Introduction[edit | edit source]
The definition of coordination is the ability to execute smooth, accurate, controlled motor responses (optimal interaction of muscle function).
- Coordination is the ability to select the right muscle at the right time with proper intensity to achieve proper action.
- Coordinated movement is characterized by appropriate speed, distance, direction, timing and muscular tension.
It is the process that results in activation of motor units of multiple muscles with simultaneous inhibition of all other muscles in order to carry out a desired activity.
The cerebellum is the primary centre in the brain for coordination for movement and the ability to execute smooth accurate motor response.
For coordinated movements to occurs all the below systems are involved
Image: Cerebellum (highlighted in green) - sagittal view
Components of Coordinated Movement[edit | edit source]
Coordinated movement is dependent on:
- Volition: is the ability to initiate, maintain or stop an activity or motion.
- Perception: in tact proprioception and subcortical centres to integrate motor impulses and the sensory feedback. When proprioception is affected it is compensated with visual feedback.
- Engram: A postulated physical or biochemical change in neural tissue that represents a memory. Research proved that high repetitions of precise performance must be performed in order to develop an engram.A 1980 study concluded "Thousands of repetitions are required to begin to form an engram and millions of repetitions are necessary to perfect it. Coordination is developed in proportion to the number of repetitions of an engram practiced just below the maximal level of ability to perform."
Types of Coordination[edit | edit source]
Motor coordination to complete a task a collaboration of three skills:
- Fine Motor Skills
- Require coordinated movement of small muscles (hands, face).
- Examples: include writing, drawing, buttoning a shirt, blowing bubbles
- Gross Motor Skills
- Require coordinated movement of large muscles or groups of muscles (trunk, extremities).
- Examples: include walking, running, lifting activities.
- Hand-eye Skills
- The ability of the visual system to coordinate visual information. Received and then control or direct the hands in the accomplishment of a task.
- Examples : include catching a ball,sewing,computer mouse use.
Causes of Coordination Impairments[edit | edit source]
Uncoordinated movement or coordination impairment is known medically known as ataxia. There are a number of known causes for ataxia. They range from chronic conditions to sudden onset. However, most conditions will relate to damage or degeneration of the cerebellum.
Coordinated movement requires a functioning cerebellum, spinal cord and peripharal nervous system. Diseases and injuries that damage or destroy any of these structures can lead to ataxia.
Toxins can also cause ataxia.
- Alcohol (most common)
- Seizure medications
- Chemotherapy drugs
- Mercury, lead, and other heavy metals
- Toluene and other types of solvents
Examples of Coordination Tests in the Upper Limb[edit | edit source]
In the following tests, you will be looking for signs of Intention tremors and Decomposition of movements or Dysmetria: in the form of hypermetria or hypometria
- Finger-to-nose test - The shoulder is abducted to 90o with the elbow extended, the patient is asked to bring tip of the index finger to the tip of nose.Finger to therapist finger: the patient and the therapist site opposite to each other, the therapist index finger is held in front of the patient, the patient is asked to touch the tip of the index finger to the therapist index finger.
- Finger-to-finger test - Both shoulders are abducted to bring both the elbow extended, the patient is asked to bring both the hand toward the midline and approximate the index finger from opposing hand
- Finger-to-doctor's finger test - the patient alternately touch the tip of the nose and the tip of the therapist's finger with the index finger.
- Adiadokokinesia or dysdiadokokinesia - The patient asked to do rapidly alternating movement e.g. forearm supination and pronation, hand tapping.
- Rebound phenomena - The patient with his elbow fixed, flex it against resistance. When the resistance is suddenly released the patient's forearm flies upward and may hit his face or shoulder.
- Buttoning and unbuttoning test.
Examples of Coordination Tests in the Lower Limb[edit | edit source]
- Walking along a straight line. Foot close to foot:In case of cerebellar lesion, there is deviation of gait
- Rom-berg test: Ask the patient to stand with heels together. Swaying or loss of balance occurs while his eyes are open or closed.
- Foot tapping test : The subject sits on a chair with adjustable height so that the bilateral soles made contact with the floor, and the hip and knee joints flexed at approximately 90°. He/She moves his/her toes up and down repeatedly to tap the floor as fast and as vigorously as possible for 10 sec with the heels planted on the floor. The test is performed for both sides separately. The examiner counts the number of taps for each side.
- Lower Extremity Motor Coordination Test (LEMOCOT) : The subject sits on a height adjustable chair with their feet resting flat on a thin rigid foam, heels on the proximal target, and knees at 900 of flexion. Then, after a familiarization trial, he/she is instructed to alternately touch the proximal and distal targets placed 30 cm apart with their big toe for 20sec. The number of touched targets in 20sec is recorded for the motor coordination of the lower limb.
Coordination Tests for Athletes / Everyday Sports Person[edit | edit source]
Many high level tests also exist to help assess and improve an athletes skills and performance e.g. Stick Flip Coordination Test; Wall-Toss Test; Block Transfer; Soda Pop Test; Plate Tapping; Light Board; Test Heel-to-knee test.
The below video shows an athlete going through a series of high end coordination tests
General Principles of Coordination Exercises Involve[edit | edit source]
- Constant repetition of a few motor activities
- Use of sensory cues (tactile, visual, proprioceptive) to enhance motor performance
- Increase of speed of the activity over time
- Activities are broken down into components that are simple enough to be performed correctly.
- Assistance is provided when ever necessary.
- The patient therefore should have a short rest after two or three repetitions, to avoid fatigue.
- High repetition of precise performance must be performed for the engram to form.
- When ever a new movement is trained, various inputs are given, like instruction(auditory), sensory stimulation(touch) ,or positions in which the patient can view the movement (visual stimulation) to enhance motor performance.
Physiotherapy - Therapeutic Exercises Used to Improve Coordination[edit | edit source]
There are many interventions that can be utilised to improve coordination, such as:
- Tai Chi
- Otago Exercise Program and use of Balance Boards
- Neuromuscular coordination exercises. Check out the advanced examples of these below.
- Proprioceptive Neuromuscular Facilitation. The below video shows PNF in use
- Neurophysiological Basis of Developmental Techniques
- Sensory Integrative Therapy
- Frenkel’s Exercises 
Evidence[edit | edit source]
There is a lot of good evidence for the inclusion of coordination exercises for a whole raft of conditions.
A Cochrane review (2015) into the effectiveness of Pilates in low back pain found low to moderate quality evidence for Pilates in treating low back pain (being more effective intervention than minimal intervention in the short and intermediate term reducing pain intensity and disability, with most of the effect sizes being considered medium). 
A 2015 study investigating the effect of coordination movement using the Proprioceptive Neuromuscular Facilitation (PNF) pattern underwater on the balance and gait of stroke patients found that coordination movement using the PNF pattern beneficial. It can be an appropriate therapy method for stroke patients who have problems with gait because of declined weight support and balancing ability. Improvements were found in both functional reach and Berg Balance Test (BBT).
A 2011 study entitled "Effectiveness of coordination exercise in improving cognitive function in older adults: a prospective study" found that low-intensity level mind-body exercise could be beneficial to the cognitive functioning of older adults.
A study onto the effect of coordination training with tennis players found that coordination training program help athletes to learn and perform the forehand and backhand tennis skills better.
A 2015 study into the effectiveness of a sensory integration program in motor skills in children with autism concluded that it was an effective treatment helping autistic children to become more independent and participate in everyday activities.
A study into the effects of Tai Chi Chuan (TCC) Coordination exercise on elderly people concluded that " elderly people who regularly practice TCC show better postural stability in the more challenging conditions than those who do not (e.g, conditions with simultaneous disturbance of vision and proprioception). TCC as a coordination exercise may reduce the risk of falling by maintaining the ability of posture control. TCC is strongly recommended as a regimen of coordination exercise to prevent the elderly from falling."
A study involving stroke patients and the effectiveness of Frenkels exercises found significant gains in relation to coordination, balance and functional activities with the inclusion of Frenkel exercises in physical therapy approach. 
References:[edit | edit source]
- Slide player Coordination exercises Available from: http://slideplayer.com/slide/4638093/ (last accessed 11.6.2019)
- Cerebellum (highlighted in green) - sagittal view image - © Kenhub https://www.kenhub.com/en/library/anatomy/cerebellum-and-brainstem
- Glosby Engram in English Available from: https://en.glosbe.com/en/en/Engram (last accessed 13.6.2019)
- Kottke FJ. From reflex to skill: the training of coordination. Archives of physical medicine and rehabilitation. 1980 Dec;61(12):551-61. Available from: https://www.ncbi.nlm.nih.gov/pubmed/7458618 (last accessed 13.6.2019)
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- Gunzler SA, Pavel M, Koudelka C, Carlson NE, Nutt JG. Foot-tapping rate as an objective outcome measure for Parkinson disease clinical trials. Clinical Neuropharmacology. 2009 Mar 1;32(2):97-102.
- Enoki H, Tani T, Ishida K. Foot tapping test as part of routine neurologic examination in degenerative compression myelopathies: A significant correlation between 10-sec foot-tapping speed and 30-m walking speed. Spine surgery and related research. 2019:2018-0033.
- Desrosiers J, Rochette A, Corriveau H. Validation of a new lower-extremity motor coordination test. Archives of physical medicine and rehabilitation. 2005 May 1;86(5):993-8.
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- Kim K, Lee DK, Jung SI. Effect of coordination movement using the PNF pattern underwater on the balance and gait of stroke patients. Journal of physical therapy science. 2015;27(12):3699-701. Available from: https://www.ncbi.nlm.nih.gov/pmc/articles/PMC4713774/ (last accessed 12.6.2019)
- Kwok TC, Lam KC, Wong PS, Chau WW, Yuen KS, Ting KT, Chung EW, Li JC, Ho FK. Effectiveness of coordination exercise in improving cognitive function in older adults: a prospective study. Clinical interventions in aging. 2011;6:261. Available from: https://www.ncbi.nlm.nih.gov/pmc/articles/PMC3212417/ (last accessed 12.6.2019)
- Zetou E, Vernadakis N, Tsetseli M, Kampas A, Michalopoulou M. The effect of coordination training program on learning tennis skills. The Sport Journal. 2012 Jan 1;15(1). Available from: http://thesportjournal.org/article/the-effect-of-coordination-training-program-on-learning-tennis-skills/ (last accessed 13.6.2019)
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- Wong AM, Lin YC, Chou SW, Tang FT, Wong PY. Coordination exercise and postural stability in elderly people: effect of Tai Chi Chuan. Archives of physical medicine and rehabilitation. 2001 May 1;82(5):608-12. Available from: https://www.archives-pmr.org/article/S0003-9993(01)13337-X/fulltext#s0060 (last accessed 12.6.2019)
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