Manuel B. Torres scite author profile

The genetic background has recently been recognized as an important element in the response to injury, contributing to the variability in the clinical outcome of critically ill patients. The traditional approach to studying the genetic contribution requires the availability of families with multiple members who have experienced similar disease conditions, a situation that is nearly impossible to find in the case of trauma. Association studies looking at unrelated individuals across populations require large economic and labor-intensive efforts. Thus, a candidate gene approach has been the sole methodology used to correlate genetic variability with clinical outcome. However, this approach cannot provide a comprehensive description of a multigenic condition. Animal models are an alternative for studying the genetic contributions to variability in the response to injury. A murine model is ideal because a large set of inbred strains are available; congenic, consomic, transgenic, and recombinant strains can also be used. Employing this paradigm, we have demonstrated that the response to several stressors, such as injection of E. coli lipopolysaccharide (LPS) and polymicrobial sepsis induced by cecal ligation and puncture (CLP), is modified by the genetic background. The inflammatory response in mice has also been shown to be affected by sex, age, and other, nongenetic components such as diet. We have exploited the differences in response among various inbred mouse strains to map loci contributing to the inflammatory response. Fine mapping strategies allow the refinement of sets of candidate genes, which can be identified by positional cloning. Detection of genetic variation affecting the inflammatory response in murine models provides a basis for determining whether polymorphisms in orthologous human genes correlate with particular clinical outcomes from injury. Thus, discovery of these genes could impact patient care by acting as markers of a specific predisposition in humans.

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Laparoscopic Versus Open Treatment of Congenital Duodenal Obstruction: Multicenter Short-Term Outcomes Analysis

Jensen

Short²,

Anselmo³

et al. 2013

Journal of Laparoendoscopic & Advanced Surgical Techniques

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The Severity of Cholestatic Injury Is Modulated by the Genetic Background

Alaish

Torres

Ferlito³

et al. 2005

Shock

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Common bile duct ligation (CBDL) compromises the hepatic reticuloendothelial system by impairing the clearing of endotoxin and triggering an overwhelming inflammatory response. The response to endotoxin at the level of cytokine release and subsequent mortality depends on the genetic background in experimental mouse models. We hypothesized that the genetic make-up modulates the inflammatory responses after CBDL. The CBD was ligated in male A/J and B6 mice (8 weeks old). At 7 days post-CBDL, the presence of ascites was observed in 80% of B6 mice but in none of the A/J mice (P < 0.001). B6 mice showed higher mortality than A/J mice (P < 0.05). Both strains had marked cholestatic injury documented histologically. Liver chemistries were markedly elevated in both strains after injury. Plasma levels of the anti-inflammatory cytokine IL-10 were significantly higher in A/J than B6 mice at the 4- and 12-h time points (P < 0.05), whereas proinflammatory cytokine TNF-alpha levels were significantly higher in B6 than A/J mice at 2 h (P < 0.05). Both strains displayed activation of NF-kappaB after CBDL. In conclusion, the contrasting response observed after CBDL between A/J and B6 mice is largely attributable to genetic differences. Survival after CBDL was correlated with an increase in anti-inflammatory cytokines.

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An Exaggerated Inflammatory Response after CLP Correlates with a Negative Outcome

Torres

Maio

2005

Journal of Surgical Research

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Manuel B. Torres

Genetic Determinants Influencing the Response to Injury, Inflammation, and Sepsis

Laparoscopic Versus Open Treatment of Congenital Duodenal Obstruction: Multicenter Short-Term Outcomes Analysis

The Severity of Cholestatic Injury Is Modulated by the Genetic Background

An Exaggerated Inflammatory Response after CLP Correlates with a Negative Outcome

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