Predictive Role of Glucose/Potassium Ratio on Mortality in Major Burns.

Konya Meram State Hospital200 enrolled

Overview

The aim of this observational study is to investigate the role of the glucose-potassium ratio in predicting mortality in patients with major burn trauma. The main question it aims to answer is: Can the glucose-potassium ratio predict mortality in major burn patients? The glucose-to-potassium ratios of major burn patients at the time of initial hospitalization will be determined, and their relationship with mortality will be analyzed.

Major burns, especially electrical burns, facial burns, inhalation burns, burns with large burn surface areas, and deep burns, have a high mortality risk. Early detection of this risk may be critical to reducing mortality rates. For this reason, trauma centers are working on rapid and effective prognostic markers. In trauma and stress situations, glucose levels rise while potassium levels fall due to increased catecholamines. The literature reports that hyperglycemia, also known as the glucose-potassium ratio, can rapidly and effectively predict morbidity and mortality in patients suffering from subarachnoid hemorrhage, pulmonary embolism, traumatic brain injury, or blunt abdominal trauma. Many publications show that increased glucose is associated with mortality and morbidity in critical illnesses and trauma. The isolated glucose-potassium ratio has a higher predictive ability for mortality and morbidity compared to glucose and potassium levels. In this study, investigators aimed to examine the prognostic value of the glucose-to-potassium ratio in participants with major burn trauma.

Study Type

OBSERVATIONAL

Enrollment

200

Conditions

Burns Burn Injury Inhalation Injury

Eligibility

Sex: ALL

Medical Language ↔ Plain English

Inclusion Criteria: * All burns \>40% of total body surface area (2nd degree or deeper) * Burns with inhalation injury * Burns \>20% of total body surface area 3nd degree or deeper Exclusion Criteria: * First degree burns * Patients have more than 24 hours since the onset of burn trauma * Patients with diabetes mellitus * Patients with chronic renal failure * Patients taking potassium-modifying medication * Patients with missing data

Locations (1)

Konya Training and Research Hospital

Konya, Turkey (Türkiye)

Outcomes

Primary Outcomes

Glucose-to-potassium ratio

The glucose-to-potassium ratio is calculated by dividing the participants' glucose values when they first apply to the hospital by their potassium values.

Time frame: 2 days

Secondary Outcomes

Female/Male ratio

It is calculated by dividing the number of females by the number of males in the study population.

Time frame: 2 days

Mean percent of total body surface area burned

It is calculated by adding the total burn surface area percentage values of all patients and dividing by the number of participants.

Time frame: 2 days

Burn infection rate

The number of patients developing burn infection is calculated by dividing by the number of all participants.

Time frame: 2 days

Mortality rate

The mortality rate is calculated by dividing the number of patients who developed mortality by the number of all participants.

Time frame: 2 days

Data from ClinicalTrials.gov

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