The Physiology of Shock by Professor Narsingh Verma

Physiology of Shock

Professor Narsingh Verma

Introduction

•

Shock is a physiologic event with many

different causes; but if untreated it has a

single clinical outcome

•

Mortality rate - 20%

Different Definitions

•

Shock is a life threatening situation due to poor tissue perfusion

with impaired cellular metabolism, manifested in turn by serious

pathophysiological abnormalities (Bailey and love)

•

Shock is a term used to describe the clinical syndrome that

develops when there is critical impairment of tissue perfusion due

to some form of acute circulatory failure. (Davidson’s)

•

Shock may be defined as inadequate delivery of oxygen and

nutrients to maintain normal tissue and cellular

function.(Schwartz’s)

•

The state in which profound and widespread reduction of effective

tissue perfusion leads first to reversible, and then if prolonged, to

irreversible cellular injury. (Kumar and Parrillo ,1995)

Basic Defect

•

Shock verses Circulatory Shock

•

Characterized by Reduction in circulating

blood volume and results in  inadequate tissue

perfusion

•

Hypovolemic

•

Marked expansion of vascular tree

•

Loss of Pumping ability of heart

Early Manifestation

•

Low BP   systolic less than 100 mm of Hg

•

Rapid Thready Pulse

•

Tachycardia

•

Cold Clammy Skin

•

Rapid Shallow Breathing

•

Irritability Drowsiness  confusion

•

Increased Thirst

•

Oliguria

•

Multiple organ failure

Common Feature

•

Poor tissue perfusion

•

Impaired Oxygenation

•

Impaired Nutrient Supply

•

Decreased removal of Waste

•

Progressive

Hypovolemic Shock

•

SHOCK DUE TO REDUCED BLOOD

VOLUME(HYPOVOLEMIC SHOCK OR COLD

SHOCK)

•

TRAUMATIC SHOCK

•

HEMORRHAGIC SHOCK

•

SURGICAL SHOCK

•

BURN SHOCK

•

DEHYDRATION SHOCK

Common Causes

•

HEMORRHAGIC   : TRAUMA

•

GASTROINTESTINAL BLEEDING

•

NON-HEMORRHAGIC:

•

EXTERNAL FLUID LOSS

•

DIARRHOEA

•

VOMITING

•

POLYUREA

•

FLUID REDISTRIBUTION

•

BURNS

•

ANAPHYLAXIS

Loss  of Fluids

•

Fluid Loss  Blood  water Electrolyte plasma

•

Typical Example  Hemorrhagic Shock

•

When loss is more than 15 o 20 %

•

 Compensation  of the loss

•

Compensatory mechanisms can be short term

or long term

Hemorragic Shock

•

Haemorrhage      --- Low blood volume --- Low

venous return -----Low Stroke Volume ----- Low

cardiac output ---Fall in systolic pressure --- fall

in pulse pressure --- diminished blood flow to

tissues ----Low Po2 High PCO2  and High H ion

Compensatory Mechanisms

•

Shock is prevented  by Baroreceptor mechanism

BP is mentained

•

Plasma  Volume is mentained Low plasma volume

---Fall in systolic pressure -----Fall in capillary

hydrostatic pressure ----Filtration > Reabsorption

-----Restoration of Plasma Volume

•

Tissue Oxygenation is  maintained  by local vaso

dilation and increase respiration by

chemoreceptor reflex

•

Restoration of Blood components  by

Erythropoiesis, plasma protein synthesis

Treatment of Hypovolemic shock

•

Replacement of Losses as for as possible

•

In place of blood plasma expanders can be

used

•

If only plasma and electrolyte are lost blood

should not be given

•

Components of blood in place of whole blood

•

Recumbent posture with head end slightly

lowered, foot end should be raised slightly

Treatment Contd

•

Room temperature comfortable

•

Breathing a mixture of oxygen and 5% CO2

•

Pain killer and Tranquilizer may be given but

no respiratory depressents

•

Antibiotics

•

Treatment of Specific cause of Shock

Irreversible shock

•

If treatment is delayed

•

NO Response to treatment

•

Loss of Fluid from capillaries : Fluid Continues

to be lost   Vasodilators to relax the arterioles

might help here and corticosteroids which

may reduce capillary permeability

•

Hypoxia may induce renal failure which

further compromises cardiac functions

Contd

•

Reduction of blood flow to gut –Increases intestinal

permeability –absorption of bacterial toxins, damage

to liver --- toxins enter to circulation -----Endotoxic

shock or Gram –ve  shock

•

Reduction in coronary blood flow due to tacchcardia ,

myocardium is damaged by toxins ------decreased

cardiac output

•

Great decrease in BP-- baroreceptors becomes

ineffective –cerebral ischemic response last effort –

when vital centers of brain are involved –Irreversible

shock

Cardiogenic Shock

•

Decrease in cardiac output

•

Decrease in circulating blood volume

•

May be caused by

•

disease of heart

•

 coronary blood vessels

•

 pericardial effusion

Neurogenic shock

•

Severe pain

•

Profound emotional disturbances

•

Brain damage

•

Widespread vasodilation in capacitance

vessels

•

Pooling of Blood in veins

•

Decrease in venous return

•

Decrease in cardiac output

Neurogenic

•

Primarily due to blockade of sympathetic

nervous system

•

loss of arterial & venous tone with pooling of

blood in the dilated peripheral venous syste

•

 The heart does not fill the cardiac output falls

•

Neurogenic shock  may be caused by:

Paraplegia, Quadriplegia, Trauma to Spinal

cord,  Spinal anesthesia.

Clinical Features

•

 Warm skin, pink & well perfused

•

 Heart rate is rapid

•

 Blood pressure is low

•

 Urine output may be normal

Vaso vagal / Vasogenic

•

Part of neurogenic shock

•

Pathophysiology : pooling of blood due to

dilatation of peripheral vascular system

particularly in the limb muscle & in splanchnic

bed

•

This causes reduced venous return to the heart

leading to low cardiac output & bradycardia

•

blood flow to brain is reduced causing cerebral

hypoxia & unconsciousness.

•

Management: Trendelenberg position– increases

cerebral flow & consciousness is restored

Psychogenic

•

Part of Neurogenic shock.

•

Occurs following sudden fright from

unexpected bad news or at the sight of

horrible accident.

•

 Effect may vary in intensity from temporary

unconsciousness to even sudden death

Anaphylactic Shock

•

Hypersensitivity  reactions can lead to release

of histamine and other vasodilatory

substances ----increase in  capillary

permeability ---- Shock

Septic Shock

•

Uncontrolled infection ---release of Bacterial

Toxins ----generalized vasodialation and

increase in capillary permeability ----shock

•

Your Questions

  are also welcome at whats

app 9839064560   and

narsinghverma@gmil.com

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Shock is a critical condition resulting from poor tissue perfusion and impaired cellular metabolism. Various definitions describe it as inadequate delivery of oxygen and nutrients, leading to reversible or irreversible cellular injury. Different types of shock, such as hypovolemic shock, have common manifestations like low blood pressure, rapid pulse, and cold skin. Causes can range from hemorrhagic trauma to fluid redistribution, with fluid loss playing a crucial role in conditions like hemorrhagic shock. Early recognition of shock symptoms is vital to prevent severe outcomes and mortality.

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Presentation Transcript

Physiology of Shock Professor Narsingh Verma

Introduction Shock is a physiologic event with many different causes; but if untreated it has a single clinical outcome Mortality rate - 20%

Different Definitions Shock is a life threatening situation due to poor tissue perfusion with impaired cellular metabolism, manifested in turn by serious pathophysiological abnormalities (Bailey and love) Shock is a term used to describe the clinical syndrome that develops when there is critical impairment of tissue perfusion due to some form of acute circulatory failure. (Davidson s) Shock may be defined as inadequate delivery of oxygen and nutrients to maintain normal tissue and cellular function.(Schwartz s) The state in which profound and widespread reduction of effective tissue perfusion leads first to reversible, and then if prolonged, to irreversible cellular injury. (Kumar and Parrillo ,1995)

Basic Defect Shock verses Circulatory Shock Characterized by Reduction in circulating blood volume and results in inadequate tissue perfusion Hypovolemic Marked expansion of vascular tree Loss of Pumping ability of heart

Early Manifestation Low BP systolic less than 100 mm of Hg Rapid Thready Pulse Tachycardia Cold Clammy Skin Rapid Shallow Breathing Irritability Drowsiness confusion Increased Thirst Oliguria Multiple organ failure

Common Feature Poor tissue perfusion Impaired Oxygenation Impaired Nutrient Supply Decreased removal of Waste Progressive

Hypovolemic Shock SHOCK DUE TO REDUCED BLOOD VOLUME(HYPOVOLEMIC SHOCK OR COLD SHOCK) TRAUMATIC SHOCK HEMORRHAGIC SHOCK SURGICAL SHOCK BURN SHOCK DEHYDRATION SHOCK

Common Causes HEMORRHAGIC : TRAUMA GASTROINTESTINAL BLEEDING NON-HEMORRHAGIC: EXTERNAL FLUID LOSS DIARRHOEA VOMITING POLYUREA FLUID REDISTRIBUTION BURNS ANAPHYLAXIS

Loss of Fluids Fluid Loss Blood water Electrolyte plasma Typical Example Hemorrhagic Shock When loss is more than 15 o 20 % Compensation of the loss Compensatory mechanisms can be short term or long term

Hemorragic Shock Haemorrhage venous return -----Low Stroke Volume ----- Low cardiac output ---Fall in systolic pressure --- fall in pulse pressure --- diminished blood flow to tissues ----Low Po2 High PCO2 and High H ion --- Low blood volume --- Low

Compensatory Mechanisms Shock is prevented by Baroreceptor mechanism BP is mentained Plasma Volume is mentained Low plasma volume ---Fall in systolic pressure -----Fall in capillary hydrostatic pressure ----Filtration > Reabsorption -----Restoration of Plasma Volume Tissue Oxygenation is maintained by local vaso dilation and increase respiration by chemoreceptor reflex Restoration of Blood components by Erythropoiesis, plasma protein synthesis

Treatment of Hypovolemic shock Replacement of Losses as for as possible In place of blood plasma expanders can be used If only plasma and electrolyte are lost blood should not be given Components of blood in place of whole blood Recumbent posture with head end slightly lowered, foot end should be raised slightly

Treatment Contd Room temperature comfortable Breathing a mixture of oxygen and 5% CO2 Pain killer and Tranquilizer may be given but no respiratory depressents Antibiotics Treatment of Specific cause of Shock

Irreversible shock If treatment is delayed NO Response to treatment Loss of Fluid from capillaries : Fluid Continues to be lost Vasodilators to relax the arterioles might help here and corticosteroids which may reduce capillary permeability Hypoxia may induce renal failure which further compromises cardiac functions

Contd Reduction of blood flow to gut Increases intestinal permeability absorption of bacterial toxins, damage to liver --- toxins enter to circulation -----Endotoxic shock or Gram ve shock Reduction in coronary blood flow due to tacchcardia , myocardium is damaged by toxins ------decreased cardiac output Great decrease in BP-- baroreceptors becomes ineffective cerebral ischemic response last effort when vital centers of brain are involved Irreversible shock

Cardiogenic Shock Decrease in cardiac output Decrease in circulating blood volume May be caused by disease of heart coronary blood vessels pericardial effusion

Neurogenic shock Severe pain Profound emotional disturbances Brain damage Widespread vasodilation in capacitance vessels Pooling of Blood in veins Decrease in venous return Decrease in cardiac output

Neurogenic Primarily due to blockade of sympathetic nervous system loss of arterial & venous tone with pooling of blood in the dilated peripheral venous syste The heart does not fill the cardiac output falls Neurogenic shock may be caused by: Paraplegia, Quadriplegia, Trauma to Spinal cord, Spinal anesthesia.

Clinical Features Warm skin, pink & well perfused Heart rate is rapid Blood pressure is low Urine output may be normal

Vaso vagal / Vasogenic Part of neurogenic shock Pathophysiology : pooling of blood due to dilatation of peripheral vascular system particularly in the limb muscle & in splanchnic bed This causes reduced venous return to the heart leading to low cardiac output & bradycardia blood flow to brain is reduced causing cerebral hypoxia & unconsciousness. Management: Trendelenberg position increases cerebral flow & consciousness is restored

Psychogenic Part of Neurogenic shock. Occurs following sudden fright from unexpected bad news or at the sight of horrible accident. Effect may vary in intensity from temporary unconsciousness to even sudden death

Anaphylactic Shock Hypersensitivity reactions can lead to release of histamine and other vasodilatory substances ----increase in capillary permeability ---- Shock