Vomiting, electrolyte disturbance, and medications; the perfect storm for acquired long QT syndrome and cardiac arrest: a case report

Background Acquired long QT syndrome is an important and preventable cause of cardiac arrest. Certain medications and electrolyte disturbance are common contributors, and often coexist. In this case, we report five contributors to cardiac arrest. Case presentation This case is of a 51-year-old Caucasian female patient who presented with vomiting associated with hypokalemia and hypomagnesemia. She subsequently received ondansetron and metoclopramide, on the background of chronic treatment with fluoxetine. She then suffered an in-hospital monitored cardiac arrest, with features of long QT and torsades de pointes retrospectively noted on her prearrest electrocardiogram. She was diagnosed with acquired long QT syndrome, and her QT interval later normalized after removal of offending causes. Conclusions This case highlights the importance of proper consideration prior to prescribing QT prolonging medications, especially in patients who have other risk factors for prolonged QT, such as electrolyte disturbances and pretreatment with QT prolonging medications.

Serious acid-base disorder or life-threatening arrhythmia in patients with ABO-incompatible liver transplantation who received therapeutic plasma exchange : A report of two cases

Background: Excessive citrate load during therapeutic plasma exchange (TPE) can cause metabolic alkalosis with compensatory hypercarbia and electrolyte disturbances. If TPE is required immediately before ABO-incompatible (ABOi) liver transplant (LT) surgery, metabolic derangement and severe electrolyte disturbance could worsen during LT anesthesia.Case: We report two ABOi LT cases who received TPE on the day of surgery because isoagglutinin titers did not be dropped below 1:8. One case had a surprisingly high metabolic alkalosis with a pH of 7.73 immediately after tracheal intubation because of hyperventilation during mask bagging. The other experienced sudden ventricular tachycardia and blood pressure drop after surgical incision accompanied with severe hypokalemia of 1.8 mmol/L despite supplementation with potassium.Conclusions: Special attention should be paid to patients who just completed TPE the operative day morning as they are vulnerable to severe acid-base disturbances and life-threatening ventricular arrhythmias in ABOi LT.

Recognising and managing eating disorders in the emergency department

Compared with other mental health conditions or psychiatric presentations, such as self-harm, which may be seen in emergency departments, eating disorders can seem relatively rare. However, they have the highest mortality across the spectrum of mental health, with high rates of medical complications and risk, ranging from hypoglycaemia and electrolyte disturbances to cardiac abnormalities. People with eating disorders may not disclose their diagnosis when they see healthcare professionals. This can be due to denial of the condition itself, a wish to avoid treatment for a condition which may be valued, or because of the stigma attached to mental health. As a result their diagnosis can be easily missed by healthcare professionals and thus the prevalence is underappreciated. This article presents eating disorders to emergency and acute medicine practitioners from a new perspective using the combined emergency, psychiatric, nutrition and psychology lens. It focuses on the most serious acute pathology which can develop from the more common presentations; highlights indicators of hidden disease; discusses screening; suggests key acute management considerations and explores the challenge of mental capacity in a group of high-risk patients who, with the right treatment, can make a good recovery.

Acid-Base Balance and Electrolyte Management

Perhaps the most ubiquitous set of interlinked clinical issues to be addressed in inpatient medicine is fluids, electrolytes, and acid-base balance. Decision making for the first two directly and measurably impacts the latter. Unlike most other critical therapies whose management is tied to a specific skill set and competency, every practitioner is empowered to prescribe and direct fluid and electrolyte management and, secondarily, pH. Downstream consequences in terms of compensation, both pulmonary and renal, may be singularly important for those with preexisting conditions that impact organ function and drive the need for unanticipated monitoring and therapy, including organ support. Therefore, the basics of fluid and electrolyte management are essential to be mastered, as is specific knowledge of the consequences of that prescription to enhance recovery and avoid preventable errors with important sequelae. Accordingly, current different but complementary methods of assessing acid-base balance are presented so that the reader may have a systematic approach to determining pH before intervention as well as after the initiation of fluid and electrolyte therapy. This review contains 12 figures, 7 tables, and 38 references Keywords: acid, base, electrolyte disturbances, Henderson-Hasselbach, maintenance, proton, resuscitation, Stewart methodology

Association between metabolic parameters and risks of anemia and electrolyte disturbances among stages 3–5 chronic kidney disease patients in Taiwan

Background Anemia and electrolyte disturbances are adverse outcomes of chronic kidney disease (CKD). This study explored the association between metabolic parameters with anemia and electrolyte and mineral disorders among CKD patients in Taiwan. Methods This cross-sectional study with a total of 2176 CKD stages 3–5 patients were collected from the Department of Nephrology at Shuang Ho Hospital, Taipei Medical University through the “Chronic Kidney Disease Common Care Network” database from December 2008 to April 2019. A multivariable-adjusted logistic regression expressed as odd ratios (OR) was performed to assess the association of metabolic parameters with anemia and electrolyte and mineral disorders. Results Elevated diastolic blood pressure, fasting blood glucose, and glycated hemoglobin A1c (HbA1c) were associated with presence of anemia. Similarly, elevated fasting blood glucose and HbA1c were associated with hyponatremia (OR = 1.59 and 1.58, P for both < 0.01) and hypercalcemia (OR = 1.38 and 1.33, P for both < 0.05). There was no significant association in serum lipid levels with presence of anemia. However, total triglycerides, total cholesterol and low-density lipoprotein-cholesterol were only associated with presence of hypercalcemia (OR = 1.43, 1.95 and 3.08, respectively, P for all < 0.05). Conclusions Elevated diastolic blood pressure, fasting blood glucose, HbA1c and blood lipids are associated with anemia or electrolyte and mineral disorders in CKD patients.

Recurrent Generalized Seizures with Postictal Todd’s Paralysis Caused by Medication-Associated Severe Hypomagnesemia: A Case Report

Hypomagnesemia is one of the electrolyte disturbances that can cause seizures. It is common in the hospitalized patients and can be induced by long-term usage of many medications. A 68-year-old male known to have hypertension and gastroesophageal reflux presented to the Emergency Department with an unprovoked first seizure at home followed by a temporary right-sided hemiparesis, dysphasia, and facial asymmetry. The hemiparesis, dysphasia, and facial asymmetry resolved within less than an hour after the seizure. His serum potassium was low with prolonged QT interval in the electrocardiogram (serum magnesium was not checked in the Emergency Department). He received intravenous IV potassium chloride infusion, and his serum potassium level was corrected, but he had a recurrent seizure after 10 h. At that time, his serum magnesium was found to be very low, he received IV magnesium sulfate infusion, and his indapamide, omeprazole, and metformin medications were stopped. He had no further seizures, the rest of his blood tests were normal, and his CT brain was unremarkable. He was treated for aspiration pneumonia, and his outpatient MRI brain and EEG came to be normal too.

ECG Interpretation: Clinical Relevance, Challenges, and Advances

Since its inception, the electrocardiogram (ECG) has been an essential tool in medicine. The ECG is more than a mere tracing of cardiac electrical activity; it can detect and diagnose various pathologies including arrhythmias, pericardial and myocardial disease, electrolyte disturbances, and pulmonary disease. The ECG is a simple, non-invasive, rapid, and cost-effective diagnostic tool in medicine; however, its clinical utility relies on the accuracy of its interpretation. Computer ECG analysis has become so widespread and relied upon that ECG literacy among clinicians is waning. With recent technological advances, the application of artificial intelligence-augmented ECG (AI-ECG) algorithms has demonstrated the potential to risk stratify, diagnose, and even interpret ECGs—all of which can have a tremendous impact on patient care and clinical workflow. In this review, we examine (i) the utility and importance of the ECG in clinical practice, (ii) the accuracy and limitations of current ECG interpretation methods, (iii) existing challenges in ECG education, and (iv) the potential use of AI-ECG algorithms for comprehensive ECG interpretation.

Electrolyte Disturbances and Acid-Base Imbalance

Electrolyte disorders are among the most common clinical problems encountered in critically ill patients. Disorders such as severe burns, trauma, sepsis, acute brain injury, and heart failure lead to disturbances in fluid and electrolyte homeostasis through complex mechanisms involving deregulation or activation of hormonal systems and ischemic or nephrotoxic kidney injury. Inappropriate fluid management should also be considered in the differential diagnosis of electrolyte disturbances in patients in intensive care units. Electrolyte imbalances produce both central and peripheral neurologic dysfunction because electrochemical membrane potentials in brain, nerve, and muscle tissues are particularly sensitive to chemical, ionic, and osmolar shifts.