Increased Excretion of C4-Carnitine Species after a Therapeutic Acetylsalicylic Acid Dose: Evidence for an Inhibitory Effect on Short-Chain Fatty Acid Metabolism

Acetylsalicylic acid and/or its metabolites are implicated to have various effects on metabolism and, especially, on mitochondrial function. These effects include both inhibitory and stimulatory effects. We investigated the effect of both combined and separate oral acetylsalicylic acid and acetaminophen administration at therapeutic doses on the urinary metabolite profile of human subjects. In this paper, we provided in vivo evidence, in human subjects, of a statistically significant increase in isobutyrylcarnitine after the administration of a therapeutic dose of acetylsalicylic acid. We, therefore, propose an inhibitory effect of acetylsalicylic acid on the short-chain fatty acid metabolism, possibly at the level of isobutyryl-CoA dehydrogenase

Influence of two sports vision training techniques on visual skills performance of university students

Vision is an essential sense and crucial throughout a student’s academic career. Reading and writing during formal studies require a basic level of visual skills. Training of visual skills to students may improve the way visual stimuli are processed, and subsequently lead to visual skill-, motor- and cognitive performance enhancement. The visual system processes information by way of ‘hardware’- skills (physical, mechanical properties) and the more trainable ‘software’-skills (perceptual, cognitive abilities). Sports vision skills training in athletes indicated faster response to visual information and ultimately improved performance, particularly in fast-ball sports. The efficiency of two sports vision training programmes were tested and compared in undergraduate physiology students of various ethnicities (aged 18-25 years), during a 6-week training period. Three groups were used. One control group and two experimental groups were used. Two programmes were used for the experimental groups (a vision laboratory executed battery of repeated visual skills vs. ‘Eyedrills’ an available webbased training programme). Both comprised ‘hardware’ and ‘software’ skills, and include: visual acuity, focusing, tracking, vergence, sequencing, eye-hand coordination and visualisation. For pretest/ post-test evaluations of all students the repeated laboratory training programme was executed. The control group was only exposed to the pre- and post-test. Individuals trained in the laboratory indicated the highest improvement in all visual skills, except vergence. The ‘Eyedrills’ group displayed significant improvements in focusing, tracking and eye-hand coordination, with the control group indicating the least improvement in visual skills - ruling out the notion of improvement occurring only due to test familiarity. Visual training was verified an essential method of improving visual skills, and fundamental in the expansion of basic visual abilities of university students for enhanced performance.http://www.journals.co.za/content/journal/ajpherd1am2017Biokinetics, Sport and Leisure SciencesPhysiologyPsychologySports MedicineStatistic

The cross-tissue metabolic response of abalone (Haliotis midae) to functional hypoxia

Functional hypoxia is a stress condition caused by the abalone itself as a result of increased muscle activity, which generally necessitates the employment of anaerobic metabolism if the activity is sustained for prolonged periods. With that being said, abalone are highly reliant on anaerobic metabolism to provide partial compensation for energy production during oxygen-deprived episodes. However, current knowledge on the holistic metabolic response for energy metabolism during functional hypoxia, and the contribution of different metabolic pathways and various abalone tissues towards the overall accumulation of anaerobic end-products in abalone are scarce. Metabolomics analysis of adductor muscle, foot muscle, left gill, right gill, haemolymph and epipodial tissue samples indicated that South African abalone (Haliotis midae) subjected to functional hypoxia utilises predominantly anaerobic metabolism, and depends on all of the main metabolite classes (proteins, carbohydrates and lipids) for energy supply. Functional hypoxia caused increased levels of anaerobic end-products: lactate, alanopine, tauropine, succinate and alanine. Also, elevation in arginine levels was detected, confirming that abalone use phosphoarginine to generate energy during functional hypoxia. Different tissues showed varied metabolic responses to hypoxia, with functional hypoxia showing excessive changes in the adductor muscle and gills. From this metabolomics investigation, it becomes evident that abalone are metabolically able to produce sufficient amounts of energy when functional hypoxia is experienced. Also, tissue interplay enables the adjustment of H. midae energy requirements as their metabolism shifts from aerobic to anaerobic respiration during functional hypoxia. This article has an associated First Person interview with the first author of the paper

Uncovering the metabolic response of abalone (Haliotis midae) to environmental hypoxia through metabolomics

Introduction Oxygen is essential for metabolic processes and in the absence thereof alternative metabolic pathways are required for energy production, as seen in marine invertebrates like abalone. Even though hypoxia has been responsible for significant losses to the aquaculture industry, the overall metabolic adaptations of abalone in response to environmental hypoxia are as yet, not fully elucidated. Objective To use a multiplatform metabolomics approach to characterize the metabolic changes associated with energy production in abalone (Haliotis midae) when exposed to environmental hypoxia. Methods Metabolomics analysis of abalone adductor and foot muscle, left and right gill, hemolymph, and epipodial tissue samples were conducted using a multiplatform approach, which included untargeted NMR spectroscopy, untargeted and targeted LC–MS spectrometry, and untargeted and semi-targeted GC-MS spectrometric analyses. Results Increased levels of anaerobic end-products specific to marine animals were found which include alanopine, strombine, tauropine and octopine. These were accompanied by elevated lactate, succinate and arginine, of which the latter is a product of phosphoarginine breakdown in abalone. Primarily amino acid metabolism was affected, with carbohydrate and lipid metabolism assisting with anaerobic energy production to a lesser extent. Different tissues showed varied metabolic responses to hypoxia, with the largest metabolic changes in the adductor muscle. Conclusions From this investigation, it becomes evident that abalone have well-developed (yet understudied) metabolic mechanisms for surviving hypoxic periods. Furthermore, metabolomics serves as a powerful tool for investigating the altered metabolic processes in abalone

Sex differences in the nine-point Beighton hypermobility test scores

Joint hypermobility syndromes are often misinterpreted and wrongly diagnosed. Widely accepted naming such as Heritable Disorder of Connective Tissue has been shown to manifest features that closely overlap with better known disorders such as Marfan and Ehlers-Danlos syndromes and Osteogenesis Imperfecta. Currently the widely accepted - all-inclusive - diagnosis for generalised hypermobility is known as Benign Joint Hypermobility Syndrome (BJHS). People that do not have pain in their joints but still have lax joints are just considered to be hypermobile. It is currently understood that these are genetic-based conditions where connective tissue proteins such as collagen are formed differently. This results in the joints, muscles, tendons and ligaments being laxer and more fragile than is the case in non-hypermobile individuals. The aim of this study was to investigate possible differences in the occurrence of BJHS between males and females from a representative sample of a general population (aged 18-25). Testing was done on 300 recruits and 180 university students. The sample consisted of 55% males and 45% females. All subjects were tested using the 9-point Beighton criteria for diagnosis of BJHS, with scores of 4/9 and greater being indicative of BJHS. All data were pooled and differences were observed when comparing male and female Beighton test scores. Results showed 36.41% incidence for females compared to 13.96% for males (p ≤ 0.05). These differences may be due to hormonal influence on the laxity of tendons and ligaments. Furthermore it can also question the efficiency with which the Beighton score distinguishes between BJHS and general joint flexibility.http://www.ajol.info/journal_index.php?jid=153&ab=ajpher