Severe Hypokalemia due to Excessive Coca-Cola Consumption , Presenting with Tetraparesis , Rhabdomyolysis , Atrial Fibrillation and Hypokalemic Nephropathy – Case Report

Potassium deficiency cause cardiovascular, hormonal, muscular, hepatic and renal disturbances. Hypokalemia increases the risk for a variety of arrhythmias; impairs skeletal muscle contraction; reduces skeletal blood flow, which can predispose to rhabdomyolysis during exercise; and leads to several disturbances of renal function. The latter include reduced medullary blood flow and increased renal vasculature resistance, which predispose to tubulointerstitial and cystic changes, alterations in acid-base balance and renal concentrating mechanisms. Patients with hypokalemic nephropathy present with nocturia, polyuria and polydipsia, associated with collecting tubule responsiveness to vasopressin. Causes of hypokalemia are multiple and include deficient potassium intake, increased renal potassium losses, increased extrarenal potassium losses, potassium redistribution and pseudohypokalemia, with many nutritional, drug-induced, endocrine and genetic mechanisms. Hypokalemia in persons consuming large amounts of Coca-Cola, first time described in 1994, and since that time reported in a handful of papers, is attributed to the effects of caffeine and fructose, causing the shift of potassium from extracellular space into cells, increased renal excretion of potassium, osmotic diarrhea, osmotic diuresis and inadequate potassium intake. Most papers report myopathy and paralysis, but do not address the issue of renal abnormalities due to Coca-Cola excessive consumption. Here we present a patient, used to consume more than 2 liters of Coca-Cola daily over 20 years, and manifested with the full blown symptoms of severe hypokalemia, which were successfully treated with potassium repletion.


Introduction
Potassium deficiency cause cardiovascular, hormonal, muscular, hepatic and renal disturbances.Hypokalemia increases the risk for a variety of arrhythmias; impairs skeletal muscle contraction; reduces skeletal blood flow, which can predispose to rhabdomyolysis during exercise; and leads to several disturbances of renal function.The latter include reduced medullary blood flow and increased renal vasculature resistance, which predispose to tubulointerstitial and cystic Rhabdomyolysis, Atrial Fibrillation and hypokalemic Nephropathy -Case Report.J Urol Nephrol Open Access 2(2): 1-4.DOI: In rare cases hyperparathyroidism or genetic defect of dyhydropiridine-sensitive calcium channels may result in hypokalemic periodic paralysis.
5. Pseudohypokalemia most commonly is caused by acute myeloblastic leukemia, in which abnormal leukocytes take up potassium when blood is stored in the collection vial for a long time at room temperature.
First case of hypokalemia, associated with heavy Coca-Cola consumption, was described in 1994 [12].Since that time a number of case reports came up, describing patients who drank large volumes of Coca-Cola and developed a severe degree of hypokalemia and paralysis [13,14].The first interpretation of this phenomenon postulated that Coca-Cola contains large amount of caffeine, which enhances the shift of potassium from extracellular space into cells, and increase renal excretion of potassium via renin release, β-adrenergic stimulation and hyperventilation with alkalosis [13][14][15][16][17].Other explanations refer to several mechanisms, all of which may play a role simultaneously: Cola contains large amount of fructose, which is absorbed in limited quantities (only about 40% as compared to glucose) in the small intestine, therefore, unabsorbed fructose pass into the colon, causing an osmotic diarrhea and chronic potassium depletion; elevated glucose levels secondary to excessive cola consumption lead to osmotic diuresis, resulting in the urinary loss of potassium; hyperinsulinemia subsequent to hyperglycemia causes intracellular migration of potassium.Inadequate dietary potassium is supposed to play a role as well -Cola contains small amount of potassium, and as the appetite in persons, constantly consuming Cola, is lowered by fructose intake, lack of balanced diet and lack of consumption of fruits or other dietary ingredients rich in potassium lead to insufficient repletion of potassium, along with excessive potassium losses [17][18][19].All these publications describe myopathy and paralysis, but do not address the issue of renal abnormalities.
Here we present a case of severe hypokalemia, admitted to ICU with tetraparesis and diagnosed with muscle, cardiac and renal complications.
Previous medical history: unremarkable, except one pregnancy with caesarian section at 22-23weeks of gestation due to premature placental abruption.Patient denies diabetes, food restriction, usage of antibiotics, diuretics, laxatives and any herbal products.Family history is also unremarkable.

History of present illness:
February 22 2016 after physical exercise she felt low extremities muscle tension and hip muscle pain, which regressed spontaneously in two days.However three days later she developed low grade fever, thirst, dry mouth, progressive muscle weakness and numbness.
Next night she was unable to be up and about, fell of her bed, and for 6 hours lay on the floor without movement.She denies loss of awareness, but reports single episode of vomiting and headache.
February 29 she was admitted to the infectious disease hospital, suspected with meningitis.She was conscious, alert, RR 24 per minute, BP 120/70 mm Hg, HR 88 per minute.Neurological exam did not reveal any meningeal signs but confirmed tetraparsesis, work-up showed moderate leukocytosis with normal differential count, thrombocytosis, mild hyperglycemia and high CK level with normal CK-MB (Tables 1,2).Anti-CMV and Anti-EBV IgG positive, anti-CMV and anti-EBV IgM negative.Liquor: colorless, transparent, protein 4.2 g/L, cytosis 1/3, glucose 4.5 mmol/L.Chest and paranasal sinuses X-Ray unremarkable.The diagnosis of meningitis was ruled out.Patient was suspected with Guillain-Barre syndrome and referred to our hospital March 1 2016.
Point-of-care work-up in the ER: moderate leukocytosis with normal differential count, severe hypokalemia, CK even higher than before with normal CK-MB, slightly elevated aminotransferase and mild hyperglycemia, other blood chemistry tests within normal range (Tables 1,2).Urinalysis showed low specific gravity and moderate proteinuria and leukocyturia (Table 3).Electrocardiogram: atrial fibrillation with regular rhythm 2:1, 95 bites per minute, QT interval elongation.Brain and spinal MRI did not confirm demyelinating lesions, diagnosis of Guillain-Barre syndrome was not confirmed.

Treatment and further work-up in ICU:
Due to severe hypokalemia with atrial fibrillation patient was admitted to ICU and started on intravenous potassium chloride infusions 40 mEq/h, and heparin.Urethral catheter was placed; urine output reached 7000 ml/day.Under treatment in next 4 days her serum potassium gradually elevated to normal range, ECG showed sinus rhythm, muscle weakness partially resolved; urine output became 3500 ml/day.However CK and aminotransferase were still growing, myoglobin was also elevated.Glucose and WBC count became normal, Hb level slightly decreased (Tables

Diagnostic considerations and final diagnosis:
At that point nephrologists were invited to see the patient and search for polyuria and hypokalemia cause.Given patients history, presence of acidosis, normal sodium and magnesium levels, normal thyroid hormones level and normal blood pressure, the most often causes of hypokalemia, like excessive sweating, diarrhea, starvation, milk-alkali syndrome, drug-induced potassium losses, hyperaldosteronism, hyperreninemia, Bartter, Gitelman's and Liddle syndromes and thyrotoxicosis were ruled out.Pseudohypokalemia was also ruled out as leukocytosis was not that prominent and patient had multiple symptoms of true hypokalemia.
Additional history taking revealed that since adolescence the patient used to consume Coca-Cola about 2 L per day and more every day, without any signs and symptoms but thirst and stools 2-3 times a day.At the onset of present illness her thirst increased and she consumed as much as 5 L per day, mostly Coca-Cola and water.
That led us to the diagnosis of hypokalemia with myopathy; rhabdomyolysos, atrial fibrillation and hypokalemic nephropathy due to excessive Coca-Cola consumption.We presume that she

Severe Hypokalemia due to Excessive Coca-Cola Consumption, Presenting with Tetraparesis, Rhabdomyolysis, Atrial Fibrillation and Hypokalemic Nephropathy -Case Report
Copyright: © 2016 Zakharova had chronic hypokalemia with asymptomatic myopathy for a long time.Physical exercise triggered rhabdolyolysis with fever, inflammatory response and exaggeration of hypokalemia with typical symptoms like paralysis, arrhythmia and polyuria.She most probably also had hypokalemic nephropathy long before, as the duration of Coca-Cola consumption exceed 20 years.
Further treatment and follow-up: Patient was discharged from ICU and treated with oral potassium formulations in nephrology unit for next 8 days.Her neurological symptoms completely resolved, serum potassium was normal as well as enzymes and blood count, but her urinalysis still showed low specific gravity and mild proteinuria (Tables 1-3).She was discharged after totally 2 weeks of hospital stay and advised to avoid Coca-Cola consumption.Three month later at out-patient consult she is doing well, no complains, taking no medications.Her serum potassium is quite normal; however her urine specific gravity is still low -1012-1013.

Conclusion
in cases of symptomatic unexplained hypokalemia rare causes like excessive Coca-Cola consumption should be considered.hypokalemic nephropathy is unusual finding in such cases; its presence may confirm prolonged hypokalemia even though it was not diagnosed previously.

00114 Severe Hypokalemia due to Excessive Coca-Cola Consumption, Presenting with Tetraparesis, Rhabdomyolysis, Atrial Fibrillation and Hypokalemic Nephropathy -Case Report 4
. Potassium redistribution occur due to potassium shifts from extracellular to intracellular compartment, caused by many hormones, particularly insulin, aldosterone, and β 2 -adrenergic agonists.It may also be caused by alkalosis or excessive bicarbonate treatment of acidosis. 10.15226/2473-6430/2/2/