (encephalopathy, hepatic failure, drug-induced liver injury, oesophageal
109 l endothelium and portal tracts of fulminant hepatic failure explants, whereas there were minimal cha
111 se outcomes of pregnancy including fulminant hepatic failure, fetal loss, premature birth, and neonat
112 of AA included non-A, non-B, non-C fulminant hepatic failure (FHF) (3 patients), graft-versus-host di
116 e of an adult female who developed fulminant hepatic failure (FHF) during the second trimester of pre
120 The effect of RI on patients with fulminant hepatic failure (FHF) or chronic liver disease (cirrhosi
121 cible experimental animal model of fulminant hepatic failure (FHF) resembling the clinical condition
122 ients who received transplants for fulminant hepatic failure (FHF) were stratified separately from th
124 tic metabolic pathways affected by fulminant hepatic failure (FHF) would help develop nutritional sup
125 nly proven effective treatment for fulminant hepatic failure (FHF), but its use is limited because of
126 OLT) is an effective treatment for fulminant hepatic failure (FHF), but postOLT mortality is higher f
127 ogic agents in non-A, non-B (NANB) fulminant hepatic failure (FHF), but the frequency of infection wi
128 roup 1 (n = 18) were patients with fulminant hepatic failure (FHF), in group 2 (n = 3) were patients
129 ic liver transplantation (OLT) for fulminant hepatic failure (FHF), some patients develop cerebral in
138 A 25-year-old man presented with fulminant hepatic failure from an unusual peripheral T cell lympho
139 ib plus pembrolizumab group (n=1 each due to hepatic failure, gastrointestinal haemorrhage, myositis,
140 of liver dysfunction in a rat model of acute hepatic failure generated by d-galactosamine (GalN) inje
141 ture was markedly increased in the fulminant hepatic failure group (mean energy expenditure, 4.05 [SD
145 in nine (2%; acute kidney injury, dyspnoea, hepatic failure, hepatitis, neutropenia, pneumonitis, re
147 ; cirrhosis: HR: 5.378; 95% CI: 4.363-6.631; hepatic failure: HR: 3.258; 95% CI: 2.527-4.200; overall
148 ntal protocol of LPS-induced acute fulminant hepatic failure (i.p. injection of low dose of LPS in co
149 ioartificial liver device to treat fulminant hepatic failure improved animal survival, thereby unders
150 patocyte-like cells rescued lethal fulminant hepatic failure in a nonobese diabetic severe combined i
151 HC-TN (genotype 1a), which caused fulminant hepatic failure in a patient and, subsequently, severe h
156 ver cirrhosis, hepatocellular carcinoma, and hepatic failure in renal transplant patients with HCV in
157 ion were biliary atresia in seven, fulminant hepatic failure in six, chronic rejection in seven, and
160 ed the effect of KGF on LPS and GalN-induced hepatic failure in vivo and on TNF- and ActD-induced hep
161 d in the differential diagnosis of fulminant hepatic failure in young patients who show no evidence o
162 de 5 adverse events (hepatitis fulminant and hepatic failure) in the atezolizumab group were consider
163 al interventions that treat complications of hepatic failure, including antibiotic administration for
168 (K71.0, K71.1, K71.2, K71.6, K71.8, K71.9), hepatic failure (K72.0, K72.9), or jaundice (R17) betwee
169 ) is both the leading cause of cirrhosis and hepatic failure leading to liver transplantation and a c
171 prevented endotoxin-induced lethal fulminant hepatic failure, leading to dramatically enhanced surviv
172 -0.945; p = .023) whereas hepatic cirrhosis, hepatic failure, leukemia, multiple myeloma, transfer fr
174 n plasma and brain glutamine associated with hepatic failure may, by increasing brain GABA release, p
175 orted in any of the included cases for acute hepatic failure (n = 4, 50%), portal vein thrombosis (n
176 isease progression, which were attributed to hepatic failure (n=1), upper gastrointestinal haemorrhag
180 was a 13-year-old boy with acute, fulminant hepatic failure of unknown etiology who underwent cadave
182 ne [1%]), physical deterioration (one [1%]), hepatic failure (one [1%]), mesothelioma (one [1%]), and
184 ed into dengue encephalopathy (eg, caused by hepatic failure or metabolic disorders), encephalitis (c
185 in developing approaches to the treatment of hepatic failure or more broadly to the treatment of comp
187 ar disease (OR = 2.2), renal (OR = 3.2), and hepatic failure (OR = 10.8) as independent predictors of
188 However, survival in fulminant/subfulminant hepatic failure patients was significantly higher in the
190 ed with an increased risk of bleeding: acute hepatic failure, prolonged duration of nasogastric tube
191 cute renal failure resulting from cardiac or hepatic failure, prolonged surgery, and nephrotoxic effe
192 patient died in early childhood of fulminant hepatic failure, refractory epilepsy, lactic acidemia, a
194 nt for dilated cardiomyopathy, the patient's hepatic failure resolved and she made a full recovery.
195 osis is an underlying cause of cirrhosis and hepatic failure resulting in end stage liver disease wit
202 sms may account for brain edema in fulminant hepatic failure: the osmotic effects of brain glutamine,
203 . 11.0+/-4.7, P=0.01) and fewer days free of hepatic failure to day 14 (10.8+/-5.0 vs. 11.8+/-4.3, P=
204 ation may be used in patients with fulminant hepatic failure to facilitate fluid removal and circulat
205 ease ranging from acute (including fulminant hepatic failure) to chronic hepatitis, cirrhosis, and he
206 Z scores greater than -2.0 at OLT, fulminant hepatic failure, tumor, and postOLT complications causin
207 sing cholangitis, cystic fibrosis, fulminant hepatic failure, tyrosinemia, and chronic rejection.
209 agnosis of tumor, (v) diagnosis of fulminant hepatic failure, (vi) retransplantation, (vii) graft dis
213 asogastric intubation, alcoholism, and acute hepatic failure were found to be independently correlate
215 conditions like sepsis, cardiac surgery, and hepatic failure, where dysregulation can lead to seconda
216 h during the first months of life because of hepatic failure, whereas a chronic form leads to gradual
217 -induced rat model of irreversible and fatal hepatic failure, which also exhibits terminal changes in
218 r without infections, and cardiac, renal, or hepatic failure, which are common features of glycosylat
221 ld be considered for patients with fulminant hepatic failure who are appropriate transplant candidate
222 can aid in early detection of patients with hepatic failure who are unable to appropriately metaboli
223 ffering from acetaminophen-induced fulminant hepatic failure who were sedated, paralyzed, and mechani
224 sickle cell disease, who developed fulminant hepatic failure with subsequent extreme hyperbilirubinem
227 hunt group 1 have died of late postoperative hepatic failure without benefit of liver transplantation