Sepsis & Shock Slides PDF
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Edge Hill University
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This document provides a detailed explanation of sepsis, a life-threatening condition. It explores the pathophysiology of sepsis, including the immune response, systemic effects, and the impact on organ function. The document also presents a chart of organ responses to sympathetic stimulation.
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Building Schemata with Sepsis & Shock Slides What is Sepsis? The Body’s Extreme Systematic Response to an infection SEPSIS is a life-threatening condition that occurs when an existing infection triggers a chain of physiological reactions throughout the body Step-by-Step on the Pathophysiology (ho...
Building Schemata with Sepsis & Shock Slides What is Sepsis? The Body’s Extreme Systematic Response to an infection SEPSIS is a life-threatening condition that occurs when an existing infection triggers a chain of physiological reactions throughout the body Step-by-Step on the Pathophysiology (how the normal physiology changes) 1. Person gets an infection (From anything-it could be a cut somewhere) 2. This triggers an immune response (Like when we have a cold our glands in neck bloat-immune response): But in Sepsis, there’s an immunologic overactivity 3. (Hyperactive immune response): Excess Leukocytes (White blood cell responsible for fighting infections and bacteria-that’s why lots of White blood cells in bloods). 4. So because of this excessive response-instead of it doing the job locally (at the site), it becomes systemic (in the circulation). 5. When this happens, the capillaries become more dilated & permeable (This means they can sieve out fluid from inside the vessel and leak out to outside the vessel. Think about it: If fluid is not inside the vessels but outside of them, then will this not impact on the preload (i.e STROKE VOLUME)? 6. This will compromise blood flow to organs and tissues. Intravascular volume decreases and abruptly drops too low to maintain tissue perfusion. 7. Now let’s turn this to another perspective: Remember the Extrinsic pathway of clotting cascade?? If we are losing blood volume (Like a major Haemorrhage)-and tissue damage from metabolic acidosis and vascular permeability, we kick-start an abnormal clotting cascade. 8. This means DIC (Disseminated Intravascular Coagulopathy) = cells respond by triggering micro clots, causing blockage and also restricting oxygen availability to tissues even further (Oxygen was already limited because of the loss of volume carrying the oxygen) 9. Now without Oxygen- (Glucose + Oxygen = ATP+ C02+H20) you got (Glucose= ATP+ Lactic Acid). Because of the loss of 02 and production of Lactic Acid this become anaerobic Metabolism (it would be anaerobic respiration if someone wasn’t breathing properly, but this is loss of 02 in the circulation rather than primarily from breathing distress); the resulting lactic acid build-up causes metabolic acidosis. This leads to cell death and Tissue death-Then MULTIPLE ORGAN FAILURE Building Schemata with Sepsis & Shock Slides 10. Now yet another thing that happens: Adrenaline release occurs in response to marked vascular dilation and inadequate vascular volume, causing tachycardia. Look at the chart below: I wonder how Adrenaline causes vaso-constriction sometimes and then effected HR this time. It’s a BETA response!! ORGAN SYMPATHETIC STIMULATION PARAS (alpha or beta receptor) (act at HEART INCREASE Heart Rate DECRE (Beta 1 and Beta 2) DECRE INCREASE force of contraction (Beta 1 and Beta 2) ARTERIES CONSTRICTION (alpha 1) DILATI DILATION (beta 2) VEINS CONSTRICTION (alpha 1) DILATI DILATION (beta 2) LUNG Bronchial muscle DILATION CONST (Beta 2) Blood gas shows: Test Value Normal values pH 7.23 7.35-7.45 acidic PaO2 9.85 11-13 kPa slightly low O2 in blood Might be hyperventilating!! PaCO2 3.2 4.7-6.0 kPa low CO2 in blood High RR BE -16.7 +/– 2 How much alkaline needed to restore HCO3 12.6 22-26 mmol/l low bicarbonate (metabolic problem!) Lac 6.2
