Abstract
Background
Massage therapy is an important element of rehabilitation in the treatment of chronic low back pain (CLBP). The objective of this study was to determine the relative efficacy of massage therapy between traditional massage and a new massage approach for CLBP. We also examined whether any reduction in pain was linked to interoceptive awareness and parasympathetic activation.
Methods
A single-blind, randomized, controlled trial of 51 patients who were allocated into a traditional massage therapy group (TMG; N=24, mean age: 50.54±9.13 years) or experimental massage therapy group (SMG; N=27, mean age: 50.77±6.80 years). The primary outcome was the reduction in pain per the visual analog scale (VAS); the secondary outcome measures were multidimensional pain intensity on the McGill Pain Questionnaire, pain-related disability per the Waddel Disability Index, interoceptive awareness per the Multidimensional Assessment of Interoceptive Awareness Questionnaire, quality of life per the Short Form - 12 Health Survey, and heart rate variability, expressed as the coherence ratio (CR) by photoplethysmography. The following outcome measures were assessed at baseline, at the end of the treatment program, and at the 3-month follow-up. The mean and standard deviation were calculated for continuous data. Mann–Whitney U test was used to perform between-group comparisons, Friedman’s analysis was used for data on the 3 assessment times in each group, and Spearman’s R coefficient was used to analyze correlations.
Results
Both approaches had a positive result on pain, an effect that was more acute in the SMG versus TMG for all pain scales, with better maintenance at the 3-month follow-up (VAS p=0.005 and p=0.098; Waddell Index p=0.034 and 0.044; McGill total p=0.000 and 0.003). In the SMG, CR scores were significant at baseline and at the end of the treatment program (p=0.000 and 0.002).
Conclusion
The new massage approach with a preparatory phase that is pleasant to the touch was more effective than the traditional approach for CLBP.
Introduction
CLBP is one of the most common musculoskeletal problems in modern society. Between 70% and 80% of adults experience it at least once in their lives.Citation1 The management of CLBP comprises a range of strategies, including surgery, drug therapy, and rehabilitative interventions, such as massage therapy.Citation2 Massage therapy has the potential to minimize CLBP and accelerate the return to normal function.Citation3 The Ottawa Panel demonstrated that massage interventions affect short-term improvements in subacute and CLBP symptoms, decrease disability immediately after treatment, and provide short-term relief when combined with therapeutic exercise and education.Citation4 No clinically meaningful difference between relaxation and structural massage has been observed with regard to relieving disability or symptoms in CLBP.Citation5–Citation7
The benefits of massage therapy are enhanced when it is accompanied by routine physical therapy – particularly rehabilitative exercises – indicating that massage is an effective treatment for CLBP versus placebo and other active treatment options (such as relaxation), especially in the short term.Citation8–Citation10 A significant aspect of massage in CLBP is its ability to relax the patient, which has been linked to HRV. Specifically, short-term relaxation therapy improves autonomic balance and promotes cardiovascular health, decreasing HRV, correlating with blood pressure.Citation11,Citation12 HRV is often applied as an index of balance in the ANS; as a relaxation therapy, massage can improve autonomic balance and improve cardiovascular health by establishing a sympathovagal equilibrium, which can help a patient shape his perception of bodily signals.Citation13–Citation15
In CLBP, as in other chronic illnesses, fluctuations in physical symptoms and emotional states correlate with IA. Moreover, IA, which is one’s sense of the physiological condition of his body, might have significant function in mediating self-rated health, particularly in the perception of chronic pain.Citation16–Citation19 Poor access to bodily signals restricts a patient’s ability to integrate them during emotional processing, which, by extension, precludes optimal emotional SR.Citation20 In CLBP, the patient experiences reweighting of proprioceptive information, altered sensitivity to exteroceptive stimuli, and disrupted IA of the state of the body.Citation21 Also, pain-related changes in cortical areas that are allocated to pain sensation appear to experience stress, which could elicit pain memory.Citation22
Together, pain experiences and pain memory affect the maintenance of chronic pain.Citation23 People with chronic pain have difficulty directing their attention away from it; to this end, a mental strategy that incorporates focused attention and distraction with non-painful stimuli or a self-generated sub-nociceptive image positively modulates the perception of pain intensity.Citation24 Certain massage techniques, such as RMB, use touch and words to enhance body awareness of physical sensations and emotional states.Citation25
Based on these findings, the objective of our study was to determine the relative efficacy of a new massage therapy in reducing pain in CLBP as the primary outcome. Also, considering the lack of studies that have correlated CLBP with IA and HRV, our secondary purpose was to examine whether and how the decrease in pain is linked to IA and HRV by measuring the CR, which reflects the average stress that is experienced by patients. We hypothesized that a preparatory phase that is pleasant to the touch, before every session of the traditional massage treatment, directs the attention of the patient away from his pain, increasing the efficacy of massage in reducing pain.
Ethical approval and consent to participate
All participants signed informed consent forms after receiving detailed information on the study’s aims and procedures, as per the Declaration of Helsinki. Written consent for the use of the photographs in this study was obtained. This study was approved as a clinical trial (ClinicalTrials.gov identifier NCT02646280) and by the ethical committee of “Sapienza” University of Rome (registration number 3791/15).
Methods
This study was a single-blind, randomized, controlled trial that took place from July 2015 to January 2016. Patients were recruited from the outpatient rehabilitation clinic of Policlinico Umberto I Hospital, Rome. The inclusion criteria were patients aged between 30 and 60 years with a diagnosis of chronic nonspecific LBP for at least 3 months and VAS ≥3 in the last week. The exclusion criteria were acute LBP; LBP due to specific causes; concomitant rheumatic, neurological, or oncological disease; previous back surgery; severe cognitive impairments; and pregnancy.
Eligible patients were referred to a physiatrist who provided them with detailed information on the experimental protocol. A standardized, blinded assessment at baseline and at the follow-up was performed by the same examiner to minimize any potential bias when performing the clinical examination and recording the data. The examiner did not have access to the clinical or radiological examination results, maintaining the blinding and limiting the risk of biased observations.
Fifty-eight patients were screened, 51 of whom were enrolled and then randomized to the TMG (N=24, mean age: 50.54±9.13 years) or SMG (N=27, mean age: 50.77±6.80 years) at a 1:1 ratio, according to a computer-generated randomization list () using SPSS 10.1 (SPSS Inc., Chicago, IL, USA) through a random selection of 50% of cases. The allocation was concealed from the patients and examiner; patients were allocated according to a printed computer-generated list, and each number was covered with a patch by a researcher who was not involved in the patients’ assessments. The patches were removed successively after the inclusion of each patient into the study by another researcher who did not participate in the patient assessments, revealing the allocation. Conversely, the clinical assessor was unaware of the group allocation.
Figure 1 Flow chart of the study.
Sociodemographic and clinical data were collected at baseline. The following outcome measures were assessed at baseline (T0), at the end of the treatment program (T1), and at the 3-month follow-up (T2). HRV, based on CR, was measured only during the initial contact and at the last treatment session to detect any change in values after treatment and the T2.
Pain intensity was the primary outcome and was measured using the VAS.Citation26 The secondary outcome measures were multidimensional pain intensity per the MPQ,Citation27 pain-related disability per the Waddel Disability Index,Citation28 IA per the MAIA,Citation29 quality of life per the SF-12,Citation30,Citation31 and HRV expressed as CR using a photoplethysmograph (emWave software Heartmath HMA 6020).Citation32
The VAS is a psychometric tool that evaluates pain intensity from 0 to 10 (0= absence of pain and 10= severe pain). The patient expresses his pain intensity by indicating the point along a continuous line from 0 to 10 cm. The MPQ is a multidimensional scale that assesses clinical pain. It allows one to evaluate the sensory, affective, and emotional clinical condition of the patient regarding his pain. The questions are divided into 11 sensitive categories and 4 affective categories. The patient is asked to give a score from 0 to 3 for each category. The result of the test consists of 7 scores: PRIS somatosensory score (0–35.5), PRIA affective score (0–21.3), PRIE emotional score (0–4.60), Mixed Pain Rating Index score mixed (0–16.1), NWC (0–20), PPI (0–5), and S/A. We considered the total score (McGill Tot) to range from 0 to 78. The MPQ has been translated into many languages, including Italian.
The Waddel Disability Index is used to evaluate disability in CLBP regarding daily living activities. The questions, divided into 9 items, are answered with a yes or no response, with total scores ranging from 0 to 9 (>5 indicates significant disability). This index examines a patient’s autonomy with respect to lifting, sitting, standing, traveling, walking, sleeping, social life, sex life, and putting on footwear.
The MAIA multidimensional scale was used to assess IA and consists of 32 items, clustered into 8 subscales with a range of 0 to 5 (= greatest level of awareness) for each: N, ND, NW, AR, EA, SR, BL, and T.
The SF-12 is a multipurpose, short-form survey that comprises 12 questions, all of which are selected from the SF-36 Health Survey. The questions are combined to create 2 scales that determine physical and MH. The PCS is represented by 4 domains: physical function, PR, BP, and GH. The MCS is composed of MH, SF, RE, and VT. Physical and MH composite scores are computed using the scores on the 12 questions and range from 0 to 100 (worst and best health state, respectively).
HRV is a measurement of cardiac function and reflects heart–brain interactions and the dynamics of the ANS. A photoplethysmograph records HRV, which is usually influenced by various levels of stress,Citation33 and was used to assess patient compliance and behavior during contact (ie, when the physical therapist touched the patient’s back for the first time). Through software that analyzes heart signal patterns, we obtained a parameter, termed the CR, which detects the average stress that is experienced by patients. High CR values indicate greater coherence in the heart signal pattern and, consequently, a rise in HRV, which demonstrates the prevalence of the parasympathetic system (reduction in stress levels); in contrast, low values reflect decreased coherence in heart signal patterns and thus a declining HRV, which signifies the predominance of the sympathetic system (increase in stress levels).
All patients were instructed not to take any medications for low back pain (VAS <5) (eg, NSAIDs, muscle relaxants, antidepressants, and corticosteroids) during the study protocol and not to undergo other rehabilitation approaches (those who did so were dropped from the study). During the rehabilitation sessions, no patients reported any increase in pain. We excluded patients who attended fewer than 9 sessions.
All enrollees were subjected to contact before massage treatment to measure the basal CR, detected by photoplethysmography of a patient’s earlobe: with patient in the prone position, the examiner placed the palm of his hand on sore and painless lumbar regions (6 touches, 3 on each side). The examiner was blinded to the patient allocation.
We proposed 10 intervention rehabilitative sessions for each rehabilitation group, each lasting 30 min and performed 3 times per week.
The number of sessions and the time of each session were chosen, considering routine good clinical medical practice with respect to massage therapy for CLBPCitation8 and the SIMFER guidelines (http://www.simferweb.net).
Traditional rehabilitative massage program
We applied the following massage techniquesCitation34 to the lumbar region of patients in both groups (TMG and SMG) ():
touch surface (10 min): both hands held open with the fingers gliding slowly over the skin without pressure or direction.
Deep touch (5 min): both hands held open with the fingers gliding slowly over the skin, with increased pressure in the direction of the muscle bundles. “Touching” is the maneuver that begins and ends a massage session, consisting of slow and light movements with the surface of the palm making complete contact with the surface of the body. The PT must maintain balance on his feet and should not apply weight to the wrists during the massage.
Static pressure (5 min): with fists or the palms, compressions are performed perpendicularly to the surface of the muscle above the iliac wings, on the spinous processes, and on the vertebral facets.
Dynamic pressure (5 min): this technique is similar to static pressure, with the addition of slight friction against the surface of the skin.
Kneading (5 min): pinching and rolling (pince roulée) – a maneuver of detachment that affects the skin. The skin is lifted between the thumb and forefinger of both hands together or one hand for small areas, “walking” the index, middle, and ring fingers, as if testing the density of a soft substance.
Figure 2 Traditional rehabilitative massage program.
New rehabilitative massage program
Using the same massage techniques and durations, we added various elements:
a preparatory phase that was pleasant to the touch: at the beginning of each massage session, the patient was asked to sense the pleasant “contact” (comfortable warmth) of the therapist’s hands (slight pressure with the palm to the region of the back without pain). Then, the patient had to memorize the sensation of the pleasant touch and relaxation. Afterward, the PT asked the patient to “bind” the pleasant and pain-free sensation to the painful area. At this point, the PT touched the painful area of the back (). The session continued with traditional massage.
Language as therapy: to assess the patient’s ability to recount and describe what he felt during the massage. For example, in the initial treatment session, a patient might have been unable to perceive the sensation of heat throughout the painful lower back, perceiving it to be as “impenetrable as cement”. As the acceptance of and confidence in the massage and PT increase, the same patient reports his back as becoming “adaptable and as permeable as sand”, becoming able to feel the heat throughout his body. During the massage session, the patient had an active role, providing continuous feedback through dialog with the PT. The patient was actively involved in the treatment with regard to emotional and cognitive perception.
Figure 3 Preparatory phase to the massage.
The setting
The massage was performed by 2 PTs who had been trained in the massage treatment techniques for at least 3 years. The PTs alternated between treatment groups at a ratio of 1:1 (1 TMG, then 1 SMG) to avoid operator-dependent bias. The session was performed in a comfortable and quiet environment, with access to natural light, only in the presence of the PT and the patient. In the TMG, the patient was asked during the session to relax and communicate with the PT only if there were unpleasant sensations during the treatment.
Sample size calculation
Assuming an average reduction in pain of ~2 points in the experimental group (SMG) and ~1 point in the control group, as measured on the VAS, and a standard deviation of 1.5 and 0.75, respectively (obtained assuming a coefficient of variation of 75% of average reductions), we calculated a requirement of 17 patients per group (PASS Software©) by Student’s t-test, with a power of 80% and a 0.05 alpha error. With an estimated dropout rate of 10%, the minimum number of patients per group was 19. However, our cohort was larger (23 versus 27), because we wanted to respect the time limits of the enrollment per the ethics committee (from July 2015 to October 2015) and because we decided to enroll all patients who sought treatment at our clinic to avoid creating a wait list of untreated patients.
Statistical analysis
The mean and standard deviation were calculated for continuous data. Because clinical scale scores are ordinal measures, they were summarized using median and quartiles and are reported using box and whisker plots. Between-group comparisons were performed by Mann–Whitney U test, whereas within-group comparisons were made using Friedman’s analysis for data on the 3 assessment times in each group. All analyses were performed using SPSS v15. Spearman’s R coefficient was computed to analyze correlations. The critical alpha level was set to 0.05 for all analyses. Our approach also considered the minimal clinically important difference for VAS scores.Citation35 Patients who abandoned the protocol or refused to be retested at T1 or T2 were considered to have dropped out. Finally, we compared the number of subjects who maintained a meaningful clinical change in pain (30%),Citation36 quantified as a 1.5 cm shift on the VAS: for these analyses, the odds ratio (and the relevant 95% confidence interval) was computed by chi squared analysis, for which the p-value was considered to be statistically significant if it was <0.025, because this was a secondary-level analysis.
Results
Of the 58 patients who were screened, 51 were enrolled and randomized into 2 groups: 24 in the TMG and 27 in the SMG. In the TMG, 1 patient dropped out for job-related issues and did not complete the therapy sessions (<5 sessions) or tests (); thus, the statistical calculation was performed for a sample size of 23 patients in the TMG and 27 patients in the SMG. There were no significant differences in age, gender, or BMI at the initial assessment: the demographic and clinical characteristics are shown in (p>0.05 for all parameters). In addition, there were no statistically significant or clinically meaningful differences at baseline in terms of clinical scale scores between groups at baseline (p>0.05, Mann–Whitney U test). There were significant changes in the novel versus control group for most parameters at the end of the treatment by Friedman’s analysis (): in the SMG, p<0.001 for all parameters, whereas CR and SF-12 scores in the TMG were not significant.
Table 1 Demographic and clinical data of participants at baseline
Table 2 Data and statistical analyses
By Mann–Whitney U test, the SMG had better results: the CR was significant at T1 and T2 (p=0.000 and 0.002), and VAS and McGill PPI scores were significant only at T1 (p=0.005 and 0.013) (); further, the McGill Tot () and PRIA scores were significant at T1 and T2 (p=0.000 and 0.003 and p=0.001 and 0.002, respectively), as was the Waddel Index (p=0.034 and 0.044). Differences in McGill PRIS and PRIE scores were significant at T1 (p=0.005 and 0.025). MAIA scale scores differed significantly only at T1 for MAIA-N, MAIA-AR, and MAIA-Tot (p=0.045, 0.032, and 0.023 respectively). There were no significant differences in SF-12 scores between groups. Spearman’s R coefficient between VAS and CR was R=−0.289 (p=0.042) at T2 and R=−0.516 (p<0.001) at T1.
Figure 4 VAS at T0, T1, and T2 for the two groups for Mann–Whitney U test.
Abbreviations: VAS, visual analog scale; TMG, traditional massage therapy group; SMG, experimental massage therapy group; T0, baseline; T1, end of the treatment program; T2, 3-month follow-up.
Figure 5 McGill Pain Questionnaire (McGill Tot) at T0, T1, and T2 for the two groups for Mann–Whitney U test.
Abbreviations: TMG, traditional massage therapy group; SMG, experimental massage therapy group; Tot, total; T0, baseline; T1, end of the treatment program; T2, 3-month follow-up.
Finally, we compared the number of subjects who obtained a minimum clinically important change in VAS score (1.5 cm) that was maintained at T2. The odds ratio was 7.5 (95% confidence interval: 1.43–39.47), which was statistically significant (chi squared =6.802, p=0.0091).
Discussion
The results of our study are encouraging with regard to our hypothesis that a preparatory phase that is pleasant to the touch directs the attention of the patient away from pain; in combination with conventional techniques, this approach increases the efficacy of traditional massage in reducing chronic pain: the experimental treatment had an effect compared to the traditional treatment. Both approaches in the TMG and SMG mitigated pain in CLBP, but in the SMG, this improvement was much more acute compared with the TMG on all pain scales, with better maintenance at 3 months follow-up (Waddell Index, McGill PRIA, Tot, and NWC, as shown in ).
Considering that the minimal clinically important difference in pain on the VASCitation36 should be at least 1.5 cm for patients with subacute or CLBP, the SMG met this goal, in contrast to the TMG, as shown in .
Moreover, if we consider the body as a receptive surface, touch through massage can help rebuild inconsistent information between the algic region and CNS to overcome the somesthetic and kinesthetic inconsistency in chronic pain.Citation37 Other research has confirmed that increasing tactile and somatosensory stimuli during rehabilitation for CLBP reduces pain.Citation38 In CLBP, tactile processing is disrupted as a neglect-like syndrome;Citation39,Citation40 thus, the request by the PT to the patient to pay attention to how he perceives the massage in areas that are free of back pain and then move these pleasurable sensations to the painful area helps restore adequate tactile sensory perception and recognition for reintegration of total body perception.Citation41
Further, with regard to how chronic pain implies a decrease in parasympathetic activation,Citation42,Citation43 we noted a correlation between VAS score and CR, indicating that most patients relax in the hands of a PT and that the intensity of CLBP decreases to a greater extent, likely through better activation of the vagal system and a rebalancing between the sympathetic and parasympathetic systems (> CR in the SMG).
Also, IA changed for MAIA AR and N scores in the SMG versus TMG at T1: AR – the ability to sustain attention and control body sensation – and N – the awareness of uncomfortable, comfortable, and neutral body sensations – are important indices of the efficacy of the new massage approach.
As the body-self neuromatrix theory of pain states, the perception of painful stimuli does not result from the brain’s passive registration of tissue trauma but from its active generation of subjective experiences through a network of neurons, known as the neuromatrix.Citation44 For rehabilitation, is important to consider that the neuromatrix, the primary mechanism that generates the neural pattern that produces pain, is genetically determined but modified by sensory experience. In our study, this experience was represented by the preparatory phase that was pleasant to the touch, performed before every session of the traditional massage treatment to direct attention of the patient away from pain. Also, the body-self neuromatrix theory subserves major psychological dimensions that correlate with the IA.
With regard to the MPQ, the SMG experienced a significant reduction in the affective component, which is linked to tension, fear, and the autonomic characteristics of pain.
The SMG showed significant improvement in perceived quality of life on the SF-12 scale for physical and mental items, whereas the TMG did not experience any notable changes during treatment versus baseline. Patients in the SMG appeared to change their perception of pain more extensively, thereby improving their quality of life, even with intensive treatment protocols for shorter times.
One of the limitations of this study was that we did not use scales to assess mood or psychological profile at baseline. Also, it lacked a longer follow-up (>6 months) and a placebo group, preventing us from determining the true relative efficacy of the 2 rehabilitation approaches. Moreover, we cannot exclude the possibility of an attention bias that was related to the number of participants in the SMG versus the traditional approach.
Conclusion
A new massage technique with a preparatory phase that is pleasant to the touch directs the attention of the patient away from pain, with greater effects compared with the traditional treatment, consistent with the new theoretical framework for CLBP.
Author contributions
TP and MCV conceived the study, participated in its design and coordination, coordinated the training staff, and drafted the manuscript. GP participated in the protocol development. FZ and CT participated in the design and coordination of the study and GM collected the data. MI provided the statistical analysis and interpretation of the data. All authors contributed toward data analysis, drafting, and revising the manuscript and gave final approval of the version to be published.
Abbreviations
| ANS | = | autonomic nervous system |
| AR | = | attention regulation |
| BL | = | body listening |
| BP | = | bodily pain |
| BMI | = | body mass index |
| CLBP | = | chronic low back pain |
| CNS | = | central nervous system |
| CR | = | coherence ratio |
| EA | = | emotional awareness |
| GH | = | general health |
| HRV | = | heart rate variability |
| IA | = | interoceptive awareness |
| LBP | = | low back pain |
| MAIA | = | Multidimensional Assessment of Interoceptive Awareness Questionnaire |
| MCS | = | mental health scale |
| MH | = | mental health |
| min | = | minutes |
| MPQ | = | McGill Pain Questionnaire |
| N | = | noticing |
| ND | = | not distracting |
| NSAIDs | = | nonsteroidal anti-inflammatory drugs |
| NW | = | not worrying |
| NWC | = | number of words chosen |
| PCS | = | physical health scale |
| PPI | = | present pain intensity |
| PR | = | physical role |
| PRIA | = | pain rating index affective subscale |
| PRIE | = | pain rating index evaluative subscale |
| PRIS | = | pain rating index sensory subscale |
| PT | = | physiotherapist |
| RE | = | emotional role |
| RMB | = | Rosen Method Bodywork |
| S/A | = | report between sensory and affective dimension |
| SF-12 | = | Short Form - 12 Health Survey |
| SF | = | social function |
| SIMFER | = | Italian Society of Physical and Rehabilitation Medicine |
| SMG | = | experimental massage therapy group |
| SR | = | self-regulation |
| T | = | trusting |
| TMG | = | traditional massage therapy group |
| VAS | = | visual analog scale |
| VT | = | vitality |
Disclosure
The authors report no conflicts of interest in this work.
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