To determine whether your sodium level is within normal limits; as part of an electrolyte panel or metabolic panel to help diagnose and determine the cause of an electrolyte imbalance; to help monitor treatment for illnesses that can cause abnormal sodium levels in the body
When you have a routine health exam; when you are experiencing dehydration, problems with blood pressure, accumulating excess fluid (edema), or have non-specific symptoms
A blood sample drawn from a vein; sometimes a random or 24-hour urine sample is collected.
Sodium is an electrolyte present in all body fluids and is vital to normal body function, including nerve and muscle function. This test measures the level of sodium in the blood and/or urine.
Electrolytes are minerals that carry a charge and exist in your body fluids. Sodium and other electrolytes such as potassium, chloride, and bicarbonate (or total CO2) help cells function normally and helps regulate the amount of fluid in the body. While sodium is present in all body fluids, it is found in the highest concentration in the blood and in the fluid outside of the body's cells. This extracellular sodium, as well as all body water, is regulated by the kidneys.
We get sodium in our diet, from table salt (sodium chloride or NaCl), and to some degree from most of the foods that we eat. Most people have an adequate intake of sodium. The body uses what it requires and the kidneys eliminate the rest in the urine. The body tries to keep the blood sodium within a very narrow range. It does this by:
When the level of sodium in the blood changes, the water content in the body also changes. These changes can be associated with too little fluid (dehydration) or with too much fluid (edema), often resulting in swelling in the legs.
A sodium blood test is used to detect an abnormal sodium level, including low sodium (hyponatremia) and high sodium (hypernatremia). It is often used as part of an electrolyte panel or basic metabolic panel for a routine health exam.
A blood sodium test may also be used to:
Urine sodium levels may be tested if you have abnormal blood sodium levels to help determine whether an imbalance is due to, for example, consuming too much sodium or losing too much sodium. Urine sodium testing may also be used if you have abnormal kidney test results to help your healthcare practitioner determine the cause of kidney disease and to help guide treatment.
As the meals we eat on a given day affect our sodium levels, a 24-hour urine sodium tests can be helpful to your healthcare practitioner to reduce the impact of a single meal on the urine sodium result.
Sodium testing may be ordered as part of an electrolyte panel or metabolic panel during a routine health exam or when you are being evaluated for an acute or chronic illness.
A blood sodium test may be ordered when have signs and symptoms of low sodium, such as:
However, there may be no symptoms when the sodium level falls slowly. That is why sodium levels are often checked even if you have no specific symptoms.
Sodium blood testing may be ordered when have signs and symptoms of high sodium, such as:
Sodium and other electrolytes may be measured when monitoring treatment with intravenous (IV) fluids or when there is a possibility of developing dehydration.
Electrolyte panels and basic metabolic panels are also commonly ordered on a regular basis when monitoring treatment of certain conditions, including high blood pressure, heart failure, and liver and kidney disease.
A random or 24-hour urine sodium test may be ordered when a blood sodium test result is abnormal to help determine the cause of the imbalance or to monitor treatment.
Sodium levels are typically interpreted along with results from other tests done at the same time, such as the results of other electrolyte tests. Low and high sodium levels can be caused by various conditions and diseases.
Examples of conditions that can cause a low blood sodium (hyponatremia) include:
Examples of conditions that can cause a high blood sodium level (hypernatremia) include:
Sodium Reference Range
The reference ranges1 provided here represent a theoretical guideline that should not be used to interpret your test results. Some variation is likely between these numbers and the reference range reported by the lab that ran your test. Please consult your healthcare provider.
|Age||Conventional Units2||SI Units3|
|0-18 years||Not available due to wide variability. See child's lab report for reference range.|
|Adult||136-145 mEq/L||136-145 mmol/L|
|>90 years||132-146 mEq/L||132-146 mmol/L|
1 from Tietz Textbook of Clinical Chemistry and Molecular Diagnostics. Burtis CA, Ashwood ER, Bruns DE, eds. 5th edition, St. Louis: Elsevier Saunders; 2011.
2 Conventional Units are typically used for reporting results in U.S. labs
3 SI Units are used to report lab results outside of the U.S.
Sodium urine concentrations must be compared with sodium blood levels. The body normally eliminates excess sodium, so the concentration in the urine may be elevated because it is elevated in the blood. It may also be elevated in the urine when the body is losing too much sodium; in this case, the blood level would be normal to low. If blood sodium levels are low due to insufficient intake, then urine concentrations will also be low.
Sodium levels are often evaluated in relation to other electrolytes and can be used to calculate a quantity termed anion gap. For details, read the article Electrolytes and Anion Gap.
Your sodium result is interpreted by your healthcare practitioner within the context of other tests that you have had done as well as other factors, such as your medical history. A single high or low result may or may not have medical significance. Generally, this is the case when the test value is only slightly higher or lower than the reference range. This is why healthcare practitioners may repeat a test on you and why they may look at results from prior times when you had the same test performed.
On the other hand, a result outside the range may indicate a problem and warrant further investigation. Your healthcare practitioner will evaluate your test results and determine whether a result that falls outside of the reference range means something significant for you.
The Food and Nutrition Board recommends a sodium intake of less than 2300 mg per day for adults. People normally obtain adequate amounts of sodium in their daily diet, but it is important not to exceed this recommended maximum amount.
Common dietary sources of sodium are often processed food to which salt is added during preparation, such as cheeses, soups, pickles, and pretzels. Additionally, other processed, commercially prepared, or restaurant foods are generally high in sodium.
For people who are sodium-sensitive or have hypertension, reducing sodium intake can lead to markedly beneficial health effects. But even if you don't have high blood pressure, limiting sodium as part of a healthy diet may decrease your risk of developing blood pressure problems and heart disease.
Your taste for salt is both acquired and reversible. As you use less salt, your preference for it will lessen.
Yes. People who have long-lasting diarrhea and/or vomiting, profuse sweating, burns, Addison disease, kidney disease, or congestive heart failure may have low sodium levels. People with dehydration, diuretic use, Cushing syndrome, cystic fibrosis, neurological disorders, hypothyroidism, or renal failure may have high sodium levels.
Yes. During prolonged and strenuous exercise, both water and sodium are lost through sweating. To maintain the correct balance of water and sodium in the body, people may need not only to drink water but to ensure adequate sodium intake, whether through salty foods or specially formulated "sports drinks."
Certain drugs such as anabolic steroids, antibiotics, corticosteroids, laxatives, cough medicines, and oral contraceptives may cause increased levels of sodium. Other drugs such as ACE inhibitors, diuretics, carbamazepine, heparin, and tricyclic antidepressants may cause decreased levels of sodium.
Sources Used in Current Review
2019 review performed by Adrienne N. Eckhardt, BS, MT(ASCP) and the LTO Editorial Review Board.
(November, 20, 2017) Martin, L. Electrolytes. MedlinePlus Medical Encyclopedia. Available online at https://medlineplus.gov/ency/article/002350.htm. Accessed on June 26, 2019.
Greenstein, M. 24-Hour Urine Collection. University of Rochester Medical Center Health Encyclopedia. Available online at https://www.urmc.rochester.edu/encyclopedia/content.aspx?ContentTypeID=92&ContentID=P08955. Accessed on June 26, 2019.
(January 9, 2018) Stephens, C. Urine Sodium Level Test. Healthline. Available online at https://www.healthline.com/health/sodium-urine. Accessed on June 26, 2019.
Sources Used in Previous Reviews
Tietz. Fundamentals of Clinical Chemistry, 2001; Fifth edition. Elsevier Health Sciences.
Boh, LE. Pharmacy Practice Manual, 2001; Second edition. Lippincott Williams & Wilkins.
NewsTarget. Pass on the Salt: News Release. Friday, August 18, 2006. Available online through http://www.mayoclinic.org. Accessed January 2008.
Jacobs & DeMott. Laboratory Test Handbook, 2001; 5th edition. Lexi-Comp, Inc.
Tietz Textbook of Clinical Chemistry and Molecular Diagnostics. Burtis CA, Ashwood ER, Bruns DE, eds. St. Louis: Elsevier Saunders; 2006.
Clarke, W. and Dufour, D. R., Editors (2006). Contemporary Practice in Clinical Chemistry, AACC Press, Washington, DC.
Food and Nutrition Board. Institute of Medicine of the National Academies, Dietary Reference Intake Tables, Water and Electrolytes. PDF available for download at http://www.iom.edu.
Wu, A. (2006). Tietz Clinical Guide to Laboratory Tests, Fourth Edition. Saunders Elsevier, St. Louis, Missouri.
Pagana K, Pagana T. Mosby's Manual of Diagnostic and Laboratory Tests. 3rd Edition, St. Louis: Mosby Elsevier; 2006.
Thomas, Clayton L., Editor (1997). Taber's Cyclopedic Medical Dictionary. F.A. Davis Company, Philadelphia, PA [18th Edition].
Pagana, Kathleen D. & Pagana, Timothy J. (2001). Mosby's Diagnostic and Laboratory Test Reference 5th Edition: Mosby, Inc., Saint Louis, MO.
(1995-2004). Minerals and Electrolytes. The Merck Manual of Medical Information Second Home Edition [On-line information]. Available online through http://www.merck.com.
Ben-Joseph, E., Reviewed (2004 July). Dehydration. Familydoctor.org Information for Parents [On-line information]. Available online through http://www.kidshealth.org.
A.D.A.M. editorial, Updated (2003 October 15). Electrolytes. MedlinePlus Medical Encyclopedia [On-line information]. Available online at http://www.nlm.nih.gov/medlineplus/ency/article/002350.htm.
Pagana K, Pagana T. Mosby's Manual of Diagnostic and Laboratory Tests. 4th edition, Pp. 479-482; 989-992.
USDA. Dietary Guidelines for Americans, 2010. Available online at http://www.cnpp.usda.gov/DGAs2010-PolicyDocument.htm. Accessed August 2011.
MayoClinic.com. Hyponatremia. Available online at http://www.mayoclinic.com/health/hyponatremia/DS00974. Accessed August 2011.
Harrison, P. (2015 August 14). Low-Normal Serum Sodium Identified as a Risk Factor for CVD/Death. Medscape Multispecialty. [On-line information]. Available online at http://www.medscape.com/viewarticle/849532. Accessed 8/15/15.
Craig, S. (2015 August 5, Updated). Hyponatremia in Emergency Medicine. Medscape Drugs & Diseases [On-line information]. Available online at http://emedicine.medscape.com/article/767624-overview. Accessed 8/15/15.
Lukitsch, I. (2015 March 21, Updated). Hypernatremia. Medscape Drugs & Diseases [On-line information]. Available online at http://emedicine.medscape.com/article/241094-overview. Accessed 8/15/15.
Dugdale, D. (2013 October 29, Updated). Sodium blood test. MedlinePlus Medical Encyclopedia [On-line information]. Available online at http://www.nlm.nih.gov/medlineplus/ency/article/003481.htm. Accessed 8/15/15.
Dugdale, D. (2013 April 14, Updated). Hyponatremia. MedlinePlus Medical Encyclopedia [On-line information]. Available online at http://www.nlm.nih.gov/medlineplus/ency/article/000394.htm. Accessed 8/15/15.
Mir, F. (2013 December 5, Updated). Serum Sodium. Medscape Drugs & Diseases. [On-line information]. Available online at http://emedicine.medscape.com/article/2099065-overview. Accessed 8/15/15.