Motor skill


A motor skill is a function that involves specific movements of the body's muscles to perform a certain task. These tasks could include walking, running, or riding a bike. In order to perform this skill, the body's nervous system, muscles, and brain have to all work together. The goal of motor skill is to optimize the ability to perform the skill at the rate of success, precision, and to reduce the energy consumption required for performance. Performance is an act of executing a motor skill or task. Continuous practice of a specific motor skill will result in a greatly improved performance, which leads to motor learning. Motor learning is a relatively permanent change in the ability to perform a skill as a result of continuous practice or experience.
A fundamental movement skill is a developed ability to move the body in coordinated ways to achieve consistent performance at demanding physical tasks, such as found in sports, combat or personal locomotion, especially those unique to humans, such as ice skating, skateboarding, kayaking, or horseback riding. Movement skills generally emphasize stability, balance, and a coordinated muscular progression from prime movers to secondary movers when conducting explosive movements, such as throwing a baseball. In most physical training, development of core musculature is a central focus. In the athletic context, fundamental movement skills draw upon human physiology and sport psychology.

Classification

Motor skills are movements and actions of the muscles. There are two major groups of motor skills:
  • Gross motor skills – require the use of large muscle groups in our legs, torso, and arms to perform tasks such as: walking, balancing, and crawling. The skill required is not extensive and therefore are usually associated with continuous tasks. Much of the development of these skills occurs during early childhood. We use our gross motor skills on a daily basis without putting much thought or effort into them. The performance level of gross motor skill remains unchanged after periods of non-use. Gross motor skills can be further divided into two subgroups: Locomotor skills, such as running, jumping, sliding, and swimming; and object-control skills such as throwing, catching, dribbling, and kicking.
  • Fine motor skills – require the use of smaller muscle groups to perform smaller movements. These muscles include those found in our wrists, hands, fingers, feet and in our toes. These tasks are precise in nature like: playing the piano, tying shoelaces, brushing your teeth, and flossing. Some fine motor skills may be susceptible to retention loss of over a period of time if not in use. The phrase "if you don't use it, you lose it" is a perfect way to describe these skills, they need to be continuously used. Discrete tasks such as switching gears in an automobile, grasping an object, or striking a match, usually require more fine motor skill than gross motor skills.
Both gross and fine motor skills can become weakened or damaged. Some reasons for these impairments could be caused by an injury, illness, stroke, congenital deformities, cerebral palsy, and developmental disabilities. Problems with the brain, spinal cord, peripheral nerves, muscles, or joints can also have an effect on these motor skills, and decrease control over them.

Development

Motor skills develop in different parts of a body along three principles:
  • Cephalocaudal – the principle that development occurs from head to tail. For example, infants first learn to lift their heads on their own, followed by sitting up with assistance, then sitting up by themselves. Followed by scooting, crawling, pulling up, and then walking.
  • Proximodistal – the principle that movement of limbs that are closer to the body develop before the parts that are further away. For example, a baby learns to control their upper arm before their hands and fingers. Fine movements of the fingers are the last to develop in the body.
  • Gross to specific – a pattern in which larger muscle movements develop before finer movements. For example, a child will go from only being able to pick up large objects, to then being able to pick up an object that is small, between the thumb and fingers. The earlier movements involve larger groups of muscles, but as the child grows, finer movements become possible and specific tasks can be achieved. An example of this would be a young child learning to grasp a pencil.
In children, a critical period for the development of motor skills is preschool years, as fundamental neuroanatomic structure shows significant development, elaboration, and myelination over the course of this period. Many factors contribute to the rate that children develop their motor skills. Unless afflicted with a severe disability, children are expected to develop a wide range of basic movement abilities and motor skills around a certain age. Motor development progresses in seven stages throughout an individual's life: reflexive, rudimentary, fundamental, sports skill, growth and refinement, peak performance, and regression. Development is age-related but is not age dependent. In regard to age, it is seen that typical developments are expected to attain gross motor skills used for postural control and vertical mobility by 5 years of age.
There are six aspects of development:
  • Qualitative – changes in movement-process results in changes in movement-outcome.
  • Sequential – certain motor patterns precede others.
  • Cumulative – current movements are built on previous ones.
  • Directional – cephalocaudal or proximodistal
  • Multifactorial – numerous-factors impact
  • Individual – dependent on each person
In the childhood stages of development, gender differences can greatly influence motor skills. In the article "An Investigation of Age and Gender Differences in Preschool Children's Specific Motor Skills", girls scored significantly higher than boys on visual motor and graphomotor tasks. The results from this study suggest that girls attain manual dexterity earlier than boys. Variability of results in the tests can be attributed towards the multiplicity of different assessment tools used. Furthermore, gender differences in motor skills are seen to be affected by environmental factors. In essence, "parents and teachers often encourage girls to engage in activities requiring fine motor skills, while they promote boys' participation in dynamic movement actions". In the journal article "Gender Differences in Motor Skill Proficiency From Childhood to Adolescence" by Lisa Barrett, the evidence for gender-based motor skills is apparent. In general, boys are more skillful in object control and object manipulation skills. These tasks include throwing, kicking, and catching skills. These skills were tested and concluded that boys perform better with these tasks. There was no evidence for the difference in locomotor skill between the genders, but both are improved in the intervention of physical activity. Overall, the predominance of development was on balance skills in boys and manual skills in girls.

Components of development

  • Growth – increase in the size of the body or its parts as the individual progresses toward maturity
  • Maturation – refers to qualitative changes that enable one to progress to higher levels of functioning; it is primarily innate
  • Experience or learning – refers to factors within the environment that may alter or modify the appearance of various developmental characteristics through the process of learning
  • Adaptation – refers to the complex interplay or interaction between forces within the individual and the environment

    Influences on development

  • Stress and arousal – stress and anxiety are the result of an imbalance between the demand of a task and the capacity of the individual. In this context, arousal defines the amount of interest in the skill. The optimal performance level is moderate stress or arousal.
  • Fatigue – the deterioration of performance when a stressful task is continued for a long time, similar to the muscular fatigue experienced when exercising rapidly or over a long period. Fatigue is caused by over-arousal. Fatigue impacts an individual in many ways: perceptual changes in which visual acuity or awareness drops, slowing of performance, irregularity of timing, and disorganization of performance. A study conducted by Meret Branscheidt concluded that fatigue interferes with the learning of new motor skills. In the experiment, participants were split into two different groups. One group worked the muscles in their hands until they were physically fatigued and then had to learn a new motor task, while the second group learned the task without being fatigued. Those that were fatigued had a harder time learning these new motor skills compared to those who were not. Even in the days following, after the fatigue had subsided, they still had difficulty learning those same tasks.
  • Vigilance – the ability to maintain attention over time and respond appropriately to relevant stimuli. When vigilance is lost, it can result in slower responses or the failure to respond to stimuli all together. Some tasks include actions that require little work and high attention.
  • Gender – gender plays an important role in the development of the child. Girls are more likely to be seen performing fine stationary visual motor-skills, whereas boys predominantly exercise object-manipulation skills. While researching motor development in preschool-aged children, girls were more likely to be seen performing skills such as skipping, hopping, or skills with the use of hands only. Boys were seen to perform gross skills such as kicking or throwing a ball or swinging a bat. There are gender-specific differences in qualitative throwing performance, but not necessarily in quantitative throwing performance. Male and female athletes demonstrated similar movement patterns in humerus and forearm actions but differed in trunk, stepping, and backswing actions.