Spinal Manipulation: Difference between revisions

No edit summary
No edit summary
Line 10: Line 10:
It is a intervention Physiotherapists have been employing since the beginning of physical therapy practice. However, physiotherapists providing spinal manipulations have come under the scrutiny of other professions even though manipulation is not exclusive to any one domain or profession. The APTA has created a page that delineates the difference between physical therapy manipulation and chiropractic manipulation<ref>APTA. [http://www.apta.org/StateIssues/Manipulation/ Manipulation/Mobilisation].  Available online at http://www.apta.org/StateIssues/Manipulation/</ref>. They have also published a manipulation education manual<ref>APTA. [http://www.apta.org/uploadedFiles/APTAorg/Educators/Curriculum_Resources/APTA/Manipulation/ManipulationEducationManual.pdf Manipulation fckLREducation Manual fckLRFor Physical Therapist fckLRProfessional Degree Programs].  Available online at http://www.apta.org/uploadedFiles/APTAorg/Educators/Curriculum_Resources/APTA/Manipulation/ManipulationEducationManual.pdf</ref>.
It is a intervention Physiotherapists have been employing since the beginning of physical therapy practice. However, physiotherapists providing spinal manipulations have come under the scrutiny of other professions even though manipulation is not exclusive to any one domain or profession. The APTA has created a page that delineates the difference between physical therapy manipulation and chiropractic manipulation<ref>APTA. [http://www.apta.org/StateIssues/Manipulation/ Manipulation/Mobilisation].  Available online at http://www.apta.org/StateIssues/Manipulation/</ref>. They have also published a manipulation education manual<ref>APTA. [http://www.apta.org/uploadedFiles/APTAorg/Educators/Curriculum_Resources/APTA/Manipulation/ManipulationEducationManual.pdf Manipulation fckLREducation Manual fckLRFor Physical Therapist fckLRProfessional Degree Programs].  Available online at http://www.apta.org/uploadedFiles/APTAorg/Educators/Curriculum_Resources/APTA/Manipulation/ManipulationEducationManual.pdf</ref>.


== Effects of Manipulations ==
== Neurophysiological Effects ==


Spinal manipulation is reported to have a number of different effects, the full breadth of these effects are not covered here. However, the relevant and evidenced effects are included below.


Spinal manipulation can also help to decrease spinal stiffness with a study showing a quarter of participants reporting spinal function as being improved as a direct result of the treatment <ref>Page, I. and Descarreaux, M. (2019) Effects of spinal manipulative therapy biomechanical parameters on clinical and biomechanical outcomes of participants with chronic thoracic pain: A randomised controlled experimental trial. BMC Musculoskeletal Disorders. [online] Available at: https://doi.org/10.1186/s12891-019-2408-4. [Accessed 23 May 2020]</ref>. Spinal manipulation is also widely reported to be able to provide short term pain relief for those suffering with spinal pain <ref name=":4">Pickar, J. (2002) Neurophysiological Effects of Spinal Manipulation. Spine Journal. 2(5) pp.357-371</ref>. A recent systematic review of 47 Randomised Control Trials covering 9211 participants reported that it is clinically better than sham therapies at providing short term pain and disability relief from chronic low back pain<ref>Rubinstein, S., Middelkoop, M., Assendelft, W., Boer, M. and Tulder, M. (2019) Benefits and harms of spinal manipulative therapy for the treatment of chronic low back pain: a systematic review and meta-analysis of randomised controlled trials. British Medical Journal. [Online] Available at: https://doi.org/10.1136/bmj.l689 [Accessed 23 May 2020]</ref>. A set of guidelines from the National Center for Complementary and Integrative Health, also reported that spinal manipulation can help to provide a pain relieving effect<ref>National Center for Complementary and Integrative Health (2019) Spinal Manipulation: What You Need To Know [online] Available at: https://www.nccih.nih.gov/health/spinal-manipulation-what-you-need-to-know [Accessed 23 May 2020]</ref>. This pain relief is thought to be caused by either neurophysiological changes or psychological effects:
An experimental body of evidence exists indicating that spinal manipulation impacts primary afferent neurons from paraspinal tissues, the motor control system and pain processing. Biomechanical changes caused by spinal manipulation are thought to have physiological consequences by means of their effects on the inflow of sensory information to the central nervous system
* Neurophysiological
Spinal Manipulations are thought to cause biomechanical changes within the spine, consequently causing physiological changes. It is thought that it can affect the  volume and nature of sensory information that the central nervous system receives<ref name=":4" />. This is because the spinal manipulation stimulates the golgi tendon organs and muscle spindle afferents<ref name=":4" />. Spinal manipulation is also thought to  alter motor neuron excitability and affect reflex neural outputs<ref name=":4" />.
* Psychological
The psychological aspect of spinal manipulations is commonly ignored in systematic reviews of the effects. However. it is known that spinal manipulations have a psychological effect on patients. A 2007 systematic review<ref>Williams, N., Hendry, M., Lews, R., Russel, I., Westmoreland, A. and Wilkinson, C. (2007) Psychological Response in Spinal Manipulation (PRISM): A systematic Review of Psychological Outcomes in Randomised Controlled Trials. Complementary Therapies in Medicine 15(4) pp.271-283</ref>, reviewed 12 relevant randomised control trials, it found that spinal manipulation improved pain and psychological outcomes when compared with verbal interventions.


A recent systematic review and meta-analysis assessing the effect of spinal manipulation and mobilization on cardiovascular parameters showed that spinal manipulations and mobilizations might significantly decrease systolic and diastolic Blood Pressure<ref>Gera C, Malik M, Kaur J, Saini M. [https://pubmed.ncbi.nlm.nih.gov/33005072/ A systematic review and meta-analysis on effect of spinal mobilization and manipulation on cardiovascular responses.] Hong Kong Physiotherapy Journal. 2020 Dec 6;40(02):75-87.</ref>.
* [[Muscle spindles|Muscle spindle]] afferents and [[Golgi Tendon Organ|Golgi tendon organ]] afferents are stimulated by spinal manipulation.
* Smaller-diameter sensory nerve fibers are likely activated, although this has not been demonstrated directly.
* Mechanical and chemical changes in the intervertebral foramen caused by a herniated intervertebral disc can affect the dorsal roots and dorsal root ganglia, but it is not known if spinal manipulation directly affects these changes.
* Individuals with herniated lumbar discs have shown clinical improvement in response to spinal manipulation.
* The phenomenon of central facilitation is known to increase the receptive field of central neurons, enabling either subthreshold or innocuous stimuli access to central pain pathways. One mechanism underlying the effects of spinal manipulation may be the manipulation's ability to alter central sensory processing by removing subthreshold mechanical or chemical stimuli from paraspinal tissues.
* Spinal manipulation is also thought to affect reflex neural outputs to both muscle and visceral organs. Substantial evidence demonstrates that spinal manipulation evokes paraspinal muscle reflexes and alters motoneuron excitability. <ref>Pickar JG. [https://pubmed.ncbi.nlm.nih.gov/14589467/ Neurophysiological effects of spinal manipulation.] The spine journal. 2002 Sep 1;2(5):357-71.Available: https://pubmed.ncbi.nlm.nih.gov/14589467/<nowiki/>(accessed 13.6.2021)</ref>


== Clinical Prediction Rule for Manipulation ==
== Clinical Prediction Rule for Manipulation ==
The following five factors are the criteria included in the five factor predictor rule for manipulation<ref>1. Fritz, Julie M. PT, PhD, ATC, Cleland, Joshua A. PT, PhD, OCS, FAAOMPT, and Childs, John D. PT, PhD, MBA, OCS, FAAOMPT, “Subgrouping Patients With Low Back Pain: Evolution of a Classification Approach to Physical Therapy,” Journal of Orthop Sports Physical Therapy 37, no. 6 (June 2007): 290-302.</ref> &nbsp;:<br>
Criteria included in the five factor predictor rule for manipulation<ref>1. Fritz, Julie M. PT, PhD, ATC, Cleland, Joshua A. PT, PhD, OCS, FAAOMPT, and Childs, John D. PT, PhD, MBA, OCS, FAAOMPT, “Subgrouping Patients With Low Back Pain: Evolution of a Classification Approach to Physical Therapy,” Journal of Orthop Sports Physical Therapy 37, no. 6 (June 2007): 290-302.</ref> &nbsp;:


*Pain lasting less than 16 days
# Pain lasting less than 16 days
# No symptoms distal to the knee
# [[Fear‐Avoidance_Belief_Questionnaire|FABQ]] score less than 19
# Internal Rotation of greater than 35 degrees for at least one hip
# Hypomobility of a least one level of the lumbar spine


*No symptoms distal to the knee
Note: The patients that received the most benefit from spinal manipulation for LBP are those that met at least four out of the five criteria for spinal manipulation.The positive likelihood ratio for those exhibiting four out of five of the factors is 24.3<ref name="Flynn-CPR">Flynn T, Fritz J, Whitman J, et al. A clinical prediction rule for classifying patients with low back pain who demonstrate short-term improvement with spinal manipulation. Spine. 2002;27(24):2835-2843.</ref>&nbsp;<br>Two most important identifiers for manipulation are:&nbsp;<ref name="2 Predictors">Fritz JM, Brennan GP, Leaman H. Does the evidence for spinal manipulation translate into better outcomes in routine clinical care for patients with occupational low back pain? A case-control study. Spine J. 2006;6(3):289-295.</ref>


*[[Fear‐Avoidance_Belief_Questionnaire|FABQ]] score less than 19
# Pain lasting less than 16 days
# No symptoms distal to the knee&nbsp;


*Internal Rotation of greater than 35 degrees for at least one hip
The following six factors are the criteria for immediate responders to cervical manipulation:<ref name=":0">Tseng Y, Wang W, Chen W, Hou T, Chen T, Lieu F. Predictors for the immediate responders to cervical manipulation in patients with neck pain. Manual Therapy. 2006;11(4):306-315.</ref>


*Hypomobility of a least one level of the lumbar spine
# Initial scores on [[Neck Disability Index]] <11.50
# Having bilateral involvement pattern
# Not performing sedentary work >5 h/day
# Feeling better while moving the neck
# Without feeling worse while extending the neck
# Diagnosis of [[Cervical Spondylosis|Spondylosis]] without Radiculopathy


The patients that received the most benefit from spinal manipulation for LBP are those that met at least four out of the five criteria for spinal manipulation.The positive likelihood ratio for those exhibiting four out of five of the factors is 24.3<ref name="Flynn-CPR">Flynn T, Fritz J, Whitman J, et al. A clinical prediction rule for classifying patients with low back pain who demonstrate short-term improvement with spinal manipulation. Spine. 2002;27(24):2835-2843.</ref>&nbsp;<br> However, the two most important identifiers for manipulation are:&nbsp;<ref name="2 Predictors">Fritz JM, Brennan GP, Leaman H. Does the evidence for spinal manipulation translate into better outcomes in routine clinical care for patients with occupational low back pain? A case-control study. Spine J. 2006;6(3):289-295.</ref><br>
*Pain lasting less than 16 days
*No symptoms distal to the knee&nbsp;
The following six factors are the criteria for immediate responders to cervical manipulation:<ref name=":0">Tseng Y, Wang W, Chen W, Hou T, Chen T, Lieu F. Predictors for the immediate responders to cervical manipulation in patients with neck pain. Manual Therapy. 2006;11(4):306-315.</ref>
* Initial scores on [[Neck Disability Index]] <11.50
* Having bilateral involvement pattern
* Not performing sedentary work >5 h/day
* Feeling better while moving the neck
* Without feeling worse while extending the neck
* Diagnosis of [[Cervical Spondylosis|Spondylosis]] without Radiculopathy
The presence of four or more of these predictors increased the probability of success with manipulation to 89%<ref name=":0" />.
The presence of four or more of these predictors increased the probability of success with manipulation to 89%<ref name=":0" />.


Revision as of 00:32, 13 June 2021

Original Editor - Stacey Jones and Ashley Gunzenhauser. Top Contributors - Admin, Stacey Jones, Ashley Gunzenhauser, Christian Stamou, Eric Robertson, Lucinda hampton, Alistair Husband, Kim Jackson, Rachael Lowe, Rob Dent, Vidya Acharya, Dana Tew, Mariam Hashem, WikiSysop, Tarina van der Stockt, Kai A. Sigel, 127.0.0.1, Anke Jughters and Lisa Pernet

Description[edit | edit source]

Spinal manipulation is a technique that treats back pain, neck pain and other musculoskeletal conditions via the application of force to the spinal joints, with the idea being that such treatment of dysfunctional areas in the spine can restore the spine’s structural integrity, reduce pain and initiate the body’s natural healing processes[1].

It is a intervention Physiotherapists have been employing since the beginning of physical therapy practice. However, physiotherapists providing spinal manipulations have come under the scrutiny of other professions even though manipulation is not exclusive to any one domain or profession. The APTA has created a page that delineates the difference between physical therapy manipulation and chiropractic manipulation[2]. They have also published a manipulation education manual[3].

Neurophysiological Effects[edit | edit source]

An experimental body of evidence exists indicating that spinal manipulation impacts primary afferent neurons from paraspinal tissues, the motor control system and pain processing. Biomechanical changes caused by spinal manipulation are thought to have physiological consequences by means of their effects on the inflow of sensory information to the central nervous system

  • Muscle spindle afferents and Golgi tendon organ afferents are stimulated by spinal manipulation.
  • Smaller-diameter sensory nerve fibers are likely activated, although this has not been demonstrated directly.
  • Mechanical and chemical changes in the intervertebral foramen caused by a herniated intervertebral disc can affect the dorsal roots and dorsal root ganglia, but it is not known if spinal manipulation directly affects these changes.
  • Individuals with herniated lumbar discs have shown clinical improvement in response to spinal manipulation.
  • The phenomenon of central facilitation is known to increase the receptive field of central neurons, enabling either subthreshold or innocuous stimuli access to central pain pathways. One mechanism underlying the effects of spinal manipulation may be the manipulation's ability to alter central sensory processing by removing subthreshold mechanical or chemical stimuli from paraspinal tissues.
  • Spinal manipulation is also thought to affect reflex neural outputs to both muscle and visceral organs. Substantial evidence demonstrates that spinal manipulation evokes paraspinal muscle reflexes and alters motoneuron excitability. [4]

Clinical Prediction Rule for Manipulation[edit | edit source]

Criteria included in the five factor predictor rule for manipulation[5]  :

  1. Pain lasting less than 16 days
  2. No symptoms distal to the knee
  3. FABQ score less than 19
  4. Internal Rotation of greater than 35 degrees for at least one hip
  5. Hypomobility of a least one level of the lumbar spine

Note: The patients that received the most benefit from spinal manipulation for LBP are those that met at least four out of the five criteria for spinal manipulation.The positive likelihood ratio for those exhibiting four out of five of the factors is 24.3[6] 
Two most important identifiers for manipulation are: [7]

  1. Pain lasting less than 16 days
  2. No symptoms distal to the knee 

The following six factors are the criteria for immediate responders to cervical manipulation:[8]

  1. Initial scores on Neck Disability Index <11.50
  2. Having bilateral involvement pattern
  3. Not performing sedentary work >5 h/day
  4. Feeling better while moving the neck
  5. Without feeling worse while extending the neck
  6. Diagnosis of Spondylosis without Radiculopathy

The presence of four or more of these predictors increased the probability of success with manipulation to 89%[8].

Cervical Spine[edit | edit source]

The cervical region accounts for the vertebrae of C1-C7, and is the most upper region of the spine (the neck). The NICE guidelines [9] for non-specific neck pain make references to 2 types of manipulations that can be used. Firstly, the APTA actually recommend the use of Thoracic manipulations for neck pain first, however the guidelines also state that cervical manipulations can also be used on a patient with recent onset of neck pain. NICE guidelines state that Grade 5 manipulations for neck pain can be used either alone or in combination with other treatment methods such as strengthening and ROM exercises [9]. With guidelines stating that spinal manipulation for neck pain can be used by a qualified physiotherapist, it is important to look at the evidence around the effectiveness of cervical manipulations.

A systematic review including 27 RCTs (1522 participants) through Cochrane databases looked to assess if manipulation or mobilisation improves pain, function/disability, patient satisfaction, quality of life, and global perceived effect in adults with acute,sub-acute and chronic neck pain with or without cervicogenic headache or radicular findings[10]. The review's key findings concluded that for Cervical manipulations alone:

  • There is moderate quality evidence (two trials, 369 participants) that manipulation produces similar changes in pain, function and patient satisfaction when compared to mobilisation for subacute or chronic neck pain at short- and intermediate-term follow-up.
  • There is low quality evidence (three trials, 130 participants) that manipulation alone versus a control may provide immediate- and short-term pain relief following one to four treatment sessions in subjects with acute or chronic neck pain
  • Cervical manipulations are equivalent to certain medication (2 trials, 69 participants), acupuncture (2 trials, 81 participants), certain soft-tissue treatments (1 trial, 53 participants)
  • Evidence suggests manipulations are superior than TENS for individuals with chronic cervicogenic headaches.

Another systematic review was conducted on the effects of manipulations on neck disorders in order to create evidence based clinical guidelines for their use[11]. Based on the paper's findings:

  • There was indication that when manipulations are used in conjunction with other treatments (exercise, thermal modalities, patient education and rare use of a collar), the results favour this intervention.
  • There was inconclusive evidence to support the use of manipulation alone

The take away message is that cervical manipulations may be an effective short-term pain relief for patients with mechanical neck disorders, when used in conjunction with other treatment techniques. All research papers mentioned in this section support the NICE guidelines [9]advice on manipulation use for the cervical region.

[12]

Thoracic Spine[edit | edit source]

The thoracic region encompasses the verterbrae T1-T12, and is located in the middle region or thorax of the body. Unlike other areas of the spine, each of the vertebrae present has a rib attached to it, resulting in the the thoracic cage being attached to the Thoracic region of the spine. There is minimal evidence surrounding the use of thoracic manipulations for the relief of thoracic pain, but there is evidence for use in relief of neck pain and increasing respiratory function.

Neck Pain[edit | edit source]

As covered earlier, the NICE guidelines [9] recommend the use of thoracic spinal manipulation in conjunction with range of movement and strengthening exercises to help relieve neck pain. Their recommendation is based on the American Physical Therapy Association guidelines. The APTA guidelines [13] state that "For patients with acute neck pain with mobility deficits, there was a benefit compared to control for using multiple sessions of thoracic manipulation for reducing pain over the immediate and short term". They go on to further describe how the thoracic spinal manipulation provided a small improvement on pain, quality of life and function over an intermediate duration of time. Despite the recommendations by NICE and APTA, it is important to understand the limitations of thoracic spinal mobilisation, and how you can incorporate this technique into your management of patients neck pain.

One of the systematic reviews performed the current NICE and APTA guidelines, investigated how effective Thoracic Spine Manipulation was at reducing pain and disability in patients diagnosed with non-specific neck pain[14]. It included 10 RCTS with 677 patients, and found a high variance within the methodological quality of the RCTS included. Overall the review found insufficient evidence that Thoracic Spine Manipulation is more effective than control treatments. However it found that Thoracic Spine Manipulation has therapeutic benefit to some patients with neck pain, therefore should be considered for use in combination with other treatments for non-specific neck pain.

A systematic review performed in 2019 [15], looked at management of pain and disability from mechanical neck pain with the use of thoracic manipulations. It included 14 appropriate randomised control trials with a total of 885 participants, these participants were randomly assigned to either a thoracic manipulation group or a control (except for two RTCs, where they were used a comparison group using another method of neck pain management).

Overall the review concluded that thoracic spinal manipulation improves short term pain and disability and self assessed functionality when compared to thoracic mobilization, cervical mobilization and standard care. But not when compared to cervical manipulation or placebo thoracic manipulation. This review also concluded that the current overall quality of evidence ranged from very low to moderate when assessed using the GRADE approach.

Respiratory function[edit | edit source]

Although it hasn't been included in any NICE guidelines, Thoracic Spinal Manipulations have been shown to improve respiratory functionality. The British Thoracic Society [16] have published treatment guidelines, where they recommend the use of Thoracic Spinal Manipulations in conjunction with range of movement and strengthening exercises to help increase respiratory function.

A randomised control trial from 2016 [17]looked at the effect of Thoracic Spinal Manipulations on Forced vital capacity and Forced Expiratory Capacity, in young healthy individuals. They randomly and blindley allocated the 30 participants into two groups, one which received thoracic spinal manipulation the other received a placebo thoracic spinal manipulation, where an adjustment of technique meant that no force was applied and therefore no actual manipulation occurred.

The findings showed that post intervention there was a significant increase in FVC and FEV1 values in the experimental group (p<0.05). However, post intervention, the control group showed no increase in their FVC or FEV1 values. These results show that the Thoracic Spinal Manipulations have helped to improve the subjects' respiratory function.

Lumbar Spine[edit | edit source]

Spinal manipulation to the lumbar spine is a common intervention administered for patients with Low Back Pain (LBP). According to Honore et al. (2018), 63% of 984 LBP patients reported immediate pain improvements following spinal manipulation[18]. It has also been suggested that manipulations have demonstrated better outcomes compared to exercise, education, and other treatment interventions when investigating when assessing experimentally induced pain [19]

The findings from the systematic review by Honore et al. (2018) identified that spinal manipulations in the lumbar region have a significant effect on pain perception thresholds in asymptomatic participants, but there appears to be no significant difference between spinal manipulations and other treatment modalities (e.g. mobilisations, physical therapy or manipulation in another spinal region). They also identified that when manipulation was compared to a sham intervention that was credible, the results were more likely to be significant than when the sham intervention lacked credibility - therefore arguing against the placebo effect. As a result, this suggests Spinal manipulations are effective in improving PPT within asymptomatic participants [18]

The Lumbar spine is a common region that therapists use spinal manipulative therapy. A research study by Dorren et al. (2016) investigated whether a spinal manipulation to the lumbar region altered pressure pain threshold (PPT) and pinprick sensitivity (PPS). Their study involved asymptomatic participants (N=34) between the ages of 18-45 (average age = 24). A strict exclusion criteria was used to reduce the chance of bias influencing the results. The spinal manipulation was administered at L5/S1 region using the common hypothenar mammillary push. Significant effects were observed for PPS at the calf (P<0.05) and the lumbar spine (P<0.05) with weak effect sizes. However, significant increases in PPT were observed between baseline to 20 and 30 minutes at the calf, and 10, 20, and 30 minutes at the lumbar spine. Significant effects were also witnessed for PPS at the calf, lumbar spine and forehead. The results suggested significant decreases in PPS at the calf between baseline, 20 and 30 minutes whereas decreases were seen immediately, 10, 20 and 30 minutes for the lumbar spine. To conclude, this study observed significant increases in PPT at the lumbar spine and calf following a Lumbar Spine manipulation with effects lasting up to 30 minutes. Furthermore, PPS also decreased at each location with both outcome measures affecting A beta fibres. Therefore, it's possible to suggest Lumbar manipulations can reduce deep pressure sensitivity locally and in the lower limbs [20].


Some research has also been carried out to investigate the effects of spinal manipulations on increasing muscular strength in healthy individuals. Ngai et al. (2019) suggest that manipulations can improve motor responses by restoring physiological dynamics of adjacent vertebrae which consequently improves the function of the nervous system and promotes central facilitation [21]. The authors believe that manipulations would reduce trapped meniscoids, adhesion or distortions within the annulus fibrosus. After a strict exclusion criteria, only 3 studies remained which were all Randomised Control trials totalling 102 asymptomatic participants. When lumbar spinal manipulations were compared to low grade mobilisations (1-4 on the Maitland scale), and sham lumbosacral and thoracic manipulations. The authors found that manipulations are superior to no intervention and the sham treatments with a large effect size of 0.93 and increased isometric muscle strength in the neck, back and peripheral muscles [21].

Indication for LBP[edit | edit source]

The underlying pathological cause of low back pain (LBP) is only determined in about 15% of all cases. Because of this, there has been much confusion and debate about the best way to treat patients with LBP. There have been numerous studies done to determine the effectiveness of different treatment interventions for these patients. Evidence has been conflicting regarding the effectiveness of spinal manipulation as an intervention in this patient population. Spinal manipulative therapy is less effective than often assumed. The enthusiasm for this treatment as thé treatment for low back pain should be tempered. There is no evidence found that spinal manipulation is superior to other therapies such as back schools, physical therapy and exercises. But it is also not proven that these therapies are superior to spinal manipulation. So spinal manipulation is one of the several options for the treatment of patients with low back pain. The remark that all these findings are of modest effectiveness should be kept in mind[22].  Next to it, manipulations are found more effective in the acute than in the chronic cases of low back pain. It has to be noticed that manual therapy is only indicated in the acute cases which have a varied course[23].  On the other hand, it is proven that spinal manipulative therapy appears to be no better or worse than other existing therapies for patients with chronic low-back pain[24].

The best way of using the manipulations is in combination with other therapeutic modalities. There is evidence from a high quality study, that spinal manipulative therapy combined with exercise is more effective than other procedures like spinal manipulation, exercise or physician consultation alone[25].

Flynn et. al determined that patients that meet certain criteria were more likely to experience short-term improvements with spinal manipulation. A clinical prediction rule was developed in order to identify these patients with LBP who will most likely benefit from spinal manipulation. Spinal manipulation is a sub-group of the Treatment-Based Classification Approach for low back pain.

The use of spinal manipulation as part of treatment for low back pain is recommended by several clinical practice guidelines, including the New Zealand Guidelines for Acute Low Back Pain[26], and the recently published NICE guidelines[27].

Contra-indications[edit | edit source]

The following scenarios are contraindications to low back pain[28]  :

  • Any pathology that leads to significant bone weakening
  • Neurological: cord compression, cauda equina compression, nerve root compression with increasing neurological deficit
  • Vascular: aortic aneurysm, bleeding into joints
  • Lack of diagnosis 
  • Patient positioning can not be achieved because of pain or resistance.

Adverse Effects[edit | edit source]

Adverse effects are any unforeseen negative effects of the treatment. A few examples of serious adverse effects are included here. Therapists should have a good understanding of all the potential risks and adverse effects before using any therapeutic interventions.

  • Vertebral artery dissection [29]
  • Acute vertigo [29]
  • Cerebrovascular accidents [29]

As you can notice, almost all complications are found with patients who have been treated for a neck problem and not a thoracolumbar problem. A big question that remains unsolved is the incidence of adverse effects. The evidence behind the incidence of adverse effects is unknown. One paper based on weak evidence estimates serious complications being between 1 in 20,000 to 5 in 10,000,000[30].

Key Evidence[edit | edit source]

Fritz, Cleland, and Childs published an article in 2007 entitled "Subgrouping Patients With Low Back Pain: Evolution of a Classification Approach to Physical Therapy" which lays out the Treatment Based Classification Approach and explains the classification critia for the different intervention subgroups.

Spinal Manipulative Therapy for Low Back Pain (Cochrane Review)

Spinal Manipulative Therapy for Chronic Low Back Pain (Cochrane Review)

Resources[edit | edit source]

[31]
[32]

 Manipulation/Mobilisation - Facts about physiotherapy and spinal manipulation from the APTA 

References[edit | edit source]

  1. Spine Health Spinal Manipulation Available: https://www.spine-health.com/glossary/spinal-manipulation (accessed 13.6.2021)
  2. APTA. Manipulation/Mobilisation. Available online at http://www.apta.org/StateIssues/Manipulation/
  3. APTA. Manipulation fckLREducation Manual fckLRFor Physical Therapist fckLRProfessional Degree Programs. Available online at http://www.apta.org/uploadedFiles/APTAorg/Educators/Curriculum_Resources/APTA/Manipulation/ManipulationEducationManual.pdf
  4. Pickar JG. Neurophysiological effects of spinal manipulation. The spine journal. 2002 Sep 1;2(5):357-71.Available: https://pubmed.ncbi.nlm.nih.gov/14589467/(accessed 13.6.2021)
  5. 1. Fritz, Julie M. PT, PhD, ATC, Cleland, Joshua A. PT, PhD, OCS, FAAOMPT, and Childs, John D. PT, PhD, MBA, OCS, FAAOMPT, “Subgrouping Patients With Low Back Pain: Evolution of a Classification Approach to Physical Therapy,” Journal of Orthop Sports Physical Therapy 37, no. 6 (June 2007): 290-302.
  6. Flynn T, Fritz J, Whitman J, et al. A clinical prediction rule for classifying patients with low back pain who demonstrate short-term improvement with spinal manipulation. Spine. 2002;27(24):2835-2843.
  7. Fritz JM, Brennan GP, Leaman H. Does the evidence for spinal manipulation translate into better outcomes in routine clinical care for patients with occupational low back pain? A case-control study. Spine J. 2006;6(3):289-295.
  8. 8.0 8.1 Tseng Y, Wang W, Chen W, Hou T, Chen T, Lieu F. Predictors for the immediate responders to cervical manipulation in patients with neck pain. Manual Therapy. 2006;11(4):306-315.
  9. 9.0 9.1 9.2 9.3 Neck pain - non-specific - NICE CKS [Internet]. Cks.nice.org.uk. 2018 [cited 20 May 2020]. Available from: https://cks.nice.org.uk/neck-pain-non-specific#!scenario
  10. Gross A, Miller J, D'Sylva J, Burnie S, Goldsmith C, Graham N et al. Manipulation or Mobilisation for Neck Pain. Cochrane Database of Systematic Reviews. 2010;.
  11. Gross A, Kay T, Kennedy C, Gasner D, Hurley L, Yardley K et al. Clinical practice guideline on the use of manipulation or mobilization in the treatment of adults with mechanical neck disorders. Manual Therapy. 2002;7(4):193-205.
  12. Mid-Cervical manipulation [Internet]. 2014 [cited 21 May 2020]. Available from: https://www.youtube.com/watch?v=tNoE8dPZrCg
  13. Blanpied, R., Gross, R., Elliot, J., Devaney, L., Clewley, D., Walton, D., Spark, C., Robertson, E., Altman, R., Beattie, P., et al. (2017) Neck Pain: Revision 2017. Journal of Orthopaedic and Sports Physical Therapy [online] Available at: https://www.jospt.org/doi/10.2519/jospt.2017.0302 [Accessed 23 May 2020]
  14. Huisman, P., Speksnijder, C., and Wijer, A. (2013) The effect of thoracic spin manipulation on pain and disability in patients with non-specific neck pain: A systematic review. Disability and Rehabilitation. [online] Available at: https://doi.org/10.3109/09638288.2012.750689[Accessed 23 2020]
  15. Masaracchio, M., Kirker, K., States, R., Hanney, W., Liu, X. and Kolber, M. (2019) Thoracic spin manipulation for the management of mechanical neck pain: A systematic review and meta-analysis. Plos One. [online] Available at: https://doi.org/10.1371/journal.pone.0211877 [Accessed 23 May 2020]
  16. Bott, J., Blumenthal, S., Buxton, M., Ellum, S., Falconer, C., Garrod, R., Harvey, A., Hughes, T., Lincoln, M., Mikelsons, C. et al. (2009) Guidelines for the physiotherapy management of the adult, medical spontaneously breathing patient. Journal of the British Thoracic Society [online] Available at: https://dx.doi: 10.1136/thx.2008.110726 [Accessed 23 May 2020]
  17. Shin, D. and Lee, Y. (2016) The immediate effects of spinal thoracic manipulation on respiratory functions. Journal of Physical Therapy Science 28(9) pp. 2547-2549
  18. 18.0 18.1 Honore. M, Leboeuf-Yde. C, and Gagey. O (2018) The regional effects of spinal manipulation on the pressure pain threshold in asymptomatic subjects: a systematic review. Chirpractic and Manuel Therapies. 26: Article 11 [Online] Available at: https://link.springer.com/article/10.1186/s12998-018-0181-3 [Accessed 22nd May 2020]
  19. Coronado. R, Gay. C, Bialosky. J, Carnaby. G, Bishop. M and George. S (2012) Changes in Pain sensitivity following spinal manipulation: a systematic review and meta-analysis. Journal of Electromyography and Kinesiology. 22(5): 752-767
  20. Dorren. S, Losco. B, Drummond. P, and Walker. B (2016) Effect of Lumbar spinal manipulation on local and remote pressure pain threshold and pinprick sensitivity in asymptomatic individuals: a randomised control trial. Chiropractic and Manual Therapies. 24: 47. [Online] Available at: https://chiromt.biomedcentral.com/articles/10.1186/s12998-016-0128-5#citeas [Accessed 22nd May 2020]
  21. 21.0 21.1 Ngai et al. (2019) The effectiveness of Spinal manipulations in increasing muscle strength in healthy individuals: A systematic review. Available at: https://pubmed.ncbi.nlm.nih.gov/31126523/ [Accessed 22nd May 2020]
  22. Assendelft W.J.J., Morton S.C., Yu E.I., Suttorp M.J., Shekelle P.G. Spinal manipulative therapy for low-back pain (Review). The Cochrane Library 2008, Issue 4.
  23. Heijmans W.F.G.J., Hendriks H.J.M., van der Esch M., Pool-Goudzwaard A., Scholten-Peeters G.G.M., van Tulder M.W., de Wijer A. , de Wijer R.A.B. KNGF-richtlijn Manuele Therapie bij Lage-rugpijn. V-13/2006.
  24. Rubinstein SM, van Middelkoop M, Assendelft WJJ, de Boer MR, van Tulder MW. Spinal manipulative therapy for chronic low-back pain(Review). The Cochrane Library 2011, Issue 2.
  25. Rajadurai V, Murugan K. Spinal manipulative therapy for low back pain: A systematic review. Physical Therapy Reviews. 2009;14;4;260-271.
  26. ACC. New Zealand Guidelines for Low Back Pain, October 2004
  27. National Institute of Clinical Excellence. Low back pain: Early management of persistent non-specific low back pain, May 2009
  28. Gibbons P., Tehan P. Patient positioning and spinal locking for lumbar spine rotation manipulation. Manual Therapy. 2001;6;3;130±138.
  29. 29.0 29.1 29.2 Ernst, E. (2007) Adverse effects of spinal manipulation: a systematic review. Journal of the Royal Society of Medicine [online] Available at: https://doi.org/10.1177/014107680710000716 [Accessed on 24 May 2020]
  30. Gross A, Kay T, Kennedy C, Gasner D, Hurley L, Yardley K et al. Clinical practice guideline on the use of manipulation or mobilization in the treatment of adults with mechanical neck disorders. Manual Therapy. 2002;7(4):193-205.
  31. SIJ Mobilization for LBP. Available from: http://www.vimeo.com/9221987, last accessed 21/5/10
  32. Maitland Lumbar PAIVM (skeletal model)Available from: https://www.youtube.com/watch?v=t0OCzavA6SY


  

Retrieved from "https://www.physio-pedia.com/index.php?title=Spinal_Manipulation&oldid=276045"