Multiple Sclerosis Lecture 4.2 PDF

Summary

This lecture provides an overview of multiple sclerosis, covering topics such as epidemiology, pathogenesis, symptoms, and treatments. It details the various clinical patterns of the disease and its impact, along with potential pharmacological management strategies. This is a summary of Multiple Sclerosis Lecture 4.2.

Full Transcript

Lecture 4.2 (1.5 hours) Objectives  Epidemiology & aetiology of multiple sclerosis  Process of demyelination & its effect on neuronal transmission  Different patterns of disease process  Clinical symptoms of multiple sclerosis  Diagnostic process for multiple sclerosis  Pharmacological manage...

Lecture 4.2 (1.5 hours) Objectives  Epidemiology & aetiology of multiple sclerosis  Process of demyelination & its effect on neuronal transmission  Different patterns of disease process  Clinical symptoms of multiple sclerosis  Diagnostic process for multiple sclerosis  Pharmacological management for multiple sclerosis  Key features of physiotherapy management for people with multiple sclerosis MS – info on services  https://www.youtube.com/watch?v=fhUW3BJvVC4 (5.89) from Cleveland clinic Abu Dhabi  MS society websites (UK, US, Australia, Canada for further reading) Epidemiology  Mainly affects white races  Young  2.3 million worldwide (2016 report)  More prevalent further away from equator (? related to Vitamin D/sunlight)  Eg 140/100000 in North America  Eg 108/100000 in Europe  Eg: 2.1/100000 in Sub-Saharan Africa  Eg: 2.2/100000 in East Asia  ? in countries where MS rare, early contact with causative agent (? virus) protects population (? immunity) Epidemiology  Born in high risk area – move to low risk area 50yo)  If diagnosed over 50 year, it is usually a late stage of MS  Childhood onset rare  15% risk if relative has disease Myelin  PNS  One Schwann cell myelinates one axon  CNS  Oligodendrocytes form myelin around CNS axons  One oligodendrocyte myelinates multiple axons Pathogenesis  Demyelination results from disintegration of CNS myelin sheath due to inflammation Perivascular inflammation ↓ Myelin depletion, oligodendrocyte loss & astroglial proliferation ↓ Limited remyelination, axon loss, scar formation Pathogenesis  Most common sites of plaques (scar formation):  White boundary in cerebrum  Periventricular regions  Cerebellar white matter  Optic nerves  Cervical portion of spinal cord  Brain stem Disease process  Benign 5%  Relapsing remitting 40%  Secondary progressive 40%  Primary progressive 10-15%  (rare other clinical variants described) Relapsing remitting  Most common early clinical course  Usually converts to secondary progressive after 10 yrs Clearly defined attacks (relapses) followed by total or partial improvement in between Secondary progressive  Relapsing-remitting usually converts to this clinical pattern where no true ‘stable’ period Secondary progressive Primary progressive  Constant deterioration since initial onset Clinical patterns of MS  Rate and severity of disease progression differs among patients  20-30% still working 20-25yrs after diagnosis  The longer the delay in new symptoms after diagnosis, the more likely a benign course  Secondary progressive – older age at onset MS ‘snapshot’  1/3 quiescent phase/not significantly disabled  1/3 slowly deteriorating  1/3 stable but disabled MS diagnosis CT scan is ineffective in showing up areas of demyelination MRI: periventricular plaques MS diagnosis  Lumbar Puncture CSF shows specific changes that match up with the presence of inflammation: slightly more inflammatory cells, greater number of inflammatory proteins.  ‘oligoclonal bands’ MS Symptoms Dependent upon CNS lesion/s location  Sensory disturbance (spinal cord)  Optic neuritis  Limb weakness (often monoparesis)  Diplopia  Vertigo (vestibular)  Ataxia & tremor  Sphincter disturbance Acute exacerbation Use of anti-inflammatory drugs (steroids):  Methylprednisolone (IV)  +/- prednisolone (orally) Drug treatments – disease modifying  Avonex – interferon beta-1a  Betaferon – interferon beta-1b  Copaxone – immunomodulator, blocks myelin-specific autoimmune responses  Rebif – interferon beta-1a Symptomatic drug management  Baclofen (spasticity)  Ondansetron/dramamine (Dizziness & nausea)  Antidepressants (depression)  Anticholinergics (Bladder symptoms) Non-specific (complex) symptoms  Fatigue  Heat intolerance  Cognitive impairments Fatigue  ‘MS’ fatigue – overwhelming tiredness  Primary or secondary fatigue  Partially demyelinated axons cannot transmit fast trains of impulses  Affects 75% of people with MS  Occurs daily  Worse as day progresses  Worse in heat Fatigue Secondary fatigue:  Related to sleep deprivation eg due to nocturnal leg spasms or continence issues  Related to depression  Related to additional effort required to perform PADLs  Related to loss of ‘fitness’ due to inactivity Heat intolerance  Occurs in 60-90% of people with MS  Impaired thermoregulation (ANS)  Small increase in body temp = ↓ nerve conduction velocity (Note – may result in beneficial or adverse consequences ie may ↑ weakness but ↓ central pain) Cognitive impairment  Occurs in >50% of those with MS  Attentional deficits, both auditory and visual; subsequent memory problems, prone to euphoria, greater incidence of depression, changes in personality Physiotherapy management  Preserve musculoskeletal integrity  Preserve aerobic capacity  Manage fatigue  Optimise functional ability & mobility  Match interventions to client-focused goals  Provide equipment/aids to increase independence  Work within multidisciplinary team to ensure quality of life issues are addressed Outcome measures  Consider measures of QOL & fatigue to supplement standard neuro measures  Eg 6MWT sensitive to reduction in speed and increase in fatigue in patients with MS cf controls Physio – address impairments Spasticity Physio – address activity limitations  Physio – address participation restrictions Efficacy of physio intervention  No evidence that physio Rx increases or decreases the frequency of exacerbations Physio intervention  Increased focus on aerobic exercise early in disease process  3 x 40 mins per week of arm and leg ergometry, 10 week program  Increase in VO2 max, UL & LL strength, depression/anger scores decreased, fatigue decreased Physio intervention  5 x 30 min/week bicycle ex (4 weeks)  Increased aerobic threshold, work rate, health perception, activity level  No evidence of symptom exacerbation by physical activity Hydrotherapy  Heated pools may be poorly tolerated  Cooled pools may enable greater exercise capacity (manage thermosensitivity, reduce core body temp rise)  Buoyancy of water may limit cumulative fatigue  Water may provide resistive element for ataxia and dysmetria http://www.msaustralia.org.au/documents/MS- Practice/aquatic.pdf Benefits of strength training  Can improve muscle force production PLUS: http://www.msaustralia.org.au/documents/MS-Practice/strength.pdf Summary  Immunologically mediated inflammatory disease within CNS  Aetiology likely to be combination of environmental and genetic factors  Multiple sites of disease throughout CNS  Different clinical course patterns  Physio intervention will change relative to disease stage and symptoms  No evidence that exercise exacerbates MS  Evidence that exercise improves MS symptoms

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