Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound

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Query: UMLS:C0024523 (malabsorption)
7,319 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The essentiality of zinc for humans was recognized in the early 1960s. The causes of zinc deficiency include malnutrition, alcoholism, malabsorption, extensive burns, chronic debilitating disorders, chronic renal disease, certain diuretics, the use of chelating agents such as penicillamine for Wilson's disease, and genetic disorders such as acrodermatitis enteropathica and sickle cell disease. The requirement of zinc is increased in pregnancy and during the growing age period. The clinical manifestations in severe cases of zinc deficiency included bullous-pustular dermatitis, alopecia, diarrhoea, emotional disorder, weight loss, intercurrent infections, hypogonadism in males and it is fatal if untreated. A moderate deficiency of zinc is characterized by growth retardation and delayed puberty in adolescents, hypogonadism in males, rough skin, poor appetite, mental lethargy, delayed wound healing, taste abnormalities and abnormal dark adaptation. In mild cases of zinc deficiency in human subjects, we have observed oligospermia, slight weight loss and hyperammonaemia. Zinc is a growth factor. As a result of its deficiency, growth is affected adversely in many animal species and in man. Inasmuch as zinc is needed for protein and DNA synthesis and cell division, it is believed that the growth effect of zinc is related to its effect on protein synthesis. Testicular functions are affected adversely as a result of zinc deficiency in both humans and experimental animals. This effect of zinc is at the end organ level and the hypothalamic--pituitary axis is intact in zinc-deficient subjects. Inasmuch as zinc is intimately involved in a cell division, its deficiency may adversely affect testicular size and thus its function. In mice, the incidence of degenerate oocytes, and hypohaploidy and hyperhaploidy in metaphase II oocytes were increased due to zinc deficiency. Zinc at physiological concentrations reduced prolactin secretion from the pituitary in vitro and it has been suggested that this trace element may have a role in the in vivo regulation of prolactin release. Thymopoietin, a hormone needed for T-cell maturation, has also been shown to be zinc dependent. It is clear that zinc may have several roles in biochemical and hormonal functions of various endocrine organs. Future research in this area is very much needed.
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PMID:Clinical, endocrinological and biochemical effects of zinc deficiency. 390 80

The requirement of zinc for humans was recognized in the early 1960s. The causes of zinc deficiency include malnutrition, alcoholism, malabsorption, extensive burns, chronic debilitating disorders, and chronic renal diseases; use of certain drugs such as penicillamine and, in some cases, diuretics; and genetic disorders such as acrodermatitis enteropathica and sickle cell disease. The requirement of zinc is increased in pregnancy and during growth. The clinical manifestations of severe zinc deficiency include bullous-pustular dermatitis, alopecia, diarrhea, emotional disorder, weight loss, intercurrent infections, and hypogonadism in males; zinc deficiency can be fatal if unrecognized and untreated. A moderate deficiency of zinc is characterized by growth retardation and delayed puberty in adolescents, hypogonadism in males, rough skin, poor appetite, mental lethargy, delayed wound healing, taste abnormalities, and abnormal dark adaptation. In mild cases of zinc deficiency in human subjects, we have observed oligospermia, slight weight loss, and hyperammonemia. Zinc is a growth factor. As a result of its deficiency, growth is affected adversely in many animal species and humans, probably because zinc is needed for protein and DNA synthesis and cell division. The effects of zinc and growth hormone on growth appear to be independent of each other in experimental animals. Whether zinc is required for the metabolism of somatomedin needs further investigation. Thyroid and adrenal functions do not appear to change as a result of zinc deficiency. Glucocorticoids may have an effect on zinc metabolism, although the clinical relevance of this effect is not known at present. In contrast, testicular function is affected adversely as a result of zinc deficiency in both humans and experimental animals. The effect appears to be a direct one since the hypothalamic-pituitary axis is intact, and may relate to the reduction in testicular size as a result of the need for zinc in cell division. In addition, zinc is required for the function of several testicular enzymes, although a specific role in steroidogenesis has not been identified. Zinc appears to have a role in the modulation of prolactin secretion, in the secretion and action of insulin, and in the production and biologic effects of thymic hormones. It is clear that the endocrine consequences of zinc deficiency are multiple, and that continued investigation should provide additional pathophysiologic and therapeutic insights.
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PMID:Clinical, endocrinologic, and biochemical effects of zinc deficiency. 391 98

Magnesium deficiency may play a role in the pathogenesis of atherosclerosis, cardiac arrhythmias, and coronary spasm. Because less than 1% of magnesium (Mg) is extracellular, the serum magnesium (sMg) does not always accurately reflect intracellular Mg stores. To determine the frequency of Mg deficiency in patients with cardiovascular disease, we measured blood mononuclear cell Mg content (mMg) and sMg concentrations in 104 unselected patients admitted to our intensive cardiac care unit (CCU). Twenty-seven normal healthy controls and 33 hypomagnesemic patients with chronic alcoholism and/or malabsorption syndrome served as reference groups. The sMg concentration in the CCU patients was 2.05 +/- 0.03 mg/dl (mean +/- SEM), and did not differ from normal controls (mean 2.01 +/- 0.03 mg/dl). Only 8 of 104 CCU patients were hypomagnesemic (7.7%). mMg in the CCU patients, however, was significantly lower than in the normal controls (1.15 +/- 0.02 micrograms/mg protein and 1.34 +/- 0.02 micrograms/mg protein respectively, p less than 0.001). Fifty-three percent (55 of 104) of CCU patients had mMg contents less than 1.119 micrograms/mg protein, i.e., below that of the lowest normal control. mMg was significantly lower in those patients with congestive heart failure (mMg = 1.08 +/- 0.03 micrograms/mg protein) when compared to those patients without congestive heart failure (1.23 +/- 0.02 micrograms/mg protein, p less than 0.001). We conclude that the incidence of intracellular Mg deficiency in patients with cardiovascular disease is much higher than the sMg would lead one to suspect, and may contribute to clinical cardiovascular morbidity.
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PMID:Low blood mononuclear cell magnesium in intensive cardiac care unit patients. 395 55

Alcoholism is occasionally complicated by zinc deficiency. We have assessed the possibility that malabsorption of zinc may be a potential cause. Using a dual isotope absorption technique the absorption of 65Zn in 18 alcoholic patients was 37% (13 +/- SD) and 56% (10 +/- SD) in a normal control group (p less than 0.001). The mean serum zinc in 55 alcoholic patients was 11.6 mumol/l (3.0 +/- SD) and in 36 normal volunteers the mean serum zinc was 13.6 mumol/l (1.8 +/- SD; p less than 0.001). This study suggests that chronic alcohol abuse will decrease the absorption of zinc and this may contribute towards the zinc deficiency occasionally associated with alcoholism.
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PMID:Zinc absorption in alcoholics using zinc-65. 406 45

The role of magnesium in the constitution, metabolism and hormonal control of bone tissue can be deducted from what is known of its physiology. Magnesium deficiency may result in vitamin-D resistant hypocalcaemia or even biochemical signs of hypoparathyroidism, which only regress after the deficiency is corrected. Measurements of magnesium levels in blood and urine are justified when such abnormalities occur in patients with digestive disorders, predominantly alcoholism, liver diseases or malabsorption. In all other circumstances, magnesium therapy is very rarely indicated for osteo-articular diseases.
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PMID:[Physiology and main implications of magnesium in osteo-articular pathology]. 622

In the United States and other developed countries thiamin deficiency is often related to chronic alcoholism. A number of mechanisms may be involved in the pathogenesis of thiamin deficiency in the alcoholic population. An important cause is inadequate intake of thiamin. Moreover, there may be decreased converstion of thiamin to the active coenzyme, reduced hepatic storage of the vitamin in patients with fatty metamorphosis, ethanol inhibition of intestinal thiamin transport, and impaired thiamin absorption secondary to other states of nutritional deficiency. The present discussion focuses on the mechanism of ethanol-related thiamin malabsorption. Under normal conditions thiamin transport in animals and humans is biphasic. At low or physiological thiamin concentrations, transport is a saturable, carrier-mediated, active process; but at higher concentrations, the transport of thiamin is predominantly passive. Ethanol reduces the rate of intestinal absorption and the net transmural flux of thiamin. Furthermore, ethanol inhibits only the active and not the passive component of thiamin transport by impeding the cellular exit of thiamin across the basolateral or serosal membrane. The impairment of thiamin movement out of the enterocyte correlates with a fall in the activity of Na-K ATPase. Bound to the basolateral membrane, Na-K ATPase is believed to be involved in the kinetics of active transport. Ethanol also increases the fluidity of enterocyte brush border and basolateral membranes. Since ethanol increases membrane fluidity it is possible that tahe impairment of thiamin transport and the diminution of Na-K ATPase activity may be related, at least partly, to a physical perturbation of the enterocyte membrane.
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PMID:Mechanisms of thiamin deficiency in chronic alcoholism. 625 54

During the past two decades, the essentiality of zinc for man has been established. Deficiency of zinc in man due to nutritional factors and several diseased states has been recognized. High phytate content of cereal proteins decreases availability of zinc; thus the prevalence of zinc deficiency is likely to be high in a population subsisting mainly on cereal proteins. Alcoholism is known to cause hyperzincuria and thus may play a role in producing zinc deficiency in man. Malabsorption, cirrhosis of the liver, chronic renal disease and other chronically debilitating diseases may similarly induce zinc deficiency in human subjects. A severe deficiency of zinc has recently been recognized to occur in patients with sickle cell anemia and a beneficial effect of zinc therapy in such patients has been reported. Growth retardation, male hypogonadism, skin changes, poor appetite, mental lethargy and delayed wound healing are some of the manifestations of chronically zinc-deficient human subjects. Taste abnormalities, correctable with zinc supplementation, have been observed in uremic subjects. Recently, abnormal dark adaptation related to zinc deficiency in patients with cirrhosis of the liver and sickle cell disease has been reported. In severely zinc-deficient patients, dermatological manifestations, diarrhea, alopecia, mental disturbances and intercurrent infections predominate and if untreated the condition becomes fatal. Zinc deficiency is known to affect testicular functions adversely in man and animals. This effect of zinc is at the end organ level and it appears that zinc is essential for spermatogenesis and testosterone steroidogenesis. Zinc is involved in many biochemical functions. Several zinc metalloenzymes have been recognized in the past decade. Zinc is required for each step of cell cycle in microorganisms and is essential for DNA synthesis. Thymidine kinase, RNA polymerase, DNA-polymerase from various sources and RNA-dependent DNA polymerase from viruses have been shown to be zinc-dependent enzymes. Zinc also regulates the activity of RNase; thus the catabolism of RNA appears to be zinc-dependent. The effect of zinc on protein synthesis may be attributable to its vital role in nucleic acid metabolism. The activities of many zinc-dependent enzymes have been shown to be affected adversely in zinc-deficient tissues. Three enzymes, alkaline phosphatase, carboxypeptidase and thymidine kinase, appear to be most sensitive to zinc restriction in that their activities are affected adversely within three to six days of institution of a zinc-deficient diet to experimental animals.(ABSTRACT TRUNCATED AT 400 WORDS)
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PMID:Zinc deficiency in human subjects. 636 78

The present explosion in knowledge of zinc has been the result of several factors, the major ones being the recognition of the important role of zinc in human health and diseases, its vital functions in biochemical reactions, and the technological advances that make it feasible to quantitate this essential trace element in biological fluids. Deficiency of zinc in humans due to nutritional factors and several disease states has now been recognized. The high phytate content of cereal proteins is known to decrease the availability of zinc; thus, the prevalence of zinc deficiency is likely to be high in a population consuming large quantities of proteins. Alcoholism, malabsorption, sickle cell anemia, chronic renal disease, and chronically debilitating diseases are now known to be predisposing factors for zinc deficiency. A severe deficiency of zinc such as that seen in patients with acrodermatitis enteropathica may be life-threatening. A spectrum of clinical manifestations ranging from mild to severe degrees has now been recognized in human zinc deficiency states. Zinc appears to be involved in many biological functions including DNA synthesis. Roles for zinc in enzymatic functions, cell membranes, and immunity are now well established.
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PMID:Discovery and importance of zinc in human nutrition. 638 75

The many causes of clinical magnesium deficiency can be placed into 2 categories: diminished intake of magnesium, and enhanced losses of magnesium, either through the gastrointestinal tract or through the kidneys. Examples of the first category include alcoholism, starvation, anorexia due to neoplastic disease and/or chemotherapy. Examples of the second category include severe diarrhoeal states, gastrointestinal fistulae, malabsorption, diuretic therapy and gentamicin therapy. Estimates of the prevalence of clinical hypomagnesaemia range from 6 to 11% in hospitalised patients. Serum predictors of associated clinical magnesium depletion include hypokalaemia (42%), hyponatraemia (23%), hypophosphataemia (22%) and hypocalcaemia (20%). Experimental and clinical observations strongly support the view that magnesium and potassium are closely linked at the cellular level. Magnesium has been demonstrated to be important in cell energetics (Mg++-activated ATPase), in maintenance of the integrity of cell membranes, retardation of cell loss of potassium, as well as enhancing repletion of cell potassium. While translation of these experimental observations into clinical terms encompasses a wide spectrum of illnesses, there is special relevance in considering the role of magnesium in repletion and maintenance of cell potassium in 2 clinical instances: (a) patients treated with digitalis and diuretics; and (b) hypertensive patients. In these types of patients not only potassium but also magnesium should be administered together to avoid the problem of cell potassium depletion and refractory potassium repletion associated with coexisting and uncorrected magnesium depletion.
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PMID:Magnesium deficiency. Causes and clinical implications. 649 96

Zinc is essential for many metabolic and enzymatic functions in man. Deficiency of zinc in man has now been recognized to occur not only as a result of nutritional factors, but also in various disease states, including malabsorption syndromes, acrodermatitis enteropathica, Crohn's disease, alcoholism and cirrhosis of the liver. The deficiency state in human subjects exists as a spectrum extending from mild to severe degree. The clinical manifestations of mild zinc deficiency include oligospermia, weight loss and hyperammonaemia. Moderate zinc deficiency is characterized clinically by growth retardation, hypogonadism in males, skin changes, poor appetite, mental lethargy, delayed wound healing, taste abnormalities and abnormal dark adaptation. In severe zinc deficiency states, bullous-pustular dermatitis, alopecia, diarrhoea, emotional disorders, weight loss, intercurrent infections, hypogonadism in males and, if unrecognized, death have been observed. Zinc is needed for the functions of over 100 enzymes. It is essential for DNA, RNA and protein synthesis and, as such, is important for cell division. Zinc is an inducer of mRNA of metallothionein, a protein which may have an important role in the regulation of intestinal zinc absorption. Zinc has a specific effect on testes in animals and man. Recent reports indicate that in human subjects thymopoietin may be zinc dependent and in animal studies somatomedin may be affected adversely due to dietary zinc restriction. Zinc plays an important role in the protection of cell membrane integrity and may be protective against free radical injury. Zinc is known to compete with cadmium, lead, copper, iron and calcium for similar binding sites. In the future, a potential use of zinc may be to alleviate toxic effects of cadmium and lead in human subjects. Recent evidence suggests that thymic-dependent lymphocytes (T cells are zinc dependent. T-helper and suppressor cells, T-effector cells and T-natural killer cells appear to be zinc dependent. Zinc is also essential for some of the neutrophil functions. Thus, it appears that zinc may play an important role in immunity. One may suggest that some of the clinical features of cirrhosis of the liver, such as testicular atrophy, loss of body hair, night blindness, poor wound healing, poor appetite, susceptibility to infections and enhanced sensitivity to drugs, may be related to conditioned deficiency of zinc, future studies are required to determine whether or not zinc supplementation is beneficial to these patients.
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PMID:The role of zinc in gastrointestinal and liver disease. 661 39


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