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SEPTIC SHOCK AND MULTI-ORGAN
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SEPTIC SHOCK AND MULTI-ORGAN
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What is an endotoxin?
Endotoxin, a trigger of septic shock, is composed of the
lipopolysaccharide derived from the cell walls of Gram nega-
tive bacteria. It has three components
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Lipid A: the lipid portion, and the source of much of the
molecule’s systemic effects
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Core polysaccharide
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Oligosaccharide side chains
What is the difference between bacteraemia and
sepsis?
Bacteraemia refers to the presence of viable bacteria in the
circulation. Sepsis is defined as the syndrome associated with
the systemic response to infection. The latter is characterised
by a systemic inf lammatory response and diffuse tissue
injury.
Define septic shock.
Septic shock is defined as the presence of sepsis with result-
ing hypotension or hypoperfusion, leading to organ dysfunc-
tion – despite adequate f luid replacement.
What particular feature distinguishes septic shock
from cardiogenic or hypovolaemic shock?
The important feature of septic shock is the presence of a
reduced systemic vascular resistance and an increased cardiac

Triggers include
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Sepsis
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Multiple trauma
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Burns
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Acute pancreatitis
Thus many conditions other than sepsis may trigger these
features. The concept of SIRS was introduced after it was
shown that less than 50% of those who exhibited features of
sepsis had positive blood cultures.
What are the basic pathophysiological events that
lead to the development of SIRS?
The pathophysiology of this condition involves a progressive
increase in the distribution of the inf lammatory response in
the body. The basic problem is a situation where the inf lam-
matory response to the triggering event is excessive or
poorly regulated. It has been described in terms of three
phases
᭹
Phase I: There is a local acute inf lammatory response
with the chemotaxis of neutrophil polymorphs and
macrophages. Inf lammatory mediators (such as cytokines
and proteases) are released
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development of SIRS?
Yes, this is the observed finding that those with SIRS who are
recovering can have a rapid systemic response to a seemingly
trivial second insult, such as a urinary tract or line infection.
This may lead to a rapid and terminal deterioration in the
patient’s state.
Define the multi-organ dysfunction syndrome
(MODS).
The MODS is defined as the presence of altered and poten-
tially reversible organ function in an acutely ill patient such
that homeostasis cannot be maintained without intervention.
By definition it affects two or more organs.
There are two types
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Primary MODS: the organ failure is directly attributable
to the initial insult
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Secondary MODS: the failure occurs as a result of the
effects of SIRS. There may be a latent period between the
initial event and the subsequent organ failure
Which organ systems may be involved in this process?
Any organ system may potentially be involved
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Cardiovascular system: there is vasodilatation with
microcirculatory changes that increase the capillary
permeability. This leads to a reduction of the systemic
vascular resistance and maldistribution of blood f low.

What is the mortality associated with organ failure?
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Mortality from renal failure is around 8%
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Mortality from renal failure ϩone other organ is around 70%
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Mortality from three failing organs is around 95%
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SEPTIC SHOCK AND MULTI-ORGAN
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SEPTIC SHOCK AND MULTI-ORGAN
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What are the basic principles of management of any
case of SIRS and MODS?
Management place a heavy emphasis on support of the fail-
ing organ systems
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Surgical intervention: sometimes required to reduce the
infective load onto the circulation, e.g. drainage of pus
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Circulatory support: to maintain the cardiac index and
oxygen delivery to the tissues with the use of i.v. f luids.
Inotropes may be required, e.g. norepinephrine to
increase the systemic vascular resistance. Monitoring
therefore involves the insertion of a pulmonary artery
f lotation catheter

5% in the intracellular compartment
The vast majority (~70%) is found in the readily exchangeable
form.
What are the major physiological roles of
sodium?
Because of the content of sodium in the body, it exerts sig-
nificant osmotic forces, and so important for internal water
balance between the intra and extracellular compartments.
It also has a role in determining external water balance and
the extracellular f luid volume. The other important role
of sodium is in generating the action potential of excitable
cells.
What is the daily sodium requirement?
The daily requirement is about 1 mmol/kg/day.
What is the normal plasma concentration?
The normal is 135–145 mmol/l.
Give a simple classification of the causes of
hyponatraemia.
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Water excess
᭿
Increased intake: polydipsia, iatrogenic, e.g. TURP
syndrome, excess dextrose administration
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Retention of water: SIADH
᭿
Retention of water and salt: nephrotic syndrome, cardiac
and hepatic failure
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