Exercise with vibration dumb-bell enhances neuromuscular excitability measured using TMS.

AIM: The purpose of the study was to examine the effects of exercise without vibration and exercise with vibration (27 Hz) on the cortical silent period (CSP) and cortical motor threshold (CMT) measured using transcranial magnetic stimulation (TMS). METHODS: In 22 university athletes, a circular coil attached to a TMS stimulator was applied over the contralateral motor cortex of the target forearm. Resting cortical motor thresholds for dominant and non-dominant extremities were measured for each participant. Then, 15 biceps curls (15 flexion and 15 extension movements) were performed with the dominant arm using a single vibration dumbbell with the vibration turned off. On a different day, the same biceps curl protocol was performed with the dumbbell vibrating at 27 Hz (2 mm amplitude). A supra-threshold TMS stimulus (1.5x CMT) was delivered while participants were voluntarily contracting the flexor digitorum sublimus muscle (30% MVC grip strength) to determine cortical silent periods before and after each upper extremity exercise protocol. Cortical motor thresholds were measured at rest and after the vibration exercise protocol. RESULTS: All subjects completed the study protocol as designed. After TMS, the CSP in the dominant (exercised) extremities increased after exercise without vibration from a resting (pre-exercise) mean of 57.3 ms to 70.4 ms (P<0.05) and after exercise with vibration, the CSP decreased to a mean of 49.4 ms (P<0.02). The CSP in the non-dominant (unexercised) extremities decreased from resting values of 75.6 ms to 69.3 ms (P=0.935) after the exercise-only protocol and decreased to 49.4 ms (P<0.01) after the vibration exercise protocol. The cortical motor threshold in exercised extremities decreased from a resting mean of 41.4 µV to a postvibration exercise mean of 38.6 µV (P<0.01). In non-exercised extremities, the CMT also decreased, from mean of 43.5 µV to 39.9 µV after the vibration-exercise (P<0.01). CONCLUSION: Vibration exercise enhances bilateral corticospinal excitability, as demonstrated by a shortened cortical silent period and lower cortical motor threshold in both exercised and non-exercised extremities.

Ethanol from lignocellulosic wastes with utilization of recombinant bacteria.

This article presents the advanced technology that has been developed by BioEnergy International of Gainesville, Florida, utilizing novel recombinant strains of bacteria developed by Lonnie Ingram of the University of Florida. The first commercial applications of these unique fermenting organisms convert 5-carbon sugars, as well as 6-carbon sugars, and oligomers of cellulose (e.g., cellobiose and cellotriose) directly to ethanol. The proposed systems that will be utilized for conversion of agricultural wastes, mixed waste papers, and pulp and paper mill waste in forthcoming commercial installations are now under design. This involves the extensive experience of Raphael Katzen Associates International, Inc. in acid hydrolysis, enzyme production, enzymatic hydrolysis, large-scale fermentation engineering, and distillation/dehydration. Specific examples of this advanced technology will be presented in different applications, namely: 1. Conversion of the hemicellulose content of sugar cane bagasse to 5-carbon sugars by mild-acid prehydrolysis, followed by fermentation of the 5-carbon sugar extract with recombinant Escherichia coli in a commercial installation soon to be under construction in Brazil. This unique process utilizes the surplus hemicellulose fraction of bagasse not required for steam and power generation to produce ethanol, additional to that from the original can juice, which has been converted by conventional sucrose fermentation to ethanol. The process also recovers and converts to ethanol the majority of sucrose normally lost with the bagasse fibers. Resultant beer is enriched in an innovative process to eliminate the need for incremental rectification capacity. 2. Application of this technology to mixed waste paper in Florida, with a moderate loading of newsprint (85% mechanical wood fiber), will involve a mild-acid prehydrolysis, the partial extraction of the 5-carbon sugars produced from hemicellulose as a feedstock for propagation of the recombinant Klebsiella oxytoca bacterium. Included is a facility providing for in-house production of cellulase enzyme, as an active whole broth for direct use in simultaneous saccharification and fermentation (SSF) of the remaining cellulose and residual 5-carbon sugars to ethanol. This is followed by distillation and dehydration in the advanced commercially available low-energy recovery system. 3. Another potential application of this unique technology involves utilization of a variety of wastes from several pulp and paper mills in close proximity, permitting collection of these wastes at low cost and reducing the considerable cost encountered in disposing of such low-energy wet waste.(ABSTRACT TRUNCATED AT 400 WORDS)

Methanesulfonyl fluoride enhances one-trial reward learning in mid-aged rats.

In previous studies, 18-month-old rats have shown no significant retention 24 hours after the single acquisition trial in a one-trial discriminative reward learning task. In the present study, ten 18-month-old rats pretreated with 0.5 mg/kg MSF IP showed significantly better retention in terms of speed and errors than eleven 18-month-old rats pretreated with injection vehicle alone. However, twelve two-three-month-old rats pretreated with the same dose of MSF failed to show better retention than eleven two-three-month-old rats pretreated with vehicle alone.

FMRF-NH2-like mammalian octapeptide: possible role in opiate dependence and abstinence.

Yang et al. have isolated from bovine brain an octapeptide, FLFQPQRF-NH2 (F-8-F-NH2), with certain antiopiate properties. Malin et al. previously found that ICV injection of this peptide could precipitate an opiate abstinence syndrome in dependent rats. RIA revealed significantly higher levels of F-8-F-NH2 immunoreactivity in CSF withdrawn from the cisterna magna of morphine-dependent rats as opposed to CSF withdrawn from sham-implanted controls. ICV infusion of IgG from antiserum against F-8-F-NH2 significantly reduced the number of abstinence signs subsequently precipitated by naloxone in morphine-dependent rats.

FMRF-NH2-like mammalian peptide precipitates opiate-withdrawal syndrome in the rat.

Yang et al. (14) have isolated from mammalian brain an octapeptide FLFQPQRF-NH2 (F-8-F-NH2) with certain antiopiate properties. Third ventricular injection of 2 micrograms of this peptide together with the aminopeptidase inhibitor bestatin precipitated an opiate-withdrawal syndrome in morphine-dependent but not in nondependent rats. Third ventricular injection in nondependent rats of 15 micrograms of the peptide together with bestatin induced a morphine-withdrawal-like behavioral syndrome. This syndrome was not produced by injection of bestatin or saline vehicle alone and was preventable by injection of 3.5 mg/kg morphine sulphate SC.