Purpose and background of the study. When talking to patients about pain, it has been shown that practitioners can positively or negatively influence health beliefs and treatment outcomes. Multidisciplinary physical and psychological interventions have demonstrated better outcomes for patients with long-term pain. Acceptance and Commitment Therapy (ACT) is a form of ‘third wave’ Cognitive Behavioural Therapy (CBT) that has been shown to promote resilience and wellbeing. A qualitative auto-ethnographic case study design was used to explore the communication processes and therapeutic outcomes associated with developing an innovative course integrating ACT interventions with osteopathic treatment, delivered by a single practitioner. Methods. Six individual consultations with four patients were audio-recorded, transcribed verbatim and coded. Linguistic Ethnography was used to identify pain discourses and analyse links with clinical decisions and patient responses. Transcript extracts were analysed at three levels; micro-level Conversation Analysis of communication processes; Interactional Sociolinguistic Analysis of changes in patient-practitioner roles; and macro-level Discourse Analysis of the wider biomedical and biopsychosocial context. Results. Two distinctive forms of discourse were identified. In predominantly ‘mechanistic’ communication, the ‘expert’ practitioner role was focused on fixing ‘broken’ parts and relieving pain. In ‘facilitative’ discourses, the ‘collaborative’ practitioner focused on promoting patients’ body awareness and active coping. Challenges included learning how to shift between discourses, which required mindfulness and willingness to tolerate uncertainty. Conclusion. This new inter-disciplinary approach enabled an osteopath to re-frame pain discourses to promote patient agency and resilience. Findings were subsequently used to design the OsteoMAP study (Osteopathy, Mindfulness and Acceptance-based Programme) to test outcomes with practitioners in other clinical settings. No conflicts of interest. No funding obtained

Degenerative spondylolisthesis is four times more common in women than in men. Although this gender difference has long been recognised there has been no explanation for it. We have examined the radiographs and CT scans of 118 patients over the age of 55 years and of a control group under the age of 46 years. Our findings confirmed the presence of more sagittally-orientated facet joints in patients with degenerative spondylolisthesis but did not show that the gender difference can be explained by the morphology of the facet joint. Furthermore, we conclude that the increased angle of the facet joint is the result of arthritic remodelling and not the primary cause of degenerative spondylolisthesis. It is more likely to be due to loss of soft-tissue resilience with subsequent failure of the facet joints which are acting as the last restraints to subluxation

Introduction. Spinal deformations are a deviation of the natural arrangement of forces during growth. Environmental factors play a part in these deviations. The presence of lordosis in the thoracic spine is a causative factor in spinal deformations that needs to be addressed. Most biomechanical models of bracing have a scientific background. Has older knowledge lost its value? In living structures, all processes such as regulation of equilibrium in posture and movement use Newton's law and extended laws of Hooke for conservation of energy, momentum, and angular momentum under control of the central nervous system. Form follows function (phylogenetic and ontogenetic) in the spine as primary engine in movement in animals. The change in function in bipedals is that the coupling mechanism at the thoracolumbar joint now couples a reversed pendulum. Methods. A literature search shows a clear gap in the evolution in science on deformities during 1914–45. In 1792, Van Gesscher postulated two concepts in Observations on Deformations of the Spine (Dutch). First, the optimalisation of the balancing forces in men needs a specific optimum curvature to keep the weight of the head and shoulders above the hips. The second concept was the role of sitting in relation to changes around the discs at the thoracolumbar spine. Girls who read or knitted while sitting developed scoliosis more easily than did others. His extending (by lordosis) corrective corset was used for more than 150 years before plaster became popular. Andry described guidance and correction of growing spines with use of the moulding capability of muscular forces, with exercises and extending corsets (for so-called weak girls). Extension and avoidance of incorrect posture during sitting became a mainstay in orthopaedics (and schools). In 1907, Wullstein described experiments in young dogs to show how forced fiexion produces all characteristics of kyphotic deformities. In 1912, Murk Jansen did a critical review of all available knowledge and his own research in The Physiologic Scoliosis and its causes. Post mortem studies showed anatomical asymmetry in the left and right crura of the diaphragm, which indicated that asymmetric rotational forces in ventilation could induce predominant lateral curves. In-vivo tests show increased thoracolumbar kyphosis if siblings are put in seated positions too frequently and too soon. The stiffening in kyphosis creates a fulcrum to cantilever the opposing rotational forces to lateral curvatures. In experiments in rabbits, lower intrathoracic pressure was shown in the right pleural cavity. Common alertness of parents and teachers was underwritten. Some of this still survives. In progressed scoliosis, Sayre's method of corrective plastering in suspension and Calot's corrections in prone position under anaesthesia and plaster shelves with lordosis in bed became popular. In the Volkmann Hueter principle, the resilience of the deformable structures in the spine were identified–eg, the discs, the apophyses, and the cartilage in joints have a role in spinal deformity. Cobb drew attention to the clinical aspects of scoliosis. Roth provided a comprehensive explanation of how growth is organised and regulated by the oldest organ of animal life: the central nervous system in vertebrates. Between 1960 and 1985, Roth developed his concepts on neurovertebral and neuro-osseous growth relations and the tension-driven incongruence of growth. Roth provided new biological knowledge about how growth seems to support older clinical observations. In animal experiments, mechanical modelling, and radiological studies in scoliosis he stressed the role that growth has in the formation of the spine. A so-called short cord can indeed cause scoliosis. Recent studies with MRI in idiopathic scoliosis confirm this hypothesis. Personal observations In 2008, a study showed that forceful restoration of thoracolumbar lordosis can correct double major scoliotic curves. A consequent thoracolumbar kyphotic curve was found, and recently reproduced. The thoracolumbar lordotic intervention brace technique showed promising results. It relied on the older techniques, leaving only the fear for lordosis brought by Dickson. In personal observations, the presence of neuromuscular tightness or tension also present in progressive scoliosis as representatives of deforming and protective forces. Conclusions. Previous knowledge depicts spinal growth as result of a combination of neuro-osseous growth regulation in a very complex but understandable loco-motor system, in which external factors cause muscular reaction that obey all mechanical laws. Lifestyle factors seem to greatly affect deformations

Aims

Diagnosis of cauda equina syndrome (CES) remains difficult; clinical assessment has low accuracy in reliably predicting MRI compression of the cauda equina (CE). This prospective study tests the usefulness of ultrasound bladder scans as an adjunct for diagnosing CES.

No previous studies have examined the physical characteristics of patients with cauda equina syndrome (CES). We compared the anthropometric features of patients who developed CES after a disc prolapse with those who did not but who had symptoms that required elective surgery. We recorded the age, gender, height, weight and body mass index (BMI) of 92 consecutive patients who underwent elective lumbar discectomy and 40 consecutive patients who underwent discectomy for CES. On univariate analysis, the mean BMI of the elective discectomy cohort (26.5 kg/m² (16.6 to 41.7) was very similar to that of the age-matched national mean (27.6 kg/m², p = 1.0). However, the mean BMI of the CES cohort (31.1 kg/m² (21.0 to 54.9)) was significantly higher than both that of the elective group (p < 0.001) and the age-matched national mean (p < 0.001). A similar pattern was seen with the weight of the groups. Multivariate logistic regression analysis was performed, adjusted for age, gender, height, weight and BMI. Increasing BMI and weight were strongly associated with an increased risk of CES (odds ratio (OR) 1.17, p < 0.001; and OR 1.06, p <  0.001, respectively). However, increasing height was linked with a reduced risk of CES (OR 0.9, p < 0.01). The odds of developing CES were 3.7 times higher (95% confidence interval (CI) 1.2 to 7.8, p = 0.016) in the overweight and obese (as defined by the World Health Organization: BMI ≥ 25 kg/m²) than in those of ideal weight. Those with very large discs (obstructing > 75% of the spinal canal) had a larger BMI than those with small discs (obstructing < 25% of the canal; p < 0.01). We therefore conclude that increasing BMI is associated with CES.