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Weakness in the Critically Ill Patient

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Title: Weakness in the Critically Ill Patient

1
Weakness in the Critically Ill Patient

Susan M. Stickevers, MD
Program Director, Physical Medicine
Rehabilitation, SUNY Stony Brook

2
Objectives

To define the problem of ICU-associated weakness
To outline an approach to weakness in critically
ill patients
To discuss common causes of this phenomenon

3
Outline

Diagnostic Approach
Causes of Weakness in the ICU
Critical illness Polyneuropathy
Critical illness Myopathy
Diffuse Non-Necrotizing Myopathy
Thick Filament Myopathy
Acute Necrotizing Myopathy
Outcomes

4
Introduction

Severe Muscle Weakness Common in ICU Patients
25 - 33 develop clinically overt weakness
50 develop electrophysiological abnormality
Consequences
Prolonged ventilation ICU stay
Other complications of ICU stay - pulmonary
embolism, DVT, decubiti
Death

5
Introduction

Signs of Critical Illness Neuropathy / myopathy
may be incorrectly attributed to
Sedation
Depression
Coma
Deconditioning
Critical illness Polyneuropathy Myopathy are
diagnoses of exclusion

6
Diagnostic Approach

Think broadly!
Long differential diagnosis, depending on the
clinical context
Examine the patient - Confirm weakness-
Suspect critical illness myopathy/neuropathy if
Unexpected lack of ventilatory weaning
Accelerated peripheral muscle atrophy ( esp. in
the upper extremities)
Inability to hold head/limb off bed
R/O neuromuscular blockade with
anticholinesterases

7
Diagnostic Clues

Mental status - not affected in critical illness
myopathy polyneuropathy
Pattern of weakness
Symmetric, with facial sparing
If cranial nerve weakness is present consider
alternative diagnoses
Motor Neuron Disease
Guillain Barre Syndrome
Myasthenia Gravis
Stroke
DTRs - usually decreased in critical illness
neuropathy myopathy
If DTRs are increased, this suggests central
lesion
Delayed elevation CPK myoglobin

8
Differential Diagnosis

Spinal Cord Dysfunction
Guillain Barre Syndrome
Motor Neuron Disease
Porphyria
Pre Existing Neuropathy
Myasthenia Gravis

9
Diagnostic Clues (contd)

The ICU-specific exam - ventilation!
Clinical increased respiratory rate, heart
rate, blood pressure
Laboratory acidosis, hypercapnia, hypoxemia
Ventilator measurements
Rapid Shallow Breathing Index (f/Vt gt 105)
Validated for demand-induced fatigue
Maximum inspiratory pressure (lt 20 cm H2O)
Integrated indices (e.g. CROP)
Demand vs. work of breathing

10
Work Up

MRI Brain (with gadolinium contrast)
To rule out pontine infarct (locked-in
syndrome) in severe cases
EMG - Indications
Inability to adequately assess peripheral muscle
strength in the ICU patient
To rule out potentially treatable condition such
as myasthenia Guillain Barre Syndrome
Failure to improve after 3 - 4 weeks
Muscle biopsy

11
Critical Illness Polyneuropathy

First described in early 1980s
Also known as neuropathy of critical illness, ICU
neuropathy
Occurs in 25 of ICU patients on average -
Seen in 70-80 of patients with severe sepsis or
multiple organ system failure
Usual onset gt 7 days after onset of critical
illness

12
Critical Illness Polyneuropathy

Witt et al., Chest. 1991
43 patients sepsis with multiple organ system
failure followed 28 days
30/43 (70) axonal polyneuropathy on EMG
15/43 (35) had clinical muscle dysfunction
23 survivors all recovered neuromuscular
function

13
Critical Illness Polyneuropathy - Definition

Acute axonal neuropathy
Follows course of illness
Self-limited
Recovery excellent in mild-moderate disease
Permanent disability in severe forms
Not attributable to other neurologic insult

14
Critical Illness Polyneuropathy - Pathogenesis

Etiology - ? Association with
Systemic Inflammatory Response Syndrome (SIRS)
multi system organ failure
Pro- inflammatory cytokines (ie TNF) released
causing increased microvascular permeability
Microcirculatory compromise of distal nerves
Axonal degeneration follows
Impaired transport of axonal proteins
Endoneural edema and/or hypoxia

15
Association with SIRS .

Only direct markers
Increased duration of ICU stay
Increased serum glucose
Decreased serum albumin

16
Critical Illness Polyneuropathy Clinical
Features

Delayed weaning from ventilator
Sensorimotor polyneuropathy
Generalized muscle atrophy
Flaccid paralysis
Decreased / absent DTRs only 1/3 have normal
DTRs
Sensory abnormalities (light touch/pain)
Cranial nerves spared
Physical exam often nondiagnostic

17
Critical Illness Polyneuropathy - Diagnosis

Work Up
EMG / NCS Consistent with Sensory Motor
Axonal Polyneuropathy
Denervation potentials are widespread in the form
of fibrillation potentials positive waves
Nerve conduction velocities are spared
Decreased CMAP SNAP amplitudes
Phrenic nerve conduction studies abnormal with
CMAP amplitude ½ lower limit of normal
Nerve biopsy or autopsy axonal degeneration
Primarily distal
No inflammation or demyelination

18
Critical Illness Myopathy

Synonyms
- Myopathy of Critical Illness
- Intensive Care Myopathy
- Acute Quadriplegic Myopathy
- Acute Necrotizing Myopathy

19
ICU Myopathy Syndromes

Similar clinical presentation to critical illness
polyneuropathy
Diffuse Non - Necrotizing Myopathy
Thick Filament Myopathy
Acute Necrotizing Myopathy
Rarer entities
Pyomyositis seen with pyogenic organisms

20
Non-Necrotizing Myopathy

Mild changes on EMG/biopsy
CPK usually normal
Seen in association with critical illness
polyneuropathy

21
Critical Illness Myopathy

Pathology
Muscle fiber size variability atrophy
Fatty degeneration
Fibrosis necrosis
Inflammatory changes absent
Helliwell et al. Journal of Pathology, 1991.
studied muscle biopsies of CIM patients
12/31 muscle biopsies showed atrophy
15/31 showed necrosis
5/12 serial biopsies progressive necrosis

22
CIM Pathogenesis

Mechanisms of injury related to sepsis
Direct effect of toxins secreted by
microorganisms
Inflammatory mediators involved in pathogenesis
IL-1, TNF, glucocorticoids proteolysis
Intracellular myofibrillar protein degradation
Intramuscular immune activation

23
CIM or CIPN?

Different entities found in similar patients
Postulated reasons
Simultaneous injury from same stressors
Sequential injury time of biopsy key
Coakley et al. Intensive Care Medicine, 1993.
23 patients evaluated with muscle biopsy EMG
Multiple abnormalities in 22/23
Distal axonal degeneration, necrotizing myopathy

24
A Rose by Any Other Name

Bednarik et al. Intensive Care Medicine, 2003.
46 patients with gt1 organ failure
EMG in all patients
Muscle biopsy in 11
Sural nerve biopsy in 5
Overlapping findings in most patients
Suggest polyneuromyopathy as more appropriate
descriptor - CIPNM

25
Thick Filament Myopathy

First described in association with high-dose
steroids
Well described in asthmatics transplant
recipients
Often seen in patients on steroids in combination
with neuromuscular blocking agents
Selective thick (myosin) filament loss
? decreased myosin transcription
Neurogenic component absent
CPK may be elevated, with or without myoglobinuria

26
Thick Filament Myopathy - Pathogenesis

Mechanisms poorly understood
Corticosteroid hypersensitivity in denervated
muscle
Neuromuscular blocking agents
Potentiated by critical illness polyneuropathy
?Sepsis mediated proteolysis
Disuse vulnerability
Membrane inexcitability secondary to TNF

27
Thick Filament Myopathy

Leatherman et al. Am J Respiratory Critical Care
Medicine, 1996.
107 pts ventilated for asthma
All received steroids, 69 also had neuromuscular
blocking agents
Weakness only in patients given both drugs
Seen with all neuromuscular blocking agents
Duration of paralysis important (85 of pts.
developed weakness if on NMBA gt 72 hours)

28
Acute Necrotizing Myopathy

Less common
Pathology vacuolization/phagocytosis
Pathogenesis - ?similar to Thick Filament
Myopathy
CPK often elevated
Risk of rhabdomyolysis in this disorder

29
Diagnosis of Myopathy

Physical, serum tests, EMG often negative
Normal CPK often seen
EMG usually captures few motor units
True neuropathy vs. functional denervation from
end-plate myonecrosis
Low or Normal Compound Motor Action Potentials
Sensory Nerve Action Potentials are normal

30
Muscle Biopsy

Modality of choice
Invasive, time sensitive
Findings
Atrophy
Selective thick (myosin) filament loss on
electron microscopy
?Role of myosin / actin ratio
Stibler et al. Intensive Care Medicine, 2003.
Necrosis / phagocytosis/ vacuolization

31
Indications to Biopsy for Suspected CIM

Any patient with paresis without EMG evidence
consistent with pure critical illness
polyneuropathy and
Normal sensory nerve studies
Low or Normal CMAP amplitudes
Little spontaneous EMG activity

32
Management of Critical Illness Weakness Syndromes

Supportive Care
Do not attempt early weaning from ventilator
Early mobilization to prevent contractures,
decubiti, deconditioning
Judicious use of steroids neuromuscular
blocking agents
Special attention to myonecrosis if using
steroids neuromuscular blocking agents
Watch drug metabolism / elimination factors

33
Work Up May Also Include

MRI C spine, LS spine
Repetitive Stimulation to rule out myasthenia
gravis
Phrenic Nerve studies, especially in those who
are difficult to wean from ventilator

34
Treatment (contd)

Prevention no specific measures
de Letter et al. Critical Care Medicine, 2001
APACHE III score septic inflammatory response
syndrome were only true risk factors
van den Burghe et al. N Engl J Med. 2001
Intensive insulin therapy reduced ICU length of
stay
Lower incidence of CIPN
More rapid resolution

35
Prognosis