Endotoxin Induced Chorioamnionitis Prevents Intestinal Development during Gestation in Fetal Sheep

Chorioamnionitis is the most significant source of prenatal inflammation and preterm delivery. Prematurity and prenatal inflammation are associated with compromised postnatal developmental outcomes, of the intestinal immune defence, gut barrier function and the vascular system. We developed a sheep model to study how the antenatal development of the gut was affected by gestation and/or by endotoxin induced chorioamnionitis

Intestinal fatty-acid binding protein and gut permeability responses to exercise

Purpose Intestinal cell damage due to physiological stressors (e.g. heat, oxidative, hypoperfusion/ischaemic) may contribute to increased intestinal permeability. The aim of this study was to assess changes in plasma intestinal fatty acid-binding protein (I-FABP) in response to exercise (with bovine colostrum supplementation, Col, positive control) and compare this to intestinal barrier integrity/permeability (5 h urinary lactulose/rhamnose ratio, L/R). Methods In a double-blind, placebo-controlled, crossover design, 18 males completed two experimental arms (14 days of 20 g/day supplementation with Col or placebo, Plac). For each arm participants performed two baseline (resting) intestinal permeability assessments (L/R) pre-supplementation and one post-exercise following supplementation. Blood samples were collected pre- and post-exercise to determine I-FABP concentration. Results Two-way repeated measures ANOVA revealed an arm?×?time interaction for L/R and I-FABP (P?<?0.001). Post hoc analyses showed urinary L/R increased post-exercise in Plac (273% of pre, P?<?0.001) and Col (148% of pre, P?<?0.001) with post-exercise values significantly lower with Col (P?<?0.001). Plasma I-FABP increased post-exercise in Plac (191% of pre-exercise, P?=?0.002) but not in the Col arm (107%, P?=?0.862) with post-exercise values significantly lower with Col (P?=?0.013). Correlations between the increase in I-FABP and L/R were evident for visit one (P?=?0.044) but not visit two (P?=?0.200) although overall plots/patterns do appear similar for each. Conclusion These findings suggest that exercise-induced intestinal cellular damage/injury is partly implicated in changes in permeability but other factors must also contribute

Usefulness and applicability of femorofemoral crossover bypass grafting.

We examined the usefulness of femorofemoral crossover bypass grafting ( FFC) and factors influencing its outcome by retrospectively analyzing all FFCs performed in our hospital over a 5-year period, focusing on both patency rates and clinical efficacy. For 95 patients Kaplan- Meier patency rates were calculated ( follow- up 40.4 +/- 3.0 months). Clinical outcome was defined according to Rutherford's standardized categories. The influence of cardiovascular risk factors and technical characteristics on outcome was determined. Clinical status of the limb remained improved in 89%. One- and 5- year primary, primary assisted, and secondary patency rates were 88.2% and 57.3%, 90.6% and 62.4%, and 92.6% and 68.1%, respectively. Clinical outcome of the limb was better in patients with <50% stenosis in the femoral arteries preoperatively (p = 0.033). No predictors for patency rates were identified. FFCs are effective in the medium long term for patients in all age categories independently of cardiovascular risk factors. The best predictor of clinical outcome is the preoperative degree of stenosis, with a better outcome for patients affected by <50% stenosis. Success of FFC cannot be reliably measured by graft patency alone but should be assessed by combining patency rates and clinical outcome according to standardized categories

Intestinal barrier loss in sepsis

The intestinal mucosa is responsible for the absorption of nutrients from the lumen. In addition, it has the challenging task to provide an effective barrier between the potentially toxic luminal content (external environment) and the host (internal environment). Intestinal barrier loss plays a key role in the development and perpetuation of a variety of intestinal disease states. It is involved in the onset of sepsis and multiple organ failure and can be caused by intestinal hypoperfusion. This review will focus on the current insights into gut barrier integrity and function loss, which is important in order to improve our knowledge on disease aetiology and may contribute to early detection or prevention of sepsis. Copyright © 2011, Nederlandse Vereniging voor Intensive Care