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==What is Magnesium?==
==What is Magnesium?==
Magnesium is a mineral that is the second most common cation (positive ion) in '''intracellular fluid''', after [[Potassium - Nutrition|potassium]]. Its other main site of storage is in '''bone''', where about 50% of the bodys' magnesium is found. Like other minerals, magnesium is a reactive metal that is not found in its free state in nature but combined with other elements to form salts.
Magnesium is a mineral that is the second most common cation (positive ion) in '''intracellular fluid''', after [[Potassium - Nutrition|potassium]]. Its other main site of storage is in '''[[Bones - Anatomy & Physiology|bone]]''', where about 50% of the bodys' magnesium is found. Like other minerals, magnesium is a reactive metal that is not found in its free state in nature but combined with other elements to form salts.
==Why is it Important?==
==Why is it Important?==
Magnesium is an important '''cofactor in enzyme reactions '''involved in major metabolic pathways. Examples include those associated with cellular respiration and the transfer of phosphate between adenosine triphosphate (ATP), diphosphate (ADP) and monophosphate (AMP). It is also vital for normal '''nerve, muscle''' and '''heart function''' and '''bone mineral formation'''.
Magnesium is an important '''[[Nutrition Glossary#Cofactor|cofactor]] in enzyme reactions '''involved in major metabolic pathways. Examples include those associated with cellular respiration and the transfer of phosphate between adenosine triphosphate (ATP), diphosphate (ADP) and monophosphate (AMP). It is also vital for normal '''[[Neurons - Anatomy & Physiology|nerve]], [[Muscles - Anatomy & Physiology|muscle]]''' and '''[[Heart - Anatomy & Physiology|heart]] function''' and '''bone mineral formation'''.
==Roles in the Body==
==Roles in the Body==
Although large amounts of magnesium are stored in bone, it is '''not readily mobilised''' as a reserve for the animal when the supply of dietary magnesium is insufficient. The absorption of magnesium is via an active transport process but passive diffusion from the digestive tract can occur if there is a concentration gradient from the gastrointestinal lumen to the extracellular space. Extracellular magnesium is vital for normal nerve function. A common sign of magnesium deficiency is hyperexcitability caused by a reduction in the resting potential of the nerve membrane, which allows the [[Neurons - Anatomy & Physiology#Nerve Impulse Propagation|action potential]] to be triggered prematurely.
Although large amounts of magnesium are stored in bone, it is '''not readily mobilised''' as a reserve for the animal when the supply of dietary magnesium is insufficient. The absorption of magnesium is via an active transport process but passive diffusion from the [[Alimentary System Overview - Anatomy & Physiology|digestive tract]] can occur if there is a concentration gradient from the gastrointestinal lumen to the extracellular space. Extracellular magnesium is vital for normal nerve function. A common sign of magnesium deficiency is hyperexcitability caused by a reduction in the resting potential of the nerve membrane, which allows the [[Neurons - Anatomy & Physiology#Nerve Impulse Propagation|action potential]] to be triggered prematurely.
==Consequences of Magnesium Deficiency==
==Consequences of Magnesium Deficiency==
====Recognised Syndromes Related to Magnesium Deficiency====
====Recognised Syndromes Related to Magnesium Deficiency====
#'''Muscle weakness''': Clinical signs of magnesium deficiency in kittens include muscle tremors, lack of muscle tone and muscle weakness, initially in the hind limbs. There was also depressed food intake<ref name="Howard">Howard, K, Rogers, Q, Morris, J (1998). '''Magnesium requirement of kittens is increased by high dietary calcium'''''. J Nutr. ''128(suppl.):2601S-2602S.</ref>.
#'''Muscle weakness''': Clinical signs of magnesium deficiency in kittens include muscle tremors, lack of muscle tone and muscle weakness, initially in the hind limbs. There was also depressed food intake<ref name="Howard">Howard, K, Rogers, Q, Morris, J (1998). '''Magnesium requirement of kittens is increased by high dietary calcium'''''. J Nutr. ''128(suppl.):2601S-2602S.</ref>.
#'''Effect of calcium:''' In the same study<ref name="Howard" />, the effect of increased dietary [[Calcium - Nutrition|calcium]] on magnesium deficiency was also investigated. The deficiency signs described above in section (1) occurred only when kittens were fed 0.01% magnesium and a high calcium level of 2.3% calcium (both on a dry matter (DM) basis). However, kittens receiving 0.01% magnesium and a normal dietary calcium of 0.6% DM showed a lower serum magnesium than those on higher magnesium levels. Kittens receiving magnesium at 0.02% DM or higher and a normal dietary calcium showed no adverse effects. As observed in the dog studies, it is important that the balance of magnesium and other minerals is appropriate. This effect on magnesium requirement may be due to the formation of insoluble calcium-magnesium-phosphorus complexes that lower the bioavailability of magnesium<ref>Brink, EJ, Beynen, AC, Dekker, PR, Van Beresteijn, ECH, Van der Meer, R (1992). '''Interaction of calcium and phosphorus decreases ileal magnesium solubility and apparent magnesium absorption in rats'''''. J. Nutr.'' 122:580-586.</ref>.
#'''Effect of calcium:''' In the same study<ref name="Howard" />, the effect of increased dietary [[Calcium - Nutrition|calcium]] on magnesium deficiency was also investigated. The deficiency signs described above in section (1) occurred only when kittens were fed 0.01% magnesium and a high calcium level of 2.3% calcium (both on a [[Nutrition Glossary#Dry Matter Basis|dry matter (DM) basis]]). However, kittens receiving 0.01% magnesium and a normal dietary calcium of 0.6% DM showed a lower serum magnesium than those on higher magnesium levels. Kittens receiving magnesium at 0.02% DM or higher and a normal dietary calcium showed no adverse effects. As observed in the dog studies, it is important that the balance of magnesium and other minerals is appropriate. This effect on magnesium requirement may be due to the formation of insoluble calcium-magnesium-phosphorus complexes that lower the [[Nutrition Glossary#Bioavailability|bioavailability]] of magnesium<ref>Brink, EJ, Beynen, AC, Dekker, PR, Van Beresteijn, ECH, Van der Meer, R (1992). '''Interaction of calcium and phosphorus decreases ileal magnesium solubility and apparent magnesium absorption in rats'''''. J. Nutr.'' 122:580-586.</ref>.
==Toxicity/Excess==
==Toxicity/Excess==
[[File:Struvite crystals (urine) - Strüvit kristalleri (idrar) - 02.png|200px|right|thumb|Struvite crystals in urine]]
[[File:Struvite stones.JPG|200px|right|thumb|Struvite urolith removed form a dog's bladder]]
===Dog: ===
===Dog: ===
There is no direct information on dietary toxicity of magnesium in dogs. It has been reported that diets containing up to 0.2% DM magnesium (providing 3 to 5 times their requirement)<ref name="FEDIAF" /> have no adverse effects in adult dogs.
There is no direct information on dietary toxicity of magnesium in dogs. It has been reported that diets containing up to 0.2% DM magnesium (providing 3 to 5 times their requirement)<ref name="FEDIAF" /> have no adverse effects in adult dogs.
===Cat:===
===Cat:===
There is ample evidence that increasing dietary magnesium is associated with urinary tract disease in cats, notably the formation of [[Urolithiasis|uroliths]] composed of struvite (i.e. magnesium ammonium phosphate) <font color="red">[DC to provide image of uroliths]</font>. Dietary magnesium above 0.1% DM had previously been implicated in urolithiasis, however it is thought that this is an indirect effect of magnesium salts, increasing urinary pH which is permissive for struvite stones, rather than a direct effect of magnesium on struvite formation. An increase in urine volume can have some ameliorating effect but acidification of the urine (pH around 6.5) substantially increases the solubility of struvite and is the most effective way of dealing with struvite uroliths<ref>Markwell, PJ, Buffington,T, Smith, BHE. (1998). '''The effect of diet on lower urinary tract disease in cats'''''. J Nutr.'' 128(suppl.):2753S-2757S.</ref>.
There is ample evidence that increasing dietary magnesium is associated with urinary tract disease in cats, notably the formation of [[Urolithiasis|uroliths]] composed of struvite (i.e. magnesium ammonium phosphate). Dietary magnesium above 0.1% DM had previously been implicated in urolithiasis, however it is thought that this is an indirect effect of magnesium salts, increasing urinary pH which is permissive for struvite stones, rather than a direct effect of magnesium on struvite formation. An increase in urine volume can have some ameliorating effect but acidification of the urine (pH around 6.5) substantially increases the solubility of struvite and is the most effective way of dealing with struvite uroliths<ref>Markwell, PJ, Buffington,T, Smith, BHE. (1998). '''The effect of diet on lower urinary tract disease in cats'''''. J Nutr.'' 128(suppl.):2753S-2757S.</ref>.
==Dietary Sources==
==Dietary Sources==
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[[Category:To Do - Nutrition Images]]
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[[Category:Minerals in Nutrition]]