Best practice for motor imagery: a systematic literature review on motor imagery training elements in five different disciplines

<p>Abstract</p> <p>Background</p> <p>The literature suggests a beneficial effect of motor imagery (MI) if combined with physical practice, but detailed descriptions of MI training session (MITS) elements and temporal parameters are lacking. The aim of this review was to identify the characteristics of a successful MITS and compare these for different disciplines, MI session types, task focus, age, gender and MI modification during intervention.</p> <p>Methods</p> <p>An extended systematic literature search using 24 databases was performed for five disciplines: Education, Medicine, Music, Psychology and Sports. References that described an MI intervention that focused on motor skills, performance or strength improvement were included. Information describing 17 MITS elements was extracted based on the PETTLEP (physical, environment, timing, task, learning, emotion, perspective) approach. Seven elements describing the MITS temporal parameters were calculated: study duration, intervention duration, MITS duration, total MITS count, MITS per week, MI trials per MITS and total MI training time.</p> <p>Results</p> <p>Both independent reviewers found 96% congruity, which was tested on a random sample of 20% of all references. After selection, 133 studies reporting 141 MI interventions were included. The locations of the MITS and position of the participants during MI were task-specific. Participants received acoustic detailed MI instructions, which were mostly standardised and live. During MI practice, participants kept their eyes closed. MI training was performed from an internal perspective with a kinaesthetic mode. Changes in MI content, duration and dosage were reported in 31 MI interventions. Familiarisation sessions before the start of the MI intervention were mentioned in 17 reports. MI interventions focused with decreasing relevance on motor-, cognitive- and strength-focused tasks. Average study intervention lasted 34 days, with participants practicing MI on average three times per week for 17 minutes, with 34 MI trials. Average total MI time was 178 minutes including 13 MITS. Reporting rate varied between 25.5% and 95.5%.</p> <p>Conclusions</p> <p>MITS elements of successful interventions were individual, supervised and non-directed sessions, added after physical practice. Successful design characteristics were dominant in the Psychology literature, in interventions focusing on motor and strength-related tasks, in interventions with participants aged 20 to 29 years old, and in MI interventions including participants of both genders. Systematic searching of the MI literature was constrained by the lack of a defined MeSH term.</p

Selective tibial neurotomy in the treatment of spastic equinovarus foot in hemiplegic patients: a 2-year longitudinal follow-up of 30 cases.

To assess the long-term efficacy of selective tibial neurotomy in the treatment of spastic equinovarus foot in hemiplegic patients. Intervention study (before-after trial) with an observational design and 2-year follow-up. Spasticity group in a university hospital. Hemiplegic patients (N=30) with spastic equinovarus foot. A selective neurotomy was performed at the level of the motor nerve branches of the tibial nerve. Spasticity (Ashworth scale), muscle strength (Medical Research Council scale), passive ankle dorsiflexion, gait parameters (6 min walking test), and gait kinematics (video assessment) were assessed before and at 2 months, 1 year, and 2 years after selective tibial neurotomy. Compared with preoperative values, there was a statistically significant decrease in triceps surae spasticity, an increase in gait speed, and a reduction in equinus and varus in swing and stance phases at 2 months postoperatively. This improvement persisted at 1 and 2 years after selective tibial neurotomy. Selective tibial neurotomy does not induce permanent triceps muscle weakness or triceps surae-Achilles' tendon complex shortening. This study confirms the long-lasting beneficial effect of selective tibial neurotomy on spasticity, gait speed, and equinovarus deformity in the treatment of spastic equinovarus foot in hemiplegic patients

Botulinum toxin type A or selective neurotomy for treating focal spastic muscle overactivity?

To discuss the effectiveness, indications, limitations and side effects of botulinum toxin type A and selective neurotomy for treating focal spastic muscle overactivity to help clinicians choose the most appropriate treatment. Expert opinion based on scientific evidence and personal experience RESULTS: Botulinum toxin type A can decrease muscle tone in different types of spastic muscle overactivity, which allows for treating a large variety of spastic patterns with several etiologies. The toxin effect is sometimes insufficient to improve functional outcome and is transient, thereby requiring repeated injections. Selective neurotomy is a permanent surgical treatment of the reflex component of the spastic muscle overactivity (spasticity) that is effective for spastic equinovarus foot. The neurotomy provides a greater and more constant reduction in spasticity. However, the long-lasting effect on the non-reflex muscle overactivity, especially dystonia, is doubted. The effectiveness, clinical indications, advantages, side effects and limitations of both techniques are discussed. Botulinum toxin type A has the highest level of evidence and the largest range of indications. However, the botulinum toxin effect is reversible and seems less effective, which supports a permanent surgical treatment such as selective neurotomy, especially for the spastic foot. Further research is needed to compare the effect of botulinum toxin type A and selective neurotomy for the different types of spastic muscle overactivity and clinical patterns

A case study of intrathecal baclofen pump motor shutdown secondary to the effect of the magnetic field created by a personal digital tablet and magnetic cover.

We present the case of a post-traumatic C6 AIS A tetraplegic patient with spasticity treated with an intrathecal baclofen pump (ITB), who noticed a transient increase in his spasticity each time he used a digital tablet (Ipad®) protected by a magnetic shell placed on his abdomen. Telemetry confirmed transient motor shutdown responsible for withdrawal symptoms each time the tablet was used. Symptoms resolved after the removal of the protective shell. Effects of magnetic fields like magnetic resonance imaging (MRI) are known to stall the pump rotor, which recover at the end of MRI. Other sources of magnetic fields like laptops or new smartphones with magnet charging technology may also interfere with implanted devices. We therefore recommend patients to avoid close contact of magnetic devices with the intrathecal baclofen pump. More robust studies are warranted to assess the effect of the new magnetic technologies on the function of intrathecal pumps

Pituitary incidentaloma: To operate or not to operate?

The wide use of sophisticated imaging techniques has led to the discovery of asymptomatic pituitary lesions, which are called 'incidentalomas'. Their global prevalence averages 10% whereas that of macroadenomas (> 10 mm) is less than 1%. The most frequently encountered lesions are non-functioning adenomas followed by Rathke's cleft cysts. Physiological pituitary hypertrophy is also frequent in young women. Silent functioning adenomas especially prolactinomas can be found among incidentalomas. Hypopituitarism appears to be more frequent in larger lesions but can occur in microadenomas (< 10 mm). The incidence of tumour growth is higher in macroadenomas and solid lesions in comparison with microadenomas and cystic lesions. The baseline evaluation should include in all patients a complete history and physical examination, a screening for hormone hypersecretion and hypopituitarism and a visual field examination if the lesion abuts the optic nerves or chiasm. If there is hormone hypersecretion, an appropriate treatment is indicated (dopamine agonists for prolactinomas and surgery for tumours producing GH, ACTH or TSH). If there is hypopituitarism, adequate hormone replacement therapy is required. According to recent guidelines, the indications for surgery of non-functioning incidentalomas include a visual field deficit, other visual abnormalities such as ophtalmoplegia or a lesion abutting the optic nerves or chiasm on magnetic resonance imaging (MRI). Regarding the follow-up of incidentalomas not meeting the criteria for surgery, the following tests should be performed: MRI at 1 year for micro- incidentalomas, at 6 months for macro-incidentalomas and then less frequently if unchanged in size, visual field examination for lesions enlarging to abut or compress the optic nerves or chiasm (6 months and yearly) and endocrine testing for macro-incidentalomas (6 months and yearly). Nowadays, data are insufficient to suggest the routine use of medical therapy in non-functioning tumours. Pituitary radiotherapy may be useful as an adjunctive treatment for tumour remnants growing progressively

Effects of Diagnostic Tibial Nerve Block and Selective Tibial Nerve Neurotomy on Spasticity and Spastic co-contractions: A Retrospective Observational Study.

To assess the effects of diagnostic nerve block and selective tibial neurotomy on spasticity and co-contractions in patients with spastic equinovarus foot. Among 317 patients who underwent a tibial neurotomy between 1997 and 2019, 46 patients who met the inclusion criteria were retrospectively screened. Clinical assessment was made before and after diagnostic nerve block and within 6 months after neurotomy. A total of 24 patients underwent a second assessment beyond 6 months after surgery. Muscle strength, spasticity, angle of catch (XV3), passive (XV1) and active (XVA) ankle range of motion were measured. The spasticity angle X (XV1-XV3) and paresis angle Z (XV1-XVA) were calculated with the knee in flexed and extended positions. Tibialis anterior and triceps surae strength remained unchanged, while both Ashworth and Tardieu scores were highly reduced after nerve block and neurotomy at all measurement times. XV3 and XVA increased significantly after block and neurotomy. XV1 increased slightly after neurotomy. Consequently, spasticity angle X and paresis angle Z decreased after nerve block and neurotomy. Tibial nerve block and neurotomy improve active ankle dorsiflexion, probably by reducing spastic co-contractions. The results also confirmed a long-lasting decrease in spasticity after neurotomy and the predictive value of nerve blocks