By Michael Haneline, DC, MPH (for RRS Education)
Study Title: Manipulation and mobilization for treating chronic low back pain: a systematic review and meta-analysis
Authors: Coulter I, Crawford C, Hurwitz E, Vernon H, Khorsan R, Suttorp Booth M, Herman PM.
Publication Information: The Spine Journal 2018; Jan 31. pii: S1529-9430(18)30016-0. doi: 10.1016/j.spinee.2018.01.013. [Epub ahead of print]
Spinal manipulation and mobilization for the treatment of back and neck pain have been the topic of several systematic reviews, with some suggesting that the evidence in support of the view that spinal manipulative therapy is superior to other standard treatments for chronic low back pain is sparse. On the other hand, more recent systematic reviews have reported that spinal manipulation and mobilization are “viable” options for treating pain.
The effectiveness of spinal manipulation and mobilization may be variable in certain circumstances, such as when there are differences in subjects’ duration of symptoms, in the way the intervention is administered, the comparator, as well as the types of outcomes reported. Despite this degree of variability among studies, manipulation and mobilization are still considered to be effective treatments when compared with other therapies.
The purpose of this systematic review was to unravel these differences and inconsistent findings by evaluating the research on the effectiveness of mobilization and manipulation for chronic non-specific low back pain according to:
- different symptom durations across the spectrum of chronicity
- variations in treatment techniques
- variations in comparators, and
- the impact on important patient-reported outcomes.
The literature search netted 7,360 citations; however, neck pain studies were included as part of another review, but were later removed and not reported here. After screening for inclusion and reviewing hundreds of full-text articles, a total of 64 publications on RCTs that reported on patients with chronic, non-specific low back pain were included in this systematic review:
Non-randomized studies were also considered in order to study safety issues and more pragmatic “real world” implications that are sometimes lost in RCTs.
Of the 25 unimodal studies, 60 percent utilized thrust interventions, 28 percent non-thrust, and 12 percent a combination of both.
Prescribed exercise was the most common intervention used in combination with a thrust or non-thrust intervention in the multimodal studies. Stretches, massage, ultrasound, education, and advice therapy were also prescribed, but less frequently.
The overall risk of bias was not considered serious for either the unimodal or multimodal studies, with only 16 percent and 11 percent of studies, respectively, receiving low-quality SIGN 50 scores.
Five of the 25 unimodal RCTs reported that no adverse events occurred during the study period, whereas two studies reported minor adverse events, e.g., worsening symptoms. One study reported that 2 percent of patients experienced serious adverse events, though none were determined to be treatment related. Furthermore, the frequency of adverse events in the control groups was not significantly different from the treatment groups. No information on adverse events was reported for the remaining 17 studies.
No serious adverse events were reported for the multimodal studies, although 10 of the studies failed to report on adverse events. Mild adverse events were reported in six studies, which included temporary soreness following treatment, tiredness, and worsening of existing complaints. However, none of the authors described how an event was determined to be adverse or how and when the data were collected.
Thrust Manipulation Compared to Mobilization
Meta-analysis showed that there was a larger reduction in pain from thrust and/or non-thrust interventions compared to an active comparator of exercise or physical therapy, and the difference was statistically significant. Notably, thrust interventions performed better than non-thrust for pain reduction. Specifically, thrust interventions resulted in a 10.75 points larger Visual Analog Scale score reduction than comparators, whereas non-thrust interventions only resulted in a 5.0-point larger reduction.
Clinical Application and Conclusions
The authors concluded that there is moderate-quality evidence in support of manipulation and mobilization in reducing pain and improving function for patients with chronic low back pain, with manipulation performing somewhat better than mobilization. Both therapies appear to be safe.
However, evidence concerning the efficacy of manipulation and mobilization compared to sham or no treatment on pain or disability is still lacking. This evidence gap is possibly related to the difficulties associated with implementing an acceptable sham manual intervention that can be successfully concealed from researchers and participants.
Clinical guidelines regarding manual therapies for chronic low back pain are somewhat different, depending on the country or region of origin. Spinal manipulation is recommended in most guidelines, whereas some do not recommend it. Why these inconsistencies exist, however, is unknown.1-3
The authors suggested that better-designed studies with more homogeneous groupings, clinically relevant patient-based outcomes, and larger clinical trials are still needed in order to inform practice decisions regarding spinal manipulation and mobilization for patients with chronic non-specific low back pain.
This was a systematic review that built upon previous systematic reviews of spinal manipulation and mobilization for chronic low back pain published through 2000.
Multiple databases were searched using a broad search strategy that did not limit the populations involved (i.e. the words chronic and non-specific were not used) and included practitioners from multiple professions. Furthermore, no limitations were placed on the types of controls or comparators used, the outcomes, or study designs.
To be included in the review, studies had to:
- include a population experiencing chronic, non-specific low back pain;
- utilize an intervention, with the involvement of a therapist, consisting of either (i) manipulation (thrust), (ii) mobilization (non-thrust), or (iii) a multimodal integrative practice including manipulation or mobilization components (multimodal program) if the observed effect could not be attributed directly to the thrust or non-thrust intervention;
- be compared with a sham treatment, no treatment, or other active therapies, such as exercise, physiotherapy, or physical therapy;
- be an RCT, involving adult human subjects age 18 years or older; and
- use at least one pain outcome measuring a reduction in pain intensity or severity, such as the visual analog scale (VAS) or numeric rating scale.
The retrieved articles were independently screened for eligibility by six reviewers using the study eligibility criteria. Any disagreements about whether a study should be included were resolved through discussion and consensus, or by an internal steering committee, if necessary. Similarly, six reviewers participated in data extraction and quality assessment of the included studies; the internal steering committee resolved any disputes, if necessary.
Reviewers used the Scottish Intercollegiate Guidelines Network (SIGN 50) checklist for RCTs to assess the risk of bias. External validity (i.e. relevance of findings to people outside the study) was assessed using the External Validity Assessment Tool (EVAT).
The primary outcome measures were for pain intensity, disability, and/or health-related quality of life (HRQoL).
Studies were categorized into the following subgroups:
- chronicity duration was greater than three months versus greater than 12 months,
- the intervention consisted of thrust (i.e. manipulation) versus non-thrust (i.e. mobilization), and
- the intervention was compared to a sham or no-treatment versus another active intervention.
The magnitude of effect of the included studies was estimated via the Hedges’ method. A negative effect size favors manipulation/mobilization over the comparison for a reduction in pain intensity or disability, whereas an increase in HRQoL represents a positive effect size indicating a benefit in manipulation/mobilization over the comparison.
Study Strengths / Weaknesses
This was a well-conducted systematic review that had several strengths, including:
A limitation of this review was the presence of clinical heterogeneity between study groups. The heterogeneity was due to several reasons: 1) chronic pain is a multifactorial condition that can be associated with a variety of medical disorders, 2) the condition is difficult to evaluate, and 3) the nature of the pain and its underlying pathophysiology are poorly understood.
Another reason for heterogeneity was the fact that there is considerable variance in the styles, techniques, and dosing/duration of manipulation and mobilization treatment.
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- Koes BW, van Tulder M, Lin CW, Macedo LG, McAuley J, Maher C. An updated overview of clinical guidelines for the management of non-specific low back pain in primary care. European spine journal. 2010; 19(12): 2075-94.
- Pillastrini P, Gardenghi I, Bonetti F, et al. An updated overview of clinical guidelines for chronic low back pain management in primary care. Joint, bone, spine: revue du rhumatisme. 2012; 79(2): 176-85.
- Cheng JS, Lee MJ, Massicotte E, et al. Clinical guidelines and payer policies on fusion for the treatment of chronic low back pain. Spine. 2011; 36(21 Suppl): S144-163.