Using Next-Generation Sequencing Transcriptomics To Determine Markers of Post-traumatic Symptoms: Preliminary Findings from a Post-deployment Cohort of Soldiers.

Post-traumatic stress disorder is a concerning psychobehavioral disorder thought to emerge from the complex interaction between genetic and environmental factors. For soldiers exposed to combat, the risk of developing this disorder is twofold and diagnosis is often late, when much sequela has set in. To be able to identify and diagnose in advance those at "risk" of developing post-traumatic stress disorder, would greatly taper the gap between late sequelae and treatment.

Feasibility and transport of packed red blood cells into Special Forces operational conditions.

Background: Transfusing packed red blood cells (PRBCs) into Special Forces may provide a survival advantage from hemorrhage-induced battlefield injuries; however, the effect of the unique operational stressors on RBC integrity is not known.

Methods: Pooled PRBCs (20 U) (7 days old), stored in Golden Hour containers, were exposed to the following simulated operational stressors: High-Altitude Low-Opening parachute descent from 30,000 ft, followed by a simulated soldier presence patrol in a climatic chamber set to 48 °C and 9% humidity for 12 hours (test). Biochemical (pH, lactate, potassium, and adenosine triphosphate) and biomechanical (percent hemolysis, deformability, and morphology) were measured to determine the integrity of PRBCs.

Physiological strain of next generation combat uniforms with chemical and biological protection: importance of clothing vents.

This study examined whether vents in the arms, legs and chest of new protective assault uniforms (PTAU) reduced heat strain at 35 °C during a low dressed state (DSlow), and subsequently improved tolerance time (TT) after transitioning to DShigh compared with the battle dress uniform and overgarment (BDU+O). Small but significant reductions in rectal temperature (Tre), heart rate and vapour pressures over the thigh and shin were observed during DSlow with vents open (37.9 ± 0.

The effect of operational stressors on ibuprofen pharmacokinetics.

Purpose: To determine whether two of the major operational stressors associated with military missions in Afghanistan: dry heat and long durations of soldier patrol (SP), alter the pharmacokinetics of ibuprofen.

Methods: Thirteen healthy and physically fit participants (19-32 years) were randomized to a four-arm crossover study, as follows: Arm 4 consisted of a simulated 2.5 h SP on a treadmill set at 4.

Early gene expression profiles during intraoperative myocardial ischemia-reperfusion in cardiac surgery.

Objective: The effects of cold cardioplegic arrest and reperfusion on human ventricular gene expression are unknown. We tested the hypothesis that intraoperative ischemia-reperfusion under conditions of blood cardioplegic arrest would induce a unique myocardial genomic profile indicative of a cardioprotective response.

Methods: Right ventricular samples were serially acquired during surgical repair of ventricular septal defect.

Age-related differences in myocardial hydrogen ion buffering during ischemia.

Background: During myocardial ischemia, accumulation of end products from anaerobic glycolysis (hydrogen ions (H(+)), lactate) can cause cellular injury, consequently affecting organ function. The cells' ability to buffer H(+) (buffering capacity (BC)) plays an important role in ischemic tolerance. Age related differences in myocardial lactate and H(+) accumulation (one hour of ischemia) as well as differences in BC, myoglobin (Mb) and histidine (His) contents in the left (LV) and right (RV) ventricles were assessed in neonatal compared to adult pigs.

The remote ischemic preconditioning stimulus modifies gene expression in mouse myocardium.

Background: We have recently demonstrated that remote ischemic preconditioning reduces ischemia-reperfusion injury in animal models. The mechanisms by which the remote ischemic preconditioning stimulus exerts its effect remain to be fully defined, and its effect on myocardial gene expression is unknown. We tested the hypothesis that remote ischemic preconditioning modifies myocardial gene expression immediately after the remote ischemic preconditioning stimulus (early phase) and 24 hours later (late phase).

Cardioprotective stress response in the human fetal heart.

Objective: We propose that the fetal heart is highly resilient to hypoxic stress. Our objective was to elucidate the human fetal gene expression profile in response to simulated ischemia and reperfusion to identify molecular targets that account for the innate cardioprotection exhibited by the fetal phenotype.

Methods: Primary cultures of human fetal cardiac myocytes (gestational age, 15-20 weeks) were exposed to simulated ischemia and reperfusion in vitro by using a simulated ischemic buffer under anoxic conditions.

Gene expression profiles in children undergoing cardiac surgery for right heart obstructive lesions.

Background: The global myocardial stress response during cardiac surgery has not been systematically studied, nor is it known whether the response of the neonatal myocardium is intrinsically different from that of older children. To determine the age-related molecular basis of this response, we conducted microarray-based differential gene expression profiling on right ventricular tissue samples acquired in patients of varying ages with right ventricular outflow tract obstruction.

Methods: We studied gene expression profiles in 24 patients during operations for lesions involving right ventricular outflow tract obstruction age stratified into group I (7 patients, aged 5 to 66 days; mean, 30 days) and group II (17 patients, aged 4 months to 12.