Research Article
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Year 2022, Volume: 4 Issue: 2, 190 - 196, 29.03.2022
https://doi.org/10.38053/acmj.1054796

Abstract

References

  • Yarkın T. Solunum Yetmezliği: Fizyopatoloji ve Klinik Yaklaşım. Toraks Derg 2000; 2: 76-84.
  • Frutos-Vivar F, Nin N, Esteban A. Epidemiology of acute lung injury and acute respiratory distress syndrome. Current Opinion in Critical Care 2004; 10: 1-6.
  • Esteban A, Anzueto A, Frutos F, et al. Mechanical Ventilation International Study Group: Characteristics and outcomes in adult patients receiving mechanical ventilation: a 28-day international study. JAMA 2002; 287: 345-55.
  • Donlan M, Fontela PS, Puligandla PS. Use of continuous positive airway pressure (CPAP) in acute viral bronchiolitis: a systematic review. Pediatr Pulmonol 2011; 46: 736-46.
  • Lewandowski K. Contributions to the epidemiology of acute respiratory failure. Critical Care 2003; 7: 1-4.
  • Behrendt CE. Acute respiratory failure in the United States: incidence and 31-day survival. Chest. 2000; 118: 1100-5.
  • Aygencel G. Arter kan gazlarının yorumlanması. Türk Kardiyol Dern Arş 2014; 42: 195.
  • Szrama J. Smuszkiewicz P. An acid-base disorders analysis with the use of the Stewart approach in patients with sepsis treated in an intensive care unit. Anaesthesiology Intensive Therapy 2016; 48: 180-4.
  • Fencl V, Jabor A, Kazda A, Figge J. Diagnosis of metabolic acid-base disturbances in critically ill patients. Am J Respir Crit Care Med 2000; 162: 2246-51.
  • Nemec M. Interpretation of arterial blood gas analysis. Praxis 2019; 108: 269-77.
  • Altıay G, Tabakoğlu E, Özdemir L, et al. Mortality rates and related factors in respiratory intensive care unit patients. Turk Thorac J 2007; 8: 79-84.
  • Doğu T, Karakuzu Z, Katı ŞD, et al. Birinci basamak yoğun bakım ünitesi hastalarının prognozu. Uluslararası Klinik Araştırmalar Derg 2014; 2: 143-8.
  • Bıyıklı E. 65 yaş üstü sepsis ve septik şok hastalarında acil serviste ilk bakılan platelet lenfosit oranı ve laktat düzeyinin mortalite üzerine etkisi. Ankara. 2017.
  • Uçgun İ, Metintaş M, Moral M, Alataş F, Bektaş Y, Yıldırım H. To identify mortality rate and high risk patients in non-malignant respiratory intensive care unit patients. [Article in Turkish]. Toraks Derg 2003; 4: 151-60.
  • Yap FHY, Joynt GM, Buckley TA, Wong ELY. Association of serum albumin concentration and mortality risk in critically ill patients. Anaesth Intens Care 2002; 30: 202-7.
  • Yılmaz E, Bor C, Uyar M, Demirağ K, Çankayalı İ. Travma hastalarının yoğun bakıma kabulündeki laktat. albumin. C-reaktif protein. PaO2/FiO2 ve glukoz düzeylerinin mortaliteye etkisi. J Turk Soc Intens Care/Türk Yogun Bak Dern Derg 2014; 12: 3.
  • Lewandowski K, Metz J, Deutschmann C, et al. Incidence, severity, and mortality of acute respiratory failure in Berlin, Germany. Am J Respir Crit Care Med 1995; 151: 1121-5.
  • Chen YX, Wang JY, Guo SB. Use of CRB-65 and quick sepsis-related organ failure assessment to predict site of care and mortality in pneumonia patients in the emergency department: a retrospective study. Crit Care 2016; 20: 1-10.

Evaluation of arterial blood gases of patients with type 1-2 respiratory failure diagnosed in intensive care using the quantitative Stewart method

Year 2022, Volume: 4 Issue: 2, 190 - 196, 29.03.2022
https://doi.org/10.38053/acmj.1054796

Abstract

Introduction: Arterial blood gases are tests that provide reliable information about the metabolic and respiratory status of patients. In traditional methods, arterial blood gases are evaluated by calculating the bicarbonate concentration and anion gap in the plasma. Since ICU patients almost always have protein and electrolyte disorders, a different method has been suggested instead of the traditional method that neglects electrolyte and protein in the evaluation. In the mathematical model described by Stewart and modified by Figge et al., 4 types of respiratory failure were defined according to their pathophysiology: hypoxemic (type 1), hypercapnic (type 2), perioperative (type 3), and hypoperfusion-induced respiratory failure in shock patients (type 4). The study aims to evaluate the arterial blood gases of intensive care patients with type 1 and type 2 respiratory failure with the Stewart method and compare them with the traditional method.
Material and Method: In the study, serum BUN (blood urea nitrogen), creatinine, glucose, sodium, chlorine, serum BUN (blood urea nitrogen) of 106 patients diagnosed with type 1-2 respiratory failure. Together with potassium, magnesium, albumin values, pH, pCO2, pO2, HCO3, base deficit, and lactate values studied in arterial blood gas sample were determined and evaluated according to the Stewart method.
Results: The length of stay of the patients in the intensive care unit was determined as 17.48±10.58 (minimum 6-maximum 68) days. It was determined that 74 (69.8%) of the patients were discharged and 32 (30.2%) died. When the blood gases and laboratory values of the patients were compared according to the clinical outcomes of the patients, no statistically significant correlation was found between the patients’ mean pH, pCO2, HCO3, base deficit, pO2, albumin, lactate, creatinine, glucose, potassium, and chlorine values and the patients’ discharge or death. BUN values of patients who died were found to be higher than those who were discharged. A statistically significant difference was found between the development of hypoalbuminemia and the length of stay in the intensive care unit. It has been determined that the treatment costs of patients with severe hypoalbuminemia are higher than other patients. The length of stay in the intensive care unit of the patients who did not develop acidosis was found to be statistically significantly lower than the patients who developed metabolic and respiratory acidosis.
Conclusion: While a significant relationship was found between albumin levels, which has an important place in the Stewart method, and the length of stay in the intensive care unit, no relationship was found between albumin levels or lactate levels and mortality. However, increased BUN values were associated with mortality. As the albumin value decreases in patients with hypoalbuminemia, treatment costs increase. There is a need for larger multicenter studies with a larger sample group that will evaluate metabolic status with the Stewart method and investigate its relationship with mortality.

References

  • Yarkın T. Solunum Yetmezliği: Fizyopatoloji ve Klinik Yaklaşım. Toraks Derg 2000; 2: 76-84.
  • Frutos-Vivar F, Nin N, Esteban A. Epidemiology of acute lung injury and acute respiratory distress syndrome. Current Opinion in Critical Care 2004; 10: 1-6.
  • Esteban A, Anzueto A, Frutos F, et al. Mechanical Ventilation International Study Group: Characteristics and outcomes in adult patients receiving mechanical ventilation: a 28-day international study. JAMA 2002; 287: 345-55.
  • Donlan M, Fontela PS, Puligandla PS. Use of continuous positive airway pressure (CPAP) in acute viral bronchiolitis: a systematic review. Pediatr Pulmonol 2011; 46: 736-46.
  • Lewandowski K. Contributions to the epidemiology of acute respiratory failure. Critical Care 2003; 7: 1-4.
  • Behrendt CE. Acute respiratory failure in the United States: incidence and 31-day survival. Chest. 2000; 118: 1100-5.
  • Aygencel G. Arter kan gazlarının yorumlanması. Türk Kardiyol Dern Arş 2014; 42: 195.
  • Szrama J. Smuszkiewicz P. An acid-base disorders analysis with the use of the Stewart approach in patients with sepsis treated in an intensive care unit. Anaesthesiology Intensive Therapy 2016; 48: 180-4.
  • Fencl V, Jabor A, Kazda A, Figge J. Diagnosis of metabolic acid-base disturbances in critically ill patients. Am J Respir Crit Care Med 2000; 162: 2246-51.
  • Nemec M. Interpretation of arterial blood gas analysis. Praxis 2019; 108: 269-77.
  • Altıay G, Tabakoğlu E, Özdemir L, et al. Mortality rates and related factors in respiratory intensive care unit patients. Turk Thorac J 2007; 8: 79-84.
  • Doğu T, Karakuzu Z, Katı ŞD, et al. Birinci basamak yoğun bakım ünitesi hastalarının prognozu. Uluslararası Klinik Araştırmalar Derg 2014; 2: 143-8.
  • Bıyıklı E. 65 yaş üstü sepsis ve septik şok hastalarında acil serviste ilk bakılan platelet lenfosit oranı ve laktat düzeyinin mortalite üzerine etkisi. Ankara. 2017.
  • Uçgun İ, Metintaş M, Moral M, Alataş F, Bektaş Y, Yıldırım H. To identify mortality rate and high risk patients in non-malignant respiratory intensive care unit patients. [Article in Turkish]. Toraks Derg 2003; 4: 151-60.
  • Yap FHY, Joynt GM, Buckley TA, Wong ELY. Association of serum albumin concentration and mortality risk in critically ill patients. Anaesth Intens Care 2002; 30: 202-7.
  • Yılmaz E, Bor C, Uyar M, Demirağ K, Çankayalı İ. Travma hastalarının yoğun bakıma kabulündeki laktat. albumin. C-reaktif protein. PaO2/FiO2 ve glukoz düzeylerinin mortaliteye etkisi. J Turk Soc Intens Care/Türk Yogun Bak Dern Derg 2014; 12: 3.
  • Lewandowski K, Metz J, Deutschmann C, et al. Incidence, severity, and mortality of acute respiratory failure in Berlin, Germany. Am J Respir Crit Care Med 1995; 151: 1121-5.
  • Chen YX, Wang JY, Guo SB. Use of CRB-65 and quick sepsis-related organ failure assessment to predict site of care and mortality in pneumonia patients in the emergency department: a retrospective study. Crit Care 2016; 20: 1-10.
There are 18 citations in total.

Details

Primary Language English
Subjects Health Care Administration
Journal Section Research Articles
Authors

Feyza Ayhan 0000-0002-0308-5658

Oral Menteş 0000-0003-3599-2719

Murat Yıldız 0000-0002-9625-9994

Güler Eraslan Doğanay 0000-0003-2420-7607

Early Pub Date March 24, 2022
Publication Date March 29, 2022
Published in Issue Year 2022 Volume: 4 Issue: 2

Cite

AMA Ayhan F, Menteş O, Yıldız M, Eraslan Doğanay G. Evaluation of arterial blood gases of patients with type 1-2 respiratory failure diagnosed in intensive care using the quantitative Stewart method. Anatolian Curr Med J / ACMJ / acmj. March 2022;4(2):190-196. doi:10.38053/acmj.1054796

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