A Motor Cortical Contribution to the Anticipatory Postural Adjustments That Precede Reaching in the Cat

Yakovenko, Sergiy; Drew, Trevor

doi:10.1152/jn.00042.2009

Cited by 45 publications

(39 citation statements)

References 79 publications

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“…Mackinnon et al (2007) demonstrated a facilitation of the muscles involved in APAs, whereas anticipatory adjustments of arm muscles were absent in patients with damage to their motor cortex (Viallet et al 1992). Moreover, animal studies have suggested that the cortex contributes to motor planning of reaching during stance (Martin and Ghez 1985;Perfiliev 2005;Perfiliev 1998;Vicario et al 1983) and the feedforward adjustments accompanying the reach (Yakovenko and Drew 2009). Thus the CNS may send a global command that specifies the planning and execution of movement and posture as one.…”

Section: Discussionmentioning

confidence: 99%

Postural adjustments for online corrections of arm movements in standing humans

Leonard

Gritsenko

Ouckama

et al. 2011

Journal of Neurophysiology

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Section: Discussionmentioning

confidence: 99%

Postural adjustments for online corrections of arm movements in standing humans

Leonard

Gritsenko

Ouckama

et al. 2011

Journal of Neurophysiology

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“…Simple SAW can be used to transport charge carriers in semiconductor quantum well structures fabricated in thin-film GaAs=InGaAs atop LN (Rotter et al, 1999) to even form moving quantum dots as reported by Fletcher et al (2003), naturally leading to the use of such quantum dots in quantum computing by Furuta et al (2004) and even SAW-induced luminescence (Gell et al, 2006) in the quest to obtain a single-photon source. Aside from quantum applications, the ability to transport charge within semiconductors offers interesting applications in UV detectors using epitaxial ZnO thin films (Emanetoglu et al, 2004) and ZnO nanoparticles (Chivukula et al, 2010), and even solar cells (Yakovenko et al, 2009). …”

Section: A Improvement Of Analysis Techniquesmentioning

confidence: 99%

Microscale acoustofluidics: Microfluidics driven via acoustics and ultrasonics

2011

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This article reviews acoustic microfluidics: the use of acoustic fields, principally ultrasonics, for application in microfluidics. Although acoustics is a classical field, its promising, and indeed perplexing, capabilities in powerfully manipulating both fluids and particles within those fluids on the microscale to nanoscale has revived interest in it. The bewildering state of the literature and ample jargon from decades of research is reorganized and presented in the context of models derived from first principles. This hopefully will make the area accessible for researchers with experience in materials science, fluid mechanics, or dynamics. The abundance of interesting phenomena arising from nonlinear interactions in ultrasound that easily appear at these small scales is considered, especially in surface acoustic wave devices that are simple to fabricate with planar lithography techniques common in microfluidics, along with the many applications in microfluidics and nanofluidics that appear through the literature.

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“…A forward internal model (Figure 1) is a neural mechanism that predicts (estimates) the future state of a system given the current (actual) state and the sensorimotor control signals [33–37]. The use of a forward model for coordination between posture and locomotion could operate such that the neural circuits for initiating stepping would normally be actively delayed until the APAs that generate the weight transfer from bipedal to single leg support have achieved single stance limb loading [38, 39].…”

Section: Conceptual and Theoretical Modelmentioning

confidence: 99%

Posture and Locomotion Coupling: A Target for Rehabilitation Interventions in Persons with Parkinson's Disease

Mille

Creath

Prettyman

et al. 2012

Parkinson's Disease

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Disorders of posture, balance, and gait are debilitating motor manifestations of advancing Parkinson's disease requiring rehabilitation intervention. These problems often reflect difficulties with coupling or sequencing posture and locomotion during complex whole body movements linked with falls. Considerable progress has been made with demonstrating the effectiveness of exercise interventions for individuals with Parkinson's disease. However, gaps remain in the evidence base for specific interventions and the optimal content of exercise interventions. Using a conceptual theoretical framework and experimental findings, this perspective and review advances the viewpoint that rehabilitation interventions focused on separate or isolated components of posture, balance, or gait may limit the effectiveness of current clinical practices. It is argued that treatment effectiveness may be improved by directly targeting posture and locomotion coupling problems as causal factors contributing to balance and gait dysfunction. This approach may help advance current clinical practice and improve outcomes in rehabilitation for persons with Parkinson's disease. “. . .postural activity should be regarded as a function in its own right and not merely as a component of movement. . .” James Purdon Martin

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A Motor Cortical Contribution to the Anticipatory Postural Adjustments That Precede Reaching in the Cat

Cited by 45 publications

References 79 publications

Postural adjustments for online corrections of arm movements in standing humans

Postural adjustments for online corrections of arm movements in standing humans

Microscale acoustofluidics: Microfluidics driven via acoustics and ultrasonics

Posture and Locomotion Coupling: A Target for Rehabilitation Interventions in Persons with Parkinson's Disease

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