Instrument Assisted Soft Tissue Mobilization: Difference between revisions

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== Introduction  ==
== Introduction  ==


Instrument Assisted Soft Tissue Mobilisation or Simply IASTM is a new range of tool which enables clinicians to efficiently locate and treat individuals diagnosed with soft tissue dysfunction. The technique itself is said to be a modern evolution from Traditional Chinese Medicine called Gua Sha<ref>Gua Sha.https://en.wikipedia.org/wiki/Gua_sha<nowiki/>.(accessed 06 July 2018).</ref>.However Gua Sha was not used to treat Musculoskeletal conditions but was traditionally applied along meridiens to move the bad chi out through the skin.IASTM is a is a procedure that is rapidly growing in popularity due to its effectiveness and efficiency while remaining non-invasive,with its own indications and limitations.<br>  
Instrument assisted soft tissue mobilization or simply IASTM  is a skilled myofascial intervention used for soft-tissue massage or mobilization. It is based on the principles of James Cyriax [[Cross friction massage|cross-friction massage]].<ref name=":1">Cheatham SW, Baker R, Kreiswirth E. [https://www.ncbi.nlm.nih.gov/pmc/articles/PMC6670063/ INSTRUMENT ASSISTED SOFT-TISSUE MOBILIZATION: A COMMENTARY ON CLINICAL PRACTICE GUIDELINES FOR REHABILITATION PROFESSIONALS.] International journal of sports physical therapy. 2019 Jul;14(4):670.</ref>


IASTM is performed with ergonomically designed instruments that detect and treat fascial restrictions, encourage rapid localization and effectively treat areas exhibiting soft tissue fibrosis, chronic inflammation, or degeneration. As in any Manual therapy treatment ,supplementation with exercises and additional modalities e.g. joint mobilization designed to correct biomechanical deficiencies by addressing musculoskeletal strength and muscle imbalances throughout the entire kinetic chain should be used in conjunction with IASTM.<br>  
It is applied using instruments that are usually made of stainless steel with beveled edges and contours that can conform to different body anatomical locations and allows for deeper penetration.<ref name=":2">Lambert M, Hitchcock R, Lavallee K, Hayford E, Morazzini R, Wallace A, Conroy D, Cleland J. The effects of instrument-assisted soft tissue mobilization compared to other interventions on pain and function: a systematic review. Physical Therapy Reviews. 2017 Mar 4;22(1-2):76-85.</ref>


== How does it work?<br> ==
A proposed description for IASTM is  “''Instrument assisted soft-tissue mobilization is a skilled intervention that includes the use of specialized tools to manipulate the skin, myofascia, muscles, and tendons by various direct compressive stroke techniques”.'' <ref name=":1" />
 
The technique itself is said to have evolved from Gua sha which is a method used in Chinese medicine.<ref>Nazari G, Bobos P, MacDermid JC, Birmingham T. The effectiveness of Instrument-Assisted soft tissue mobilization in athletes, participants without extremity or spinal conditions, and individuals with upper extremity, lower extremity, and spinal conditions: a systematic review. Archives of Physical Medicine and Rehabilitation. 2019 Sep 1;100(9):1726-51.</ref> Gua sha uses instruments with smoothed edges to scrape the skin till red blemishes occur. However Gua sha has a different rationale, goals and has a different application method from IASTM.<ref name=":1" /><br>
 
== How does it work?  ==


Instruments effectively break down fascial restrictions and scar tissue. The ergonomic design of these instruments provides the clinician with the ability to locate restrictions and allows the clinician to treat the affected area with the appropriate amount of pressure.<br>  
Instruments effectively break down fascial restrictions and scar tissue. The ergonomic design of these instruments provides the clinician with the ability to locate restrictions and allows the clinician to treat the affected area with the appropriate amount of pressure.<br>  
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The introduction of controlled microtrauma to affected soft tissue structure causes the stimulation of a local inflammatory response. Microtrauma initiates reabsorption of inappropriate fibrosis or excessive scar tissue and facilitates a cascade of healing activities resulting in remodeling of affected soft tissue structures. Adhesions within the soft tissue which may have developed as a result of surgery, immobilization, repeated strain or other mechanisms, are broken down allowing full functional restoration to occur.<ref>Fowler S, Wilson JK, Sevier TL.Innovative approach for the treatment of cumulative trauma disorders.Work 2000;15:9-14.</ref><ref>Julie K. Wilson, Thomas. Sevier, Robert Helfst,Eric W. Honing, and Aly Thomann. Comparison of Rehabilitation Methods in the Treatment of Patellar Tendinitis. J. Sport Rehabil. 2000;304-314.</ref><ref>Thomas L. Sevier, M.D. Gale M. Gehlsen, Ph.D. Sue A. Stover, P.T. Julie K.Wilson M.S.A. Form of Augmented Soft Tissue Mobilization In the Treatment of Lateral Epicondylitis.Medicine and science in sports and exercise.1995;27(5).</ref><br>  
The introduction of controlled microtrauma to affected soft tissue structure causes the stimulation of a local inflammatory response. Microtrauma initiates reabsorption of inappropriate fibrosis or excessive scar tissue and facilitates a cascade of healing activities resulting in remodeling of affected soft tissue structures. Adhesions within the soft tissue which may have developed as a result of surgery, immobilization, repeated strain or other mechanisms, are broken down allowing full functional restoration to occur.<ref>Fowler S, Wilson JK, Sevier TL.Innovative approach for the treatment of cumulative trauma disorders.Work 2000;15:9-14.</ref><ref>Julie K. Wilson, Thomas. Sevier, Robert Helfst,Eric W. Honing, and Aly Thomann. Comparison of Rehabilitation Methods in the Treatment of Patellar Tendinitis. J. Sport Rehabil. 2000;304-314.</ref><ref>Thomas L. Sevier, M.D. Gale M. Gehlsen, Ph.D. Sue A. Stover, P.T. Julie K.Wilson M.S.A. Form of Augmented Soft Tissue Mobilization In the Treatment of Lateral Epicondylitis.Medicine and science in sports and exercise.1995;27(5).</ref><br>  
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=== Indications<br>  ===
=== Indications   ===


*Limited motion  
*Limited motion  
*pain during motion  
*Pain during motion  
*motor control issues  
*Motor control issues  
*Muscle recruitment issues<br>
*Muscle recruitment issues<br>


=== Conditions for which IASTM is usually used:<br>  ===
=== Conditions For Which IASTM is Usually Used:   ===


*Medial Epicondylitis, [[Lateral Epicondylitis]]  
*[[Medial Epicondyle Tendinopathy|Medial Epicondylitis]], [[Lateral Epicondylitis]]  
*[[Carpal Tunnel Syndrome]]  
*[[Carpal Tunnel Syndrome]]  
*Neck Pain  
*Neck Pain  
*Plantar Fascitis  
*[[Plantar Fasciitis|Plantar Fascitis]]
*[[Rotator Cuff Tendinopathy|Rotator Cuff Tendinitis]]  
*[[Rotator Cuff Tendinopathy|Rotator Cuff Tendinitis]]  
*[[Patellar Tendinopathy|Patellar Tendinitis]]  
*[[Patellar Tendinopathy|Patellar Tendinitis]]  
*Tibialis Posterior Tendinitis  
*Tibialis Posterior Tendinitis  
*Heel Pain /Achilles Tendinitis  
*Heel Pain /Achilles Tendinitis  
*DeQuervain's Syndrome  
*[[De Quervain's Tenosynovitis|DeQuervain's Syndrome]]
*Post-Surgical and Traumatic Scars  
*Post-Surgical and Traumatic Scars  
*Myofascial Pain and Restrictions  
*Myofascial Pain and Restrictions  
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*RSD (Reflex Sympathetic Dystrophy)  
*RSD (Reflex Sympathetic Dystrophy)  
*Back Pain  
*Back Pain  
*Trigger Finger  
*[[Trigger Finger]]
*Hip Pain (Replacements)  
*Hip Pain (Replacements)  
*IT Band Syndrome  
*IT Band Syndrome  
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*Scars (Surgical, Traumatic)<br>
*Scars (Surgical, Traumatic)<br>


=== Contraindications<br>  ===
=== Contraindications   ===


*Compromised tissue integrity (open wound, infection, tumor)  
*Compromised tissue integrity (open wound, infection, tumor)  
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== IASTM Physiology &amp; Benefits  ==
== IASTM Physiology &amp; Benefits  ==


=== 1. Cellular Level<br> ===
=== 1. Physiological Mechanism  ===
 
Studies have addressed the benefits of IASTM at the '''cellular level'''. The inflammatory response initiated through micro trauma to the affected tissues result in increased fibroblast proliferation, collagen synthesis, maturation and the remodeling of unorganized collagen fiber matrix following IASTM application. Which result in breakdown of scar tissues, adhesions and facial restrictions.<ref name=":1" /><ref name=":2" />
 
Fibroblast is considered the most important cell in the extracellular matrix (ECM). The repair, regeneration and maintenance of soft tissue take place in the ECM. The fibroblast synthesizes the ECM, which includes collagen, elastin and proteoglycans, among many other essential substances. Fibroblasts have the ability to react as mechanotranducers, which means they are able to detect biophysical strain (deformation) such as compression, torque, shear and fluid flow, and create a mechanochemical response.
 
Gehlsen et al investigated the effects of 3 separate IASTM pressures on rat Achilles tendons.<ref>Gehlsen GM, Ganion LR, Helfst R.Fibroblast responses to variation in soft tissue mobilization pressure.Medicine science sports exercise.1999; 31(4):531-535.</ref> They concluded that fibroblast production is directly proportional to the magnitude of IASTM pressure used by the clinician. Davidson et al supported Gehlsen et al. by concluding that IM significantly increased fibroblast production in rat achilles tendons by using electron microscopy to analyze tissue samples following IM application.<ref name=":0">Davidson CJ, Ganion LR, Gehlsen GM, Verhoestra B, Roepke JE, Sevier TL.Rat tendon morphologic and functional changes resulting from soft tissue mobilisation.Medicine and science sport exercise.1997 Mar;29(3):313-9.</ref><br>Davidson et al. found morphologic changes in the rough endoplasmic reticulum following IM application.Thus, indicating micro trauma to damaged tissues, resulting in an acute fibroblast respons.<ref name=":0" />


Studies have&nbsp; addressed the benefits of IASTM at the cellular level. Benefits include increased fibroblast proliferation, reduction in scar<br>tissue, increased vascular response, and the remodeling of unorganized collagen fiber matrix following IASTM application. <br>
IASTM have a '''neurophysiological effect''' as it stimulates mechanosensitive neurons through skin deformation by the instrument.  Mechanosensitive neurons include mechanoreceptors which are responsible for two-point discrimination and mechano-nociceptors which are responsible for pain perception.  


Fibroblast is considered the most important cell in the extracellular matrix (ECM). The repair, regeneration and maintenance of soft tissue take place in the ECM. The fibroblast synthesizes the ECM, which includes collagen, elastin and proteoglycans, among many other essential substances. Fibroblasts have the ability to react as mechanotranducers, which means they are able to detect biophysical strain (deformation) such as compression, torque, shear and fluid flow, and create a mechanochemical response.<br>  
A study by Weiqing Ge, found the IASTM changed the neural activity of the large mechanoreceptor neurons affecting the two-point discrimination. Another study by Scott W. Cheatham et al, studies the effect of IASTM on DOMS (delayed onset muscle soreness) and the results found a decrease in the area of 2 point discrimination suggesting improved local tactile sense through mechanoreceptors stimulation and a decrease in the pain pressure threshold which suggest that light IASTM modulated the nociceptors ( small pain fibers) activity.<ref name=":3">Ge W, Roth E, Sansone A. [https://www.ncbi.nlm.nih.gov/pmc/articles/PMC5430267/ A quasi-experimental study on the effects of instrument assisted soft tissue mobilization on mechanosensitive neurons.] Journal of physical therapy science. 2017;29(4):654-7.</ref><ref>Cheatham SW, Kreiswirth E, Baker R. Does a light pressure instrument assisted soft tissue mobilization technique modulate tactile discrimination and perceived pain in healthy individuals with DOMS?. The Journal of the Canadian Chiropractic Association. 2019 Apr;63(1):18.</ref>


&nbsp;Gehlsen et al investigated the effects of 3 separate IASTM pressures on rat Achilles tendons.<ref>Gehlsen GM, Ganion LR, Helfst R.Fibroblast responses to variation in soft tissue mobilization pressure.Medicine science sports exercise.1999; 31(4):531-535.</ref> They concluded that fibroblast production is directly proportional to the magnitude of IASTM pressure used by the clinician.Davidson et al supported Gehlsen et al. by concluding that IM significantly increased fibroblast production in rat achilles tendons by using electron microscopy to analyze tissue samples following IM application.<ref name=":0">Davidson CJ, Ganion LR, Gehlsen GM, Verhoestra B, Roepke JE, Sevier TL.Rat tendon morphologic and functional changes resulting from soft tissue mobilisation.Medicine and science sport exercise.1997 Mar;29(3):313-9.</ref><br>Davidson et al. found morphologic changes in the rough endoplasmic reticulum following IM application.Thus, indicating micro trauma to damaged tissues, resulting in an acute fibroblast respons.<ref name=":0" />  
IASTM affects the '''vascular response''' to the injured soft tissue, through increasing the blood flow. As evident by Loghmani et al, who studied the effect of IASTM on the knee MCL in rats, and found increase in tissue perfusion and increase in the   proportion of arteriole-sized blood vessels in the treated leg.<ref name=":4">Kim J, Sung DJ, Lee J. [https://www.ncbi.nlm.nih.gov/pmc/articles/PMC5331993/ Therapeutic effectiveness of instrument-assisted soft tissue mobilization for soft tissue injury: mechanisms and practical application.] Journal of exercise rehabilitation. 2017 Feb;13(1):12.</ref>


=== 2. Clinical Benefits  ===
=== 2. Clinical Benefits  ===
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Studies have also showed clinical benefits of IASTM showing improvements in range of motion,strength and pain perception following treatment. Melham et al found that IASTM significantly improved range of motion in a college football player following 7 weeks of IASTM and physical therapy.<ref>Melham TJ, Sevier TL, Malnofski MJ, Wilson JK, Helfst RH Jr.Chronic ankle pain and fibrosis successfully treated with a new noninvasive augmented soft tissue mobilization technique (ASTM): a case report.Med Sci Sports Exerc.1998 Jun;30(6):801-804.</ref> Melham et al. found that scar tissue surrounding the lateral malleolus was reduced and remodeled structurally following IASTM application. Wilson et al found improvement in pain reduction and impairment scale&nbsp; at 6 &amp; 12 weeks following IASTM application for patellar tendonitis.<ref>Julie K. Wilson, Thomas. Sevier, Robert Helfst, Eric W. Honing, and Aly Thomann. Comparison of rehabilitation methods in the treatment of patellar tendinitis. Journal of sports rehabilitation.2000 Nov; 9(4)304-314.</ref><br>  
Studies have also showed clinical benefits of IASTM showing improvements in range of motion,strength and pain perception following treatment. Melham et al found that IASTM significantly improved range of motion in a college football player following 7 weeks of IASTM and physical therapy.<ref>Melham TJ, Sevier TL, Malnofski MJ, Wilson JK, Helfst RH Jr.Chronic ankle pain and fibrosis successfully treated with a new noninvasive augmented soft tissue mobilization technique (ASTM): a case report.Med Sci Sports Exerc.1998 Jun;30(6):801-804.</ref> Melham et al. found that scar tissue surrounding the lateral malleolus was reduced and remodeled structurally following IASTM application. Wilson et al found improvement in pain reduction and impairment scale&nbsp; at 6 &amp; 12 weeks following IASTM application for patellar tendonitis.<ref>Julie K. Wilson, Thomas. Sevier, Robert Helfst, Eric W. Honing, and Aly Thomann. Comparison of rehabilitation methods in the treatment of patellar tendinitis. Journal of sports rehabilitation.2000 Nov; 9(4)304-314.</ref><br>  


=== 3. Benefit to the therapist<br>  ===
=== 3. Benefit to the Therapist  ===


IASTM provide clinicians with a mechanical advantage, thus preventing over-use to the hands.Snodgrass SJ surveyed physical therapists and found that after spinal pain, the second most common cause for absenteeism from work was overuse of the thumb. Ninety-one percent of physiotherapists using some sort of massage had to modify their treatment techniques because of thumb pain.<ref>Suzanne J. Snodgrass, Darren A. Rivett. Thumb Pain in Physiotherapists: Potential Risk Factors and Proposed Prevention Strategies. Journal of Manual and Manipulative Therapy. 2013 Jul;10(4):206-217.</ref><br>  
IASTM provide clinicians with a mechanical advantage, thus preventing over-use to the hands, it provides deeper tissue penetration with less compressive forces to the interphangeal joints of the clinician’s hand.<ref name=":2" /> Snodgrass SJ surveyed physical therapists and found that after spinal pain, the second most common cause for absenteeism from work was overuse of the thumb. Ninety-one percent of physiotherapists using some sort of massage had to modify their treatment techniques because of thumb pain.<ref>Suzanne J. Snodgrass, Darren A. Rivett. Thumb Pain in Physiotherapists: Potential Risk Factors and Proposed Prevention Strategies. Journal of Manual and Manipulative Therapy. 2013 Jul;10(4):206-217.</ref>


==Types of Tools<br> ==
Also, it increases the vibratory perception of the physical therapist’s hand holding the instrument to altered soft tissue properties such as tissues restrictions or adhesions. So the therapist is able to detect soft tissue irregularities easier.<ref name=":3" />


== Types of Tools ==
There are different varieties of tools and companies with different treatment approaches and instrument design (material, shape etc) to perform IASTM, such as Graston®, Técnica Gavilán®, Hawk Grips®, Functional and Kinetic Treatment and Rehab (FAKTR)®, Adhesion Breakers® and Fascial Abrasion TechniqueTM.<br>
There are different varieties of tools and companies with different treatment approaches and instrument design (material, shape etc) to perform IASTM, such as Graston®, Técnica Gavilán®, Hawk Grips®, Functional and Kinetic Treatment and Rehab (FAKTR)®, Adhesion Breakers® and Fascial Abrasion TechniqueTM.<br>


Line 83: Line 94:
*'''Jade Tools '''- Much heavier and more slippery than the above tool.Can break easily if dropped.<br>  
*'''Jade Tools '''- Much heavier and more slippery than the above tool.Can break easily if dropped.<br>  
*'''Plastic tools'''- New in the market.Lots of design suited for Manual Therapy work.Largely used for training before upgrading to the next class of tools.<br>  
*'''Plastic tools'''- New in the market.Lots of design suited for Manual Therapy work.Largely used for training before upgrading to the next class of tools.<br>  
*'''Stainless Steel Tools'''- Best tools for IASTM.A must have tool for Physiotherapist .The tissue resonates well when the steel runs on it.Comes in different sizes for different parts of the body depending on the company producing it.
*'''Stainless Steel Tools'''- Best tools for IASTM. A must have tool for Physiotherapist .The tissue resonates well when the steel runs on it. Comes in different sizes for different parts of the body depending on the company producing it.


'''[https://www.amazon.com/Acupress-Genuine-Scraping-Acupuncture-Treatment/dp/B00URDYDEE Buffalo Horn IASTM Tools]'''<ref>Buffalo Horn IASTM.https://www.amazon.com/Acupress-Genuine-Scraping-Acupuncture-Treatment/dp/B00URDYDEE (Accessed 21st July 2018)</ref>
'''[https://www.amazon.com/Acupress-Genuine-Scraping-Acupuncture-Treatment/dp/B00URDYDEE Buffalo Horn IASTM Tools]'''<ref>Buffalo Horn IASTM.https://www.amazon.com/Acupress-Genuine-Scraping-Acupuncture-Treatment/dp/B00URDYDEE (Accessed 21st July 2018)</ref>


[https://www.amazon.com/Acupress-Genuine-Scraping-Acupuncture-Treatment/dp/B00URDYDEE][[File:Buffalo Horn IASTM.jpg|frameless]]
[https://www.amazon.com/Acupress-Genuine-Scraping-Acupuncture-Treatment/dp/B00URDYDEE][[File:Buffalo Horn IASTM.jpg|frameless]]
 
== Practical Application ==
IASTM can’t be done by itself, it must be combined with motion and strengthening program to enhance the tissues remodeling.
 
When IASTM is applied to goes through 6 steps
# Examination
# Warm up, warm up is done for 10-15 mins by light jogging, elliptical machine, stationary bike or an upper body ergometer
# IASTM, done at 30-60 degrees angle for 40-120 seconds
# Stretching, 3 reps for 30 seconds
# Strengthening, high repititions with low load exercise
# Cryotherapy, 10-20 min<ref name=":4" />
It is important to disinfect the instrument between patients to avoid transfer of infections. It is recommended to disinfect the instrument with intermediate-level disinfectants (e.g. isopropyl alcohol), then wash it with soap and water to remove any residuals of the chemical disinfectant off the instrument. If the tools contacts blood, bodily fluids, mucous membranes, or non-intact skin then disinfecting it with high-level disinfectant should be done.<ref name=":1" />
 
== References  ==
== References  ==


Revision as of 13:21, 31 October 2020

Original Editor - Mohamed Kassim Abdul Wahab

Top Contributors - Mohamed Kassim Abdul Wahab, Fatemah Ali Fairouz, Lilian Ashraf, Admin, Kim Jackson, Aminat Abolade, WikiSysop, Claire Knott, Lucinda hampton, 127.0.0.1, Tony Lowe and Laura Ritchie

Introduction[edit | edit source]

Instrument assisted soft tissue mobilization or simply IASTM  is a skilled myofascial intervention used for soft-tissue massage or mobilization. It is based on the principles of James Cyriax cross-friction massage.[1]

It is applied using instruments that are usually made of stainless steel with beveled edges and contours that can conform to different body anatomical locations and allows for deeper penetration.[2]

A proposed description for IASTM is  “Instrument assisted soft-tissue mobilization is a skilled intervention that includes the use of specialized tools to manipulate the skin, myofascia, muscles, and tendons by various direct compressive stroke techniques”. [1]

The technique itself is said to have evolved from Gua sha which is a method used in Chinese medicine.[3] Gua sha uses instruments with smoothed edges to scrape the skin till red blemishes occur. However Gua sha has a different rationale, goals and has a different application method from IASTM.[1]

How does it work?[edit | edit source]

Instruments effectively break down fascial restrictions and scar tissue. The ergonomic design of these instruments provides the clinician with the ability to locate restrictions and allows the clinician to treat the affected area with the appropriate amount of pressure.

The introduction of controlled microtrauma to affected soft tissue structure causes the stimulation of a local inflammatory response. Microtrauma initiates reabsorption of inappropriate fibrosis or excessive scar tissue and facilitates a cascade of healing activities resulting in remodeling of affected soft tissue structures. Adhesions within the soft tissue which may have developed as a result of surgery, immobilization, repeated strain or other mechanisms, are broken down allowing full functional restoration to occur.[4][5][6]

Indications[edit | edit source]

  • Limited motion
  • Pain during motion
  • Motor control issues
  • Muscle recruitment issues

Conditions For Which IASTM is Usually Used:[edit | edit source]

Contraindications[edit | edit source]

  • Compromised tissue integrity (open wound, infection, tumor)
  • Active implants (pacemaker, internal defibrillator, picc/pump lines)
  • Deep Vein Thrombosis (DVT)
  • Cervical carotid sinus

IASTM Physiology & Benefits[edit | edit source]

1. Physiological Mechanism[edit | edit source]

Studies have addressed the benefits of IASTM at the cellular level. The inflammatory response initiated through micro trauma to the affected tissues result in increased fibroblast proliferation, collagen synthesis, maturation and the remodeling of unorganized collagen fiber matrix following IASTM application. Which result in breakdown of scar tissues, adhesions and facial restrictions.[1][2]

Fibroblast is considered the most important cell in the extracellular matrix (ECM). The repair, regeneration and maintenance of soft tissue take place in the ECM. The fibroblast synthesizes the ECM, which includes collagen, elastin and proteoglycans, among many other essential substances. Fibroblasts have the ability to react as mechanotranducers, which means they are able to detect biophysical strain (deformation) such as compression, torque, shear and fluid flow, and create a mechanochemical response.

Gehlsen et al investigated the effects of 3 separate IASTM pressures on rat Achilles tendons.[7] They concluded that fibroblast production is directly proportional to the magnitude of IASTM pressure used by the clinician. Davidson et al supported Gehlsen et al. by concluding that IM significantly increased fibroblast production in rat achilles tendons by using electron microscopy to analyze tissue samples following IM application.[8]
Davidson et al. found morphologic changes in the rough endoplasmic reticulum following IM application.Thus, indicating micro trauma to damaged tissues, resulting in an acute fibroblast respons.[8]

IASTM have a neurophysiological effect as it stimulates mechanosensitive neurons through skin deformation by the instrument.  Mechanosensitive neurons include mechanoreceptors which are responsible for two-point discrimination and mechano-nociceptors which are responsible for pain perception.  

A study by Weiqing Ge, found the IASTM changed the neural activity of the large mechanoreceptor neurons affecting the two-point discrimination. Another study by Scott W. Cheatham et al, studies the effect of IASTM on DOMS (delayed onset muscle soreness) and the results found a decrease in the area of 2 point discrimination suggesting improved local tactile sense through mechanoreceptors stimulation and a decrease in the pain pressure threshold which suggest that light IASTM modulated the nociceptors ( small pain fibers) activity.[9][10]

IASTM affects the vascular response to the injured soft tissue, through increasing the blood flow. As evident by Loghmani et al, who studied the effect of IASTM on the knee MCL in rats, and found increase in tissue perfusion and increase in the   proportion of arteriole-sized blood vessels in the treated leg.[11]

2. Clinical Benefits[edit | edit source]

Studies have also showed clinical benefits of IASTM showing improvements in range of motion,strength and pain perception following treatment. Melham et al found that IASTM significantly improved range of motion in a college football player following 7 weeks of IASTM and physical therapy.[12] Melham et al. found that scar tissue surrounding the lateral malleolus was reduced and remodeled structurally following IASTM application. Wilson et al found improvement in pain reduction and impairment scale  at 6 & 12 weeks following IASTM application for patellar tendonitis.[13]

3. Benefit to the Therapist[edit | edit source]

IASTM provide clinicians with a mechanical advantage, thus preventing over-use to the hands, it provides deeper tissue penetration with less compressive forces to the interphangeal joints of the clinician’s hand.[2] Snodgrass SJ surveyed physical therapists and found that after spinal pain, the second most common cause for absenteeism from work was overuse of the thumb. Ninety-one percent of physiotherapists using some sort of massage had to modify their treatment techniques because of thumb pain.[14]

Also, it increases the vibratory perception of the physical therapist’s hand holding the instrument to altered soft tissue properties such as tissues restrictions or adhesions. So the therapist is able to detect soft tissue irregularities easier.[9]

Types of Tools[edit | edit source]

There are different varieties of tools and companies with different treatment approaches and instrument design (material, shape etc) to perform IASTM, such as Graston®, Técnica Gavilán®, Hawk Grips®, Functional and Kinetic Treatment and Rehab (FAKTR)®, Adhesion Breakers® and Fascial Abrasion TechniqueTM.

  • Buffalo Horn-These tools are used by chinese Gua Sha practitioner but can be used for IASTM too.However it does not resonate well. Quite cheap to obtain.
  • Jade Tools - Much heavier and more slippery than the above tool.Can break easily if dropped.
  • Plastic tools- New in the market.Lots of design suited for Manual Therapy work.Largely used for training before upgrading to the next class of tools.
  • Stainless Steel Tools- Best tools for IASTM. A must have tool for Physiotherapist .The tissue resonates well when the steel runs on it. Comes in different sizes for different parts of the body depending on the company producing it.

Buffalo Horn IASTM Tools[15]

[1]Buffalo Horn IASTM.jpg

Practical Application [edit | edit source]

IASTM can’t be done by itself, it must be combined with motion and strengthening program to enhance the tissues remodeling.

When IASTM is applied to goes through 6 steps

  1. Examination
  2. Warm up, warm up is done for 10-15 mins by light jogging, elliptical machine, stationary bike or an upper body ergometer
  3. IASTM, done at 30-60 degrees angle for 40-120 seconds
  4. Stretching, 3 reps for 30 seconds
  5. Strengthening, high repititions with low load exercise
  6. Cryotherapy, 10-20 min[11]

It is important to disinfect the instrument between patients to avoid transfer of infections. It is recommended to disinfect the instrument with intermediate-level disinfectants (e.g. isopropyl alcohol), then wash it with soap and water to remove any residuals of the chemical disinfectant off the instrument. If the tools contacts blood, bodily fluids, mucous membranes, or non-intact skin then disinfecting it with high-level disinfectant should be done.[1]

References[edit | edit source]

References will automatically be added here, see adding references tutorial.

  1. 1.0 1.1 1.2 1.3 1.4 Cheatham SW, Baker R, Kreiswirth E. INSTRUMENT ASSISTED SOFT-TISSUE MOBILIZATION: A COMMENTARY ON CLINICAL PRACTICE GUIDELINES FOR REHABILITATION PROFESSIONALS. International journal of sports physical therapy. 2019 Jul;14(4):670.
  2. 2.0 2.1 2.2 Lambert M, Hitchcock R, Lavallee K, Hayford E, Morazzini R, Wallace A, Conroy D, Cleland J. The effects of instrument-assisted soft tissue mobilization compared to other interventions on pain and function: a systematic review. Physical Therapy Reviews. 2017 Mar 4;22(1-2):76-85.
  3. Nazari G, Bobos P, MacDermid JC, Birmingham T. The effectiveness of Instrument-Assisted soft tissue mobilization in athletes, participants without extremity or spinal conditions, and individuals with upper extremity, lower extremity, and spinal conditions: a systematic review. Archives of Physical Medicine and Rehabilitation. 2019 Sep 1;100(9):1726-51.
  4. Fowler S, Wilson JK, Sevier TL.Innovative approach for the treatment of cumulative trauma disorders.Work 2000;15:9-14.
  5. Julie K. Wilson, Thomas. Sevier, Robert Helfst,Eric W. Honing, and Aly Thomann. Comparison of Rehabilitation Methods in the Treatment of Patellar Tendinitis. J. Sport Rehabil. 2000;304-314.
  6. Thomas L. Sevier, M.D. Gale M. Gehlsen, Ph.D. Sue A. Stover, P.T. Julie K.Wilson M.S.A. Form of Augmented Soft Tissue Mobilization In the Treatment of Lateral Epicondylitis.Medicine and science in sports and exercise.1995;27(5).
  7. Gehlsen GM, Ganion LR, Helfst R.Fibroblast responses to variation in soft tissue mobilization pressure.Medicine science sports exercise.1999; 31(4):531-535.
  8. 8.0 8.1 Davidson CJ, Ganion LR, Gehlsen GM, Verhoestra B, Roepke JE, Sevier TL.Rat tendon morphologic and functional changes resulting from soft tissue mobilisation.Medicine and science sport exercise.1997 Mar;29(3):313-9.
  9. 9.0 9.1 Ge W, Roth E, Sansone A. A quasi-experimental study on the effects of instrument assisted soft tissue mobilization on mechanosensitive neurons. Journal of physical therapy science. 2017;29(4):654-7.
  10. Cheatham SW, Kreiswirth E, Baker R. Does a light pressure instrument assisted soft tissue mobilization technique modulate tactile discrimination and perceived pain in healthy individuals with DOMS?. The Journal of the Canadian Chiropractic Association. 2019 Apr;63(1):18.
  11. 11.0 11.1 Kim J, Sung DJ, Lee J. Therapeutic effectiveness of instrument-assisted soft tissue mobilization for soft tissue injury: mechanisms and practical application. Journal of exercise rehabilitation. 2017 Feb;13(1):12.
  12. Melham TJ, Sevier TL, Malnofski MJ, Wilson JK, Helfst RH Jr.Chronic ankle pain and fibrosis successfully treated with a new noninvasive augmented soft tissue mobilization technique (ASTM): a case report.Med Sci Sports Exerc.1998 Jun;30(6):801-804.
  13. Julie K. Wilson, Thomas. Sevier, Robert Helfst, Eric W. Honing, and Aly Thomann. Comparison of rehabilitation methods in the treatment of patellar tendinitis. Journal of sports rehabilitation.2000 Nov; 9(4)304-314.
  14. Suzanne J. Snodgrass, Darren A. Rivett. Thumb Pain in Physiotherapists: Potential Risk Factors and Proposed Prevention Strategies. Journal of Manual and Manipulative Therapy. 2013 Jul;10(4):206-217.
  15. Buffalo Horn IASTM.https://www.amazon.com/Acupress-Genuine-Scraping-Acupuncture-Treatment/dp/B00URDYDEE (Accessed 21st July 2018)
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