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Hyponatremia

February 15, 2024

Hyponatremia or hyponatraemia is a low concentration of sodium in the blood.[4] It is generally defined as a sodium concentration of less than 135 mmol/L (135 mEq/L), with severe hyponatremia being below 120 mEq/L.[3][8] Symptoms can be absent, mild or severe.[2][9] Mild symptoms include a decreased ability to think, headaches, nausea, and poor balance.[1][3] Severe symptoms include confusion, seizures, and coma;[1][2][9] death can ensue.[10]

Hyponatremia
Other namesHyponatraemia, low blood sodium, hyponatræmia
Sodium, as shown on the periodic table
SpecialtyNephrology
SymptomsDecreased ability to think, headaches, nausea, poor balance, confusion, seizures, coma[1][2][3]
TypesLow volume, normal volume, high volume[4]
Diagnostic methodSerum sodium < 135 mmol/L[3]
Differential diagnosisEthanol intoxication or withdrawal, high protein levels, high blood fat levels, high blood sugar[5][6]
TreatmentBased on underlying cause[4]
FrequencyRelatively common[6][7]

The causes of hyponatremia are typically classified by a person's body fluid status into low volume, normal volume, or high volume.[4] Low volume hyponatremia can occur from diarrhea, vomiting, diuretics, and sweating.[4] Normal volume hyponatremia is divided into cases with dilute urine and concentrated urine.[4] Cases in which the urine is dilute include adrenal insufficiency, hypothyroidism, and drinking too much water or too much beer.[4] Cases in which the urine is concentrated include syndrome of inappropriate antidiuretic hormone secretion (SIADH).[4] High volume hyponatremia can occur from heart failure, liver failure, and kidney failure.[4] Conditions that can lead to falsely low sodium measurements include high blood protein levels such as in multiple myeloma, high blood fat levels, and high blood sugar.[5][6]

Treatment is based on the underlying cause.[4] Correcting hyponatremia too quickly can lead to complications.[5] Rapid partial correction with 3% normal saline is only recommended in those with significant symptoms and occasionally those in whom the condition was of rapid onset.[4][6] Low volume hyponatremia is typically treated with intravenous normal saline.[4] SIADH is typically treated by correcting the underlying cause and with fluid restriction while high volume hyponatremia is typically treated with both fluid restriction and a diet low in salt.[1][4] Correction should generally be gradual in those in whom the low levels have been present for more than two days.[4]

Hyponatremia is the most common type of electrolyte imbalance, and is often found in older adults.[11][12] It occurs in about 20% of those admitted to hospital and 10% of people during or after an endurance sporting event.[3][5] Among those in hospital, hyponatremia is associated with an increased risk of death.[5] The economic costs of hyponatremia are estimated at $2.6 billion per annum in the United States.[13]

Signs and symptoms edit

Signs and symptoms of hyponatremia include nausea and vomiting, headache, short-term memory loss, confusion, lethargy, fatigue, loss of appetite, irritability, muscle weakness, spasms or cramps, seizures, and decreased consciousness or coma.[1] Lower levels of plasma sodium are associated with more severe symptoms. However, mild hyponatremia (plasma sodium levels at 131–135 mmol/L) may be associated with complications and subtle symptoms[14] (for example, increased falls, altered posture and gait, reduced attention, impaired cognition, and possibly higher rates of death).[15][16]

Neurological symptoms typically occur with very low levels of plasma sodium (usually <115 mmol/L).[1] When sodium levels in the blood become very low, water enters the brain cells and causes them to swell (cerebral edema). This results in increased pressure in the skull and causes hyponatremic encephalopathy. As pressure increases in the skull, herniation of the brain can occur, which is a squeezing of the brain across the internal structures of the skull. This can lead to headache, nausea, vomiting, confusion, seizures, brain stem compression and respiratory arrest, and non-cardiogenic accumulation of fluid in the lungs.[17] This is usually fatal if not immediately treated.

Symptom severity depends on how fast and how severe the drop in blood sodium level is. A gradual drop, even to very low levels, may be tolerated well if it occurs over several days or weeks, because of neuronal adaptation. The presence of underlying neurological disease such as a seizure disorder or non-neurological metabolic abnormalities, also affects the severity of neurologic symptoms.

Chronic hyponatremia can lead to such complications as neurological impairments. These neurological impairments most often affect gait (walking) and attention, and can lead to increased reaction time and falls.[citation needed] Hyponatremia, by interfering with bone metabolism, has been linked with a doubled risk of osteoporosis and an increased risk of bone fracture.[18]

Causes edit

The specific causes of hyponatremia are generally divided into those with low tonicity (lower than normal concentration of solutes), without low tonicity, and falsely low sodiums.[12] Those with low tonicity are then grouped by whether the person has high fluid volume, normal fluid volume, or low fluid volume.[12] Too little sodium in the diet alone is very rarely the cause of hyponatremia.[citation needed]

High volume edit

Both sodium and water content increase: Increase in sodium content leads to hypervolemia and water content to hyponatremia.

Normal volume edit

There is volume expansion in the body, no edema, but hyponatremia occurs[19]

Low volume edit

Hypovolemia (extracellular volume loss) is due to total body sodium loss. Hyponatremia is caused by a relatively smaller loss in total body water.[19]

Medication edit

Antipsychotics have been reported to cause hyponatremia in a review of medical articles from 1946 to 2016.[25]

Available evidence suggests that all classes of psychotropics, i.e., antidepressants, antipsychotics, mood stabilizers, and sedative/hypnotics can lead to hyponatremia. Age is a significant factor for drug induced hyponatremia.[26]

Other causes edit

Miscellaneous causes that are not included under the above classification scheme include the following:

Pathophysiology edit

The causes of and treatments for hyponatremia can only be understood by having a grasp of the size of the body fluid compartments and subcompartments and their regulation; how under normal circumstances the body is able to maintain the sodium concentration within a narrow range (homeostasis of body fluid osmolality); conditions can cause that feedback system to malfunction (pathophysiology); and the consequences of the malfunction of that system on the size and solute concentration of the fluid compartments.[27]

Normal homeostasis edit

There is a hypothalamic-kidney feedback system which normally maintains the concentration of the serum sodium within a narrow range. This system operates as follows: in some of the cells of the hypothalamus, there are osmoreceptors which respond to an elevated serum sodium in body fluids by signalling the posterior pituitary gland to secrete antidiuretic hormone (ADH) (vasopressin).[28] ADH then enters the bloodstream and signals the kidney to bring back sufficient solute-free water from the fluid in the kidney tubules to dilute the serum sodium back to normal, and this turns off the osmoreceptors in the hypothalamus. Also, thirst is stimulated.[29] Normally, when mild hyponatremia begins to occur, that is, the serum sodium begins to fall below 135 mEq/L, there is no secretion of ADH, and the kidney stops returning water to the body from the kidney tubule. Also, no thirst is experienced. These two act in concert to raise the serum sodium to the normal range.[30][31][32]

Hyponatremia edit

Hyponatremia occurs 1) when the hypothalamic-kidney feedback loop is overwhelmed by increased fluid intake, 2) the feedback loop malfunctions such that ADH is always "turned on", 3) the receptors in the kidney are always "open" regardless of there being no signal from ADH to be open; or 4) there is an increased ADH even though there is no normal stimulus (elevated serum sodium) for ADH to be increased.

Hyponatremia occurs in one of two ways: either the osmoreceptor-aquaporin feedback loop is overwhelmed, or it is interrupted. If it is interrupted, it is either related or not related to ADH.[31] If the feedback system is overwhelmed, this is water intoxication with maximally dilute urine and is caused by 1) pathological water drinking (psychogenic polydipsia), 2) beer potomania, 3) overzealous intravenous solute free water infusion, or 4) infantile water intoxication. "Impairment of urine diluting ability related to ADH" occurs in nine situations: 1) arterial volume depletion 2) hemodynamically mediated, 3) congestive heart failure, 4) cirrhosis, 5) nephrosis, 6) spinal cord disease, 7) Addison's disease, 8) cerebral salt wasting, and 9) syndrome of inappropriate antidiuretic hormone secretion (SIADH). If the feed-back system is normal, but an impairment of urine diluting ability unrelated to ADH occurs, this is 1) oliguric kidney failure, 2) tubular interstitial kidney disease, 3) diuretics, or 4) nephrogenic syndrome of antidiuresis.[31]

Sodium is the primary positively charged ion outside of the cell and cannot cross from the interstitial space into the cell. This is because charged sodium ions attract around them up to 25 water molecules, thereby creating a large polar structure too large to pass through the cell membrane: "channels" or "pumps" are required. Cell swelling also produces activation of volume-regulated anion channels which is related to the release of taurine and glutamate from astrocytes.[33]

Diagnosis edit

The history, physical exam, and laboratory testing are required to determine the underlying cause of hyponatremia. A blood test demonstrating a serum sodium less than 135 mmol/L is diagnostic for hyponatremia.[34] The history and physical exam are necessary to help determine if the person is hypovolemic, euvolemic, or hypervolemic, which has important implications in determining the underlying cause. An assessment is also made to determine if the person is experiencing symptoms from their hyponatremia. These include assessments of alertness, concentration, and orientation.

False hyponatremia edit

False hyponatremia, also known as spurious, pseudo, hypertonic, or artifactual hyponatremia is when the lab tests read low sodium levels but there is no hypotonicity. In hypertonic hyponatremia, resorption of water by molecules such as glucose (hyperglycemia or diabetes) or mannitol (hypertonic infusion) occurs. In isotonic hyponatremia a measurement error due to high blood triglyceride level (most common) or paraproteinemia occurs. It occurs when using techniques that measure the amount of sodium in a specified volume of serum/plasma, or that dilute the sample before analysis.[35]

True hyponatremia edit

True hyponatremia, also known as hypotonic hyponatremia, is the most common type. It is often simply referred to as "hyponatremia." Hypotonic hyponatremia is categorized in 3 ways based on the person's blood volume status. Each category represents a different underlying reason for the increase in ADH that led to the water retention and thence hyponatremia:

  • High volume hyponatremia, wherein there is decreased effective circulating volume (less blood flowing in the body) even though total body volume is increased (by the presence of edema or swelling, especially in the ankles). The decreased effective circulating volume stimulates the release of anti-diuretic hormone (ADH), which in turn leads to water retention. Hypervolemic hyponatremia is most commonly the result of congestive heart failure, liver failure, or kidney disease.
  • Normal volume hyponatremia, wherein the increase in ADH is secondary to either physiologic but excessive ADH release (as occurs with nausea or severe pain) or inappropriate and non-physiologic secretion of ADH, that is, syndrome of inappropriate antidiuretic hormone hypersecretion (SIADH). Often categorized under euvolemic is hyponatremia due to inadequate urine solute (not enough chemicals or electrolytes to produce urine) as occurs in beer potomania or "tea and toast" hyponatremia, hyponatremia due to hypothyroidism or central adrenal insufficiency, and those rare instances of hyponatremia that are truly secondary to excess water intake.
  • Low volume hyponatremia, wherein ADH secretion is stimulated by or associated with volume depletion (not enough water in the body) due to decreased effective circulating volume.

Acute versus chronic edit

Chronic hyponatremia is when sodium levels drop gradually over several days or weeks and symptoms and complications are typically moderate. Chronic hyponatremia is often called asymptomatic hyponatremia in clinical settings because it is thought to have no symptoms; however, emerging data suggests that "asymptomatic" hyponatremia is not actually asymptomatic.[14]

Acute hyponatremia is when sodium levels drop rapidly, resulting in potentially dangerous effects, such as rapid brain swelling, which can result in coma and death.

Treatment edit

The treatment of hyponatremia depends on the underlying cause.[12] How quickly treatment is required depends on a person's symptoms.[12] Fluids are typically the cornerstone of initial management.[12] In those with severe disease an increase in sodium of about 5 mmol/L over one to four hours is recommended.[12] A rapid rise in serum sodium is anticipated in certain groups when the cause of the hyponatremia is addressed thus warranting closer monitoring in order to avoid overly rapid correction of the blood sodium concentration. These groups include persons who have hypovolemic hyponatremia and receive intravenous fluids (thus correcting their hypovolemia), persons with adrenal insufficiency who receive hydrocortisone, persons in whom a medication causing increased ADH release has been stopped, and persons who have hyponatremia due to decreased salt and/or solute intake in their diet who are treated with a higher solute diet.[16] If large volumes of dilute urine are seen, this can be a warning sign that overcorrection is imminent in these individuals.[16]

Sodium deficit = (140 – serum sodium) × total body water[5]

Total body water = kilograms of body weight × 0.6  

Fluids edit

[citation needed]

Options include:

  • Mild and asymptomatic hyponatremia is treated with adequate solute intake (including salt and protein) and fluid restriction starting at 500 millilitres per day (mL/d) of water with adjustments based on serum sodium levels. Long-term fluid restriction of 1,200–1,800 mL/d may maintain the person in a symptom-free state.[36]
  • Moderate and/or symptomatic hyponatremia is treated by raising the serum sodium level by 0.5 to 1 mmol per liter per hour for a total of 8 mmol per liter during the first day with the use of furosemide and replacing sodium and potassium losses with 0.9% saline.
  • Severe hyponatremia or severe symptoms (confusion, convulsions, or coma): consider hypertonic saline (3%) 1–2 mL/kg IV in 3–4 h. Hypertonic saline may lead to a rapid dilute diuresis and fall in the serum sodium. It should not be used in those with an expanded extracellular fluid volume.

Electrolyte abnormalities edit

In persons with hyponatremia due to low blood volume (hypovolemia) from diuretics with simultaneous low blood potassium levels, correction of the low potassium level can assist with correction of hyponatremia.[16]

Medications edit

American and European guidelines come to different conclusions regarding the use of medications.[37] In the United States they are recommended in those with SIADH, cirrhosis, or heart failure who fail limiting fluid intake.[37] In Europe they are not generally recommended.[37]

There is tentative evidence that vasopressin receptor antagonists (vaptans), such as conivaptan, may be slightly more effective than fluid restriction in those with high volume or normal volume hyponatremia.[4] They should not be used in people with low volume.[12] They may also be used in people with chronic hyponatremia due to SIADH that is insufficiently responsive to fluid restriction and/or sodium tablets.[16]

Demeclocycline, while sometimes used for SIADH, has significant side effects including potential kidney problems and sun sensitivity.[12][38] In many people it has no benefit while in others it can result in overcorrection and high blood sodium levels.[12]

Daily use of urea by mouth, while not commonly used due to the taste, has tentative evidence in SIADH.[12][38] However, it is not available in many areas of the world.[12]

Precautions edit

Raising the serum sodium concentration too rapidly may cause osmotic demyelination syndrome.[39][40][41] Rapid correction of sodium levels can also lead to central pontine myelinolysis (CPM).[42] It is recommended not to raise the serum sodium by more than 10 mEq/L/day.[43]

Epidemiology edit

Hyponatremia is the most commonly seen water–electrolyte imbalance.[12] The disorder is more frequent in females, the elderly, and in people who are hospitalized. The number of cases of hyponatremia depends largely on the population. In hospital it affects about 15–20% of people; however, only 3–5% of people who are hospitalized have a sodium level less than 130 mmol/L. Hyponatremia has been reported in up to 30% of the elderly in nursing homes and is also present in approximately 30% of people who are depressed on selective serotonin reuptake inhibitors.[14]

People who have hyponatremia who require hospitalisation have a longer length of stay (with associated increased costs) and also have a higher likelihood of requiring readmission. This is particularly the case in men and in the elderly.[44]

References edit

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Further reading edit

  • Sandy Craig; Erik D Schraga; Francisco Talavera; Howard A Bessen; John D Halamka (2010-04-13). "Hyponatremia in Emergency Medicine". Medscape.
  • Kugler JP, Hustead T (June 2000). . Am Fam Physician. 61 (12): 3623–30. PMID 10892634. Archived from the original on 2011-06-06. Retrieved 2011-05-15.
  • James L. Lewis, III, MD (May 2009). . Merck Manual of Diagnosis and Therapy. Archived from the original on 2011-01-11. Retrieved 2011-05-15.{{cite web}}: CS1 maint: multiple names: authors list (link)
  • Elizabeth Quinn (2011-03-07). . About.com. Archived from the original on 2009-10-28. Retrieved 2009-08-16.

External links edit

  • Hyponatremia at the Mayo Clinic
  • Sodium at Lab Tests Online
  • ICD-10 code for Hyponatremia - Diagnosis Code

February 15, 2024
hyponatremia, hyponatraemia, concentration, sodium, blood, generally, defined, sodium, concentration, less, than, mmol, with, severe, hyponatremia, being, below, symptoms, absent, mild, severe, mild, symptoms, include, decreased, ability, think, headaches, nau. Hyponatremia or hyponatraemia is a low concentration of sodium in the blood 4 It is generally defined as a sodium concentration of less than 135 mmol L 135 mEq L with severe hyponatremia being below 120 mEq L 3 8 Symptoms can be absent mild or severe 2 9 Mild symptoms include a decreased ability to think headaches nausea and poor balance 1 3 Severe symptoms include confusion seizures and coma 1 2 9 death can ensue 10 HyponatremiaOther namesHyponatraemia low blood sodium hyponatraemiaSodium as shown on the periodic tableSpecialtyNephrologySymptomsDecreased ability to think headaches nausea poor balance confusion seizures coma 1 2 3 TypesLow volume normal volume high volume 4 Diagnostic methodSerum sodium lt 135 mmol L 3 Differential diagnosisEthanol intoxication or withdrawal high protein levels high blood fat levels high blood sugar 5 6 TreatmentBased on underlying cause 4 FrequencyRelatively common 6 7 The causes of hyponatremia are typically classified by a person s body fluid status into low volume normal volume or high volume 4 Low volume hyponatremia can occur from diarrhea vomiting diuretics and sweating 4 Normal volume hyponatremia is divided into cases with dilute urine and concentrated urine 4 Cases in which the urine is dilute include adrenal insufficiency hypothyroidism and drinking too much water or too much beer 4 Cases in which the urine is concentrated include syndrome of inappropriate antidiuretic hormone secretion SIADH 4 High volume hyponatremia can occur from heart failure liver failure and kidney failure 4 Conditions that can lead to falsely low sodium measurements include high blood protein levels such as in multiple myeloma high blood fat levels and high blood sugar 5 6 Treatment is based on the underlying cause 4 Correcting hyponatremia too quickly can lead to complications 5 Rapid partial correction with 3 normal saline is only recommended in those with significant symptoms and occasionally those in whom the condition was of rapid onset 4 6 Low volume hyponatremia is typically treated with intravenous normal saline 4 SIADH is typically treated by correcting the underlying cause and with fluid restriction while high volume hyponatremia is typically treated with both fluid restriction and a diet low in salt 1 4 Correction should generally be gradual in those in whom the low levels have been present for more than two days 4 Hyponatremia is the most common type of electrolyte imbalance and is often found in older adults 11 12 It occurs in about 20 of those admitted to hospital and 10 of people during or after an endurance sporting event 3 5 Among those in hospital hyponatremia is associated with an increased risk of death 5 The economic costs of hyponatremia are estimated at 2 6 billion per annum in the United States 13 Contents 1 Signs and symptoms 2 Causes 2 1 High volume 2 2 Normal volume 2 3 Low volume 2 4 Medication 2 5 Other causes 3 Pathophysiology 3 1 Normal homeostasis 3 2 Hyponatremia 4 Diagnosis 4 1 False hyponatremia 4 2 True hyponatremia 4 3 Acute versus chronic 5 Treatment 5 1 Fluids 5 2 Electrolyte abnormalities 5 3 Medications 5 4 Precautions 6 Epidemiology 7 References 8 Further reading 9 External linksSigns and symptoms editSigns and symptoms of hyponatremia include nausea and vomiting headache short term memory loss confusion lethargy fatigue loss of appetite irritability muscle weakness spasms or cramps seizures and decreased consciousness or coma 1 Lower levels of plasma sodium are associated with more severe symptoms However mild hyponatremia plasma sodium levels at 131 135 mmol L may be associated with complications and subtle symptoms 14 for example increased falls altered posture and gait reduced attention impaired cognition and possibly higher rates of death 15 16 Neurological symptoms typically occur with very low levels of plasma sodium usually lt 115 mmol L 1 When sodium levels in the blood become very low water enters the brain cells and causes them to swell cerebral edema This results in increased pressure in the skull and causes hyponatremic encephalopathy As pressure increases in the skull herniation of the brain can occur which is a squeezing of the brain across the internal structures of the skull This can lead to headache nausea vomiting confusion seizures brain stem compression and respiratory arrest and non cardiogenic accumulation of fluid in the lungs 17 This is usually fatal if not immediately treated Symptom severity depends on how fast and how severe the drop in blood sodium level is A gradual drop even to very low levels may be tolerated well if it occurs over several days or weeks because of neuronal adaptation The presence of underlying neurological disease such as a seizure disorder or non neurological metabolic abnormalities also affects the severity of neurologic symptoms Chronic hyponatremia can lead to such complications as neurological impairments These neurological impairments most often affect gait walking and attention and can lead to increased reaction time and falls citation needed Hyponatremia by interfering with bone metabolism has been linked with a doubled risk of osteoporosis and an increased risk of bone fracture 18 Causes editThe specific causes of hyponatremia are generally divided into those with low tonicity lower than normal concentration of solutes without low tonicity and falsely low sodiums 12 Those with low tonicity are then grouped by whether the person has high fluid volume normal fluid volume or low fluid volume 12 Too little sodium in the diet alone is very rarely the cause of hyponatremia citation needed High volume edit Both sodium and water content increase Increase in sodium content leads to hypervolemia and water content to hyponatremia Cirrhosis of the liver 12 Congestive heart failure 12 Nephrotic syndrome in the kidneys 12 Excessive water consumption Water intoxication 12 Normal volume edit There is volume expansion in the body no edema but hyponatremia occurs 19 SIADH and its many causes 12 Hypothyroidism 12 Not enough ACTH 12 Beer potomania Normal physiologic change of pregnancy 20 21 Reset osmostatLow volume edit Hypovolemia extracellular volume loss is due to total body sodium loss Hyponatremia is caused by a relatively smaller loss in total body water 19 Any cause of hypovolemia such as prolonged vomiting decreased oral intake severe diarrhea 12 Diuretic use due to the diuretic causing a volume depleted state and thence ADH release and not a direct result of diuretic induced urine sodium loss 12 Addison s disease and congenital adrenal hyperplasia in which the adrenal glands do not produce enough steroid hormones combined glucocorticoid and mineralocorticoid deficiency 12 Isolated hyperchlorhidrosis Carbonic anhydrase XII deficiency a rare genetic disorder which results in a lifelong tendency to lose excessive amounts of sodium by sweating Pancreatitis 12 Prolonged exercise and sweating combined with drinking water without electrolytes is the cause of exercise associated hyponatremia EAH 5 22 It is common in marathon runners and participants of other endurance events 23 The use of MDMA ecstasy can result in hyponatremia 24 Medication edit Antipsychotics have been reported to cause hyponatremia in a review of medical articles from 1946 to 2016 25 Available evidence suggests that all classes of psychotropics i e antidepressants antipsychotics mood stabilizers and sedative hypnotics can lead to hyponatremia Age is a significant factor for drug induced hyponatremia 26 Other causes edit Miscellaneous causes that are not included under the above classification scheme include the following False or pseudo hyponatremia is caused by a false lab measurement of sodium due to massive increases in blood triglyceride levels or extreme elevation of immunoglobulins as may occur in multiple myeloma 12 Hyponatremia with elevated tonicity can occur with high blood sugar causing a shift of excess free water into the serum 12 Pathophysiology editThe causes of and treatments for hyponatremia can only be understood by having a grasp of the size of the body fluid compartments and subcompartments and their regulation how under normal circumstances the body is able to maintain the sodium concentration within a narrow range homeostasis of body fluid osmolality conditions can cause that feedback system to malfunction pathophysiology and the consequences of the malfunction of that system on the size and solute concentration of the fluid compartments 27 Normal homeostasis edit There is a hypothalamic kidney feedback system which normally maintains the concentration of the serum sodium within a narrow range This system operates as follows in some of the cells of the hypothalamus there are osmoreceptors which respond to an elevated serum sodium in body fluids by signalling the posterior pituitary gland to secrete antidiuretic hormone ADH vasopressin 28 ADH then enters the bloodstream and signals the kidney to bring back sufficient solute free water from the fluid in the kidney tubules to dilute the serum sodium back to normal and this turns off the osmoreceptors in the hypothalamus Also thirst is stimulated 29 Normally when mild hyponatremia begins to occur that is the serum sodium begins to fall below 135 mEq L there is no secretion of ADH and the kidney stops returning water to the body from the kidney tubule Also no thirst is experienced These two act in concert to raise the serum sodium to the normal range 30 31 32 Hyponatremia edit Hyponatremia occurs 1 when the hypothalamic kidney feedback loop is overwhelmed by increased fluid intake 2 the feedback loop malfunctions such that ADH is always turned on 3 the receptors in the kidney are always open regardless of there being no signal from ADH to be open or 4 there is an increased ADH even though there is no normal stimulus elevated serum sodium for ADH to be increased Hyponatremia occurs in one of two ways either the osmoreceptor aquaporin feedback loop is overwhelmed or it is interrupted If it is interrupted it is either related or not related to ADH 31 If the feedback system is overwhelmed this is water intoxication with maximally dilute urine and is caused by 1 pathological water drinking psychogenic polydipsia 2 beer potomania 3 overzealous intravenous solute free water infusion or 4 infantile water intoxication Impairment of urine diluting ability related to ADH occurs in nine situations 1 arterial volume depletion 2 hemodynamically mediated 3 congestive heart failure 4 cirrhosis 5 nephrosis 6 spinal cord disease 7 Addison s disease 8 cerebral salt wasting and 9 syndrome of inappropriate antidiuretic hormone secretion SIADH If the feed back system is normal but an impairment of urine diluting ability unrelated to ADH occurs this is 1 oliguric kidney failure 2 tubular interstitial kidney disease 3 diuretics or 4 nephrogenic syndrome of antidiuresis 31 Sodium is the primary positively charged ion outside of the cell and cannot cross from the interstitial space into the cell This is because charged sodium ions attract around them up to 25 water molecules thereby creating a large polar structure too large to pass through the cell membrane channels or pumps are required Cell swelling also produces activation of volume regulated anion channels which is related to the release of taurine and glutamate from astrocytes 33 Diagnosis editThe history physical exam and laboratory testing are required to determine the underlying cause of hyponatremia A blood test demonstrating a serum sodium less than 135 mmol L is diagnostic for hyponatremia 34 The history and physical exam are necessary to help determine if the person is hypovolemic euvolemic or hypervolemic which has important implications in determining the underlying cause An assessment is also made to determine if the person is experiencing symptoms from their hyponatremia These include assessments of alertness concentration and orientation False hyponatremia edit False hyponatremia also known as spurious pseudo hypertonic or artifactual hyponatremia is when the lab tests read low sodium levels but there is no hypotonicity In hypertonic hyponatremia resorption of water by molecules such as glucose hyperglycemia or diabetes or mannitol hypertonic infusion occurs In isotonic hyponatremia a measurement error due to high blood triglyceride level most common or paraproteinemia occurs It occurs when using techniques that measure the amount of sodium in a specified volume of serum plasma or that dilute the sample before analysis 35 True hyponatremia edit True hyponatremia also known as hypotonic hyponatremia is the most common type It is often simply referred to as hyponatremia Hypotonic hyponatremia is categorized in 3 ways based on the person s blood volume status Each category represents a different underlying reason for the increase in ADH that led to the water retention and thence hyponatremia High volume hyponatremia wherein there is decreased effective circulating volume less blood flowing in the body even though total body volume is increased by the presence of edema or swelling especially in the ankles The decreased effective circulating volume stimulates the release of anti diuretic hormone ADH which in turn leads to water retention Hypervolemic hyponatremia is most commonly the result of congestive heart failure liver failure or kidney disease Normal volume hyponatremia wherein the increase in ADH is secondary to either physiologic but excessive ADH release as occurs with nausea or severe pain or inappropriate and non physiologic secretion of ADH that is syndrome of inappropriate antidiuretic hormone hypersecretion SIADH Often categorized under euvolemic is hyponatremia due to inadequate urine solute not enough chemicals or electrolytes to produce urine as occurs in beer potomania or tea and toast hyponatremia hyponatremia due to hypothyroidism or central adrenal insufficiency and those rare instances of hyponatremia that are truly secondary to excess water intake Low volume hyponatremia wherein ADH secretion is stimulated by or associated with volume depletion not enough water in the body due to decreased effective circulating volume Acute versus chronic edit Chronic hyponatremia is when sodium levels drop gradually over several days or weeks and symptoms and complications are typically moderate Chronic hyponatremia is often called asymptomatic hyponatremia in clinical settings because it is thought to have no symptoms however emerging data suggests that asymptomatic hyponatremia is not actually asymptomatic 14 Acute hyponatremia is when sodium levels drop rapidly resulting in potentially dangerous effects such as rapid brain swelling which can result in coma and death Treatment editThe treatment of hyponatremia depends on the underlying cause 12 How quickly treatment is required depends on a person s symptoms 12 Fluids are typically the cornerstone of initial management 12 In those with severe disease an increase in sodium of about 5 mmol L over one to four hours is recommended 12 A rapid rise in serum sodium is anticipated in certain groups when the cause of the hyponatremia is addressed thus warranting closer monitoring in order to avoid overly rapid correction of the blood sodium concentration These groups include persons who have hypovolemic hyponatremia and receive intravenous fluids thus correcting their hypovolemia persons with adrenal insufficiency who receive hydrocortisone persons in whom a medication causing increased ADH release has been stopped and persons who have hyponatremia due to decreased salt and or solute intake in their diet who are treated with a higher solute diet 16 If large volumes of dilute urine are seen this can be a warning sign that overcorrection is imminent in these individuals 16 Sodium deficit 140 serum sodium total body water 5 Total body water kilograms of body weight 0 6 Fluids edit citation needed Options include Mild and asymptomatic hyponatremia is treated with adequate solute intake including salt and protein and fluid restriction starting at 500 millilitres per day mL d of water with adjustments based on serum sodium levels Long term fluid restriction of 1 200 1 800 mL d may maintain the person in a symptom free state 36 Moderate and or symptomatic hyponatremia is treated by raising the serum sodium level by 0 5 to 1 mmol per liter per hour for a total of 8 mmol per liter during the first day with the use of furosemide and replacing sodium and potassium losses with 0 9 saline Severe hyponatremia or severe symptoms confusion convulsions or coma consider hypertonic saline 3 1 2 mL kg IV in 3 4 h Hypertonic saline may lead to a rapid dilute diuresis and fall in the serum sodium It should not be used in those with an expanded extracellular fluid volume Electrolyte abnormalities edit In persons with hyponatremia due to low blood volume hypovolemia from diuretics with simultaneous low blood potassium levels correction of the low potassium level can assist with correction of hyponatremia 16 Medications edit American and European guidelines come to different conclusions regarding the use of medications 37 In the United States they are recommended in those with SIADH cirrhosis or heart failure who fail limiting fluid intake 37 In Europe they are not generally recommended 37 There is tentative evidence that vasopressin receptor antagonists vaptans such as conivaptan may be slightly more effective than fluid restriction in those with high volume or normal volume hyponatremia 4 They should not be used in people with low volume 12 They may also be used in people with chronic hyponatremia due to SIADH that is insufficiently responsive to fluid restriction and or sodium tablets 16 Demeclocycline while sometimes used for SIADH has significant side effects including potential kidney problems and sun sensitivity 12 38 In many people it has no benefit while in others it can result in overcorrection and high blood sodium levels 12 Daily use of urea by mouth while not commonly used due to the taste has tentative evidence in SIADH 12 38 However it is not available in many areas of the world 12 Precautions edit Raising the serum sodium concentration too rapidly may cause osmotic demyelination syndrome 39 40 41 Rapid correction of sodium levels can also lead to central pontine myelinolysis CPM 42 It is recommended not to raise the serum sodium by more than 10 mEq L day 43 Epidemiology editHyponatremia is the most commonly seen water electrolyte imbalance 12 The disorder is more frequent in females the elderly and in people who are hospitalized The number of cases of hyponatremia depends largely on the population In hospital it affects about 15 20 of people however only 3 5 of people who are hospitalized have a sodium level less than 130 mmol L Hyponatremia has been reported in up to 30 of the elderly in nursing homes and is also present in approximately 30 of people who are depressed on selective serotonin reuptake inhibitors 14 People who have hyponatremia who require hospitalisation have a longer length of stay with associated increased costs and also have a higher likelihood of requiring readmission This is particularly the case in men and in the elderly 44 References edit a b c d e f Babar S October 2013 SIADH Associated With Ciprofloxacin PDF The Annals of Pharmacotherapy 47 10 1359 63 doi 10 1177 1060028013502457 ISSN 1060 0280 PMID 24259701 S2CID 36759747 Archived from the original PDF on May 1 2015 Retrieved November 18 2013 a b c Williams DM Gallagher M Handley J Stephens JW July 2016 The clinical management of hyponatraemia Postgraduate Medical Journal 92 1089 407 11 doi 10 1136 postgradmedj 2015 133740 PMID 27044859 a b c d e Henry DA 4 August 2015 In The Clinic Hyponatremia Annals of Internal Medicine 163 3 ITC1 19 doi 10 7326 aitc201508040 PMID 26237763 S2CID 12434550 a b c d e f g h i j k l m n o Lee JJ Kilonzo K Nistico A Yeates K 13 May 2014 Management of hyponatremia CMAJ Canadian Medical Association Journal 186 8 E281 86 doi 10 1503 cmaj 120887 PMC 4016091 PMID 24344146 a b c d e f g Filippatos TD Liamis G Christopoulou F Elisaf MS April 2016 Ten common pitfalls in the evaluation of patients with hyponatremia European Journal of Internal Medicine 29 22 25 doi 10 1016 j ejim 2015 11 022 PMID 26706473 a b c d Marx John Walls Ron Hockberger Robert 2013 Rosen s Emergency Medicine Concepts and Clinical Practice 8 ed Elsevier Health Sciences pp 1639 42 ISBN 978 1 4557 4987 4 Archived from the original on 2016 08 15 Ball SG Iqbal Z March 2016 Diagnosis and treatment of hyponatraemia Best Practice amp Research Clinical Endocrinology amp Metabolism 30 2 161 73 doi 10 1016 j beem 2015 12 001 PMID 27156756 Chatterjee Kanu Anderson Mark Heistad Donald Kerber Richard E 2014 Manual of Heart Failure JP Medical Ltd p 142 ISBN 978 93 5090 630 9 via Google Books a b Ball S De Groot LJ Beck Peccoz P Chrousos G Dungan K Grossman A Hershman JM Koch C McLachlan R New M Rebar R Singer F Vinik A Weickert MO 2000 Hyponatremia Endotext PMID 25905359 Accessed 1 August 2016 Pilling Kim 8 November 2022 Doctor Found Guilty of Trying to Conceal Cause of Child s Death Medscape UK Valle Jana M Beveridge Alexander Chroinin Danielle Ni 2022 02 16 Exploring hyponatremia in older hospital in patients management association with falls and other adverse outcomes Aging and Health Research 2 100060 doi 10 1016 j ahr 2022 100060 ISSN 2667 0321 S2CID 246938773 a b c d e f g h i j k l m n o p q r s t u v w x y z Dineen R Thompson CJ Sherlock M June 2017 Hyponatraemia presentations and management Clinical Medicine 17 3 263 69 doi 10 7861 clinmedicine 17 3 263 PMC 6297575 PMID 28572229 Simon Eric E 2014 Hyponatremia Evaluation and Treatment Springer Science amp Business Media p 205 ISBN 978 1 4614 6645 1 Archived from the original on 2016 08 15 a b c Schrier Robert W 2010 Does asymptomatic hyponatremia exist Nature Reviews Nephrology 6 4 185 doi 10 1038 nrneph 2010 21 PMID 20348927 Decaux Guy 2006 Is Asymptomatic Hyponatremia Really Asymptomatic The American Journal of Medicine 119 7 S79 82 doi 10 1016 j amjmed 2006 05 013 PMID 16843090 a b c d e Filippatos TD Liamis G Elisaf MS June 2016 Ten pitfalls in the proper management of patients with hyponatremia Postgraduate Medicine 128 5 516 22 doi 10 1080 00325481 2016 1186488 PMID 27153450 S2CID 6237667 Moritz M L Ayus J C 2003 The pathophysiology and treatment of hyponatraemic encephalopathy An update Nephrology Dialysis Transplantation 18 12 2486 91 doi 10 1093 ndt gfg394 PMID 14605269 Upala Sikarin Sanguankeo Anawin 25 February 2016 Association Between Hyponatremia Osteoporosis and Fracture a Systematic Review and Meta analysis The Journal of Clinical Endocrinology amp Metabolism 101 4 1880 86 doi 10 1210 jc 2015 4228 PMID 26913635 a b Mange Kevin Matsuura D Cizman B Soto H Ziyadeh FN Goldfarb S Neilson EG 1997 Language Guiding Therapy The Case of Dehydration versus Volume Depletion Annals of Internal Medicine 127 9 848 53 doi 10 7326 0003 4819 127 9 199711010 00020 PMID 9382413 S2CID 29854540 Plant Tony M Zeleznik Anthony J 2014 Knobil and Neill s Physiology of Reproduction Academic Press p 1962 ISBN 978 0 12 397769 4 Ronco Claudio Bellomo Rinaldo Kellum John A 2009 Critical Care Nephrology Elsevier Health Sciences p 517 ISBN 978 1 4160 4252 5 Bennett BL Hew Butler T Hoffman MD Rogers IR Rosner MH Sep 2013 Wilderness Medical Society practice guidelines for treatment of exercise associated hyponatremia Wilderness amp Environmental Medicine 24 3 228 40 doi 10 1016 j wem 2013 01 011 PMID 23590928 Rosner M H Kirven J 2006 Exercise Associated Hyponatremia Clinical Journal of the American Society of Nephrology 2 1 151 61 doi 10 2215 CJN 02730806 PMID 17699400 Van Dijken G D Blom R E Hene R J Boer W H 2013 High incidence of mild hyponatraemia in females using ecstasy at a rave party Nephrology Dialysis Transplantation 28 9 2277 83 doi 10 1093 ndt gft023 PMID 23476039 Sarah Naz Ali Lydia A Bazzano 2018 Hyponatremia in Association With Second Generation Antipsychotics A Systematic Review of Case Reports The Ochsner Journal 18 3 230 235 doi 10 31486 toj 17 0059 PMC 6162139 PMID 30275787 Swapnajeet Sahoo Sandeep Grover 2016 Hyonatremia and psychotropics Journal of Geriatric Mental Health 3 2 108 122 2 108 doi 10 4103 2348 9995 195604 Sterns 2013 Chapter 44 Antinatriureic peptides in Seldin and Giebisch s The Kidney Fifth Edition pp 1511 13 doi 10 1016 B978 0 12 381462 3 00037 9 Elsevier Inc Antunes Rodrigues J de Castro M Elias LL Valenca MM McCann SM January 2004 Neuroendocrine control of body fluid metabolism Physiological Reviews 84 1 169 208 doi 10 1152 physrev 00017 2003 PMID 14715914 needs update Baylis PH Thompson CJ November 1988 Osmoregulation of vasopressin secretion and thirst in health and disease Clinical Endocrinology 29 5 549 76 doi 10 1111 j 1365 2265 1988 tb03704 x PMID 3075528 S2CID 10897593 needs update Ball SG Iqbal Z 2016 Diagnosis and treatment of hyponatraemia Best Practice amp Research Clinical Endocrinology amp Metabolism 30 2 161 73 doi 10 1016 j beem 2015 12 001 PMID 27156756 a b c Sterns RH Silver SM Hicks JK 2013 44 Hyponatremia In Alpern Robert J Moe Orson W Caplan Michael eds Seldin and Giebisch s The Kidney Physiology amp Pathophysiology 5th ed Burlington Elsevier Science ISBN 978 0 12 381463 0 Kwon TH Hager H Nejsum LN Andersen ML Frokiaer J Nielsen S May 2001 Physiology and pathophysiology of renal aquaporins Seminars in Nephrology 21 3 231 38 doi 10 1053 snep 2001 21647 PMID 11320486 S2CID 4249297 Diringer M 2017 Neurologic manifestations of major electrolyte abnormalities Critical Care Neurology Part II Handbook of Clinical Neurology Vol 141 pp 705 13 doi 10 1016 B978 0 444 63599 0 00038 7 ISBN 978 0 444 63599 0 ISSN 0072 9752 PMID 28190443 Sabatine edited by Marc S 2014 Pocket medicine Fifth ed S l Aspen Publishers Inc ISBN 978 1 4511 9378 7 a href Template Cite book html title Template Cite book cite book a first1 has generic name help Ask the Expert May 2016 Investigating Hyponatremia American Association for Clinical Chemistry Archived from the original on 8 June 2016 Retrieved 16 September 2013 Schurer Ludwig Wolf Stefan Lumenta Christianto B 2010 Water and Electrolyte Regulation In Lumenta Christianto B Di Rocco Concezio Haase Jens et al eds Neurosurgery European Manual of Medicine pp 611 15 doi 10 1007 978 3 540 79565 0 40 ISBN 978 3 540 79565 0 a b c Rondon Berrios Helbert Berl Tomas 2017 Vasopressin Receptor Antagonists in Hyponatremia Uses and Misuses Frontiers in Medicine 4 141 doi 10 3389 fmed 2017 00141 ISSN 2296 858X PMC 5573438 PMID 28879182 nbsp This article incorporates text available under the CC BY 4 0 license a b Zietse R van der Lubbe N Hoorn E J 2009 Current and future treatment options in SIADH Clinical Kidney Journal 2 Suppl 3 iii12 iii19 doi 10 1093 ndtplus sfp154 PMC 2762827 PMID 19881932 Bernsen HJ Prick MJ September 1999 Improvement of central pontine myelinolysis as demonstrated by repeated magnetic resonance imaging in a patient without evidence of hyponatremia Acta Neurologica Belgica 99 3 189 93 PMID 10544728 Ashrafian H Davey P 2001 A review of the causes of central pontine myelinosis yet another apoptotic illness European Journal of Neurology 8 2 103 09 doi 10 1046 j 1468 1331 2001 00176 x PMID 11430268 S2CID 37760332 Abbott R Silber E Felber J Ekpo E 8 October 2005 Osmotic demyelination syndrome BMJ Clinical Research Ed 331 7520 829 30 doi 10 1136 bmj 331 7520 829 PMC 1246086 PMID 16210283 Central Pontine Myelinolysis Information Page National Institute of Neurological Disorders and Stroke Patrick C Auth 2012 Physician Assistant Review Lippincott Williams amp Wilkins pp 245 ISBN 978 1 4511 7129 7 via Google Books Corona Giovanni Giuliani Corinna Parenti Gabriele Colombo Giorgio L Sforza Alessandra Maggi Mario Forti Gianni Peri Alessandro August 2016 The Economic Burden of Hyponatremia Systematic Review and Meta Analysis The American Journal of Medicine 129 8 823 835 e4 doi 10 1016 j amjmed 2016 03 007 PMID 27059386 Further reading editSandy Craig Erik D Schraga Francisco Talavera Howard A Bessen John D Halamka 2010 04 13 Hyponatremia in Emergency Medicine Medscape Kugler JP Hustead T June 2000 Hyponatremia and hypernatremia in the elderly Am Fam Physician 61 12 3623 30 PMID 10892634 Archived from the original on 2011 06 06 Retrieved 2011 05 15 James L Lewis III MD May 2009 Hyponatremia Merck Manual of Diagnosis and Therapy Archived from the original on 2011 01 11 Retrieved 2011 05 15 a href Template Cite web html title Template Cite web cite web a CS1 maint multiple names authors list link Elizabeth Quinn 2011 03 07 What Is Hyponatremia Hyponatremia or water intoxication Can Athletes Drink Too Much Water About com Archived from the original on 2009 10 28 Retrieved 2009 08 16 External links editHyponatremia at the Mayo Clinic Sodium at Lab Tests Online ICD 10 code for Hyponatremia Diagnosis Code Retrieved from https en wikipedia org w index php title Hyponatremia amp oldid 1190798421, wikipedia, wiki, book, books, library,

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