903 resultados para Adapted motor activity
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Fundação de Amparo à Pesquisa do Estado de São Paulo (FAPESP)
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Evaluate the effects of a modifi ed ConstraintInduced Therapy intervention protocol regarding movement quality and frequency of use of the affected upper extremity on children with hemiplegic cerebral palsy. Longitudinal study of a single case, performed with a four year old submitted to intervention during three hours daily, for ten days, restricting the non-affected upper extremity for eight hours daily. Data were collected using the Pediatric Upper Extremity Motor Activity Log and analyzed using the arithmetic mean. Signifi cant improvement in quality of movement and frequency of use of the upper limb from pre to post-intervention were noted, maintaining the result in later data collection, besides the acquisition of functional motor skills. The modifi ed constraint-induced movement therapy protocol of this study was effective in treating the child with hemiplegic cerebral palsy, the results may be useful for professionals working with this clientele, assisting them in the intervention process.
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Introduction: The Constraint-induced Movement Therapy (CIMT) is a therapeutic program which main goal is the functional recuperation of paretic upper extremity of stroke patients with motor deficits by an intensive treatment, practice of functional repetition and wear of restriction in non-paretic during 90% of the daily hours. Objective: The aim of this study was evaluate the CIMT influence on upper extremity function of hemiparetic individuals. Method: The CIMT was provided for 3 daily hours for 10 consecutive days. Besides, patients were asked to wear a restraint dispositive on the unaffected hand during 90% of their activities daily living hours. Before and after the intervention period, 2 tests were administered to evaluate motor function, the Motor Activity Log (MAL) and the Wolf Motor Function Test (WMFT). Results: The results of MAL showed significant difference in quantity (p=0,011) and quality (p=0,016) of paretic upper extremity movements. Analysis of WMFT indicated a significant reduction of time that patients performed the tasks (p= 0,042) and a difference for quality of movement (p<0,0001). Conclusion: The present results showed that CIMT improves upper extremity function in hemiparetic individuals.
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Exergames are a new educational tool, and have been used by teachers in physical education classes because it is an activity that provides entertainment and caloric expenditure. The goal of this study was to verify the opinion of students in an elementary school class on a program of adapted physical activity using the videogame, developed during physical education classes. Study participants were students in a fourth-grade elementary school class that had a student with disability. The researcher and the Physical Education teacher elaborated the planning program of an adapted physical activity with the use of videogames. The classes were recorded in a log book and group interviews were conducted at the end of each class. The results showed that the classes were nice, fun and interesting experiences. The study concluded that the program was successful.
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Pós-graduação em Genética e Melhoramento Animal - FCAV
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Given that the auditory system is rather well developed at the end of the third trimester of pregnancy, it is likely that couplings between acoustics and motor activity can be integrated as early as at the beginning of postnatal life. The aim of the present mini-review was to summarize and discuss studies on early auditory-motor integration, focusing particularly on upper-limb movements (one of the most crucial means to interact with the environment) in association with auditory stimuli, to develop further understanding of their significance with regard to early infant development. Many studies have investigated the relationship between various infant behaviors (e.g., sucking, visual fixation, head turning) and auditory stimuli, and established that human infants can be observed displaying couplings between action and environmental sensory stimulation already from just after birth, clearly indicating a propensity for intentional behavior. Surprisingly few studies, however, have investigated the associations between upper-limb movements and different auditory stimuli in newborns and young infants, infants born at risk for developmental disorders/delays in particular. Findings from studies of early auditory-motor interaction support that the developing integration of sensory and motor systems is a fundamental part of the process guiding the development of goal-directed action in infancy, of great importance for continued motor, perceptual, and cognitive development. At-risk infants (e.g., those born preterm) may display increasing central auditory processing disorders, negatively affecting early sensorymotor integration, and resulting in long-term consequences on gesturing, language development, and social communication. Consequently, there is a need for more studies on such implications.
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Pain control is an important aspect of equine medicine. Musculoskeletal and gastrointestinal diseases are the most important clinical and surgical painful situations in this specie. In these cases, opioids have been used successfully for the treatment of pain, administered both local (intra-articular and epidural) and systemically. Otherwise, opioids, specially mu agonists like morphine, present important side effects in horses. Amongst these effects, CNS stimulation with increased motor activity and impairment of intestinal motility are observed in several cases. Therefore, adequate dosing of administration are essential for the safe use of opioids in horses
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Haloperidol is a dopamine receptor antagonist used to treat schizophrenia. When systemically administered in rodents, haloperidol induces catalepsy, a state of immobility very similar to that seen in Parkinson's disease. It is known that many of Parkinson's disease symptoms are dependent on the emotional state since patients are still able to respond to external triggers such as loud noise or visual signaling. Recent data highlighted the importance of glutamatergic neurotransmission in the inferior colliculus (IC) on the cataleptic state induced by haloperidol in rats. Given the importance of IC in the brain aversion system and its connections to motor pathways, and based on the clinical reports of the emotional influence on the motor aspect of Parkinson's disease, the objective of the present study was to evaluate the emotional aspect related to catalepsy induced by intraperitoneal administration of haloperidol. To this end, we analysed ultrasonic vocalizations (UVs) of 22 kHz (indicative of aversion) in rats during the tests of catalepsy, open field and contextual conditioned fear. Systemic administration of haloperidol affected the motor activity, inducing catalepsy and decreasing exploratory activity in the open field. There were no UVs of 22 kHz resulting from treatment with haloperidol in catalepsy or open field tests. In the contextual conditioned fear test, haloperidol increased freezing when administered before the test, but decreased freezing on test day when administered before training. In this same test, haloperidol decreased the UVs on the day it was administered (training or test). The catalepsy induced by systemic administration of haloperidol seems to have also affected the motor aspect of UVs. In this way, it was not possible to clarify the existence of an aversive emotional state associated haloperidol induced catalepsy
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Scorpions are among the oldest living groups of animals, and are present in almost every continent. Although many studies are made about the toxins present in their venom, little is known about their behavior. The aim of this paper is to investigate the expression of agressiveness in the brazilian yellow scorpion Tityus serrulatus, specifically the relation between agressiveness, motor activity and feeding condition. The study was divided in two parts. First, we used 16 adult individuals, placed in two terrarium, to establish an ethogram. Each group was observed for 36h, and the behaviors displayed were described and categorized as agonistic or non-agonistic. In the second part of the experiment, we used 32 adult animals in three different nutritional states: Feeding (still ingesting food), Sated (1 to 4 days since last meal) and Deprived (14 to 25 days since last meal). The individuals were paired, each pair placed in a terrarium and observed for 30min. Behaviors displayed were timed in seconds. Our results show that only Feeding individuals displayed agonism towards others, and no relation was observed between motor activity and feeding conditions
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Pós-graduação em Biociências - FCLAS
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Fundação de Amparo à Pesquisa do Estado de São Paulo (FAPESP)
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Fundação de Amparo à Pesquisa do Estado de São Paulo (FAPESP)
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Coordenação de Aperfeiçoamento de Pessoal de Nível Superior (CAPES)
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Cell therapy has frequently been reported as a possible treatment for spinal trauma in humans and animals; however, without pharmacologically curative action on damage from the primary lesion. In this study, we evaluated the effect of administering human adipose-derived stem cells (hADSC) in rats after spinal cord injury. The hADSC were used between the third and fifth passages and a proportion of cells were transduced for screening in vivo after transplantation. Spinal cord injury was induced with a Fogarty catheter no. 3 inserted into the epidural space with a cuff located at T8 and filled with 80 mu L saline for 5 min. The control group A (n = 12) received culture medium (50 mu L) and group B (n = 12) received hADSC (1.2 x 10(6)) at 7 and 14 days post-injury, in the tail vein. Emptying of the bladder by massage was performed daily for 3 months. Evaluation of functional motor activity was performed daily until 3 months post-injury using the Basso-Beattie-Bresnahan scale. Subsequently, the animals were euthanized and histological analysis of the urinary bladder and spinal cord was performed. Bioluminescence analysis revealed hADSC at the application site and lungs. There was improvement of urinary bladder function in 83.3% animals in group B and 16.66% animals in group A. The analysis of functional motor activity and histology of the spinal cord and urinary bladder demonstrated no significant difference between groups A and B. The results indicate that transplanted hADSC improved urinary function via a telecrine mechanism, namely action at a distance.
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Fundação de Amparo à Pesquisa do Estado de São Paulo (FAPESP)