Sepsis: Difference between revisions
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This article or area is currently under construction and may only be partially complete. Please come back soon to see the finished work! ({{REVISIONDAY}}/{{REVISIONMONTH}}/{{REVISIONYEAR}}) | This article or area is currently under construction and may only be partially complete. Please come back soon to see the finished work! ({{REVISIONDAY}}/{{REVISIONMONTH}}/{{REVISIONYEAR}}) | ||
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== Clinically Relevant Anatomy | |||
== Description == | |||
Although the terms SIRS, sepsis and septic shock is often used interchangeably, it is separately defined and classified as follows:<ref>Hough A. [https://books.google.co.za/books?hl=en&lr=&id=Uk1NfFGMrJoC&oi=fnd&pg=PA1&dq=physiotherapy+in+respiratory+care&ots=-OGsYM9A8r&sig=9rLChntH7new4xMcNA9V_orlCGA&redir_esc=y#v=onepage&q=physiotherapy%20in%20respiratory%20care&f=false Physiotherapy in respiratory care: a problem-solving approach to respiratory and cardiac management.] Springer; 2013.</ref> | |||
'''Sepsis:''' A systematic response to an infection, presenting with 2 of the following: | |||
* High grade (> 38˚C) or low grade (< 36˚C ) fevers | |||
* Heart rate > 90/minute | |||
* RR > 20/minute OR PaCO2 < 4.3kPa | |||
* WCC > 12 | |||
'''SIRS:''' Systemic inflammatory response syndrome (SIRS) is defined as a generalised inflammatory response, presenting with 2 of the following: | |||
* High grade (> 38˚C) or low grade (< 36˚C ) fever | |||
* Heart rate > 90/minute | |||
* RR > 20/minute OR PaCO2 < 4.3kPa | |||
'''Septic shock:''' Shock is defined as the exhaustion of the reserve tissue capacity of tissue respiration, or the failure of the supply to meet the demand in terms of oxygenation. When this is sepsis-induced (septic shock), it results in hypotension not responding to fluid resuscitation. | |||
These can lead to multiorgan failure where the body is unable to maintain haemostasis without medical intervention, a common cause of death in the ICU setting. | |||
== Clinically Relevant Anatomy == | |||
add text here relating to '''''clinically relevant''''' anatomy of the condition<br> | add text here relating to '''''clinically relevant''''' anatomy of the condition<br> | ||
== Mechanism of Injury / Pathological Process | == Mechanism of Injury / Pathological Process == | ||
'''Septic shock''' | |||
The hypothalamic thermostat is reset by the fever caused by sepsis. In an attempt to cool down, it results in peripheral vasodilatoation and subsequent depletion of the visceral perfusion. Excess nitric oxide production is stimulated by endotoxins and this leads to uncontrolled vasodilatation and a “functional haemorrhade”. Increased cardiac output is thus unsuccessful at maintaining an adequate blood pressure. This can lead to hypoxic tissue damage. | |||
Shock in general normally runs the following course: | |||
Insufficient tissue perfusion → anaerobic metabolism → lactic acidosis → metabolic acidosis → cellular damage → organ failure. | |||
== Clinical Presentation == | == Clinical Presentation == | ||
'''Septic shock''' | |||
* Pyrexia | |||
* Flushed presentation | |||
* Tachypnea | |||
* Hypotension | |||
* Bounding pulse | |||
* Restricted regional blood flow as the result of vasopressors<br> | |||
== Diagnostic Procedures == | == Diagnostic Procedures == | ||
| Line 28: | Line 57: | ||
add links to outcome measures here (see [[Outcome Measures|Outcome Measures Database]]) | add links to outcome measures here (see [[Outcome Measures|Outcome Measures Database]]) | ||
== Management | == Medical Management == | ||
Medical management is vital to prevent further inflammatory response by the cause of the sepsis. This is normally done by means of ventilatory and haemodynamic support. | |||
== | Aims: | ||
* Restoration of normal haemostasis | |||
* Sustain tissue perfusion | |||
* Avoid focussing on a single system | |||
* Maintain oxygen delivery | |||
* Keeping pH > 7.35 | |||
Strategies to improve oxygen delivery include: | |||
* Respiratory support | |||
* Inotropic support | |||
* Vasodilators | |||
Control of oxygen consumption is done by the following means: | |||
* Respiratory support | |||
* Sedation | |||
* Paralysis | |||
* Avoidance of pyrexia and stressors | |||
* Supportive: | |||
** Blood transfusion (packed red blood cells) | |||
** Haemofiltration | |||
Correction of metabolic acidosis (lactate-induced): | |||
* Haemofiltration if pH < 7.2 | |||
* Changes to IPPV to improve PaCO2 | |||
Fluid management: | |||
* Needs to be carefully administrated to avoid complications such as pulmonary oedema as a result of overload, as this will negatively affect oxygen delivery due to circulating volume problems. | |||
* For optimal cardiac output: PAWP = 18cmH2O and CVP = 10-12cmHO | |||
Additional: | |||
* Nutritional support is an important factor in the management of septic shock, as it can increase energy consumption up to 50%. It however negatively affects the utilization of nutrition, resulting in katabolism and subsequent muscle wasting. | |||
* Antibiotics: Potential to exacerbate symptoms due to physiology described earlier | |||
* Early initiated steroids, especially in cases with Gram-negativ septicaemia<br> | |||
== Differential Diagnosis == | |||
add text here relating to the differential diagnosis of this condition<br> | add text here relating to the differential diagnosis of this condition<br> | ||
== | == Physiotherapy management == | ||
Physiotherapy in the ICU | |||
Physiotherapy interventions in the ICU setting normally consists of respiratory physiotherapy focussing on airway clearance technique and early mobilization. During acute sepsis or septic shock, patients are often too unstable for physiotherapy intervention, which only starts when the patient is haemodynamically stable. | |||
A common result of these are critical illness neuropathy, and extensive rehabiltaiton should then be incorporated in the ICU, after discharge to the ward, as well as in the out-patient setting with the aim of getting the patient back to his baseline level of function and participation as per the ICF model.<br> | |||
== Resources | == Resources == | ||
add appropriate resources here | add appropriate resources here | ||
== Case Studies == | == Case Studies / Key evidence == | ||
add links to case studies here (case studies should be added on new pages using the [[Template:Case Study|case study template]])<br> | add links to case studies here (case studies should be added on new pages using the [[Template:Case Study|case study template]])<br> | ||
Revision as of 14:57, 10 June 2020
Original Editors - Leana Louw
Top Contributors - Lucinda hampton, Leana Louw, Rachael Lowe, Kim Jackson, Admin, Aminat Abolade, Uchechukwu Chukwuemeka and Carina Therese Magtibay
This article or area is currently under construction and may only be partially complete. Please come back soon to see the finished work! (10/06/2020)
Description[edit | edit source]
Although the terms SIRS, sepsis and septic shock is often used interchangeably, it is separately defined and classified as follows:[1]
Sepsis: A systematic response to an infection, presenting with 2 of the following:
- High grade (> 38˚C) or low grade (< 36˚C ) fevers
- Heart rate > 90/minute
- RR > 20/minute OR PaCO2 < 4.3kPa
- WCC > 12
SIRS: Systemic inflammatory response syndrome (SIRS) is defined as a generalised inflammatory response, presenting with 2 of the following:
- High grade (> 38˚C) or low grade (< 36˚C ) fever
- Heart rate > 90/minute
- RR > 20/minute OR PaCO2 < 4.3kPa
Septic shock: Shock is defined as the exhaustion of the reserve tissue capacity of tissue respiration, or the failure of the supply to meet the demand in terms of oxygenation. When this is sepsis-induced (septic shock), it results in hypotension not responding to fluid resuscitation.
These can lead to multiorgan failure where the body is unable to maintain haemostasis without medical intervention, a common cause of death in the ICU setting.
Clinically Relevant Anatomy[edit | edit source]
add text here relating to clinically relevant anatomy of the condition
Mechanism of Injury / Pathological Process[edit | edit source]
Septic shock
The hypothalamic thermostat is reset by the fever caused by sepsis. In an attempt to cool down, it results in peripheral vasodilatoation and subsequent depletion of the visceral perfusion. Excess nitric oxide production is stimulated by endotoxins and this leads to uncontrolled vasodilatation and a “functional haemorrhade”. Increased cardiac output is thus unsuccessful at maintaining an adequate blood pressure. This can lead to hypoxic tissue damage.
Shock in general normally runs the following course:
Insufficient tissue perfusion → anaerobic metabolism → lactic acidosis → metabolic acidosis → cellular damage → organ failure.
Clinical Presentation[edit | edit source]
Septic shock
- Pyrexia
- Flushed presentation
- Tachypnea
- Hypotension
- Bounding pulse
- Restricted regional blood flow as the result of vasopressors
Diagnostic Procedures[edit | edit source]
add text here relating to diagnostic tests for the condition
Outcome Measures[edit | edit source]
add links to outcome measures here (see Outcome Measures Database)
Medical Management[edit | edit source]
Medical management is vital to prevent further inflammatory response by the cause of the sepsis. This is normally done by means of ventilatory and haemodynamic support.
Aims:
- Restoration of normal haemostasis
- Sustain tissue perfusion
- Avoid focussing on a single system
- Maintain oxygen delivery
- Keeping pH > 7.35
Strategies to improve oxygen delivery include:
- Respiratory support
- Inotropic support
- Vasodilators
Control of oxygen consumption is done by the following means:
- Respiratory support
- Sedation
- Paralysis
- Avoidance of pyrexia and stressors
- Supportive:
- Blood transfusion (packed red blood cells)
- Haemofiltration
Correction of metabolic acidosis (lactate-induced):
- Haemofiltration if pH < 7.2
- Changes to IPPV to improve PaCO2
Fluid management:
- Needs to be carefully administrated to avoid complications such as pulmonary oedema as a result of overload, as this will negatively affect oxygen delivery due to circulating volume problems.
- For optimal cardiac output: PAWP = 18cmH2O and CVP = 10-12cmHO
Additional:
- Nutritional support is an important factor in the management of septic shock, as it can increase energy consumption up to 50%. It however negatively affects the utilization of nutrition, resulting in katabolism and subsequent muscle wasting.
- Antibiotics: Potential to exacerbate symptoms due to physiology described earlier
- Early initiated steroids, especially in cases with Gram-negativ septicaemia
Differential Diagnosis[edit | edit source]
add text here relating to the differential diagnosis of this condition
Physiotherapy management[edit | edit source]
Physiotherapy in the ICU
Physiotherapy interventions in the ICU setting normally consists of respiratory physiotherapy focussing on airway clearance technique and early mobilization. During acute sepsis or septic shock, patients are often too unstable for physiotherapy intervention, which only starts when the patient is haemodynamically stable.
A common result of these are critical illness neuropathy, and extensive rehabiltaiton should then be incorporated in the ICU, after discharge to the ward, as well as in the out-patient setting with the aim of getting the patient back to his baseline level of function and participation as per the ICF model.
Resources[edit | edit source]
add appropriate resources here
Case Studies / Key evidence[edit | edit source]
add links to case studies here (case studies should be added on new pages using the case study template)
References[edit | edit source]
References will automatically be added here, see adding references tutorial.
- ↑ Hough A. Physiotherapy in respiratory care: a problem-solving approach to respiratory and cardiac management. Springer; 2013.
