Mobilization of the Neural Tissue 2020 PDF

Summary

This document covers the mobilization of neural tissue, focusing on pathological processes within the nervous system. It details various factors like vascular and mechanical forces, injury effects on axonal flow, fibrosis, and the double crush syndrome. The document is part of a manual therapy course.

Full Transcript

MOBILIZATION OF THE NEURAL TISSUE UNIT 2. Pathological processes in the NS Manual Therapy I Arturo Pérez Gosálvez CEU-Universidad San Pablo PATHOLOGICAL PROCESSES • PLACES OF INJURY. • TYPES OF INJURY. • PATHOLOGICAL PROCESSES. • OTHER FACTORS TO CONSIDER. • ADVERSE NEURAL TENSION. 2 PLACES...

MOBILIZATION OF THE NEURAL TISSUE UNIT 2. Pathological processes in the NS Manual Therapy I Arturo Pérez Gosálvez CEU-Universidad San Pablo PATHOLOGICAL PROCESSES • PLACES OF INJURY. • TYPES OF INJURY. • PATHOLOGICAL PROCESSES. • OTHER FACTORS TO CONSIDER. • ADVERSE NEURAL TENSION. 2 PLACES OF INJURY 3 PLACES OF INJURY • 1. Bone tunnels, fibro- osseous or soft tissue: • 2. Places where the NS is more fixed: – They act as no flexible walls! – Decreased ability sliding. – Possible friction. – Example: Head of fibula (peroneal nerve). – Example: Carpal tunnel. PLACES OF INJURY • 3. NS branch locations (ramification): – Decreased ability of sliding. – Example: Braquial plexus • 4. Places where the NS is near to rigid interfaces: – Friction is favored – Example: Guyon´s canal. • 5. Stress/tensión points: – The combination of movements can generate them… PLACES OF INJURY • There is a greater susceptibility to suffer affectations in previously damaged areas. • Also injuries in a relatively vulnerable segment may have implications in more vulnerable areas. TYPES OF INJURY. 7 TYPES OF INJURY • Mechanical and physiological consequences. • ¡Remember neurophysiology!: It is not necessary that exist very serious trauma. • It is not necessary a direct injury to the NS : changes in the mechanical interface. TYPES OF INJURY 1. According to the form of appearance and time of evolution: • CHRONIC INJURIES: – Allow some degree of adaptation to NS. – Insidious alterations. • ACUTE INJURIES: – They can generate more serious consequences. – Sudden alteration in blood flow and axonal transport and mechanical deformation of the nerve fiber. TYPES OF INJURY 2. According to injury location: • INTRANEURAL PATHOLOGY: • EXTRANEURAL PATHOLOGY: – Affect the conducting or connective tissues. – It involves the mechanical interface. – Although the NS can move, decrease its elasticity. – Affectation nerve movement on the interface. – Example: Arachnoiditis – Example: Lumbar spinal stenosis. PATHOLOGICAL PROCESSES 11 PATHOLOGICAL PROCESSES • 1. Vascular Factors . • 2. Mechanical Factors. • In the early stages vascular factors tend to predominate PATHOLOGICAL PROCESSES • 1. VASCULAR FACTORS: – Need for blood supply. – Intraneural circulation needs a proper pressure gradient. – Any alteration in the container may alter the pressure gradient. PATHOLOGICAL PROCESSES • 1. VASCULAR FACTORS : – If a pressure rise occurs => drainage weakens (20-30 mmHg). – Hypoxia as initial state. – If continuous hypoxia, endothelial damage and capillary occurs, presenting a rich protein edema. – Then fibroblast proliferation occurs, leading to intraneural fibrosis. • Vicious circle => fibrosis increases pressure. INJURY PRESSURE RISE VICIOUS CIRCLE VASCULAR DRAINAGE WEAKENS INTRANEURAL FIBROSIS HYPOXIA (initial state) RICH PROTEIN EDEMA ENDOTHELIAL AND CAPILLARY DAMAGE 15 PATHOLOGICAL PROCESSES • 2. MECHANICAL FACTORS : – These factors can injure connective and neural tissue. – Epineurium: reactive tissue to mechanical factor: • Possible tear and edema (ex: ankle sprain). • It does not usually affect nerve conduction. PATHOLOGICAL PROCESSES • 2. MECHANICAL FACTORS: – Stretching is more harmful than compression. – Be careful!!, mechanical forces also produce injuries through rupture of blood vessels. – It would be possible that coexist in the lesion mechanical and vascular factors. PATHOLOGICAL PROCESSES • 3. INJURY AND AXONAL FLOW: – The axonal flow requires energy: blood supply. – Alteration in axonal flow if there is reduction of this contribution. – Changes in the cell body, axon and synapses… PATHOLOGICAL PROCESSES • 3. INJURY AND AXONAL FLOW – ¿ What pressure causes alterations in it? • 20 mmHg during 8 hours. • 30 mm Hg during 2 hours. – Reversible alterations. • 50 mm Hg during 2 hours produce reversible symptoms in 24 hours. • 200 mm Hg during 2 hours: reversible in 3 days. • 400 mm Hg during 4 hours: reversible in 1 week. PATHOLOGICAL PROCESSES • 4. FIBROSIS – Final state of any injury of the NS. – The changes produced locally can encourage the emergence of further injury : • Changes in a zone alterate all the NS. • Axoplasmatic flow alteration, affects the entire/ whole neuron. • Coexistence of mechanical and vascular factors. PATHOLOGICAL PROCESSES • “DOUBLE CRUSH SYNDROME”: – Small grips on the nerve may have an added effect, causing distal neuropathy by entrapment. – May be distal or proximal. – By altering the axoplasmatic flow. • Predisposes to mechanical deformation of the nerve. PATHOLOGICAL PROCESSES • 5. PAIN IN NERVOUS SYSTEM: – Conective tissues: • Nociceptive origin. • Special importance of the dura- mater. – Peripheral nervous trunk: Dysestesic • Pain through nervi- nervorum. “Trunk pain” PATHOLOGICAL PROCESSES – Neural tissues: • Ectopic pulses by compression, stretching or vascular injury/lesion. • Downloads by formation of neuromas. • Overactivity of C fibers. • Abnormal synapse by myelin injury. 23 OTHER FACTORS TO CONSIDER 24 OTHER FACTORS TO CONSIDER • ATYPICAL ANATOMY OF THE NS: – Changes in normal morphology produce greater chance by nerve entrapment. – Frequent changes: 10% -15% of the population. OTHER FACTORS TO CONSIDER • TIMEOUT AFTER INJURY : – The nervous system adapts well to a tension or pressure during time. – More damaging the sudden injuries. • The slow processes allows some protection, but also increases the irreversibility of the same. ADVERSE NEURAL TENSION 27 ADVERSE NEURAL TENSION • “It is the set of abnormal/atypical, physiological and mechanical, responses from NS structures when their normal motion amplitude and stretchability are tested.” • The presence of alterations in the normal mechanics of NS can produce signs and symptoms of various kinds. • These alterations in the normal mechanics may be due to different pathologies.

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