Methodist Journal

IN THIS ISSUE

Adult Congenital Heart Update

Vol 15, Issue 2 (2019)


FEATURED GUEST EDITOR

ISSUE INTRO

The Growing Number of Adults Surviving with Congenital Heart Disease

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RECOGNITIONS

Drs. MacGillivray and Lin Take the Lead in Adult Congenital Heart Disease

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REVIEW ARTICLES See More

Advanced Cardiac Imaging for Complex Adult Congenital Heart Diseases

149 Fontan Conversions

Anomalous Aortic Origin of a Coronary Artery

Pulmonary Valve Replacement for Tetralogy of Fallot

Management of the Adult with Arterial Switch

Ebstein’s Anomaly

Heart Transplantation in Adults with Congenital Heart Disease

Cholesterol: Can’t Live With It, Can’t Live Without It

CASE REPORTS See More

Simultaneous Transfemoral Mitral and Tricuspid Valve in Ring Implantation: First Case Report with Edwards Sapien 3 Valve

Uneventful Follow-Up 2 Years after Endovascular Treatment of a High Flow Iatrogenic Aortocaval Fistula Causing Pulmonary Hypertension and Right Heart Failure

Device-Related Thrombus: A Reason for Concern?

Retained Coronary Balloon Requiring Emergent Open Surgical Retrieval: An Uncommon Complication Requiring Individualized Management Strategies

MUSEUM OF HMH MULTIMODALITY IMAGING CENTER See More

Do I Look Fat in This? Multimodality Imaging Findings of a Cardiac Lipoma

CLINICAL PERSPECTIVES See More

POINTS TO REMEMBER

The Kidney in Congenital Cyanotic Heart Disease

EXCERPTA

Talking Statins with Antonio Gotto

POINTS TO REMEMBER

Lipids and Renal Disease

EXCERPTA

Addressing the Feedback Loop Between Depression, Diabetes, and Cardiovascular Disease

EDITORIALS

Letter to the Editor in Response to “Cardiac Autonomic Neuropathy in Diabetes Mellitus”

Vol 12, Issue 3 (2016)

Article Full Text

CLINICAL PERSPECTIVES

Electrolyte Games for Rainy Afternoons

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Article Citation:

Olivero JJ Sr. Electrolyte Games for Rainy Afternoons. Methodist DeBakey Cardiovasc J. 2016;12(3):184-185.

doi: https://doi.org/10.14797/mdcj-12-3-184

The column in this issue is supplied by Dr. Juan Jose Olivero, M.D., a nephrologist at Houston Methodist Hospital and a member of the Nephrology Training Program. Dr. Olivero obtained his medical degree from the University of San Carlos School of Medicine in Guatemala, Central America, and completed his residency and nephrology fellowship at Baylor College of Medicine in Houston, Texas.

Correlate the clinical histories with the electrolytes presented. Answers are below.

 

  1. Serum calcium 4.8 mg/dL

  2. Urinary electrolytes: sodium 110 mEq/L; potassium 46 mEq/L; chloride 90 mEq/L

  3. Serum potassium 6.7 mEq/L

  4. Serum sodium 125 mEq/L

  5. Serum calcium 5.8 mEq/L

A. A 39-year-old man with recently diagnosed nephrotic syndrome secondary to steroid-resistant focal segmental glomerular sclerosis (FSGS) was admitted to the hospital 4 weeks after cyclosporine A was added to therapy, which had caused him to become encephalopathic. His blood sugar on admission was 900 mg/dL.

B. A 65-year-old woman with a documented diagnosis of myelofibrosis was admitted to the hospital because of increasing weakness. On admission, hemoglobin was 6.9 g/dL and platelet count was 1 million.

C. A 55-year-old woman with carcinoma of the breast underwent magnetic resonance imaging of the chest with intravenous gadolinium for evaluation of suspected metastatic disease.

D. A 24-year-old woman came to the hospital because of profound weakness. Serum electrolytes upon admission showed a potassium level of 2.8 mEq/L, chloride of 88 mEq/L, bicarbonate of 35 mEq/L, and sodium of 140 mEq/L. She denied vomiting or diuretic use.

E. A 60-year-old man with end-stage renal failure for the last 15 years had severe secondary hyperparathyroidism (PTH levels > 1500) despite attempting to suppress parathyroid hormone production with nearly maximal doses of vitamin D (Hectorol 10 MIC IV after each dialysis) and calcimimetics (Sensipar 90 mg/day). The beneficial effects of both drugs were limited by evolving hypercalcemia (vitamin D analogue) and gastrointestinal symptoms (Sensipar). In view of erythropoietin resistance (early myelosclerosis due to PTH excess) and risk of calcific arteriopathy, the patient underwent total parathyroidectomy and parathyroid tissue implant in the forearm.

Correct Answers
  1. D: Pseudohyponatremia in a patient with hyperosmolar non-ketotic coma induced by cyclosporine A. To correctly assess this situation, it is important to know that there is a predictable decrement of serum sodium levels of 1.35 mEq/L for every 100 mg/dL of glucose levels above 100 mg/dL. In this case, adding 10.8 mEq/L to the reported value of 125 mEq/L results in a true sodium level of 135 mEq/L. Hypernatremia can also be present in cases of severe hyperglycemia (blood glucose > 500 mg/dL) due to profuse polyuria from the osmotic-diuretic effect of glycosuria. This results in water losses in excess of solute losses, in turn leading to hyperosmolality. Pseudonormonatremia can also be present in a similar situation of severe hyperglycemia, when “normal” serum sodium levels are corrected for the factor mentioned above (1.35 mEq/L for every 100 mg/dL of glycemia > 100).
  2. C: Pseudohyperkalemia. This is an in vitro phenomenon due to potassium release from marked elevation of white blood cells, as in leukemia (80000–100000), or marked platelet elevation (500000–1000000) as in this case. Under those circumstances, simultaneous determination of serum potassium (clotted blood specimen) and plasma potassium (unclotted blood specimen) will show normal levels in the plasma potassium. Another clue is the absence of electrocardiographic abnormalities present in true hyperkalemia.
  3. A: Pseudohypocalcemia induced by gadolinium. With the increasing volume of enhanced magnetic resonance imaging studies ordered in daily clinical practice, clinicians need to be aware that gadolinium interferes with the colorimetric calcium assays commonly used in hospitals. Calcium levels will be abnormally low if obtained immediately after gadolinium exposure. Knowing that pseudohypocalcemia can occur under the circumstances described above should prevent unnecessary and potentially dangerous administration of intravenous calcium.
  4. B: Surreptitious diuretic use. The only clinical scenario of hypokalemic hypochloremic metabolic alkalosis occurring with elevated levels of sodium/chloride/potassium in the urine results from the natriuretic/chloruretic/kaliuretic effect of diuretics. When confronted with the facts, this young woman with a borderline personality admitted to using her grandmother’s furosemide for “weight reduction.” Bulimia can also result in a similar metabolic profile (hypokalemia, hypochloremia, and metabolic alkalosis). Under those conditions, hypochloremic metabolic alkalosis results from hydrochloric acid losses via repeated vomiting. The ensuing volume contraction elicits aldosterone release with increasing sodium for potassium exchange at the renal tubular level, hence hypokalemia develops. As a result, urinary electrolytes (in contradistinction to diuretic users) would show low sodium, low chloride, and high potassium.
  5. E: Hungry bone syndrome. Profound and protracted hypocalcemia is the rule following total parathyroidectomy in patients who have severe secondary hyperparathyroidism for a prolonged period of time. A positive Chvostek sign and, at times, carpopedal spasms can occur days, weeks, or even months postoperatively. These patients need large amounts of calcium supplements (3–4 g of Ca carbonate TID or QID) and usually vitamin D in the form of either colecalciferol or ergocalciferol (although this is controversial) until normocalcemia is restored, thus preventing symptoms of hypocalcemia.

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