A Novel EEG Based Spectral Analysis of Persistent Brain Function Alteration in Athletes with Concussion History.

The neurocognitive sequelae of a sport-related concussion and its management are poorly defined. Detecting deficits are vital in making a decision about the treatment plan as it can persist one year or more following a brain injury. The reliability of traditional cognitive assessment tools is debatable, and thus attention has turned to assessments based on electroencephalogram (EEG) to evaluate subtle post-concussive alterations.

Preliminary results of residual deficits observed in athletes with concussion history: combined EEG and cognitive study.

Assessment, treatment, and management of sport-related concussions are a widely recognized public health issue. Although several neuropsychological and motor assessment tools have been developed and implemented for sports teams at various levels and ages, the sensitivity of these tests has yet to be validated with more objective measures to make return-to-play (RTP) decisions more confidently. The present study sought to analyze the residual effect of concussions on a sample of adolescent athletes who sustained one or more previous concussions compared to those who had no concussion history.

Injury type and incidence among elite level curlers during world championship competition.

Our objective was to investigate the incidence of musculoskeletal injuries sustained by elite level curling athletes during international competition. This study was conducted during the 2008 World Men's Curling Championships. All registered athletes and the tournament medical team were given report forms for documenting injuries that occurred during the tournament.

A prospective study of injury affecting competitive collegiate swimmers.

The purposes of this study were to determine the incidence and distribution of injuries affecting collegiate competitive swimmers and to test possible injury risk factors. A prospective cohort design was used to follow 34 swimmers (16 M, 18 F) from an NCAA Division I Midwest University over one academic year. Exposure-based injury rates were determined for both practice and competition.

Murine models of atrophy, cachexia, and sarcopenia in skeletal muscle.

With the extension of life span over the past several decades, the age-related loss of muscle mass and strength that characterizes sarcopenia is becoming more evident and thus, has a more significant impact on society. To determine ways to intervene and delay, or even arrest the physical frailty and dependence that accompany sarcopenia, it is necessary to identify those biochemical pathways that define this process. Animal models that mimic one or more of the physiological pathways involved with this phenomenon are very beneficial in providing an understanding of the cellular processes at work in sarcopenia.

Long-lived Ames dwarf mouse exhibits increased antioxidant defense in skeletal muscle.

Resting and exercised (both acute and chronic) hindlimb skeletal muscle from long-lived Ames dwarf and wild type mice at 3, 12, 18, and 24 months of age was tested for antioxidant enzyme activity and protein, non-enzymatic antioxidant ratios, mitochondrial hydrogen peroxide concentration, and plasma lactate levels. Differences were observed in GPX enzyme activity between mouse genotypes at all physical activity levels, with dwarf mice exhibiting depressed levels at younger ages (3 months: P = 0.09 [non-swim], P = 0.

Effects of growth hormone and insulin-like growth factor-1 on hepatocyte antioxidative enzymes.

The physiological decline that occurs in aging is thought to result, in part, from accumulation of oxidative damage generated by reactive oxygen species during normal metabolic processes. Elevated levels of antioxidative enzymes in liver tissues are present in the Ames dwarf, a growth hormone (GH)-deficient mouse that lives more than 1 year longer than wild-type mice from the same line. In contrast, transgenic mice that overexpress GH exhibit depressed hepatic levels of catalase and have significantly shortened life spans.