Abstract
Background: Coronavirus Disease 2019 (COVID-19) has been announced as a pandemic worldwide. The respiratory tract is a target organ-system which can result in serious complications like acute respiratory distress syndrome (ARDS). Management of this condition is more challenging in diabetes who developed diabetic ketoacidosis (DKA).
Clinical Case: We report a case of a 59-year-old male who presented with 4 days of productive cough with blood-tinged sputum, shortness of breath, and chills. Patient had decreased oral intake and had not been compliant with his medication. He had underlying disease significant for type 2 diabetes, essential hypertension, obesity (BMI 32 kg/m2), history of pancreatitis and diabetic ketoacidosis. His diabetes medications included insulin degludec 126 units with insulin lispro sliding scale, dulaglutide, metformin, and sitagliptin. On examination, the patient was lethargic. Initial vital signs included a temperature of 36.8°C, respiratory rate 24/min, heart rate 65 bpm, BP 140/67 mmHg, and oxygen saturation 91% on room air. Lung auscultation revealed bilateral widespread crackles. Laboratory was significant for glucose 387 mg/dL (70–139), pH 7.25 (7.35-7.28), anion gap 15.8 mEq/L (6–14) and concurrent normal gap acidosis, urine ketones 15 mg/dL (negative), and LDH 325 U/L (140–171). An initial chest x-ray showed bilateral peripheral pulmonary infiltrates. Workup was negative for influenza, pneumococcus, and legionella. The patient was subsequently intubated on the first day for worsening hypoxia due to severe ARDS (PaO2/FiO2 ratio of 71). He was concomitantly treated for DKA and hypotension with intravenous insulin, initially started at 12 units/hour with subsequent titration down to average of 5 units/hour, fluid resuscitation (approximate 34 ml/kg actual body weight) and, potassium repletion on the first day. On the same day, his hypoxia worsened with an increase in pulmonary infiltrates, so we stopped intravenous fluids and initiated norepinephrine for 24 hours. His mechanical ventilation settings followed ARDS guidelines. Positive COVID-19 was detected from real-time RT-PCR. After maintaining a negative fluid balance, we were able to extubate in 72 hours. Intravenous insulin was continued for 46 hours then was switched to subcutaneous basal-bolus regimen. He was discharged with insulin degludec 100 units with insulin lispro sliding scale, metformin, and sitagliptin. Dulaglutide was held.
Conclusion: Type 2 diabetes are rarely affected by DKA but can be found in up to 27% of the cases. There are reports of ARDS as a serious complication in severe DKA in adults and children, yet no data for concomitant DKA and ARDS has been published. We propose that the management of DKA in COVID-19 patients with ARDS may be similar to the paradigm utilized for other volume restriction in patients with congestive heart failure and end-stage renal failure.
Microarray analysis identifies IL-1 receptor type 2 as a novel candidate biomarker in patients with acute respiratory distress syndrome
