Proprioception: Difference between revisions
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== Introduction == | == Introduction == | ||
'''Proprioception''' is the sense of where one's body is in space. It is critical for meaningful interaction with the environment. Its neurological basis comes primarily from sensory receptors located on your skin, joints, and muscles (muscle spindles with a smaller component from tendon organ afferents, cutaneous receptors and minimal input from joint receptors). These muscle afferents receptors allow identification of limb position and movement via neural signalling of a change in muscle, skin or joint stretch<ref>Suetterlin KJ, Sayer AA. [https://academic.oup.com/ageing/article/43/3/313/16765 Proprioception: where are we now? A commentary on clinical assessment, changes across the life course, functional implications and future interventions.] Age and ageing. 2013 Nov 14;43(3):313-8. Available from: https://academic.oup.com/ageing/article/43/3/313/16765 (last accessed 31.10.19)</ref>. Hence proprioception is basically a continuous loop of feedback between sensory receptors throughout your body and your nervous system. Sensory receptors are located on your skin, joints, and muscles. When moving, our brain senses the effort, force, and heaviness of these actions and positions and responds appropriately, sensing whether the body is moving with the appropriate effort and where the various segments of the body are located in relation to each other. | '''Proprioception (sense of proprioception)''' is an important neuromuscular sense, which falls under our "sixth sense", known as somatosensation. The term somatosensory (or somatosensation) is an all encompassing term which includes mechanoreception (vibration, pressure, discriminatory touch), thermoreception (temperature), nociception (pain), equilibrioception (balance) and proprioception (sense of positioning and movement), all of which arises from the peripheral nervous system.<ref>''Guyton AC. Textbook of Medical Physiology. 8th ed. Philadelphia, PA WB Saunders; 1992.''</ref> | ||
[[File:Somatosensation.jpg|thumb|464x464px|Somatosensation. Retrieved from: Ager, A.L., Borms, D., Deschepper, L., Dhooghe, R., Dijkhuis, J., Roy, J.S., & Cools, A.Proprioception and shoulder pain: A Systematic Review. ''J Hand Ther''. 2019 Aug 31. pii: S0894-1130(19)30094-8. doi: 10.1016/j.jht.2019.06.002. ]] | |||
is the sense of where one's body is in space. It is critical for meaningful interaction with the environment. Its neurological basis comes primarily from sensory receptors located on your skin, joints, and muscles (muscle spindles with a smaller component from tendon organ afferents, cutaneous receptors and minimal input from joint receptors). These muscle afferents receptors allow identification of limb position and movement via neural signalling of a change in muscle, skin or joint stretch<ref>Suetterlin KJ, Sayer AA. [https://academic.oup.com/ageing/article/43/3/313/16765 Proprioception: where are we now? A commentary on clinical assessment, changes across the life course, functional implications and future interventions.] Age and ageing. 2013 Nov 14;43(3):313-8. Available from: https://academic.oup.com/ageing/article/43/3/313/16765 (last accessed 31.10.19)</ref>. Hence proprioception is basically a continuous loop of feedback between sensory receptors throughout your body and your nervous system. Sensory receptors are located on your skin, joints, and muscles. When moving, our brain senses the effort, force, and heaviness of these actions and positions and responds appropriately, sensing whether the body is moving with the appropriate effort and where the various segments of the body are located in relation to each other. | |||
The short video below gives a good insight into | The short video below gives a good insight into the complexities of proprioception. | ||
{{#ev:youtube|https://www.youtube.com/watch?v=Dzlkz8j-8rg|width}}<ref>W Deloriea Proprioceptors Available from: https://www.youtube.com/watch?v=Dzlkz8j-8rg ( last accessed 30.10.2019)</ref> | {{#ev:youtube|https://www.youtube.com/watch?v=Dzlkz8j-8rg|width}}<ref>W Deloriea Proprioceptors Available from: https://www.youtube.com/watch?v=Dzlkz8j-8rg ( last accessed 30.10.2019)</ref> | ||
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Introduction[edit | edit source]
Proprioception (sense of proprioception) is an important neuromuscular sense, which falls under our "sixth sense", known as somatosensation. The term somatosensory (or somatosensation) is an all encompassing term which includes mechanoreception (vibration, pressure, discriminatory touch), thermoreception (temperature), nociception (pain), equilibrioception (balance) and proprioception (sense of positioning and movement), all of which arises from the peripheral nervous system.[1]
is the sense of where one's body is in space. It is critical for meaningful interaction with the environment. Its neurological basis comes primarily from sensory receptors located on your skin, joints, and muscles (muscle spindles with a smaller component from tendon organ afferents, cutaneous receptors and minimal input from joint receptors). These muscle afferents receptors allow identification of limb position and movement via neural signalling of a change in muscle, skin or joint stretch[2]. Hence proprioception is basically a continuous loop of feedback between sensory receptors throughout your body and your nervous system. Sensory receptors are located on your skin, joints, and muscles. When moving, our brain senses the effort, force, and heaviness of these actions and positions and responds appropriately, sensing whether the body is moving with the appropriate effort and where the various segments of the body are located in relation to each other.
The short video below gives a good insight into the complexities of proprioception.
Causes of Proprioception Impairment[edit | edit source]
Some things can affect proprioception.
- Temporary impairment can come from eg drinking too much alcohol
- Age-related changes also affect proprioception. The risk of proprioception loss increases as we age due to a combination of natural age-related changes to the nerves, joints, and muscles.
- Injuries or medical conditions that affect the muscles, nerves, and the brain can cause long-term or permanent proprioception impairment. See below
Neurological disorders: eg brain injuries; multiple sclerosis (MS); stroke; Parkinson’s disease; Huntington’s disease; ALS (amyotrophic lateral sclerosis)
Health conditions eg. herniated disc; arthritis; autism spectrum disorder (ASD); diabetes; peripheral neuropathy
Surgery eg. joint injuries, such as an ankle sprain or knee sprain; joint replacement surgery, such as hip replacement or knee replacement
Assessing Proprioception[edit | edit source]
A proprioception disorder or injury could cause a number of signs and symptoms.
Subjective assessment should include questions regarding the following
- balance issues, such as having trouble standing on one foot or frequent falls while walking or sitting
- uncoordinated movement, such as not being able to walk in a straight line
- avoiding certain activities, such as climbing stairs or walking on uneven surfaces because of a fear of falling
Objective assessment should include observation of the above and the points below
- clumsiness, such as dropping or bumping into things
- poor postural control, such as slouching or having to place extra weight on a table for balance while sitting
- trouble recognizing your own strength, eg pressing on a pen too hard when writing or not being able to gauge the force needed to pick something up
There are several means by which physiotherapists can assess proprioception, depending on the body part being assessed. The include:
- Romberg test
- Heel-shin. The patient is asked to touch the heel of one foot to the opposite knee and then to drag their heel in a straight line all the way down the front of their shin and back up again. In order to eliminate the effect of gravity in moving the heel down the shin, this test should always be done in the supine position.
- Ataxia. Best revealed if the examiner's finger is held at the extreme of the patient's reach, and if the examiner's finger is occasionally moved suddenly to a different location.
- Finger—nose—finger test. The patient is asked to alternately touch their nose and the examiner's finger as quickly as possible
- Walking in a straight line
- Distal proprioception test. The tester will move the joints of the hip, knee ankle and big toe up and down while you watch. You then ask the client to repeat the same movement with your eyes closed.
Learning New Skills[edit | edit source]
Proprioception is what allows someone to learn to walk in complete darkness without losing balance. During the learning of any new skill, sport, or art, it is usually necessary to become familiar with some proprioceptive tasks specific to that activity. Without the appropriate integration of proprioceptive input, an artist would not be able to brush paint onto a canvas without looking at the hand as it moved the brush over the canvas; it would be impossible to drive an automobile because a motorist would not be able to steer or use the foot pedals while looking at the road ahead; a person could not touch type or perform ballet; and people would not even be able to walk without watching where they put their feet.
Physiotherapy - Training Proprioception[edit | edit source]
No matter the underlying cause physiotherapists can train clients with activities to improve motor skills, strength, and balance. Also they can help clients to learn how to manage daily tasks while living with proprioception dysfunction.
There is converging evidence that proprioceptive training can yield meaningful improvements in somatosensory and sensorimotor function[4]. Retraining of somatosensory function includes any interventions that addresses the remediation of the somatosensory modalities. Intervention methods include: education; repetitive practice and feedback in detecting, localising, discriminating, or recognising different sensory stimuli, pressure, or objects; proprioceptive training; balance training and somatosensory stimulation[5].
A 2019 review on Sensory retraining of the leg after stroke concluded that interventions used for retraining leg somatosensory impairment after stroke significantly improved somatosensory function and balance but not gait[5].
A 2005 systematic review of the Effect Of Proprioceptive and Balance Exercises on People With an Injured Or Reconstructed Anterior Cruciate Ligaments reported that proprioceptive and balance exercise improves outcomes in individuals with ACL-deficient knees[6]. Similarly a 2015 review of The effectiveness of proprioceptive training in preventing ankle sprains in sporting populations concluded that proprioceptive training programmes are effective at reducing the rate of ankle sprains in sporting participants, particularly those with a history of ankle sprain[7]
The effectiveness of physiotherapy treatment on balance dysfunction and postural instability in persons with Parkinson’s disease: a systematic review and meta-analysis in 2016 reported that physiotherapy interventions like balance training combined with muscle strengthening, range of movement and walking training exercise is effective in improving balance in patients with Parkinson’s disease. As propriocetion is part of balance training this would advocate proprioceptive retraining[8].
Techniques include
- exercises, such as balance exercises. Standing on a Balance board is often used to retrain or increase proprioception abilities, particularly as physical therapy for ankle or knee injuries.
- Tai Chi, which improves lower limb proprioception and Yoga, which improves balance and muscle strength. The slow, focused movements of Tai Chi practice provide an environment whereby the proprioceptive information being fed back to the brain stimulates an intense, dynamic "listening environment" to further enhance mind / body integration.
- somatosensory stimulation training, such as vibration therapy
See these great pages too
Neuromuscular Exercise Program
Developmental Coordination Disorder and Physical Activity
Sensorimotor Impairment in Neck Pain
References[edit | edit source]
- ↑ Guyton AC. Textbook of Medical Physiology. 8th ed. Philadelphia, PA WB Saunders; 1992.
- ↑ Suetterlin KJ, Sayer AA. Proprioception: where are we now? A commentary on clinical assessment, changes across the life course, functional implications and future interventions. Age and ageing. 2013 Nov 14;43(3):313-8. Available from: https://academic.oup.com/ageing/article/43/3/313/16765 (last accessed 31.10.19)
- ↑ W Deloriea Proprioceptors Available from: https://www.youtube.com/watch?v=Dzlkz8j-8rg ( last accessed 30.10.2019)
- ↑ Aman JE, Elangovan N, Yeh I, Konczak J. The effectiveness of proprioceptive training for improving motor function: a systematic review. Frontiers in human neuroscience. 2015 Jan 28;8:1075. Available from: https://www.ncbi.nlm.nih.gov/pmc/articles/PMC4309156/ (last accessed 31.10.2019)
- ↑ 5.0 5.1 Chia FS, Kuys S, Low Choy N. Sensory retraining of the leg after stroke: systematic review and meta-analysis. Clinical rehabilitation. 2019 Jun;33(6):964-79. Available from: https://journals.sagepub.com/doi/full/10.1177/0269215519836461 (last accessed 31.10,2019)
- ↑ Cooper RL, Taylor NF, Feller JA. A systematic review of the effect of proprioceptive and balance exercises on people with an injured or reconstructed anterior cruciate ligament. Research in sports medicine. 2005 Apr 1;13(2):163-78. Available from: https://www.tandfonline.com/doi/full/10.1080/15438620590956197 (last accessed 31.10.2019)
- ↑ Schiftan GS, Ross LA, Hahne AJ. The effectiveness of proprioceptive training in preventing ankle sprains in sporting populations: a systematic review and meta-analysis. Journal of Science and Medicine in Sport. 2015 May 1;18(3):238-44. Available from: https://www.jsams.org/article/S1440-2440(14)00074-7/fulltext (last accessed 31.10.2019)
- ↑ Yitayeh A, Teshome A. The effectiveness of physiotherapy treatment on balance dysfunction and postural instability in persons with Parkinson’s disease: a systematic review and meta-analysis. BMC sports science, medicine and rehabilitation. 2016 Dec;8(1):17. Available from: https://bmcsportsscimedrehabil.biomedcentral.com/articles/10.1186/s13102-016-0042-0 (last accessed 31.10.2019)
