3,037 research outputs found
The North is another country. by Nicolas Rothwell
tag=1 data=The North is another country. by Nicolas Rothwell
tag=2 data=Rothwell, Nicolas
tag=3 data=Australian Magazine,
tag=6 data=16/17 November 1996
tag=7 data=20-33.
tag=8 data=NT%TOURISM
tag=10 data=Worse, better, stranger, wilder, but above all different from the rest of the country. Continuing his journey of discovery across Australia's Top half the author stops over in Darwin to hear all the truths and whispers about the North.
tag=11 data=1996/2/8
tag=12 data=96/0316
tag=13 data=CABWorse, better, stranger, wilder, but above all different from the rest of the country. Continuing his journey of discovery across Australia's Top half the author stops over in Darwin to hear all the truths and whispers about the North
Weissistachys Kentuckiensis: A new Name for Weissia Kentuckiense Rothwell and Taylor
This is the publisher's version, also available electronically from www.jstor.org.The generic name Weissia Roth well and Taylor is determined to be a later homonym of Weissia Hedwig. Weissia Rothwell and Taylor is therefore renamed Weissistachys, and the appropriate name transfer is made for the type species, Weissistachys kentuckiensis (Rothwell et Taylor) comb. nov
Letter re: Will Rogers Memorial Fund
Letter from W. O. Rothwell, representative for Newson & Co. publishers, to Amon Carter regarding the Will Rogers Memorial Fund
When the glow-worm gilds the elfine flow'r that clings round the ruin'd shrine [first line]
strophicpiano and voiceJohns Hopkins University, Levy Sheet Music Collection, Box
116, Item 011Composed by G.H. Rothwell, Esqr.Sung by Mrs. Keely, Miss Horton, Mrs. Morley and Mrs. Bailey with distinguished Success
When the glow-worm gilds the elfine flow'r that clings round the ruin'd shrine [first line]
strophicpiano and voiceJohns Hopkins University, Levy Sheet Music Collection, Box
116, Item 011Composed by G.H. Rothwell, Esqr.Sung by Mrs. Keely, Miss Horton, Mrs. Morley and Mrs. Bailey with distinguished Success
TMS investigations into the task-dependent functional interplay between human posterior parietal and motor cortex
Transcranial magnetic stimulation (TMS) can be used in two different ways to investigate the contributionof cortical areas involved in grasp/reach movements in humans. It can produce “virtual lesions” thatinterfere with activity in particular cortical areas at specific times during a task, or it can be used in a twincoil design to test the excitability of cortical projections to M1 at different times during a task. The formermethod has described how cortical structures such as the ventral premotor cortex (PMv), dorsal premotorcortex (PMd) and the anterior intraparietal sulcus (aIPS) are important for specific aspects of reaching,grasping and lifting objects. In the latter method, a conditioning stimulus (CS) is first used to activateputative pathways to the motor cortex from, for example, posterior parietal cortex (PPC) or PMd, whilea second, test stimulus (TS), delivered over the primary motor cortex a few ms later probes any changesin excitability that are produced by the input. Thus changes in the effectiveness of the conditioning pulsegive an indication of how the excitability of the connection changes over time and during a specifictask. Here we review studies describing the time course of operation of parallel intracortical circuits andcortico-cortical connections between the PMd, PMv, PPC and M1, thus demonstrating that functionalinterplay between these areas and the primary motor cortices is not fixed, but can change in a highlytask-, condition- and time-dependent manne
Transcranial magnetic stimulation investigations of reaching and grasping movements
Transcranial magnetic stimulation (TMS) has emerged as a suitable technique to investigate
the network of cortical areas involved in human grasp/reach movements. Applied over the
primary motor cortex (M1), TMS reveals the pattern of activation of different muscles
during complex reaching-to-grasp tasks. Repetitive TMS (rTMS) used to induce “virtual
lesions” of other cortical areas has allowed investigation of other cortical structures such as
the ventral premotor cortex (PMv), dorsal premotor cortex (PMd) and the anterior intraparietal sulcus (aIPS). Each of these appears to contribute to specific aspects of reaching,
grasping and lifting objects. Finally, twin-coil TMS studies can illustrate the time course of
operation of parallel intracortical circuits that mediate functional connectivity between the
PMd, PMv, the posterior parietal cortex and the primary motor cortices.Transcranial magnetic stimulation (TMS) has emerged as a suitable technique to investigate the network of cortical areas involved in human grasp/reach movements. Applied over the primary motor cortex (M1), TMS reveals the pattern of activation of different muscles during complex reaching-to-grasp tasks. Repetitive TMS (rTMS) used to induce “virtual lesions” of other cortical areas has allowed investigation of other cortical structures such as the ventral premotor cortex (PMv), dorsal premotor cortex (PMd) and the anterior intraparietal sulcus (aIPS). Each of these appears to contribute to specific aspects of reaching, grasping and lifting objects. Finally, twin-coil TMS studies can illustrate the time course of operation of parallel intracortical circuits that mediate functional connectivity between the PMd, PMv, the posterior parietal cortex and the primary motor cortices.: Introduction: The ease with which we can make reach-to-grasp movements conceals a good deal of the underlying co..
Micro-XRF studies of sediment cores: A perspective on capability and application in the environmental sciences
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