André Martignoni scite author profile

In general, the liver is considered to be larger in males than in females. In the present study, data on liver weight from 728 legal autopsies were analyzed with respect to gender, age, body height (BH), body weight (BW), body mass index (BMI), and body surface area (BSA). Descriptive statistics revealed that liver weight increases with age, reaching maximum values between 41 and 50 years in men and between 51 and 60 years in women. Thereafter, liver weight decreases again. Because this loss in liver weight starts earlier in men while liver weight continues to rise in women, the difference in liver weight between men and women is lost above the age of 50. Thus, this age defines a threshold value below which gender is expected to be a critical factor in the calculation of liver weight. When demographic data mentioned above were subjected to multiple stepwise linear regression analysis, liver weight (LW) was best predicted in younger people (16 -50 years) by body weight, age, and gender: LW (g) ‫؍‬ 452 ؉ 16.34 ؋ BW ؉ 11.85 ؋ age ؊ 166 ؋ gender (r 2 ‫؍‬ 0.381; "gender": 1 ‫؍‬ female, 0 ‫؍‬ male). In contrast, in elderly people (51 -70 years) LW was best predicted by BW and age only. Gender was not a significant factor. LW (g) ‫؍‬ 1390 ؉ 15.94 ؋ BW ؊ 12.86 ؋ age (r 2 ‫؍‬ 0.35). When these formulas were applied to demographic data from 97 organ donors and compared to published formulas (which, however, do not consider the age-dependent effects of gender), the new formulas best predicted male to female liver weight ratios in younger and elderly donors. In conclusion, the new formulas might better predict liver weight in organ donors and transplant recipients to avoid liver size mismatch. (Liver Transpl 2004;10:678-685.)

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Divergent functions of CD4⁺T lymphocytes in acute liver inflammation and injury after ischemia-reperfusion

Caldwell

Okaya

Martignoni

et al. 2005

American Journal of Physiology-Gastrointestinal and Liver Physi

112

111

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Hepatic ischemia-reperfusion results in an acute inflammatory response culminating in the recruitment of activated neutrophils that directly injure hepatocytes. Recent evidence suggests that CD4+ lymphocytes may regulate this neutrophil-dependent injury, but the mechanisms by which this occurs remain to be elucidated. In the present study, we sought to determine the type of CD4+ lymphocytes recruited to the liver after ischemia-reperfusion and the manner in which these cells regulated neutrophil recruitment and tissue injury. Wild-type and CD4 knockout (CD4-/-) mice were subjected to hepatic ischemia-reperfusion. CD4+ lymphocytes were recruited in the liver within 1 h of reperfusion and remained for at least 4 h. These cells were comprised of conventional (alphabetaTCR-expressing), unconventional (gammadeltaTCR-expressing), and natural killer T cells. CD4-/- mice were then used to determine the functional role of CD4+ lymphocytes in hepatic ischemia-reperfusion injury. Compared with wild-type mice, CD4-/- mice had significantly greater liver injury, yet far less neutrophil accumulation. Adoptive transfer of CD4+ lymphocytes to CD4-/- mice recapitulated the wild-type response. In wild-type mice, neutralization of interleukin (IL)-17, a cytokine released by activated CD4+ lymphocytes, significantly reduced neutrophil recruitment in association with suppression of MIP-2 expression. Finally, oxidative burst activity of liver-recruited neutrophils was higher in CD4-/- mice compared with those from wild-type mice. These data suggest that CD4+ lymphocytes are rapidly recruited to the liver after ischemia-reperfusion and facilitate subsequent neutrophil recruitment via an IL-17-dependent mechanism. However, these cells also appear to attenuate neutrophil activation. Thus the data suggest that CD4+ lymphocytes have dual, opposing roles in the hepatic inflammatory response to ischemia-reperfusion.

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Effects of Pringle manoeuvre and ischaemic preconditioning on haemodynamic stability in patients undergoing elective hepatectomy: a randomized trial

Choukèr

Schachtner

Schauer

et al. 2004

British Journal of Anaesthesia

117

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Beneficial Effects of Ischemic Preconditioning in Patients Undergoing Hepatectomy

Choukèr

Martignoni²,

Schauer³

et al. 2005

Arch Surg

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Hypotheses: Temporary vascular clampage (Pringle maneuver) during liver surgery can cause ischemiareperfusion injury. In this process, activation of polymorphonuclear leukocytes (PMNLs) might play a major role. Thus, we investigated the effects of hepatic ischemic preconditioning on PMNL functions.Design: Prospective randomized study. Patients who underwent partial liver resection were randomly assigned to 3 groups: group 1 without Pringle maneuver; group 2 with Pringle maneuver, and group 3 with ischemic preconditioning using 10 minutes of ischemia and 10 minutes of reperfusion prior to Pringle maneuver for resection.

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γδ T cells mitigate the organ injury and mortality of sepsis

Tschöp

Martignoni

Goetzman

et al. 2007

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Sepsis is a difficult condition to treat and is associated with a high mortality rate. Sepsis is known to cause a marked depletion of lymphocytes, although the function of different lymphocyte subsets in the response to sepsis is unclear. γδ T cells are found largely in epithelial-rich tissues, and previous studies of γδ T cells in models of sepsis have yielded divergent results. In the present study, we examined the function of γδ T cells during sepsis in mice using cecal ligation and puncture (CLP). Mice deficient in γδ T cells had decreased survival times and increased tissue damage after CLP compared with wild-type mice. Furthermore, bacterial load was increased in γδ T cell-deficient mice, yet antibiotic treatment did not change mortality. Additionally, we found that recruitment of neutrophils and myeloid suppressor cells to the site of infection was diminished in γδ T cell-deficient mice. Finally, we found that circulating levels of IFN-γ were increased, and systemic levels of IL-10 were decreased in γδ T cell-deficient mice after CLP compared with wild-type mice. γδ T celldeficient mice also had increased intestinal permeability after CLP compared with wild-type mice. Neutralization of IFN-γ abrogated the increase in intestinal permeability in γδ T cell-deficient mice. The intestines taken from γδ T cell-deficient mice had decreased myeloperoxidase yet had increased tissue damage as compared with wild-type mice. Collectively, our data suggest that γδ T cells modulate the response to sepsis and may be a potential therapeutic target.

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