Shock, SIRS, and MODS PDF

Summary

This document provides an overview of shock, systemic inflammatory response syndrome (SIRS), and multiple organ dysfunction syndrome (MODS). It covers the pathophysiology, different types of shock, and management strategies. The author, Precy P. Lantin, MAN, RN, presents this information as lecture notes from the College of Nursing.

Full Transcript

SHOCK

Precy P. Lantin, MAN, RN
 Shock
 is a life-threatening condition
that occurs when the body is
not getting enough blood flow.
 Affects all body systems
 Cellular Effects of Shock

 The cell swells and the
cell membrane becomes
more permeable, and
fluids and electrolytes
seep from and into the
cell. Mitochondria and
lysosomes are damaged,
and the cell dies.
Stages of Shock

1. Compensatory
2. Progressive
3. Irreversible
 Compensatory

 The patient’s blood pressure remains
within normal limits

 Vasoconstriction, HR, and contractility
of the heart contribute to maintaining
adequate cardiac output. release of
catecholamines (epinephrine and
norepinephrine).
 Compensatory Cont.

 The patient displays the often-described
“fight or flight” response.

 The body shunts blood from organs such
as the skin, kidneys, and gastrointestinal
tract to the brain and heart to ensure
adequate blood supply to these vital
organs.
 Compensatory Cont.

 As a result, the patient’s skin is cold and
clammy, bowel sounds are hypoactive, and
urine output decreases in response to the
release of aldosterone and ADH
 It may only persist for minutes to hours
before progressing to decompensated or
irreversible shock if not treated promptly.
 Progressive

In the progressive stage of shock, the
mechanisms that regulate blood pressure can
no longer compensate and the MAP falls below
normal limits, with an average systolic blood
pressure of less than 90 mm Hg.

(Abraham et al., 2000)
 Irreversible
The irreversible (or refractory) stage of shock
represents the point along the shock continuum at
which organ damage is so severe that the patient
does not respond to treatment and cannot survive.
Despite treatment, blood pressure remains low.
Multiple organ dysfunction can occur as a
progression along the shock continuum or as a
syndrome unto itself.
 Overall Management Strategies in Shock

o Fluid replacement to restore intravascular volume

o Vasoactive medications to restore vasomotor tone
and improve cardiac function

o Nutritional support to address the metabolic
requirements that are often dramatically increased
in shock
Fluid replacement is administered in all types of
shock.
 VASOACTIVE MEDICATION THERAPY

Vasoactive medications are administered in all
forms of shock to improve the patient’s
hemodynamic stability when fluid therapy alone
cannot maintain adequate MAP.
Hypovolemic
Shock
Cardiogenic Obstructive
Distributive
 HYPOVOLEMIC SHOCK

o It occurs when there is LOW fluid volume
in the intravascular system

o Hypovolemic shock occurs when there is a
reduction in intravascular volume of 15%
to 25%. This would represent a loss of 750
to 1,300 mL of blood in a 70-kg (154-lb)
person.
The average human blood
volume is 5L (exact amount
depends on the person’s
size). So, if a person who has
a blood volume of 5L and
loses 1L of blood volume
(1,000 mL), that would be
20% of their blood volume.
This person would start
showing signs and symptoms
of hypovolemic shock.
 Medical Management

1. restore intravascular volume to reverse
the sequence of events leading to
inadequate tissue perfusion
2. redistribute fluid volume
3. correct the underlying cause of the fluid
loss as quickly as possible
Proper positioning (modified Trendelenburg) for the patient who shows signs of
shock. The lower extremities are elevated to an angle of about 20 degrees; the
knees are straight, the trunk is horizontal, and the head is slightly elevated.
 Remember the 3:1 rule for crystalloid solutions:
For every 1 mL of approximate blood loss, 3 mL of
crystalloid solution is given.
 CARDIOGENIC SHOCK
Cardiogenic shock occurs when the heart’s ability to contract
and to pump blood is impaired and the supply of oxygen is
inadequate for the heart and tissues. The causes of cardiogenic
shock are known as either coronary or non-coronary.
Coronary cardiogenic Non-coronary causes can be
is more common
related to metabolic problems
seen most often in patients with
myocardial infarction. and tension pneumothorax.
occurs when a significant amount not affected with disease or
of the left ventricular myocardium involving the coronary vessels
has been destroyed (Price et al., of the heart
1999)
 Medical Management
The goals of medical management are to:
(1) limit further myocardial damage and preserve
the healthy myocardium and
(2) improve the cardiac function by increasing

cardiac contractility, decreasing ventricular
afterload, or both (Price et al., 1999). In
general, these goals are achieved by increasing
oxygen supply to the heart muscle while
reducing oxygen demands.
INITIATION OF FIRST-LINE TREATMENT

First-line treatment of cardiogenic shock
involves the following actions:
Supplying supplemental oxygen
Controlling chest pain
Providing selected fluid support
Administering vasoactive medications
Controlling heart rate with medication or by
implementation of a transthoracic or
intravenous pacemaker
Implementing mechanical cardiac support
 OBSTRUCTIVE SHOCK

 is a form of shock associated with a
physical obstruction/ blockage of the
great vessels or something interfering
with the filling or emptying of the heart.
 Obstructive Shock

- Caused by a mechanical obstruction that
prevents an adequate volume of blood from
filling the heart chambers.

Three of the most common examples:
Cardiac tamponade
Tension pneumothorax
Pulmonary embolism
Obstructive Shock: Management

Control airway
Intubation
Treat the underlying cause
Tension Pneumothorax: Chest tube
Pericardial Tamponade: Pericardiocentesis
Pulmonary Embolism: Anticoagulation
Isotonic fluids
 Circulatory or distributive shock

 results from a maldistribution or mismatch
of blood flow to the cells.
 shock state resulting from displacement of
blood volume creating a relative hypovolemia
and inadequate delivery of oxygen to the
cells; also called distributive shock.
Medical Management
 Identifying and eliminating the cause of infection.
 Specimens of blood, sputum, urine, wound drainage, and
invasive catheter tips are collected for culture using aseptic
technique.
 Any potential routes of infection must be eliminated.
Intravenous lines are removed and reinserted at other body
sites.
 Antibiotic-coated intravenous central lines may be placed to
decrease the risk of invasive line-related bacteremia in high-
risk patients, such as the elderly (Eggimann & Pittet, 2001).
 Fluid replacement must be instituted to correct the
hypovolemia

 Crystalloids, colloids, and blood products may be administered
to increase the intravascular volume
 Classification of Circulatory shock

1. 2. 3.

Septic Neurogenic anaphylactic
shock shock shock
 Septic shock

o It can occur in any person with impaired
immunity, but elderly people are at greatest risk.

o The disorder is thought to be a response to that
release microbes or immune mediators, such as
tumor necrosis factor and interleukin- 1.

o Septic shock occurs due to sepsis and leads to a major
decrease in tissue perfusion to organs and tissues.
 Management of Septic Shock:
 Requires hemodynamic monitoring and high
dependency facilities
 ABC-
- Check the airway is clear
- Give high flow oxygen, if refractory hypoxia,
intubate and ventilate.
- Insert large bore peripheral venous canula to
begin fluid resuscitation.
- Insert central line and arterial line
 Management of Septic Shock:

 Early goal-directed resuscitation: during the first 6
hours after recognition (in patients with hypotension
and serum lactate more than 4 mmol/L)
 Resuscitation goals include:
- MAP more than 65 mmHg
- Target CVP of 8-12 mmHg (12-15 mmHg if ventilated)
- Central venous O2 saturation (ScvO2) equal or more
than 70%
- Urine output equal to or more than 0.5 mL/kg/h
 NEUROGENIC SHOCK

Is a shock state resulting
from loss of sympathetic tone
causing relative hypovolemia.

This loss of sympathetic tone
results in massive
vasodilation and a decrease
in peripheral vascular
resistance, causing blood to
pool in the venous system.
 NEUROGENIC SHOCK
Symptoms:
 low blood pressure
(hypotension)
 slow heart rhythm
(bradyarrhythmia)
 flushed, warm skin that
gets cold and clammy later
 lips and fingernails that
look blue
 lack of full consciousness
 Medical Management
Treatment of neurogenic shock
involves restoring sympathetic tone
either through the stabilization of a
spinal cord injury or, in the instance
of spinal anesthesia, by positioning
the patient properly.
 Nursing Management
o Elevate and maintain the head of the bed at least
30 degrees.
 Elevation of the head of the bed helps to prevent
the spread of the anesthetic agent up the spinal
cord.

o In suspected spinal cord injury, neurogenic
shock may be prevented by carefully
immobilizing the patient to prevent further
damage to the spinal cord.
 Anaphylactic shock
 is caused by a severe
allergic reaction when a
patient who has already
produced antibodies to aANAPHYLACTIC
foreign substance (antigen) SHOCK
develops a systemic antigen–
antibody reaction.

Anaphylactic shock occurs
rapidly and is life-threatening.
 Medical Management
 Removing the causative antigen, administering medications that restore
vascular tone, and providing emergency support of basic life functions.
 Epinephrine is given for its vasoconstrictive action.
 Diphenhydramine (Benadryl) is administered to reverse the effects of
histamine, thereby reducing capillary permeability.
 Nebulized medications, such as albuterol (Proventil), may be given to
reverse histamine-induced bronchospasm.
 Intravenous lines are inserted to provide access for administering fluids
and medications.

 If cardiac arrest and respiratory arrest are imminent or have occurred,
cardiopulmonary resuscitation is performed. Endotracheal intubation or
tracheotomy may be necessary to establish an airway.
 Nursing Management

 Assessing all patients for allergies or previous reactions to
antigens (eg, medications, blood products, foods, contrast
agents, latex) and communicating the existence of these
allergies or reactions to others.

 Assesses the patient’s understanding of previous reactions
and steps taken by the patient and family to prevent further
exposure to antigens.

 Advises the patient to wear or carry identification that
names the specific allergen or antigen.
Systemic inflammatory
Response Syndrome
(SIRS)

Precy Lantin, MAN, RN
Systemic Inflammatory Response
Syndrome (SIRS):

overwhelming inflammatory
response in the absence of infection
causing relative hypovolemia and
decreased tissue perfusion.
Pathophysiology
Stage II: Stage III:
3 Stage Process by Dr. RC Small quantities of local
Bone cytokines are released into If homeostasis is not
circulation to improve the restored, a significant
Stage I: local response. This leads to systemic reaction occurs.
growth factor stimulation The cytokine release leads
and the recruitment of to destruction rather than
There is local cytokine
macrophages and platelets. protection. A consequence
production to incite
This acute phase response is of this is the activation of
an inflammatory
typically well controlled by a numerous humoral
response thereby cascades and the
promoting wound decrease in the
proinflammatory mediators activation of the reticular
repair and endothelial system and
recruitment of the and by the release of
endogenous antagonists. subsequent loss of
reticular endothelial circulatory integrity. This
system. The goal is homeostasis.
leads to the end of organ
dysfunction.
Four SIRS criteria:

Tachycardia
- heart rate >90 beats/min

Tachypnea
- respiratory rate >20
breaths/min)

Fever or hypothermia
- temperature >38 or 1,200/mm3,