Research Article Abstract Feb 2018

The development of the understanding of the hypermobility spectrum is a classic example of an area of interest that in its early study developed a nomenclature littered with acronyms, current and past, but that may still be in use. A lot of the study of the hypermobility spectrum is in the diagnostic arena, and the information delivered can be both technical and tautologic which can be confusing to a practitioner or an individual with the condition. In 1988, 1998, and 2017 reclassifications of Ehlers-Danlos syndromes (EDS) have occurred to standardise terminology due to advances in genetic testing, and future reclassifications are highly likely, especially as revision meetings are planned every 2 years. A Pilates Teacher should have familiarity with some of the terms used, historic and current, within the spectrum but be mindful of the current classifications. For example, the largest subset of the Ehlers Danlos syndromes (EDS) has most recently been termed Hypermobile-EDS (hEDS) whereas it has previously been known as EDS Type III, or EDS Hypermobility Type (Tinkle et al., 2017). Tinkle, on behalf of an International group of experts also proposes the combination of the clinical diagnoses of hEDS and JHS (Joint hypermobility syndrome) as they are often clinically indistinguishable from each other (see Table 1). Both are heritable connective tissue disorders (HCTD) and since they do not have a current genetic test, diagnosis can only be based on a clinical description (Tinkle et al., 2017).

According to Cathy Collier, Healthcare Information Officer for Ehlers-Danlos Support UK, the 2017 reclassification is particularly useful as for the first time Management and Care Guidelines have been put forward (Collier, 2017) at the same time as the reclassification.

The hypermobility spectrum described in Castori et al. (2017), starts with a simple explanation, that Joint Hypermobility (JH) also known as joint laxity or double-jointedness can be defined as the capability that a joint can have to move beyond normal limits. JH can present with no other signs or symptoms. It can be localised (LJH) usually affecting fewer than 5 joints, inherited, or the result of trauma, disease or training. Generalised joint hypermobility (GJH) can involve all 4 limbs and the spine.

The Beighton score, first described in 1973, is a reliable and commonly utilised tool particularly to find generalised joint hypermobility (GJH) (See Fig. 1.). Criticism that the Beighton score does not assess joints such as the shoulders, hips and ankle that are often involved in JH is also valid, but its frequent use over decades means that it has been kept as a current tool, partially to aid future research comparisons (Engelbert et al., 2017). The Beighton score can add up to 9 points and interpretation of the results is age-dependent with children and adolescents being identified as having GJH if they score 6 or above, adults under 50 if they score 5 or above, and those over 50 only need to score 4. A further 5 point questionnaire can assist in identifying GJH if an individual is 1 point off the cut off. (See Fig. 2). (Collier, 2017).

The Beighton score does not identify those individuals that present with symptoms and this is where the hypermobility spectrum starts adding the words ‘disorder’ or ‘syndrome’. The Hypermobility Spectrum Disorders (HSD’s) include; Generalised Hypermobility Spectrum Disorder (G-HSD), Peripheral, Localised and Historical subgroups.

In the hEDS grouping the syndromic and disorder classifications present when systemic manifestations of more generalised connective tissue disorders are identified. These features can include:

• Soft or velvety skin
• Mild skin hyperextensibility
• Unexplained striae (stretchmarks in the absence of weight change)
• Piezogenic heel papules (fatty extruding bumps at the heel)
• Abdominal hernia’s
• Widened scars
• Pelvic floor, rectal or uterine prolapse
• Dental crowding with a high or narrow palate
• Arachnodachtyly (abnormally long fingers or toes)
• Longer arm span than height
• Heart issues – mitral valve, aorta dilatation

Symptoms along the spectrum can also include chronic pain, recurrent joint dislocations, including non-traumatic dislocations (frank joint instability). Some specific findings such as significant skin fragility, congenital hip dislocations, arterial rupture, other cardiac valve issues, or low muscular tone, among other symptoms may be found. Specific symptoms help in the diagnosis of other EDS groupings, but they are all part of the mild to severe symptomatic end of the spectrum.

Comorbidities are disorders that run concurrently with a primary disorder. In the Hypermobility Spectrum Disorders (HSD’s) these can be key features that may be used by a Pilates Teacher to flag up an individual who may have a more symptomatic hypermobility that needs careful handling, and a slower progression of exercise. The Pilates Teacher might consider asking the individual whether they have linked their Hypermobility symptoms to their comorbidity. Often it is the weight of linked features that can help someone affected by an HSD realise that there may be a combined story to explain a lifetime of seemingly random issues. Especially when the western medicine model has created specialisms that appear to have resulted in highly trained Consultants who find it difficult to step back in order to see the bigger picture that an HSD can present as.

A key comorbidity is PoTS (postural tachycardia syndrome), a condition that can present with headaches, fatigue, palpitations, sweating, nausea, fainting and dizziness. These symptoms are related to the inability of the body to adjust to postural (orthostatic) change especially from lying down to standing up causing the heart rate to increase significantly. It is related to the autonomic nervous system, the sub-conscious body system regulation controller, and is linked to the chemicals of the stress, ‘fight or flight’, response. (Web source 2).

Another possible comorbidity involves functional gastrointestinal disorders (FGD’s), that may involve symptoms of abdominal pain, bloating, nausea, diarrhoea, and constipation. FGD’s are becoming increasingly recognised as being commonly associated with joint hypermobility (Fikree et al., 2017), especially in children (Kovacic et al., 2014). Other autonomic related comorbidities include Chronic Fatigue that may be directly related to the effects of the disease burden associated with autonomic symptoms (De Wandele et al., 2014). GJH is more common in individuals with Chronic Fatigue syndrome and Fibromyalgia, overlapping disorders, though diagnostically different, compared with healthy volunteers. (Nijs, 2005).

Anxiety, panic disorder/agoraphobia was linked in a (Bianchi Sanches et al., 2012) systematic review with JH, though the underlying aetiology was reported as being controversial. Psychological and psychiatric involvement in HSD’s are well described and in neuroimaging of subjects with hEDS increased activity in emotional processing areas has been observed which may explain the levels of anxiety reported in this group (Bulbena et al., 2017).

An important set of symptoms in HSD’s are related to the fact that hypermobility itself can create secondary musculoskeletal manifestations.

• Trauma – divided into macrotrauma, involving dislocations and subluxations and injuries to the soft tissues surrounding the joints, and microtrauma’s the effects of which are more cumulative, perhaps resulting over time in osteoarthritic, recurrent or persistent pain
• Chronic pain – which could be related to increased sensitivity to pain (hyperalgesia) or neuropathies
• Disturbed proprioception – is a well observed phenomenon within the hypermobility spectrum, creating a mismatch between the perception of somatic inputs and the cognitive effort required for output, and may be a cause of the hyper-vigilance that hypermobile individuals are constantly demonstrating in movement situations
• Flexible flat feet
• Cumulative bony mal-alignments of great toes and elbows
• Spinal curvature alterations including scoliosis, both increased thoracic kyphosis and lumbar lordosis, or flexible reverses of the normal curvature in postures such as sitting

Dr. Jane Simmonds, an Australian Physiotherapist working in the UK, and Chair of the International Ehlers Danlos Syndrome Physical Therapy Clinical Guidelines working group, helps to clarify the management of the hypermobility spectrum in her presentation at the Ehlers-Danlos Support UK and the Hypermobility Syndromes Association joint conference in October 2017 (Web source 1).

She is very cognisant of the fact that members of the Physiotherapy profession are often uninformed both in the recognition of the hypermobility spectrum and its management. This has contributed to some poor reporting of the effectiveness of physiotherapy, which at worst has exacerbated symptoms, resulting in some physiotherapy practitioners being noted by hypermobility spectrum patients to,

• display a lack of understanding
• not listen
• not treat the whole person
• provide boring exercise/treatment
• be too vigorous and/or progress too quickly
• be over cautious or hands off (Web source 1, 2017, Palmer et al., 2016a).

Simmonds advocates the biopsychosocial model in the management of the hypermobility spectrum which includes a Holistic, Compassionate, Empowering and Evidence based approach – HOPE. It should include Education and Reassurance, and should direct those on the Hypermobility spectrum towards support groups. Therapy should be individualised, based on assessing the problems as presented by the individual, involving a problem solving, clinically reasoned, goal directed functional restoration program. Exercise interventions have to be carefully implemented. The therapist should understand how to manage recurrent subluxations/dislocation with a ‘Dislocation plan’ acute management, with a ‘Do Not Panic’ headline, incorporating joint support, pain management – including pain killers and icing – time, and avoidance of prolonged immobilisation.

Assessing gait, posture, basic movements such as sit-to-stand, balance, coordination, joint repositioning drills, muscle engagement (slow motor unit dominant cognitive control) and cardiovascular/fitness assessment, allows the judicious application of remedial tactics. Simmonds’ co-authored 2017 paper with first author Raoul Englebert is an important and up-to-date resource for any Physical therapy practitioner, including Pilates Teachers interested in working with Hypermobile clients (websource 1, Engelbert et al., 2017). Simmonds and Keer, 2007, Simmonds and Keer, 2008) provide expert opinion on management.

From a Pilates perspective, slowly progressed graded exercise, cognitively addressing uncontrolled movements (UCM’s) (Comerford and Mottram, 2012) through the full range of movement available, is important. The principles of centre, breath, concentration, control, precision, and (aiming for) flow seems to have been designed particularly for the management of those on the hypermobile spectrum.