Clinical practice guidelines (CPGs) recommend self-management for low back pain (LBP). Our recent narrative review on self-management needs revealed a consensus with respect to the critical components of self-management interventions. With mobile health advancements, apps offer innovative support for LBP management. This study aims to identify current apps for the self-management of LBP, assessing them for their quality, intervention content, theoretical approaches, and risk management approaches. We identified 69 apps for LBP self-management from a systematic search in the UK iTunes and Google Play stores. The most recommended interventions are muscle stretching (n=51, 73.9%), muscle strengthening (n=42, 60.9%), and core stability exercises (n=32, 46.4%). The average MARS (SD) overall score for the included apps was 2.4 (0.44) out of a possible 5 points, with the engagement and information dimension scoring the lowest at 2.1. In terms of theoretical and risk management approaches, no apps offered a theoretical care model and all failed to specify the age group targeted; only one (1.4%) provided a tailored care approach; 18 (26.1%) included intervention progression; and 11 (15.9%) reported management safety checks.Purpose and Background
Methods and Results
Anterior tibial translation (ATT) is assessed in the acutely injured knee to investigate for ligamentous injury and rotational laxity. Specifically, there is a growing recognition of the significance of anterior medial rotary laxity (AMRI) as a crucial element in assessing knee stability. Anterior cruciate ligament (ACL) injuries are often accompanied with medial collateral ligament (MCL) damage. It has been suggested that Deep MCL (dMCL) fibres are a primary restraint in rotational displacement. This research aims to quantify the difference in rotational laxity of patients with ACL and MCL injuries to deem if the Feagin-Thomas test can robustly capture metrics of AMRI. 2. AMRI was assessed using the Feagin-Thomas test in 7 isolated ACL (iACL) injured participants, 3 combined ACL and superficial fibre MCL (sMCL) injuries, 5 combined ACL and deep fibre MCL injuries, and 21 healthy controls. Displacement values were recorded using an optical motion capture (OMC) system and bespoke processing pipeline which map and model the knee's anterior displacement values relative to the medial compartment. Since absolute values (mm) of rotational laxity vary dependant on the person, values were recorded as a proportion of the rotational laxity obtained from the subject's contralateral leg. Values were compared between each patient group using an ANOVA test and Tukey's honesty significant difference post hoc test. 3.Introduction
Methods
Biomechanics is an essential form of measurement in the understanding of the development and progression of osteoarthritis (OA). However, the number of participants in biomechanical studies are often small and there is limited ways to share or combine data from across institutions or studies. This is essential for applying modern machine learning methods, where large, complex datasets can be used to identify patterns in the data. Using these data-driven approaches, it could be possible to better predict the optimal interventions for patients at an early stage, potentially avoiding pain and inappropriate surgery or rehabilitation. In this project we developed a prototype database platform for combining and sharing biomechanics datasets. The database includes methods for importing and standardising data and associated variables, to create a seamless, searchable combined dataset of both healthy and knee OA biomechanics. Data was curated through calls to members of the OATech Network+ (Abstract
Objectives
Methods
Application of deep learning approaches to marker trajectories and ground reaction forces (mocap data), is often hampered by small datasets. Enlarging dataset size is possible using some simple numerical approaches, although these may not be suited to preserving the physiological relevance of mocap data. We propose augmenting mocap data using a deep learning architecture called “generative adversarial networks” (GANs). We demonstrate appropriate use of GANs can capture variations of walking patterns due to subject- and task-specific conditions (mass, leg length, age, gender and walking speed), which significantly affect walking kinematics and kinetics, resulting in augmented datasets amenable to deep learning analysis approaches. A publicly available (Abstract
OBJECTIVES
METHODS
Bone health deterioration is a major public health issue. General guidelines for the limitation of bone loss prescribe a healthy lifestyle and a minimum level of physical activity. However, there is no specific recommendation regarding targeted activities that can effectively maintain lumbar spine bone health. To provide a better understanding of such influencing activities, a new predictive modelling framework was developed to study bone remodelling under various loading conditions. The approach is based on a full-body subject-specific musculoskeletal model [1] combined with structural finite element models of the lumbar vertebrae. Using activities recorded with the subject, musculoskeletal simulations provide physiological loading conditions to the finite element models which simulate bone remodelling using a strain-driven optimisation algorithm [2]. With a combination of daily living activities representative of a healthy lifestyle including locomotion activities (walking, stair ascent and descent, sitting down and standing up) and spine-focused activities involving twisting and reaching, this modelling framework generates a healthy bone architecture in the lumbar vertebrae. The influence of spine-focused tasks was studied by adapting healthy vertebrae to an altered loading scenario where only locomotion activities were performed.Abstract
OBJECTIVES
METHODS
Osteoporosis of the pelvis and femur is diagnosed in a high proportion of lower-limb amputees which carries an increased fracture risk and subsequently serious implications on mobility, physical dependency and morbidity. Through the development of biofidelic musculoskeletal and finite element (FE) models, we aim to determine the effect of lower-limb amputation on long-term bone remodelling in the hip and to understand the potential underpinning mechanisms for bone degradation in the younger amputee population. Our models are patient specific and anatomically accurate. Geometries are derived from MRI-scans of one bilateral, above-knee, amputee and one body-matched control subject. Musculoskeletal modelling enables comparison of muscle and joint reaction-forces throughout gait. This provides the loading scenario implemented in FE. FE modelling demonstrates the effect of loading on the amputated limb via a prosthetic socket by comparing bone mechanical stimulation in amputee and control cases.Abstract
Objectives
Methods
Patients with recurrent low back pain (LBP) exhibit changes in postural control. Stereotypical muscle activations resulting from external perturbations include anticipatory (APAs) and compensatory (CPAs) postural adjustments. This study aimed to determine differences in postural control strategies (APAs and CPAs) between those with and without lumbar disc degeneration (LDD) and LBP. Ninety-seven subjects participated in the study (mean age 50 years (SD 12)). 3T MRI was used to acquire T2 weighted images (L1-S1). LDD was determined using Pfirrmann grading and LBP using the numerical rating scale (NRS). A bespoke perturbation platform was designed to deliver postural perturbations. Electrical activity was analysed from 16 trunk and lower limb muscles during four typical APA and CPA epochs. A Kruskal-Wallis H test with Bonferroni correction for multiple comparisons was conducted.Introduction
Methods
The behavioural change wheel methodology and social cognitive theory were combined to inform and develop a rehabilitation programme following lumbar fusion surgery (REFS). This qualitative study evaluated participant's experiences of lumbar fusion surgery, including REFS, to identify valued programme content (‘active ingredients’). A feasibility-RCT suggested REFS achieved a meaningful impact in disability and pain self-efficacy compared to ‘usual care’ (p=0.014, p=0.007). In keeping with MRC guidance a qualitative evaluation was undertaken to understand possible mechanisms of action.Purpose
Background
Low back pain (LBP) is the top leading global cause of years lived with disability. In order to examine LBP, researchers have typically viewed the spine in isolation. Clinically, it is imperative that the lower limbs are also considered. The aim of this study was to design a holistic and reliable multi-segmental kinematic model of the spine and lower limbs. The spine was modelled according to easily identifiable anatomical landmarks, including upper thoracic (T1-T6), lower thoracic (T7-T12) and lumbar (L1-L5) segments. Pelvis, thigh, shank and foot segments were included. A 10-camera 3D motion capture system was used to track retro-reflective markers, which were used to define each segment of 10 healthy participants as they walked 3 times at a comfortable speed over a 6km walkway. The relative peak angles between each segment were calculated using the Joint Coordinate System convention and Intraclass Correlation Coefficients (ICCs) were used to determine intra-rater and inter-rater reliability (between an experienced clinician and biomechanical scientist).Introduction
Method
The usefulness of markers of non-specific low back pain (NSLBP), including MRI derived measurements of cross-sectional area (CSA) and functional CSA (FCSA, fat free muscle area) of the lumbar musculature, is in doubt. To our knowledge, such markers remain unexplored in Lumbar Disc Degeneration (LDD), which is significantly associated with NSLBP, Modic change and symptom recurrence. This exploratory 3.0-T MRI study addresses this shortfall by comparing asymmetry and composition in asymptomatic older adults with and without Modic change. A sample of 21 healthy, asymptomatic subjects participated (mean age 56.9 years). T2-weighted axial lumbar images were obtained (L3/L4 to L5/S1), with slices oriented through the centre of each disc. Scans were examined by a Consultant MRI specialist and divided into 2 groups dependent on Modic presence (M) or absence (NM). Bilateral measurements of the CSA and FCSA of the erector spinae, multifidus, psoas major and quadratus lumborum were made using Image-J software. Muscle composition was determined using the equation [(FCSA/CSA)*100] and asymmetry using the equation [(Largest FCSA-smallest FCSA)/largest FCSA*100]. Data were analysed using Mann-Whitney U tests (p value set at). Intrarater reliability was examined using Intraclass Correlations (ICCs).Introduction
Methods
Persistent low back and leg pain is a common and highly disabling musculoskeletal condition. Many patients seek the opinion of a neurosurgeon with a view to surgical intervention. Few data are available which document the experiences of patients at these consultations. To investigate the experiences of patients seeking a neurosurgical opinion for back and leg pain.Background
Aims
Clinical interpretations of Degenerative Lumbar Disc Disease are not described in the literature. The purpose of this study was to establish a consensus of expert clinical opinion in order to fuel further research. A reliable and valid electronic survey was designed to include theoretical constructs relating to training and education, general knowledge, assessment and management practices. Clinicians from the Society of Back Pain Research U.K. were invited to take part. Quantitative data was collated and coded using Bristol on-line survey software, and content analysis was used to systematically code and categorize qualitative data.Purpose and Background:
Methods:
The current ‘gold standard’ method for enabling weightbearing during non-invasive lower limb immobilisation is to use a Patella Tendon-Bearing (PTB) or Sarmiento cast. The Beagle Böhler Walker™ is a non-invasive frame that fits onto a standard below knee plaster cast. It is designed to achieve a reduction in force across the foot and ankle. Our objective was to measure loading forces through the foot to examine how different types of casts affect load distribution. We aimed to determine whether the Beagle Böhler Walker™ is as effective or better, at reducing load distribution during full weightbearing. We applied force sensors to the 1st and 5th metatarsal heads and the plantar surface of the calcaneum of 14 healthy volunteers. Force measurements were taken without a cast applied and then with a Sarmiento Cast, a below knee cast, and a below knee cast with Böhler Walker™ fitted.Background
Methods
It is well known that individuals with a history of low back pain (hLBP) exhibit altered movement patterns that are caused by changes in neuromuscular control. Postural disturbance provides an effective method for creating these differentiable movement patterns. This study has explored the response of the lower limb and spine to a translational perturbation similar to that experienced on public transport in healthy volunteers and those with hLBP. Healthy volunteers (n=16) and subjects with hLBP (n=10) were subjected to 31 identical postural disturbances at varying time intervals while standing atop a moving platform. Skeletal kinematics and muscle activation were recorded using a 10-camera Vicon system (Oxford, UK) and Myon electromyography (EMG) at the trunk (lumbar, lower thoracic, and upper thoracic segments), pelvis, thigh, calf, and foot. Joint angles were calculated using Body Builder (Vicon) and a unilateral seven-segment custom model.Statement of Purpose
Methods
Changes in central nervous system (CNS) pathways controlling trunk and leg muscles in patients with low back pain(LBP) and lumbar radiculopathy have been observed and this study investigated whether surgery impacts upon these changes in the long term. 80 participants were recruited into the following groups: 25 surgery(S), 20 chronic LBP(CH), 14 spinal injection(SI), and 21 controls(C). Parameters of corticospinal control were examined before, at 6, 26 and 52 weeks following lumbar decompression surgery and equivalent intervals. Electromyographic(EMG) activity was recorded from tibialis anterior(TA), soleus(SOL), rectus abdominis(RA), external oblique(EO) and erector spinae(ES) muscles at the T12&L4 levels in response to transcranial magnetic stimulation of the motor cortex. Motor evoked potentials (MEP) and cortical silent periods(cSP) recruitment curves(RC) were analysed.Introduction
Methods
Gathering reliable information about joint movement during activities of daily living is of clinical interest. Here we present pilot data regarding a new wearable knee joint sensing system by comparing the outcomes of this device to a gold standard. Initial results show a complex, but repetitive pattern. These outcomes generate potential for future work.
The measurement of pelvic kinematics is key to the analysis of aberrant movement patterns of lower back, yet to date technical issues of skin artefacts, body composition and optical motion tracking sensor occlusion [1] are unresolved. In this study, an alternative technical pelvic coordinate system to the standard right and left anterior superior iliac spine (ASIS) and posterior superior iliac spine (PSIS) is developed and evaluated in two healthy male subjects (slim and overweight). The alternative system consists of a cluster of 3 retro-reflective markers attached to the Sacrum, thus allowing position and motion of the pelvis to be measured. In order to use these technical markers a static trial must be performed. The ASISs were calibrated relative to the technical frame; and the anatomical frame of the pelvis was defined relative to the technical coordinate frame. Each participant completed 5 walking trials and the angular rotations of the two methods were investigated using Euler angles.Background
Methods
This study sought to determine whether the functional outcome of two common spinal operations could be improved by a programme of post-operative rehabilitation and/or an educational booklet each compared with usual care. This was a multi-centre, factorial, randomised controlled trial on the post operative management of spinal surgery patients, with randomisation stratified by surgeon and operative procedure. The study compared the effectiveness of a rehabilitation programme and an education booklet for the postoperative management of patients undergoing discectomy or lateral nerve root decompression surgery, each compared with “usual care” using a 2 × 2 factorial design, randomising patient to four groups; rehabilitation-only, booklet-only, rehabilitation-plus-booklet, and usual care only. The primary outcome measure was the Oswestry Disability Index (ODI) at 12 months, with secondary outcomes including visual analogue scale measures of back and leg pain. An economic analysis was also performed.Introduction
Methods
Several theories have been put forward with respect to the mechanical role of the thoracolumbar fascia (TLF) but none have been substantiated in part due to an inability to explore its function Initially a cadaveric dissection of the fascia was performed to gain an appreciation of the 3-D orientation and representation of the TLF in the lumbar region. A conventional ultrasound system (Diasus, Dynamic Imaging Ltd) was then used to image the 3 layers of the fascia on 40 normal subjects (18 males and 22 females, mean age 27.3±5.8 years) and the reliability of these measures was investigated on a subset of this population.Background
Methods
The clinical assessment of Chronic Low Back Pain (CLBP) is usually undertaken at a single time point at clinic rather than through continuous monitoring. To address this, a wearable prototype sensor to monitor motion of the lumbar spine and pelvis has been developed. The system devised was based on inertial sensor technology combined with wireless Body Sensor Network (BSN) platform. This was tested on 16 healthy volunteers for ten common movements (including sit to stand, lifting, walking, and stairs) with results validated by optical tracking. Preliminary findings suggest good agreement between the optical tracker and device with mean average orientation error (°) ranging from 0.1 ± 2.3 to 4.2 ± 2.6. The sensor repeatability errors range from 0 to 4° while subject movement variability ranged from 4% to 14%. Parameters of angular motion suggest greater movement of the lumbar spine compared to the pelvis with mean velocities (°/s) for lumbar spine ranging from 15.3 to 74.13 and pelvis ranging from 5.6 to 40.74. Further analysis revealed the extent to which the pelvis was engaged, as a proportion of the total movement. This demonstrated that the pelvis underwent smooth transitions from low (0.02), moderate (0.4) to high (0.99) use during different movement phases.Background
Sensor Development, Testing and Results
Changes in the central nervous system (CNS) pathways controlling trunk and leg muscles in patients with low back pain and radiculopathy have been observed and this study investigated whether surgery impacts upon these changes. Parameters of corticospinal control were examined on 3 occasions in 22 patients prior to, at 6 and 26 weeks following lumbar decompression surgery and in 14 control subjects at the same intervals. Electromyographic activity was recorded from tibialis anterior (TA), soleus (SOL), rectus abdominis (RA), external oblique (EO) and erector spinae (ES) muscles at the T12 & L4 levels in response to transcranial magnetic stimulation of the motor cortex.Introduction
Methods
Patients have an important role in evaluating the health-care they receive; including the treatment they receive as well as the healthcare process. This information can be invaluable in understanding patient needs and developing a more patient centred approach to health care. As part of an RCT into the post-operative management of spinal surgery we explored patient’s experience of the health care system and their perceptions of how the system worked for them. To date 201 patients have completed the trial; 60 receiving usual care, 37 an educational booklet, 48 rehabilitation and 56 received both booklet and rehabilitation after decompression surgery for stenosis or disc prolapse. The majority (82%) were referred to the consultant through their GP. 40% identified a specific event that led to their pain; of these 48% reported a longstanding pain and 33% noting a sudden injury. 30% waited less than a month for surgery, and 32% 1–3 months. 18% experienced surgical cancellations. The majority of patients felt well informed pre-operatively, had faith in their surgical team and had sufficient time to discuss their condition. Similarly during their operative stay they felt supported and in good hands. When questioned about their feelings on the health care process as a whole; positive patient comments included: the speed and quality of surgery and the pain relief experienced; whilst negative comments included: lack of information or advice, the delays between diagnosis and management, dissatisfaction with GP care, feeling abandoned, lack of respect from the surgeon, and disappointment with the outcome.
Increasing attention has focused on the spinal muscles with respect to stability and low back pain (LBP) with suggestions of a de-conditioning syndrome. What is less clear is the extent of this degeneration and whether it is a long term of short term consequence of LBP. This study sought to explore the cross section area (CSA) and muscle quality of the spinal extensor group in a subset of LBP patients. MRI scans of 100 spinal clinic patients were retrospectively reviewed; sagittal and transverse (from levels L3-5) images were annoymised and archived along with details of age, gender and presenting symptoms. An image analysis package was used to determine CSA of the extensor muscle groups, and levels of fat infiltration were calculated using a pseudocolouring technique. 46 patients had spinal stenosis (28 males, 18 females, mean age 66±14.2 years) and 54 had a disc prolapse (28 males, 26 females, mean age 50±12.9 years). CSA was significantly smaller in the stenotics at both L3/4 and L4/5. Patients presenting with leg pain and a disc herniation had a significantly smaller CSA (p<
0.01) at L3/4 and L4/5 levels. A left right CSA asymmetry was noted but this was not specific to diagnosis, or presenting symptoms. Fat infiltration was present in both groups but was significantly greater in the stenotic group (p<
0.01) and was present at a similar degree at all spinal levels. Multiple regression analysis confirmed that reduced CSA was linked to leg pain (p<
0.01) and age was linked with fat infiltration (0<
0.01).
The purpose of this study was to design a questionnaire to evaluate patients’ satisfaction with the healthcare system relating to their spinal procedure, and to gather information relating to pre and post operative management. If successful, this questionnaire will be incorporated into the FASTER (Function after spinal treatment, exercise and rehabilitation) study, with the aim of identifying common care pathways and to understand where stumbling blocks arise. The questionnaire included three sections: Care before surgery, care after surgery, plus general measures of satisfaction. Patients were randomly selected from the hospital records if they had undergone a lumbar discectomy or lateral nerve root decompression within the past year; this included both NHS and private patients. 34 pilot questionnaires were sent, to date 18 have been returned (9 NHS and 9 private patients). It was found that 79% of patients went to their GP when first experiencing pain/discomfort; however, alarmingly, an overwhelming majority of these patients felt their problem was not dealt with correctly at this stage. Fifty percent of the patients who went through the NHS “Definitely” felt left alone to deal with their problem. Only 10% of patients had physiotherapy prior to surgery and none went to pain management classes. 32% of patients received physiotherapy after leaving hospital; however, in all but one case this was after returning with symptoms. Despite this, patients in general were very pleased with the care they received during there hospital stay. This pilot data provides an insight into the issues experienced by spinal surgery patients.
Rowing is associated with a high incidence of low back pain (LBP) often attributed to the associated loading and large trunk rotations. Here we examine electromyographic (EMG) activity in rowers who undertake sweep rowing (asymmetrical) or sculling (symmetrical). 22 right handed elite rowers participated and written informed consent was obtained. Each had a preferred rowing side (bow side [BS, n=6]; stroke side [SS, n=7) or sculling [SC, n=9]). Testing was performed in a Cybex isokinetic dynamometer and bilateral EMG activity recorded from trunk muscles (erector spinae [ES] and rectus abdominis [RA]) synchronously. There were no differences between the groups in peak torque during isokinetic or isometric testing, although extensor torque was higher than flexor torque. Analysis of EMG activity revealed that scullers showed no left/right differences in any of the testing protocols. However, sweep rowers showed significant differences between left and right ES during extension protocols, in the isokinetic testing at 30°s−1 (in the SS rowers [LES 0.11±0.01mV vs RES 0.08±0.01mV] and at 90°s−1 in the BS rowers [LES 0.14±0.02mV vs RES 0.12±0.01mV]. In the isometric tests, the SS rowers showed higher left ES activity than the right [LES 0.11±0.01mV vs RES 0.09±0.01mV]. The flexion protocols did not reveal any left right differences in any groups in any of the protocols used. These results reveal that sweep rowing is associated with asymmetric activity of trunk extensors, but not flexors. This could be a contributing factor to the high incidence of LBP in sweep rowers.
The FASTER study (Function after spinal treatment, exercise and rehabilitation) aims to evaluate, via a factorial RCT, the benefits of a rehabilitation programme and an education booklet for the postoperative management of patients undergoing discectomy or lateral nerve root decompression, each compared with “usual care”. Since the scientific literature reveals little evidence in favour of any specific exercises or approach, the rehabilitation programme had a general focus on simply getting people exercising and was based on Klaber-Moffett &
Frost’s [2000] “Back to fitness” programme; classes include elements of stretching, strengthening, relaxation and an opportunity for discussion. Currently, 128 patients have been recruited into the study of which 65 have been randomised to receive rehabilitation, which is offered 6 weeks after their surgery. At the end of the 6 week period of rehabilitation classes, participants are requested to complete a questionnaire containing forced and open questions on the content, style, length, timeliness and usefulness of these classes. Feedback is very positive. In terms of class length 95% felt it was about right and easy to follow. All knew why they were doing the exercises, and 90% felt they had enough support and assistance during the classes. 95% would recommend to others. Important elements were noted to be; being with other people with the same problem, learning to exercise, gaining confidence and support and information from the staff. The average overall rating of the classes was 8.5/10. The results show that content of the rehabilitation classes appears to be pitched at the right level for post-operative patients and that the attendees are benefiting from interactions with each other and learning to exercise and be active. The impact of these classes on outcome remains to be determined.
The FASTER study (Function after spinal treatment, exercise and rehabilitation) aims to evaluate, via a factorial RCT, the benefits of a rehabilitation programme and an education booklet To date, 128 patients have been recruited into the study of which 63 have been randomised to receive the booklet. At 3 months post-surgery all of these patients are requested to complete a questionnaire on the booklet. This questionnaire contained forced-choice questions on readability etc and open questions regarding content. Finally, patients were asked their overall rating of the booklet on a scale from 1 to 10. Feedback is very positive. The average overall rating of the booklet was 8.3/10. Over 85% found it easy to read, interesting, and of appropriate length. Over 90% also stated they had learnt new and helpful information. All subjects stated that they would recommend the booklet to a friend, and the majority stated that they frequently referred to the booklet. The predominant messages received and understood by the patients were related to the safe benefits of early activation and return to normal activities. The results show that spinal surgery patients appreciate evidence-based information in booklet form, and suggest that this booklet may be an important adjunct to post-operative management of spinal patients.
Trunk flexor-extensor asymmetry has been implicated in the development of back pain; however, left-right trunk muscle asymmetry has received little attention. This study examined whether such left-right asymmetries exist and if these are related to differing sporting tasks. Thirty-five subjects were recruited and written informed consent obtained; 12 subjects participated in unilateral (UL) sports e.g. racquet sports (mean age 21.6±0.7 (SEM) years), 13 in bilateral (BL) activities e.g. rugby (mean age 21.7±0.2) and 10 controls (C) not involved in sport (mean age 21.7±0.2) years). Isokinetic and isometric trunk flexions and extensions including a fatiguing isometric hold were performed in a Cybex isokinetic dynamometer synchronised with bilateral electromyographic (EMG) recordings from trunk extensors (erector spinae at L4), and flexors (rectus abdominis at T10). A ratio of left:right EMG activity was calculated for each set of muscles, to examine asymmetry. No differences were seen in left:right extensor EMG ratios across any of the test protocols. However, the UL group had higher (P<
0.05) left:right flexor EMG ratios than the BL group during pre-fatigue (UL:1.32±0.15 vs. BL:0.84±0.07) and post-fatigue (UL:1.30±0.18 vs BL:0.84±0.07) isometric flexion. Torque data suggested that the trunk extensor-flexor ratio was larger (P<
0.05) in the BL group compared to the C in the isokinetic exercises at the 30°s−1 (BL:1.27±0.05; C:1.00±0.06) and at the 90°s−1 speeds (BL:1.28±0.05; C:0.95±0.08), but no differences were seen during isometric testing. This study suggests that training for different sports can generate significant asymmetry in the trunk muscles, particularly in the flexors, the importance of which requires further research.
To date, 80 patients have been recruited into the study of which 34 have been randomised to receive the booklet. At 6 months post-surgery all of these patients are requested to complete a questionnaire on the booklet. This questionnaire contained forced-choice questions on readability, style, information level, believability, length, content and helpfulness. Further open questions concern the booklet’s messages, giving patients the opportunity to identify anything they did not like or understand, voice any concerns that were not covered, and say if they thought the booklet would change what they did after surgery. Finally, they were asked their overall rating of the booklet on a scale from 1 to 10. Feedback is very positive. The average overall rating of the booklet was 8.6/10. Over 80% found it easy to read, interesting, and of appropriate length. Over 80% also stated they had learnt new and helpful information. All subjects stated that they would recommend the booklet to a friend, and the majority stated that they frequently referred to the booklet. The predominant messages received and understood by the patients were related to the safe benefits of early activation and return to normal activities. The results show that spinal surgery patients appreciate evidence-based information in booklet form, and suggest that this booklet may be an important adjunct to post-operative management of spinal patients.
Poor trunk extensor endurance is implicated in low back pain; less, however, is known about contributions of left and right sides and upper and lower parts to maximum torque production following fatigue. This study examines torque and electromyographic (EMG) activity in different parts of the left and right trunk extensors before and following a maximal voluntary contraction (MVC) hold. 16 student rowers participated and written informed consent was obtained. Testing was performed in a Cybex isokinetic dynamometer with synchronous bilateral EMG recordings (during brief MVCs) from the left and right the erector spinae (ES) muscles at vertebral levels T12 and L4, prior to and immediately after, and 1, 5 and 10 minutes after a 60 second MVC. A small decrease in maximum torque was observed during 60s MVC, followed by a non significant step-wise increase. The torque at 10 minutes post MVC was the highest value recorded. EMG activity rose in the right upper back 5 and 10 mins following the fatigue. Furthermore, the ratios of left:right EMG activity revealed an increase compared to pre-fatigue values in the lower back but a decrease in the upper back, suggesting the task involved differential use of left and right sides in addition to upper and lower back muscles. These results suggest that 60s MVC induces differential activation of left and right sides and upper and lower parts of the trunk extensors. The apparent potentiation in force and asymmetry of activation following the 60s MVC task requires further investigation.
This study sought to determine the post-operative management of spinal patients in the UK, and to determine if uniformity exists between surgeons and if there is any published evidence for this practice. A reply-paid questionnaire was sent to members of the British Association of Spinal Surgeons and the Society for Back Pain Research. The questionnaire documented the surgeon’s experience, where they work, their operative population, the types of spinal surgery performed, and whether they have a routine for post-operative management or any written instructions for patients concerning post operative management. It also asked about the nature and duration of professionally supervised rehabilitation. Of the 89 questionnaires distributed, 63 (71%) were returned, of which 51 could be used in the analysis. The 12 not used were either completed incorrectly, had missing data or the surgeon had since retired. The replies demonstrated wide variation: only 35% of surgeons provide their patients with written post-operative instructions; there was limited referral to physiotherapy, with only 45% referring to a physiotherapist (for an average of 1.8 sessions); only a modest fraction of surgeons advocated the use of a post-operative corset (18%), others restricting sitting or encouraging bed rest; and a range of recommendations regarding return to work. There was also only a limited correlation between restrictions on sitting and recommendations about return to sedentary work or driving (Spearman r=0.08 and 0.36, respectively). In summary, although individual surgeons may be certain of their practice, the overall variation indicates ongoing uncertainty across the profession. This was further substantiated by our literature search, which revealed limited evidence for current practices, and a paucity of research into postoperative management.
The purpose of this study was to assess the technique of ultrasonographic evaluation of anterior shoulder translation from an anterior approach. Anterior translation in the right shoulders of 23 volunteers was evaluated using ultrasound with a 10 MHz, 6 cm wide linear transducer. A translatory force of 90 Newtons (N) was used to translate the humeral head in the adduction and internal rotation position (Position 1), while 60 N was used in the more clinically relevant position of 90° abduction and external rotation position (Position 2). The overall intraobserver coefficients of variation ranged from 0–13% (mean 3.8 ± 2.5%) for examiner 1 and 0.5–20.9% (mean 5.1 ± 3.9%) for examiner 2. The overall interobserver variation ranged from 0–29.8% (mean 9.3 ± 7.3%). The anterior translation in Position 1 ranged from –2.6 to 12.9 mm (mean 2.1 ± 3.1 mm) for examiner I and from −4.1 to 4.7 mm (mean 1.1 ± 2.2 mm) for examiner II. The anterior translation in Position 2 ranged from −3.3 to 3.7 mm (mean 0.3 ± 1.9 mm) for examiner I and from −8.3 mm to 4.5 mm (mean −0.7 ± 2.6 mm) for examiner II. The intraclass correlation coefficients (r) for the measured anterior translation between the 2 examiners for the 2 positions were 0.029 and −0.058 respectively. The interobserver coefficient of variation remains excessive and there was poor agreement in the measured anterior translation. The finding of negative values in the measured anterior translation despite translatory force raises further concerns about the prospective clinical use of this technique at the present moment.
Arthroscopic stabilisation of the shoulder is a technically-demanding and developing technique, and the reported results have yet to match those for open surgery. We present a consecutive initial series of 55 patients with post-traumatic recurrent anteroinferior instability managed since September 1999 using a titanium knotless suture anchor. Patients were reviewed from 12–33 months postoperatively and assessed using the Rowe, Walch-Duplay and Constant scores. Following mobilisation of the capsulolabral complex, labral reconstruction was achieved using a two-portal technique and an average of three anchors placed on the glenoid articular rim. In 13 cases, additional electrothermal shrinkage was required to reduce capsular redundancy in the anterior and inferior recesses following labral repair, although 11 of these were in the first 18 months. Incorporation of a south-to-north capsular shift has reduced the need for supplementary shrinkage. Complications have included one instance of anchor migration requiring open retrieval and two documented episodes of recurrent instability, although these occurred in patients having surgery within the first six months after the introduction of this technique. Based on our initial experience, we believe that arthroscopic labral repair is a viable alternative to open Bankart repair and have now expanded the indications to include patients with primary dislocation, those participating in gymnastic and contact/collision sports, and revision cases with failed open repairs.
Low back pain (LBP) is a common problem in rowers of all levels. Few studies have looked at the relationship between rowing technique, the forces generated during the rowing stroke and the kinematics of spinal motion. Of particular concern with respect to spinal injury and damage are the effects of fatigue during long rowing sessions. A technique has been developed using an electromagnetic motion system and strain gauge instrumented load cell to measure spinal and pelvic motion and force generated at the oar during rowing on an exercise rowing ergometer. Using this technique 13 elite national and international oarsmen (mean age 22.43 ± 0.02 years) from local top squad rowing teams were investigated. The test protocol comprised of a one hour rowing piece. During this session rowing stroke profiles were quantified in terms of lumbopelvic kinematics and stroke force profiles. These profiles were sampled at the start of the session and quarterly intervals during the hour piece. From this data we were able to quantify the motion of the lumbar spine and pelvis during rowing and relate this to the stroke force profile. The stroke profiles over the one hour piece were then compared to examine the effects of fatigue. This revealed marked changes and increases in the amount of spinal motion during the hour piece suggesting that to maintain stroke force profiles athletes were utilising greater ranges of spinal motion. The relevance of this with regard to low back pain however, requires further investigation.
There is a paucity of information regarding patient rated expectations of surgery and measures of satisfaction with surgery in terms of specific outcome measures such as pain. The aim of this study was to investigate patient expectations of surgery and short and long term satisfaction with the outcome of decompressive surgery in terms of pain, function, disability, general health. Eighty-four patients undergoing spinal stenosis surgery were recruited into this study. On recruitment into the study patients were also asked to rate their expectations of improved in pain, general health, function etc. In addition at each review stage patients were asked to rate their satisfaction in improvement of these key outcome measures. These demonstrated that patients had very high expectations of recovery particularly in terms of pain and function and that patients were confident of achieving this recovery (76.8%) confident of a good result. Levels of satisfaction however, varied considerably. 41% of subjects were 50% satisfied with the outcome, whilst 30% were dissatisfied. Most patients felt that they had made the right decision to have surgery although the surgery had only achieved 43.4% ± 37.8 of the outcome they had expected. Examination of patient’s expectations of and satisfaction with surgery revealed that frequently patients had unrealistic expectations of their surgery and as a consequence tended to have lower levels of satisfaction.
The majority of studies investigating the outcome of lumbar decompression surgery have been retrospective in nature and have not used validated measures of outcome. The aim of this study was to prospectively investigate the short and long term outcome of lumbar decompression surgery in terms of function, disability, general health and psychological well being. Eighty-four patients undergoing lumbar spinal stenosis surgery were recruited into this study. Patients were assessed using validated measures of outcome pre-operatively, and at 6 weeks, 6 months and one year post-operatively. A significant reduction in pain (p<
0.001) was observed at the 6 week post-operative stage, this did not change at the subsequent assessment stages. Only some of the SF~36 categories were sensitive to change. The sub-categories that were sensitive to change were; physical function (p<
0.05); bodily pain (p<
0.001); and social function (p<
0.05). Improvements were observed in these categories at the 6 week and 6 month reviews. A gradual reduction in the Oswestry Disability Index (ODI) was observed with time, with changes principally being observed between the 6 week and 6 month review, and 6 week and one year review stages (p<
0.05). Minimal changes were observed in the psychological assessments with time. The outcome of surgery could not be predicted reliably from psychological, functional or pain measures. Lumbar decompression surgery leads to a reduction in pain and some improvements in function.