41 research outputs found
Clinical Relevance of Transjugular Liver Biopsy in Comparison with Percutaneous and Laparoscopic Liver Biopsy
Background. Transjugular liver biopsy (TJLB) is frequently used to obtain liver specimens in high-risk patients. However, TJLB sample size possibly limits their clinical relevance. Methods. 102 patients that underwent TJLB were included. Clinical parameters and outcome of TJLB were analyzed. Control samples consisted of 112 minilaparoscopic liver biopsies (mLLBs) and 100 percutaneous liver biopsies (PLBs). Results. Fewer portal tracts were detected in TJLB (4.3 ± 0.3) in comparison with PLB (11.7 ± 0.5) and mLLB (11.0 ± 0.6). No difference regarding the specification of indeterminate liver disease and staging/grading of chronic hepatitis was observed. In acute liver failure (n = 32), a proportion of hepatocellular necrosis beyond 25% was associated with a higher rate of death or liver transplantation. Conclusions. Despite smaller biopsy samples the impact on the clinical decision process was found to be comparable to PLB and mLLB. TJLB represents a helpful tool to determine hepatocellular necrosis rates in patients with acute liver failure
Supplementary Material for: Removal Characteristics and Total Dialysate Content of Glutamine and Other Amino Acids in Critically Ill Patients with Acute Kidney Injury Undergoing Extended Dialysis
<p><b><i>Background:</i></b> Acute kidney injury in critically ill
patients is associated with the activation of protein catabolism and a
negative nitrogen balance. Renal replacement therapy (RRT) aggravates
this problem by eliminating a substantial amount of amino acids.
However, there is scarce data on the removal characteristics of modern
dialysis membranes in extended dialysis. <b><i>Methods:</i></b> This is a prospective study in 10 extended dialysis sessions using a 1.8-m<sup>2</sup>
polysulfone membrane (EMiC2 dialyzer or AV 1000S; FMC, Germany). Blood
samples for 19 amino acids were drawn before, during, and after 10 h of
extended dialysis (blood/dialysate flow 150 ml/min). In addition,
samples for the calculation of dialyzer clearance and samples from the
total spent dialysate were measured using a Biochrom 30 amino acid
analyzer. <b><i>Results: </i></b>Despite no significant difference in
pre- and postdialysis plasma amino acid levels, we found an impressive
amount of amino acids in collected spent dialysate, i.e. 10.5 g/10 h of
treatment. The dialyzer clearance ranged from 67.6 ml/min for
phenylalanine to 140.0 ml/min for valine. The total eliminated masses of
the measured amino acids had equal values for both membranes. There was
a significant difference between the dialyzer clearance of the
investigated membranes for glutamine (AV 1000S: 83.3 ml/min vs. EMiC2:
92.0 ml/min, p = 0.02) and serine (88.8 ml/min vs. 91.8 ml/min, p =
0.005). <b><i>Discussion:</i></b> Our data indicate that the modern
forms of RRT eliminate amino acids to an extent that has not been met by
our nutritional support standards. Especially the removal of glutamine,
important for immune function and cell regeneration, might have
detrimental effects on the recovery of critically ill patients.</p