Your search keyword '"circling"' showing total 61 results

51. Effects of angular gain transformations between movement and visual feedback on coordination performance in unimanual circling

Author

Rieger, Martina, Dietrich, Sandra, and Prinz, Wolfgang

Subjects

tool transformation, circling, Psychology, Original Research Article, sensorimotor integration, visuo-motor transformation, synchronization, General Psychology, gain transformation, unimanual coordination

Abstract

Tool actions are characterized by a transformation (of spatio-temporal and/or force-related characteristics) between movements and their resulting consequences in the environment. This transformation has to be taken into account, when planning and executing movements and its existence may affect performance. In the present study we investigated how angular gain transformations between movement and visual feedback during circling movements affect coordination performance. Participants coordinated the visual feedback (feedback dot) with a continuously circling stimulus (stimulus dot) on a computer screen in order to produce mirror symmetric trajectories of them. The movement angle was multiplied by a gain factor (0.5–2; nine levels) before it was presented on the screen. Thus, the angular gain transformations changed the spatio-temporal relationship between the movement and its feedback in visual space, and resulted in a non-constant mapping of movement to feedback positions. Coordination performance was best with gain = 1. With high gains the feedback dot was in lead of the stimulus dot, with small gains it lagged behind. Anchoring (reduced movement variability) occurred when the two trajectories were close to each other. Awareness of the transformation depended on the deviation of the gain from 1. In conclusion, the size of an angular gain transformation as well as its mere presence influence performance in a situation in which the mapping of movement positions to visual feedback positions is not constant. When designing machines or tools that involve transformations between movements and their external consequences, one should be aware that the mere presence of angular gains may result in performance decrements and that there can be flaws in the representation of the transformation.

Published

2014

52. Estradiol and dehydroepiandrosterone potentiate levodopa-induced locomotor activity in 1-methyl-4-phenyl-1,2,3,6-tetrahydropyridine monkeys

Author

Bélanger, Nancy, Grégoire, Laurent, Bédard, Paul J., and Di Paolo, Thérèse

Published

2003

53. Role of the Endogenous Cannabinoid System in the Regulation of Motor Activity

Author

F. Rodríguez de Fonseca, Miguel Angel Gorriti, José Luis Martín-Calderón, Miguel Navarro, and I. del Arco

Subjects

Cannabinoid receptor, Receptors, Drug, medicine.medical_treatment, Motor Activity, Ligands, Indirect pathway of movement, Depolarization-induced suppression of inhibition, lcsh:RC321-571, cannabinoid receptors, Basal ganglia, medicine, Animals, Humans, Receptors, Cannabinoid, lcsh:Neurosciences. Biological psychiatry. Neuropsychiatry, catalepsy, Movement Disorders, Cannabinoids, Chemistry, Brain, Cannabinoid Receptor Agonists, Subthalamic nucleus, Globus pallidus, nervous system, Neurology, circling, lipids (amino acids, peptides, and proteins), Cannabinoid, movement, Neuroscience, immobility, dopamine receptors

Abstract

One of the prominent pharmacological features of drugs acting at the brain cannabinoid receptor (CB1) is the induction of alterations in motor behavior. Catalepsy, immobility, ataxia, or the impairment of complex behavioral acts are observed after acute administration of either natural and synthetic cannabinoid receptor agonists or the endogenous CB1 ligand anandamide. The dense presence of CB1 receptors in the cerebellum and in the basal ganglia, especially at the outflow nuclei (substantia nigra and the internal segment of the globus pallidus), supports the existence of an endogenous cannabinoid system regulating motor activity. In the basal ganglia, the functionality of the anandamide-CB1 system is poorly understood. Dual effects are often observed after the administration of CB1 ligands in animal models of pharmacological manipulation of basal ganglia transmitter systems, indicating that the activity of the anandamide-CB1 system depends on the ongoing activation of the different elements of the basal ganglia. This finding is in agreement with the proposed activity-dependent release of anandamide from a plasmalemma precursor. Additionally, a potential state-dependent bidirectional coupling of the CB1 receptor to the adenylate cyclase transduction system has also been described. From this perspective, the endogenous cannabinoid system can be proposed as a local regulator of neurotransmission processes within the basal ganglia. This system may serve as a counterregulatory homeostatic mechanism preserving the functional role of basal ganglia circuits in coding the serial order of events that constitute movement.

Published

1998

54. Cutting rules for Feynman diagrams at finite temperature.

Author

Southern, Byron W. (Physics and Astronomy) Schippers, Eric (Mathematics), Kobes, Randy (Physics and Astronomy) Carrington, Margaret E. (Physics and Astronomy), Chowdhury, Usman, Southern, Byron W. (Physics and Astronomy) Schippers, Eric (Mathematics), Kobes, Randy (Physics and Astronomy) Carrington, Margaret E. (Physics and Astronomy), and Chowdhury, Usman

Abstract

The imaginary part of the retarded self energy is of particular interest as it contains a lot of physical information about particle interactions. In higher order loop diagrams the calculation become extremely tedious and if we have to do the same at finite temperature, it includes an extra dimension to the difficulty. In such a condition we require to switch between bases and select the best basis for a particular diagram. We have shown in our calculation that in higher order loop diagrams, at finite temperature, the R/A basis is most convenient on summing over the internal vertices and very efficient on calculating some particular diagrams while the result is most easily interpretable in the Keldysh basis for most other complex diagrams.

Published

2010

55. Circling behavior and [14C]2-deoxyglucose mapping in rats: Possible implications for autistic repetitive behaviors

Author

Teresa Ravizza, Solomon L. Moshé, Libor Velíšek, Filippo S. Giorgi, and Jana Velíšková

Subjects

Male, Aging, Autism, Dopamine, chemistry.chemical_compound, Carbon Radioisotopes, gamma-Aminobutyric Acid, Brain Mapping, Sex Characteristics, Behavior, Animal, Deoxyglucose, Dopaminergic, Brain, 2-deoxyglucose, Neurology, Autoradiography, Circling, Development, Rat, Sex, Substantia nigra, Animals, Autistic Disorder, Disease Models, Animal, Energy Metabolism, Female, GABA Agonists, Gait Disorders, Neurologic, Glucose, Rats, Substantia Nigra, GABAergic, Psychology, Pars reticulata, Agonist, medicine.drug_class, lcsh:RC321-571, medicine, Neurologic, Gait Disorders, lcsh:Neurosciences. Biological psychiatry. Neuropsychiatry, Behavior, Pars compacta, Animal, Muscimol, chemistry, nervous system, Disease Models, Neuroscience

Abstract

Repetitive behaviors (such as circling) are one of the defining features of autism. The substantia nigra (SN) is involved in circling. We used unilateral SN pars reticulata (SNR) infusions of the GABA agonist muscimol to induce circling and deoxyglucose autoradiography mapping in adult and postnatal day (PN) 15 male and female rats to determine its substrates. In adults, muscimol infusions in posterior SNR induced a higher circling rate than in anterior SNR, after which males displayed faster circling than females. In contrast, PN15 female rats circled faster than PN15 male rats. Autoradiograms demonstrated age- and sex-specific alterations of deoxyglucose uptake in the SN pars compacta (SNC) associated with highest circling rates. The data suggest that there is a close relationship of the GABAergic SNR and dopaminergic SNC in the induction of circling; there is a topographic organization of the SNR in terms of circling behavior and associated deoxyglucose uptake, which is dependent on age and sex.

Published

2005

56. Neuroanatomy- and Pathology-Based Functional Examinations of Experimental Stroke in Rats: Development and Validation of a New Behavioral Scoring System.

Author

Yeh SJ, Tang SC, Tsai LK, Jeng JS, Chen CL, and Hsieh ST

Abstract

In experimental stroke studies, a neuroanatomy-based functional examination of behaviors is critical to predict the pathological extent of infarcts because brain-imaging studies are not always available. However, there is a lack of systematic studies to examine the efficiency of a behavioral test for this purpose. Our work aimed to design a new score for this goal in stroke rats, by simplifying the Garcia score (with subscore 1-6) and adding circling as subscore 7. MRI and 2,3,5-triphenyltetrazolium chloride staining were used to determine the pathological extent after transient middle cerebral artery occlusion. The modified summations of subscores were designed according to the predictability of each subscore for locations and sizes of infarcts in one group of stroke rats, and were validated in another group. The original Garcia score was able to predict the pathological extent of edema-adjusted infarct size ≥30%, and the summation of subscore 4, 6, and 7 (4: climbing, 6: vibrissae sensation, 7: circling) also could predict it well. The original Garcia score failed to predict infarct at the primary motor cortex, while the summation of subscore 4, 6, and 7 potentially could predict not only the primary motor cortex, but also the forelimb, hindlimb, and barrel field regions of the primary sensory cortex. Accordingly, this neuroanatomy-correlated functional assessment system composed of subscore 4, 6, and 7 was proposed, with less examination time and better inter-rater reliability than the original Garcia score. In summary, this new scoring system, summation (4,6,7) score, examined motor and sensory functions based on neuroanatomical involvement, having the potential to predict the pathological extent and specific relevant brain areas of infarcts, respectively.

Published

2018

57. A video image analyzing system for open-field behavior in the rat focusing on behavioral asymmetries

Author

Rainer K.W. Schwarting, Jaime Fornaguera, R. Goldenberg, Heinz Steiner, and Joseph P. Huston

Subjects

Turning, Rotation, Dopamine, Dopamine Agents, Scopolamine, Image processing, Video camera, Circling, Thigmotactic scanning, Motor Activity, Open field, law.invention, law, Image Processing, Computer-Assisted, Animals, Computer vision, Oxidopamine, Simulation, Brain Diseases, Measurement method, Behavior, Animal, Computers, business.industry, General Neuroscience, Computer aid, Video image, Rats, Vibrissae, Basal ganglia, Brain lesions, Television, Artificial intelligence, business, Psychology, 6-Hydroxydopamine, Software, Locomotion

Abstract

A video image analyzing system is presented which measures turning behavior, thigmotactic scanning and locomotion in rats. The system works by analyzing digitized video images obtained by a black/white video camera. Turning behavior is expressed in different diameter classes and as partial or full turns. Thigmotactic scanning is expressed as distance or time locomoted with the left or right side of the body along one of the walls of the testing environment. Locomotion is measured as distance travelled and is expressed in meters. Examples for the application of these behavioral measures are given which include: the measurement of spontaneous or drug-dependent behavioral asymmetries after brain lesion (the unilateral 6-hydroxydopamine model), a unilateral peripheral manipulation (hemivibrissotomy), and the measurement of open-field behavior (spontaneous or drug-induced) in intact animals. Among others, these examples show that the analysis of thigmotactic scanning may provide an alternative behavioral measure,which may be especially useful in the study of functional asymmetries. Deutsche Forschungs gemeinschaft/[Hu 306/6-4]/DFG/Alemania UCR::Vicerrectoría de Docencia::Salud::Facultad de Medicina::Escuela de Medicina UCR::Vicerrectoría de Investigación::Unidades de Investigación::Ciencias de la Salud::Centro de Investigación en Neurociencias (CIN)

Published

1993

58. Behavioural lateralisation in reindeer

Author

Knut Kinderås and Yngve Espmark

Subjects

Footedness, Hormonal activity, footedness, Age structure, Ecology, Zoology, General Medicine, Biology, Age and sex, rotation, Rangifer tarandus, Etiology, Behavioural Ecology, circling, Reindeer husbandry, Herd, asymmetry, left/right dominance, lateralisation, lcsh:Animal culture, Right hemisphere, Sex ratio, lcsh:SF1-1100

Abstract

Reindeer (Rangifer tarandus) kept in corrals or otherwise forced to clump typically start milling in response to stressing events. This behaviour is generally considered to have an antipredator effect. An inquiry on herd behaviour, to which 35 Norwegian reindeer husbandry districts responded, showed that 32 experienced that corralled rein¬deer consistently circled leftwards, whereas the remaining three reported consistently rightward circling. Regular monitoring of a reindeer herd in central Norway over a two-year period (1993-94), and experimental studies on a fraction of the same herd, revealed the following traits. Free-ranging reindeer showed no right- or left-turning preference during grazing or browsing, but when the reindeer were driven into corrals or forced to clump in the open they invariably rotated leftwards. The circling of corralled reindeer was triggered at an average group size of 20 to 25 animals, apparently independently of the age and sex of the animals. When they dug craters in the snow to reach food, the reindeer used their left foreleg significantly more often than their right. In 23 out of 35 reindeer, the right hemisphere of the brain was heavier than the left. However, in the sample as a whole, the weights of the left and right hemispheres did not differ significantly. Lateralised behaviour in reindeer is thought to be determined by natural and stress induced asymmetries in brain structure and hormonal activity. In addition, learning is probably important for passing on the behaviour between herd members and generations. Differences in lateralised behaviour between nearby herds are thought to be related primarily to different exposure to stress and learning, whereas genetical and environmental fac¬tors (e.g. diet), age structure and sex ratio are probably more important for explaining differences between distant pop¬ulations.

Published

2002

59. A stylistic analysis of three flute pieces by David Froom: Circling for flute and clarinet, To Dance to the Whistling Wind for solo flute, and Lightscapes for flute and piano

Author

Behrmann, Candice

Subjects

David Froom, Flute, Circling, To Dance to the Whistling Wind, Lightscapes, Performance, Analysis, Music

Abstract

American composer David Froom has worked with groups such as the New York New Music Ensemble and the 21st Century Consort. His music has been performed extensively, and he continues to receive commissions from individuals throughout the United States. He is best known for his piano sonata (1980) and his chamber concerto (1991); his flute music is relatively unknown. This study focuses on three of Froom‘s flute works: Circling (2002), To Dance to the Whistling Wind (1993), and Lightscapes (2006). It provides an analysis of each work and examines Froom‘s use of motivic and intervallic relationships in each movement. Scores and interviews with the composer provide the primary source material. There are four chapters: the first provides a biography of Froom and introduces hallmarks of his compositional style, and each of the following three chapters focuses on one of the aforementioned flute works and includes a discussion of the genesis and premiere of each work, a formal analysis of each movement, and an examination of specific compositional techniques used. The Conclusion shows the connections and similarities among the three flute works. It recaps the numerous compositional techniques Froom uses, and demonstrates how an understanding of these aspects and the formal construction of each movement will ultimately aid in performance and influence musical decisions. The aim of this study is to increase awareness and understanding of Froom‘s music, thus encouraging further investigation and performances of his works. The three pieces examined contain a representative sampling of six of Froom‘s compositional techniques (use of set classes (025) and (027), conflation of form, cross-movement relationships, references to other movements in multi-movement works, cadential rhetoric in both pitch-centric and atonal compositions, and continuous variation). Further research may suggest that these same techniques are found in his other works as well.

Published

2010

60. Circling behavior developed in Dmp1 null mice is due to bone defects in the vestibular apparatus.

Author

Lv K, Huang H, Lu Y, Qin C, Li Z, and Feng JQ

Subjects

Animals, Bone Diseases physiopathology, Extracellular Matrix Proteins metabolism, Mice, Mice, Transgenic, Vestibule, Labyrinth physiopathology, X-Ray Microtomography, Behavior, Animal physiology, Bone Diseases genetics, Bone Diseases pathology, Extracellular Matrix Proteins genetics, Vestibule, Labyrinth metabolism, Vestibule, Labyrinth pathology

Abstract

With age, there is a progressive loss of body balance function. Yet, the potential influence of osteoporosis on body balance is largely unknown. Dentin matrix protein 1 (DMP1) is highly expressed in bone and required for phosphate homeostasis and mineralization. Dmp1 null mice display striking defects in bone structure. In this study we reported circling behavior and hyper reaction to touching in Dmp1 null mice. Our histology, tartrate resistant acid phosphatase (TRAP) staining and µCT data showed dramatic changes, such as an expansion of poorly mineralized matrices, in the Dmp1 null porous bony structure in the vestibular apparatus. The targeted re-expression of DMP1 in the Dmp1 null bone fully rescued not only the bone phenotype, but also circling behavior and hyper reaction. Furthermore, X-gal stain and DMP1 immunohistochemistry assay showed that DMP1 was not expressed in neuron cells or balance related cells in the inner ear, suggesting that a defect in the bony labyrinth of the internal ear is indirectly responsible for the circling behavior and/or hyper reaction to touching. Finally, discovery of DMP1 lacZ signal in pericyte-like cells may suggest a new function of DMP1 in angiogenesis.

Published

2010

61. Long-term effects of grating derelict mines on bat emergence activity, abundance and behaviour

Author

Gonsalves, Leroy, Potter, Tamara, Colman, Nicholas, and Law, Brad

Published

2021