Lumbar Traction in the Management of Low Back Pain: A Survey of Latest Results | ||
Luca Cavagnaro*, Marco Basso, Mattia Alessio Mazzola and Matteo Formica | ||
Orthopedic Clinic - University Hospital IRCCS San Martino - IST, National Institute for Cancer Research, Italy | ||
Corresponding Author : | Luca Cavagnaro Orthopedic Clinic - University Hospital IRCCS San Martino - IST National Institute for Cancer Research, Largo Rosanna Benzi, 10 16132 Genoa, Italy Tel: 393333011814 E-mail: cavagnaro.luca@libero.it | |
Introduction : Low back pain (LBP) is one of the most common complaints in the general population, affecting about 70-80% of the population at some point in life. LBP management comprises a wide range of different intervention strategies. One of the treatment options is traction therapy. The aim of our short review is to summarize and analyze the latest result reporting the use of lumbar traction in LBP treatment in order to evaluate the real effectiveness and indications of this specific physical therapy.
Materials and methods: A comprehensive search of PubMed, Medline, Cochrane, Embase, and Google Scholar databases was performed, covering the period between 2006 and 2013. 54 citations were obtained. Relevant data from each included study were extracted and recorded.
Results: A total of 14 studies were included in the review. Among these 14 studies, 11 were randomized clinical trials, 1 was a retrospective cohort study and 2 were case series. The majority of included studies used traction on patients that suffered nerve root compression symptoms. The mean number of traction sessions was 19. At most, the duration of each session was 30 min (range 3-30 min). The mean period of traction treatment was 6 weeks (range 3-12 weeks). 11 studies coupled with traction other therapies. Only 3 studies used traction as a single treatment. The mean follow up period was 16,5 weeks from the end of treatment.
Conclusion: Several biases can be introduced by limited quality evidence from the included studies. Lumbar traction seems to produce positive results in nerve root compression symptoms. Data in degenerative and discogenic pain are debatable. To date, the use of lumbar traction therapy alone in LBP management is not recommended by the best available evidence.
Materials and methods: A comprehensive search of PubMed, Medline, Cochrane, Embase, and Google Scholar databases was performed, covering the period between 2006 and 2013. 54 citations were obtained. Relevant data from each included study were extracted and recorded.
Results: A total of 14 studies were included in the review. Among these 14 studies, 11 were randomized clinical trials, 1 was a retrospective cohort study and 2 were case series. The majority of included studies used traction on patients that suffered nerve root compression symptoms. The mean number of traction sessions was 19. At most, the duration of each session was 30 min (range 3-30 min). The mean period of traction treatment was 6 weeks (range 3-12 weeks). 11 studies coupled with traction other therapies. Only 3 studies used traction as a single treatment. The mean follow up period was 16,5 weeks from the end of treatment.
Conclusion: Several biases can be introduced by limited quality evidence from the included studies. Lumbar traction seems to produce positive results in nerve root compression symptoms. Data in degenerative and discogenic pain are debatable. To date, the use of lumbar traction therapy alone in LBP management is not recommended by the best available evidence.
Keywords
Lumbar traction; Low back pain; Lumbar disc herniation; Lumbar disc disease; LBP; Physical therapy.
Introduction
Low back pain (LBP) is one of the most common complaints in the general population, affecting about 70-80% of the population at some point in life [1,2]. Moreover, LBP is a common cause of disability and work loss in developed countries, creating a large social and economic burden on society [3]. When we talk about low back pain, we have to deal with a great variety of clinical situations including acute, subacute(4 to 12 weeks) or chronic LBP. Furthermore, LBP can be due to several spine or “extra-spinal†diseases as nerve root compression, discogenic pain, rheumatologic or hip-related problems. The management of these conditions, that have to be clearly distinguished, comprises a wide range of different intervention strategies including surgery, drug therapy (NSAID’s, corticosteroids, opioid) and non-medical interventions (rest, physical therapy, ozone therapy). There are numerous clinical guidelines on LBP produced worldwide, yet lack of consensus about effectiveness [4,5]. Physiotherapy (PT) interventions for the management of LBP are wide and variable, but the efficacy of many is still questionable [6,7]. One of the treatment options is traction, which may be applied in many forms: motorized lumbar traction (traction applied by a motorized pulley), autotraction (the patient exerts the traction force through a pulling or pushing action), gravitational traction (traction through a suspension device), or manual traction (forces exerted by the therapist). The supposed mechanical effects of traction are vertebral separation and widening of intervertebral foramen in order to relieve pain and recover joint function by reducing pressure on discs or nerves [8-11]. Despite a huge number of systematic reviews regarding its efficacy in lumbar pain management [11-19], the evidence of traction use is still unclear. On the contrary, many surveys have shown its continued use: with 7% of the LBP patients in the Republic of Ireland and the UK [20], with 13.7% in Northern Ireland [21], 7% in the Netherlands[5,22] 21% in the United States [23], and up to 30% of patients with acute LBP and sciatica in Canada [24]. The aim of our short review is to summarize and analyze the latest result reporting the use of lumbar traction in LBP treatment in order to evaluate the real effectiveness and indications of this specific physical therapy.
Materials and Methods
A comprehensive search of PubMed, Medline, Cochrane, Embase, and Google Scholar databases was performed, covering the period between 2006 and 2013. We used various combinations of the following keywords: ‘‘lumbar traction,’’ ‘‘ low back pain,’’ ‘‘lumbar disc herniation,’’ “lumbar disc disease,†‘‘LBP,’’ and ‘‘physical therapy.’’ Each reference list from the identified articles was manually checked to verify that relevant articles were not missed. A total of 54 citations were obtained. The non–English-language studies were excluded. Biomechanical, cadaveric and preclinical studies were excluded as well. Reviews, case reports or case series reporting less than 20 cases were excluded. Flow diagram illustrates the number of studies that have been identified, included, and excluded and the reasons for exclusion (Figure 1). Further, each included study was evaluated for the following variables: study type, number of patients, type of LBP, traction mode, duration and frequency of sessions, traction position, weight applied, associated therapy and duration of follow up after treatment. Relevant data from each included study were extracted and recorded.
Results
A total of 14 studies published from 2006 to 2013 that reported clinical or radiological outcomes of lumbar traction treatment in LBP were finally included in the review. Among these 14 studies, 11 were randomized clinical trials [11,24-33], 1 was a retrospective cohort study [34] and 2 were case series [35,36]. The total number of patients included in our review is 1104. 12 studies were related specifically to nerve root compression symptoms [24-28,30,31,33-36], 6 took into account degenerative disc disease, mechanic pain, hypolordosis or generic “chronic low back pain†alone or in association with nerve root compression symptoms [11,25,29,32,33,35]. In 12 studies, motorized traction was used [11,24,26-30,32-36] when in 1 RTC manual traction was the declared physical therapy [25]. Inversion therapy was used only in one study [31]. In 8 studies, the preferred traction position was supine [11,27-29,32-34,36]. Patients were treated prone in 3 studies [26,30,35]. 1 prone vs supine position study was found in literature [25]. 1 RCT don’t declare the traction position [24]. The mean number of traction sessions was 19. At most, the duration of each session was 30 min (range 3-30 min). In almost all studies the duration of each session increased along with the number of session. The mean period of traction treatment was 6 weeks (range 3-12 weeks). The weight applied for traction was in a range between 5 kg and 60% of the body weight. Only 1 study increased the traction weight till patient’s tolerance [36]. Normally, traction weight increased along with the number of traction session. 11 studies coupled with traction other therapies (physiotherapy, manual therapy, US, hotpack, TENS, massage) [11,24-27,29-33,36]. Only 3 studies used traction as a single therapy [28,34,35]. The mean follow up period was 16,5 weeks from the end of treatment. Only 1 work evaluated patients at the end of treatment [34]. All included studies and their main features are resumed in Table 1.
Discussion
Acute and chronic LBP are complex disorders that must be managed with a multidisciplinary approach addressing physical and socioeconomic aspects of the illness. Medication and physical therapy methods including traction have proven to be useful adjuncts to an active program of exercise and education that promotes functional restoration [37].
Traction mechanism to relieve pain seems to separate the vertebrae, remove pressure or contact forces from injured tissue, increase peripheral circulation by a massage effect, and reduce muscle spasm [38]. The results of previous studies examining the efficacy of lumbar traction yielded conflicting results [6,39-41]. The aim of this short review is to discuss and analyze the latest result regarding lumbar traction in order to clarify some aspects of this specific and useful physical therapy.
The majority of included studies employed traction on patients that suffered nerve root compression symptoms (radiculopathy, sciatica, discogenic pain). Mustafa, in his randomized clinical trial, aims to investigate the effects of lumbar extension traction in patients with unilateral lumbosacral radiculopathy due to L5-S1 disc herniation. All patients has also hypolordotic lumbar spine (<39°). The control group received hot packs and interferential therapy, whereas the traction group received lumbar extension traction in addition to hot packs and interferential therapy. He concluded that traction group had better effects than the control one with regard to pain, disability, H-reflex parameters and segmental intervertebral movements [33]. Fritz et al. performed a RCT in order to identify a subgroup of patients with low back pain who are likely to respond favorably to an intervention including mechanical traction. The results of this study suggest this subgroup is characterized by the presence of leg symptoms, signs of nerve root compression, and either peripheralization with extension movements or a crossed straight leg raise [26]. Some years later, the same author conducted a preliminary study on 120 patients examining the effectiveness of a treatment protocol of mechanical traction with extension-oriented activities for patients with low back pain and signs of nerve root irritation. The authors proved that add traction to extension-oriented activities lead to a better clinical outcome. Moreover, they examine a validity of a subgrouping method based on the presence peripheralization of symptoms with extension movement and/or a positive crossed straight leg raise test. This screening will allows the identification of patients who could take advantage from traction therapy [30].
The use of mechanical traction in the management of patients with chronic low back pain/degenerative spine disorders has generally not been endorsed by evidence-based practice guidelines. Diab et al. aim to investigate the effects of lumbar extension traction with stretching and infrared radiation compared with stretching and infrared radiation alone on the lumbar curve, pain, and intervertebral movements of 80 patients with chronic mechanical low back pain (CMLBP). They stated that lumbar extension traction with stretching exercises and infrared radiation was statistically superior to stretching exercises and infrared radiation alone for improving the sagittal lumbar curve, pain, and intervertebral movement in CMLBP [11]. Beyki et al. compared the outcomes of prone and supine lumbar traction in patients with chronic discogenic low back pain. They noted that prone traction was associated with improvements in pain intensity and ODI scores at discharge but they cannot imply a long lasting relationship between the traction and outcomes [25].
Some studies tried to investigate the radiological (MRI or CT) outcome of lumbar traction therapy along with clinical ones. Unlu et al. compared the outcome of traction, ultrasound, and low-power laser (LPL) therapies by using magnetic resonance imaging and clinical parameters in patients with nerve root compression symptoms. 60 patients were randomly assigned into 1 of 3 groups equally according to the therapies applied. There were significant reductions in pain and disability scores between baseline and follow-up periods, but there was not a significant difference between the 3 treatment groups at any of the 4 interview times. There were significant reductions of size of the herniated mass on magnetic resonance imaging immediately after treatment, but no differences between groups [28]. Kamanli et al. measured the outcome of conservative physical therapy with traction, by using magnetic resonance imaging and clinical parameters in patients presenting with low back pain caused by lumbar disc herniation. Magnetic resonance imaging examinations were carried out before and 4-6 weeks after the treatment. There were significant improvement in clinical outcomes and significant increases in lumbar movements between baseline and follow-up periods. There were significant reductions of size of the herniated mass in five patients, and significant increase in 3 patients on magnetic resonance imaging after treatment, but no differences in other patients. These results suggest that clinical improvement is not correlated with the finding of MRI. Patients with lumbar disc herniation should be monitored clinically [36]. In 2006, Ozturk et al. investigated the effects of continuous lumbar traction in patients with lumbar disc herniation on clinical findings, and size of the herniated disc measured by computed tomography (CT). 46 patients with lumbar disc herniation were included, and randomized into two groups as the traction group (24 patients), and the control group (22 patients). The traction group was given a physical therapy program and continuous lumbar traction. The control group was given the same physical therapy program without traction, for the same duration of time. They achieved statistically relevant improvement in their reults concluding that lumbar traction is both effective in improving symptoms and clinical findings in patients with lumbar disc herniation and also in decreasing the size of the herniated disc material as measured by CT [24]. The goal of the study carried out by Apfel et al. was to determine if changes in LBP, as measured on a verbal rating scale, before and after a 6-week treatment period with non-surgical spinal decompression, correlate with changes in lumbar disc height, as measured on computed tomography (CT) scans. 30 patients were enrolled for this study. The concluded that non-surgical spinal decompression was associated with a reduction in pain and an increase in disc height. The correlation of these variables suggests that pain reduction may be mediated, at least in part, through a restoration of disc height. Nevertheless, authors stated that randomized controlled trials is needed to confirm these promising results [34].
The possibility of lumbar sagittal curve correction with 2 way lumbar traction has been described in literature [12]. In 2013, Diab et al. conducted an RCT to investigate the effect of extension on the , function and whole spine sagittal balance as represented in curvature, thoracic curvature, C7 plumb line, and sacral slope. Eighty patients with chronic mechanical (CMLBP) and definite hypolordosis were randomly assigned to or a control group. The control group (n=40) received stretching exercises and infrared radiation, whereas the traction group (n=40) received lumbar extension traction in addition to stretching exercises and infrared radiation three times a week for 10 weeks. They stated l extension in addition to stretching exercises and infrared radiation improved the spine sagittal balance parameters and decreased the and disability in chronic mechanical LBP.
In lumbar traction therapy, several factors has to be considered [32]. Among other (weight, number and duration of sessions, duration of treatment) the position of traction is of a paramount importance. No univocal results can be drawn from literature. 8 studies included in our review used supine traction position. According to these findings, the majority of studies found in literature employed supine position for traction therapy. Beattie et al. aim to determine outcomes after administration of a prone lumbar traction protocol in 296 consecutive patients with LBP and evidence of a degenerative and/or herniated intervertebral disk. Traction applied in the prone position for 8 weeks was associated with clinical improvements till the end of follow up (180 days after discharge). Obviously, causal relationships between these outcomes and the intervention should not be made until further study is performed using randomized comparison groups [35]. Only 1 study compared the efficacy of prone and supine lumbar traction. Beyki et al. performed a 4-week course of lumbar traction, prone or supine, in 124 patients randomly divided in case and control groups. Case group (prone traction) had statistically better clinical results compared to control group (supine traction) [25].
Separate mention has to be done for inversion therapy. In “Inversion†or “Backswingâ€, a tilt table is used and the weight of the entire upper half of the patient’s body assisted by gravity acts as the traction [42]. The traction forces here are likely to be more consistent and tailored to each patient than conventional traction. In our review, we detected only 1 study concerning inversion therapy. It was a prospective randomized controlled trial. 24 patients awaiting surgery for pure lumbar discogenic disease were allocated to either physiotherapy or physiotherapy and intermittent traction with an inversion device. Authors concluded that the association of inversion traction and physiotherapy resulted in a significant reduction in the need for surgery. Along with several supposed benefits, traction therapy has some adverse effects. These effects were in the main not of a serious nature (short-term exacerbation of symptoms, pain on release of traction, headache, difficulty relaxing). In contrast, episodes of cauda equina symptoms and hospitalization because of acute onset of pain are rare but possible complications [43,44].
This short review has several limitations. First of all, we included only English-language studies. Several biases can be introduced by quality of studies. Most of them were RCTs but in many cases authors don’t cleared the randomization protocol. Most of these studies enrolled few patients. In consequence, clear statistical results cannot be drawn. Follow up periods were too short. Lastly, the majority of included papers associated other therapies (physiotherapy, TENS, massage, US) to lumbar traction. This consideration created an heavy bias on the evaluation of traction benefits.
Traction mechanism to relieve pain seems to separate the vertebrae, remove pressure or contact forces from injured tissue, increase peripheral circulation by a massage effect, and reduce muscle spasm [38]. The results of previous studies examining the efficacy of lumbar traction yielded conflicting results [6,39-41]. The aim of this short review is to discuss and analyze the latest result regarding lumbar traction in order to clarify some aspects of this specific and useful physical therapy.
The majority of included studies employed traction on patients that suffered nerve root compression symptoms (radiculopathy, sciatica, discogenic pain). Mustafa, in his randomized clinical trial, aims to investigate the effects of lumbar extension traction in patients with unilateral lumbosacral radiculopathy due to L5-S1 disc herniation. All patients has also hypolordotic lumbar spine (<39°). The control group received hot packs and interferential therapy, whereas the traction group received lumbar extension traction in addition to hot packs and interferential therapy. He concluded that traction group had better effects than the control one with regard to pain, disability, H-reflex parameters and segmental intervertebral movements [33]. Fritz et al. performed a RCT in order to identify a subgroup of patients with low back pain who are likely to respond favorably to an intervention including mechanical traction. The results of this study suggest this subgroup is characterized by the presence of leg symptoms, signs of nerve root compression, and either peripheralization with extension movements or a crossed straight leg raise [26]. Some years later, the same author conducted a preliminary study on 120 patients examining the effectiveness of a treatment protocol of mechanical traction with extension-oriented activities for patients with low back pain and signs of nerve root irritation. The authors proved that add traction to extension-oriented activities lead to a better clinical outcome. Moreover, they examine a validity of a subgrouping method based on the presence peripheralization of symptoms with extension movement and/or a positive crossed straight leg raise test. This screening will allows the identification of patients who could take advantage from traction therapy [30].
The use of mechanical traction in the management of patients with chronic low back pain/degenerative spine disorders has generally not been endorsed by evidence-based practice guidelines. Diab et al. aim to investigate the effects of lumbar extension traction with stretching and infrared radiation compared with stretching and infrared radiation alone on the lumbar curve, pain, and intervertebral movements of 80 patients with chronic mechanical low back pain (CMLBP). They stated that lumbar extension traction with stretching exercises and infrared radiation was statistically superior to stretching exercises and infrared radiation alone for improving the sagittal lumbar curve, pain, and intervertebral movement in CMLBP [11]. Beyki et al. compared the outcomes of prone and supine lumbar traction in patients with chronic discogenic low back pain. They noted that prone traction was associated with improvements in pain intensity and ODI scores at discharge but they cannot imply a long lasting relationship between the traction and outcomes [25].
Some studies tried to investigate the radiological (MRI or CT) outcome of lumbar traction therapy along with clinical ones. Unlu et al. compared the outcome of traction, ultrasound, and low-power laser (LPL) therapies by using magnetic resonance imaging and clinical parameters in patients with nerve root compression symptoms. 60 patients were randomly assigned into 1 of 3 groups equally according to the therapies applied. There were significant reductions in pain and disability scores between baseline and follow-up periods, but there was not a significant difference between the 3 treatment groups at any of the 4 interview times. There were significant reductions of size of the herniated mass on magnetic resonance imaging immediately after treatment, but no differences between groups [28]. Kamanli et al. measured the outcome of conservative physical therapy with traction, by using magnetic resonance imaging and clinical parameters in patients presenting with low back pain caused by lumbar disc herniation. Magnetic resonance imaging examinations were carried out before and 4-6 weeks after the treatment. There were significant improvement in clinical outcomes and significant increases in lumbar movements between baseline and follow-up periods. There were significant reductions of size of the herniated mass in five patients, and significant increase in 3 patients on magnetic resonance imaging after treatment, but no differences in other patients. These results suggest that clinical improvement is not correlated with the finding of MRI. Patients with lumbar disc herniation should be monitored clinically [36]. In 2006, Ozturk et al. investigated the effects of continuous lumbar traction in patients with lumbar disc herniation on clinical findings, and size of the herniated disc measured by computed tomography (CT). 46 patients with lumbar disc herniation were included, and randomized into two groups as the traction group (24 patients), and the control group (22 patients). The traction group was given a physical therapy program and continuous lumbar traction. The control group was given the same physical therapy program without traction, for the same duration of time. They achieved statistically relevant improvement in their reults concluding that lumbar traction is both effective in improving symptoms and clinical findings in patients with lumbar disc herniation and also in decreasing the size of the herniated disc material as measured by CT [24]. The goal of the study carried out by Apfel et al. was to determine if changes in LBP, as measured on a verbal rating scale, before and after a 6-week treatment period with non-surgical spinal decompression, correlate with changes in lumbar disc height, as measured on computed tomography (CT) scans. 30 patients were enrolled for this study. The concluded that non-surgical spinal decompression was associated with a reduction in pain and an increase in disc height. The correlation of these variables suggests that pain reduction may be mediated, at least in part, through a restoration of disc height. Nevertheless, authors stated that randomized controlled trials is needed to confirm these promising results [34].
The possibility of lumbar sagittal curve correction with 2 way lumbar traction has been described in literature [12]. In 2013, Diab et al. conducted an RCT to investigate the effect of extension on the , function and whole spine sagittal balance as represented in curvature, thoracic curvature, C7 plumb line, and sacral slope. Eighty patients with chronic mechanical (CMLBP) and definite hypolordosis were randomly assigned to or a control group. The control group (n=40) received stretching exercises and infrared radiation, whereas the traction group (n=40) received lumbar extension traction in addition to stretching exercises and infrared radiation three times a week for 10 weeks. They stated l extension in addition to stretching exercises and infrared radiation improved the spine sagittal balance parameters and decreased the and disability in chronic mechanical LBP.
In lumbar traction therapy, several factors has to be considered [32]. Among other (weight, number and duration of sessions, duration of treatment) the position of traction is of a paramount importance. No univocal results can be drawn from literature. 8 studies included in our review used supine traction position. According to these findings, the majority of studies found in literature employed supine position for traction therapy. Beattie et al. aim to determine outcomes after administration of a prone lumbar traction protocol in 296 consecutive patients with LBP and evidence of a degenerative and/or herniated intervertebral disk. Traction applied in the prone position for 8 weeks was associated with clinical improvements till the end of follow up (180 days after discharge). Obviously, causal relationships between these outcomes and the intervention should not be made until further study is performed using randomized comparison groups [35]. Only 1 study compared the efficacy of prone and supine lumbar traction. Beyki et al. performed a 4-week course of lumbar traction, prone or supine, in 124 patients randomly divided in case and control groups. Case group (prone traction) had statistically better clinical results compared to control group (supine traction) [25].
Separate mention has to be done for inversion therapy. In “Inversion†or “Backswingâ€, a tilt table is used and the weight of the entire upper half of the patient’s body assisted by gravity acts as the traction [42]. The traction forces here are likely to be more consistent and tailored to each patient than conventional traction. In our review, we detected only 1 study concerning inversion therapy. It was a prospective randomized controlled trial. 24 patients awaiting surgery for pure lumbar discogenic disease were allocated to either physiotherapy or physiotherapy and intermittent traction with an inversion device. Authors concluded that the association of inversion traction and physiotherapy resulted in a significant reduction in the need for surgery. Along with several supposed benefits, traction therapy has some adverse effects. These effects were in the main not of a serious nature (short-term exacerbation of symptoms, pain on release of traction, headache, difficulty relaxing). In contrast, episodes of cauda equina symptoms and hospitalization because of acute onset of pain are rare but possible complications [43,44].
This short review has several limitations. First of all, we included only English-language studies. Several biases can be introduced by quality of studies. Most of them were RCTs but in many cases authors don’t cleared the randomization protocol. Most of these studies enrolled few patients. In consequence, clear statistical results cannot be drawn. Follow up periods were too short. Lastly, the majority of included papers associated other therapies (physiotherapy, TENS, massage, US) to lumbar traction. This consideration created an heavy bias on the evaluation of traction benefits.
Conclusion
To conclude, we identified 14 studies (11 RCTs, 1 retrospective cohort study and 2 were case series) that evaluated lumbar traction effects for patients with acute or chronic non-specific LBP. Lumbar traction seems to produce positive results in nerve root compression symptoms. Data in degenerative and discogenic pain are debatable. A subgroup of patients with low back pain (peripheralization of symptoms with extension movement and/or a positive crossed straight leg raise test) may exist for whom mechanical traction is an effective treatment. Nevertheless, the limited quality evidence from the included studies show very small effects that are not clinically relevant. The majority of included studies applied lumbar traction in association with other therapies. Therefore, authors cannot draw definite clinical result. In summary, to date the use of lumbar traction therapy alone in LBP management is not recommended by the best available evidence. For future research the focus should be on high-quality RCTs with sufficient sample size to be able to draw firm conclusions.
References
- Manchikanti L (2000) Epidemiology of low back pain. Pain Physician 3: 167-192.
- Kelsey JL, White AA 3rd (1980) Epidemiology and impact of low-back pain.Spine (Phila Pa 1976) 5: 133-142.
- Frank A (1993) Low back pain.BMJ 306: 901-909.
- Koes BW, van Tulder MW, Ostelo R, Kim Burton A, Waddell G (2001) Clinical guidelines for the management of low back pain in primary care: an international comparison.Spine (Phila Pa 1976) 26: 2504-2513.
- Waddell G, McIntosh A, Hutchinson A, Feder G, Lewis M (1999) Low back pain evidence review. Royal College of General Practitioners, London.
- Van Tulder MW, Koes BW, Boster LM (1997) Conservative treatment of acute and chronic nonspecific low back pain: a systematic review of randomized controlled trials of the most common intervention. Spine 22:2128–2156.
- Rantanen P (2001) Physical measurements and questionnaires as diagnostic tools in chronic low back pain.J Rehabil Med 33: 31-35.
- Colachis SC Jr, Strohm BR (1969) Effects of intermittent traction on separation of lumbar vertebrae.Arch Phys Med Rehabil 50: 251-258.
- Onel D, Tuzlaci M, Sari H, Demir K (1989) Computed tomographic investigation of the effect of traction on lumbar disc herniations.Spine (Phila Pa 1976) 14: 82-90.
- Lee RY, Evans JH (2001) Loads in the lumbar spine during traction therapy.Aust J Physiother 47: 102-108.
- Diab AA, Moustafa IM (2012) Lumbar lordosis rehabilitation for pain and lumbar segmental motion in chronic mechanical low back pain: a randomized trial.J Manipulative Physiol Ther 35: 246-253.
- Harrison DE, Cailliet R, Harrison DD, Janik T, Holland B (2002) Changes in sagittal lumbar configuration with a new method of extension traction: nonrandomized clinical controlled trial.Arch Phys Med Rehabil 83: 1585-1591.
- Harrison DE, Cailliet R, Harrison DD, Janik T, Holland B (2002) A new 3-point bending traction method for restoring cervical lordosis and cervical manipulation: a nonrandomized clinical controlled trial. Arch Phys Med Rehabil 83: 447-453.
- Paulk GP, Harrison DE (2004) Management of a chronic lumbar disk herniation with chiropractic biophysics methods after failed chiropractic manipulative intervention. J Manipulative Physiol Ther 27:579.
- Macario A, Pergolizzi JV (2006) Systematic literature review of spinal decompression via motorized traction for chronic discogenic low back pain.Pain Pract 6: 171-178.
- Kurutz M, Bender T (2010) Weightbath hydrotraction treatment: application, biomechanics, and clinical effects.J Multidiscip Healthc 3: 19-27.
- Kurutz M, Oroszvary L (2010) Finite element analysis of weightbath hydrotraction treatment of degenerated lumbar spine segments in elastic phase. J Biomech 43:433-441.
- Daniel DM (2007) Non-surgical spinal decompression therapy: does the scientific literature support efficacy claims made in the advertising media?Chiropr Osteopat 15: 7.
- Foster NE, Thompson KA, Baxter GD, Allen JM (1999) Management of nonspecific low back pain by physiotherapists in Britain and Ireland. A descriptive questionnaire of current clinical practice.Spine (Phila Pa 1976) 24: 1332-1342.
- Gracey JH, McDonough SM, Baxter GD (2002) Physiotherapy management of low back pain: a survey of current practice in northern Ireland.Spine (Phila Pa 1976) 27: 406-411.
- Van der Heijdan G, Beurskens AJ, Dirk MJ, Bouter LM, Lindeman E (1995) Efficacy of lumbar traction: a randomised clinical trial. Physiotherapy 81:29-35.
- Jette AM, Delitto A (1997) Physical therapy treatment choices for musculoskeletal impairments.Phys Ther 77: 145-154.
- Li LC, Bombardier C (2001) Physical therapy management of low back pain: an exploratory survey of therapist approaches.Phys Ther 81: 1018-1028.
- Ozturk B, Gunduz OH, Ozoran K, Bostanoglu S (2006) Effect of continuous lumbar traction on the size of herniated disc material in lumbar disc herniation.Rheumatol Int 26: 622-626.
- Beyki M, Abedi M, Soleimani F, Mousavi ME, Roghani RS (2007) Efficacy of prone lumbar traction on chronic discogenic low back pain and disability. Iranian Rehabilitation Journal 5:20-23.
- Fritz JM, Lindsay W, Matheson JW, Brennan GP, Hunter SJ, et al. (2007) Is there a subgroup of patients with low back pain likely to benefit from mechanical traction? Results of a randomized clinical trial and subgrouping analysis.Spine (Phila Pa 1976) 32: E793-800.
- Harte AA, Baxter GD, Gracey JH (2007) The effectiveness of motorised lumbar traction in the management of LBP with lumbo sacral nerve root involvement: a feasibility study.BMC Musculoskelet Disord 8: 118.
- Unlu Z, Tasci S, Tarhan S, Pabuscu Y, Islak S (2008) Comparison of 3 physical therapy modalities for acute pain in lumbar disc herniation measured by clinical evaluation and magnetic resonance imaging.J Manipulative Physiol Ther 31: 191-198.
- Schimmel J, de Kleuver M, Horsting PP, Spruit M, Jacobs WC (2009) No effect of traction in patients with low back pain: a single centre, single blind, randomized controlled trial of Intervertebral Differential Dynamics Therapy. Eur Spine J. 18(12):1843-1850
- Fritz JM, Thackeray A, Childs JD, Brennan GP (2010) A randomized clinical trial of the effectiveness of mechanical traction for sub-groups of patients with low back pain: study methods and rationale.BMC Musculoskelet Disord 11: 81.
- Prasad KS, Gregson BA, Hargreaves G, Byrnes T, Winburn P, et al. (2012) Inversion therapy in patients with pure single level lumbar discogenic disease: a pilot randomized trial.Disabil Rehabil 34: 1473-1480.
- Diab AA, Moustafa IM (2013) The efficacy of lumbar extension traction for sagittal alignment in mechanical low back pain: a randomized trial.J Back Musculoskelet Rehabil 26: 213-220.
- Moustafa IM, Diab AA (2013) Extension traction treatment for patients with discogenic lumbosacral radiculopathy: a randomized controlled trial.Clin Rehabil 27: 51-62.
- Apfel CC, Cakmakkaya OS, Martin W, Richmond C, Macario A, et al. (2010) Restoration of disk height through non-surgical spinal decompression is associated with decreased discogenic low back pain: a retrospective cohort study.BMC Musculoskelet Disord 11: 155.
- Beattie PF, Nelson RM, Michener LA, Cammarata J, Donley J (2008) Outcomes after a prone lumbar traction protocol for patients with activity-limiting low back pain: a prospective case series study.Arch Phys Med Rehabil 89: 269-274.
- Kamanli A, Karaca-Acet G, Kaya A, Koc M, Yildirim H (2010) Conventional physical therapy with lumbar traction; clinical evaluation and magnetic resonance imaging for lumbar disc herniation.Bratisl Lek Listy 111: 541-544.
- Wheeler AH (1995) Diagnosis and management of low back pain and sciatica.Am Fam Physician 52: 1333-1341, 1347-8.
- Krause M, Refshauge KM, Dessen M, Boland R (2000) Lumbar spine traction: evaluation of effects and recommended application for treatment.Man Ther 5: 72-81.
- Beurskens AJ, de Vet HC, Köke AJ, Lindeman E, Regtop W, et al. (1995) Efficacy of traction for non-specific low back pain: a randomised clinical trial.Lancet 346: 1596-1600.
- Revel M (2000) Does traction still have a role in nonspecific low back disorders?Joint Bone Spine 67: 146-149.
- Pellecchia GL (1994) Lumbar traction: a review of the literature.J Orthop Sports Phys Ther 20: 262-267.
- Airaksinen O, Brox J, Cedraschi C, Hildebrandt J, Klaber-Moffett J, et al. (2006) Chapter 4. European guidelines for the management of chronic nonspecific low back pain.Eur Spine J 15 Suppl 2: S192-300.
- Harte AA, Gracey JH, Baxter GD (2005) Current use of lumbar traction in the management of low back pain: results of a survey of physiotherapists in the United Kingdom.Arch Phys Med Rehabil 86: 1164-1169.
- Wegner I, Widyahening IS, van Tulder MW, Blomberg SE, de Vet HC (2013) Traction for low-back pain with or without sciatica. Cochrane Database Syst Rev. Aug 19;8:CD003010.
Nenhum comentário:
Postar um comentário