This study aims to evaluate the impact of different norepinephrine doses on the accuracy of the peripheral perfusion index in predicting tissue perfusion in septic shock patients. Primary outcome: * Correlation between peripheral perfusion index Secondary outcomes: * Peripheral perfusion index accuracy to predict the tissue perfusion . * Peripheral perfusion index accuracy to predict mortality.
Septic shock is a common cause of intensive care unit admission and one of the major causes of death among intensive care unit inpatients. It is a complex critical condition associated with a reported mortality rate of up to 30% to 40%. . It is the most severe form of sepsis with concomitant hemodynamic failure and immune, inflammatory, and metabolic disorders. The resulting circulatory shock finally leads to an alteration of tissue perfusion, causing organ failures and associated poor outcomes. An essential step in managing patients with septic shock is to increase systemic and regional/microcirculatory flow. Increasing arterial blood pressure with vasopressors when patients are hypotensive improves the input pressure that drives organ perfusion. Therefore, maintaining organ perfusion in the time course of septic shock is a fundamental goal. Norepinephrine is a commonly used vasopressor in the management of septic shock. It increases vascular tone and blood pressure, thereby improving systemic perfusion. However, excessive norepinephrine dosing is associated with the risk of extreme vasoconstriction, tissue hypoperfusion, and increased mortality. Peripheral and regional tissue perfusion in patients with septic shock have been extensively studied over the last decade. Indeed, several authors have emphasized the potential benefits of monitoring microcirculatory and regional perfusion parameters to better guide the resuscitation of these patients and give a prognosis. The peripheral perfusion index ,which is defined as the ratio of the pulsatile to non-pulsatile component of the pulse oximetry plethysmograph (peripheral perfusion index = pulsatile signal/ non-pulsatile signal), is used as a simple and accurate indicator of the pulsation intensity of peripheral arterioles . We hypothesize that peripheral perfusion index could accurately predict tissue perfusion at different doses of norepinephrine in septic shock patients. This study aims to evaluate the impact of different norepinephrine doses on the accuracy of the peripheral perfusion index in predicting tissue perfusion in septic shock patients. Primary outcome: * Correlation between peripheral perfusion index Secondary outcomes: * Peripheral perfusion index accuracy to predict the tissue perfusion . * Peripheral perfusion index accuracy to predict mortality.
Study Type
Patients will receive norepinephrine \<0.15 µg/kg/min
Patients will receive norepinephrine ≥ 0.15 µg/kg/min
Tanta University
Tanta, Egypt
Correlation between Peripheral Perfusion Index and ( Central venous oxygen saturation , and lactate clearance).
Time frame: Before initiation of vasopressor therapy, 5 minutes, 30 minutes, 1 hour, 2 hours, and 6 hours post-initiation of vasopressor therapy
Mean arterial blood pressure
Time frame: Before the initiation of vasopressor therapy, 5 minutes, 30 minutes,, 1 hour, 2 hours, and 6 hours after the initiation of vasopressor therapy.
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INTERVENTIONAL
Allocation
NON_RANDOMIZED
Purpose
PREVENTION
Masking
NONE
Enrollment
80