•
Upper motor neurone pattern: increased tone, brisk reflexes, pyramidal pattern of weakness, extensor plantar responses.•
Lower motor neurone pattern: wasting, fasciculation, decreased tone, decreased or absent reflexes, flexor plantar responses.•
Muscle disease: wasting (usually proximal), decreased tone, decreased or absent reflexes, flexor plantars.•
Neuromuscular junction: fatigable weakness, normal or decreased tone, normal reflexes, flexor plantars.•
Functional weakness: no wasting, normal tone, normal reflexes, flexor plantars, erratic power.See Figure 20.1.
1. Weakness in all four limbs
a. With increased reflexes and extensor plantar responses
•
Anatomical localisation: cervical cord lesion or bilateral pyramidal lesions.b. With absent reflexes
•
Polyradiculopathy, peripheral neuropathy or a myopathy. Sensory testing should be normal in a myopathy.MOTOR SYSTEM:
TIP Making full sense of the motor signs will also depend on sensory and other signs.
TIP Sensory testing and cranial nerve signs may be used to discriminate.
Figure 20.1
Flow chart: simplified approach to weakness
Myasthenia gravis
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c. Mixed upper motor neurone (in the legs) and lower motor neurone weakness (in the arms)
•
Suggests motor neurone disease (which has no sensory loss) or mixed cervical myelopathy and radiculopathy (with sensory loss).d. Normal reflexes
•
Fatigable weakness, particularly with associated cranial nerve abnormalities (eye movements, ptosis, facial muscles): myasthenia gravis.•
Variable weakness, normal tone: consider functional non-organic weakness.2. Weakness in both legs
a. With increased reflexes and extensor plantar responses
•
Suggests a lesion in the spinal cord. The lesion must be above the root level of the highest motor abnormality. A level may be ascertained with sensory signs.b. With absent reflexes in the legs
•
Polyradiculopathy, cauda equina lesions or peripheral neuropathy.3. Unilateral arm and leg weakness
Upper motor neurone lesion in the high cervical cord, brainstem or above
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Contralateral sensory findings (pain and temperature loss) indicate lesion of half ipsilateral cervical cord lesion (Brown–Séquard) (see Chapter 21).•
Contralateral cranial nerve lesions or brainstem signs indicate the level of brainstem affected.•
Ipsilateral facial or tongue weakness indicate lesion above brainstem.•
Ipsilateral sensory loss indicate a lesion above the medulla.•
Visual field or higher function deficits indicate hemisphere lesion.TIP Associated cranial nerve, visual field defect or higher function defect may allow more accurate localisation.
TIP In the state of ‘spinal shock’ that occurs after a recent acute and severe upper motor neurone lesion, tone will be reduced and reflexes may be absent—even though this in an upper motor neurone lesion.
4. Syndromes limited to a single limb
Upper motor neurone signs limited to a single limb can be caused by lesions in the spinal cord, brainstem or cerebral hemisphere. Motor signs alone cannot distinguish between these possibilities. This relies on other signs—for example, cranial nerve or sensory abnormalities—
or a diagnosis may not be possible without further investigation.
If lower motor neurone, common syndromes seen are as follows.
a. Upper limb Hand
(i) Median nerve: weakness and wasting of thenar eminence abductor pollicis brevis. Sensory loss: thumb, index and middle finger (Chapter 21).
(ii) Ulnar nerve: weakness with or without wasting of all muscles in hand excepting the LOAF. Sensory loss: little and half ring finger (Chapter 21).
(iii) T1 root: wasting of all small muscles of the hand. N.B. Sensory changes are confined to the medial forearm.
(iv) Radial nerve: weakness of finger extension, wrist extension and probably triceps and brachioradialis. Minimal sensory changes at anatomical snuffbox. Reflex loss: supinator; triceps may also be lost if lesion above spiral groove.
(v) Bilateral wasting of small muscles:
– with distal sensory loss: peripheral neuropathy – without sensory loss: motor neurone disease.
Arm
(i) C5 root: weakness of shoulder abduction, external rotation and elbow flexion; loss of biceps reflex. Sensory loss: outer aspect of upper arm (Chapter 21).
(ii) C6 root: weakness of elbow flexion, pronation; loss of supinator reflex. Sensory loss: lateral aspect of forearm and thumb (Chapter 21).
(iii) C7 root: weakness of elbow and wrist extension; loss of triceps reflex. Sensory loss: middle finger (Chapter 21). N.B. cf. radial nerve.
(iv) C8 root: weakness of finger flexion; loss of finger reflex. Sensory loss: medial aspect of forearm (Chapter 21).
(v) Axillary nerve: weakness of shoulder abduction (deltoid). Sensory loss: small patch on lateral part of shoulder (Chapter 21).
b. Lower limb
(i) Common peroneal palsy: weakness of foot dorsiflexion and eversion with preserved inversion. Sensory loss: lateral shin and dorsum of foot (Chapter 21). N.B. cf. L5 root.
(ii) L4 root: weakness of knee extension and foot dorsiflexion. Reflex loss: knee reflex. Sensory loss: medial shin (Chapter 21).
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(iii) L5 root: weakness of foot dorsiflexion, inversion and eversion, extension of the big toe and hip abduction. Sensory loss: lateral shin and dorsum of foot (Chapter 21).
(iv) S1 root: weakness of plantar flexion, and foot eversion. Reflex loss: ankle reflex. Sensory loss: lateral border of foot, sole of foot (Chapter 21).
5. Variable weakness
(i) Weakness seems to fatigue with effort then recovers: consider myasthenia gravis.
(ii) Fluctuates, with effort collapsing at times and at other times giving full power: consider functional weakness.
6. Weakness that is not really there
Patients may appear weak when they are not, if:
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They find it difficult to understand what you want them to do (altered higher function).•
They are slow to initiate movements (bradykinesia as in Parkinson's disease).•
The movement is painful.•
They are not sure where their limb is due to proprioceptive loss.If in doubt, re-examine them with these factors in mind.