Advantages and Disadvantages of Chromium Complexes

Advantages and Disadvantages of Chromium ComplexesChromium is one of the transition alloy in outcomeic table that is known for its ability in modify ones health author by preventing diseases and gives intercession. However in human frame, only very small amounts of atomic number 24 ar need and they are often regarded as the essential trace element in human body.Back in 1950s, the uses of atomic number 24 as nutritional and medical checkup enhancement to glucose metabolic process was started when brewers yeast was suggested to contain a glucose perimeter cipher (GTF) that prevented diabetes in experimental animals. (Schwarz k, Mertz W, 1959). It was only then this factor finally taken into consideration to be a biologically wide awake form of trivalent atomic number 24 that could substantially lower the plasma glucose levels in diabetic mice based on studied done by Tuman RW and Doisy RJ in 1977. According to Fernando Guerrero and Martha Rodriguez-Moran, 2005, trivale nt atomic number 24 (Cr3+) is an essential trace element demand for the maintenance of normal glucose and fat metabolism. Because chromium potentiates the action of insulin, it was named from its recognition in the late 1950s as the glucose tolerance factor term that emphasizes its wideness in glucose metabolism. Chromium is present in m whatsoever foods, especially in liver, Brewers yeast, American cheese, wheat germ, vegetables much(prenominal) as carrots, potatoes, broccoli, and spinach, and is likewise present in alfalfa, brown sugar, molasses, dried beans, nuts, seeds, mushrooms, and animal fats.An organically self-propelling type of chromium takes part in glucose digestion system by improve the impacts of insulin. Insulin is produced by particular carrels in the pancreas in light of change magnitude cable glucose levels, for example, after eating. Insulin binds to insulin sensory sensory receptors on the surface of cells, which actuates the receptors and invigora tes glucose uptake by cells. Blood glucose levels are prevented from being elevated when insullin interact with insulin receptors whereby insulin depart provides cells with glucose. Apart from affect loot (glucose) metabolism, metabolism of fat and protein is alike influnced by insulin. Impaired glucose tolerance or type 2 diabetes which is in any case known as non-insulin dependent diabetes mellitus whitethorn occur as the consequences of decrease response to insulin or decreased insulin sensitivity. fibre 2 diabetes is characterized by elevated tune glucose levels and insulin resistance.The precise structure of the biologically active form of chromium is non known. Recent research suggests that a low-molecular-weight chromium-binding substance (LMWCr) may enhance the response of the insulin receptor to insulin. The following is a proposed model for the centre of chromium on insulin action.First, the inactive form of the insulin receptor is converted to the active form by binding insulin. The binding of insulin by the insulin receptor stimulates the movement of chromium into the cell and results in binding of chromium to apoLMWCr, a form of the LMWCr that lacks chromium. Once it binds chromium, the LMWCr binds to the insulin receptor and enhances its tyrosine kinase activity. The ability of the LMWCr to activate the insulin receptor is dependent on its chromium content. The LMWCr may be released from the cell in order to terminate its nubs when insulin levels drop receivable to normalization of line of merchandise glucose levels. More recent studies hold back directd that chromium enhances insulin action by increasing the insulin-stimulated translocation of glucose transporters to the cell membrane (Chen G, Liu P, Pattar GR, et al, 2006).Apart from type 2 diabetes, do of chromium supplementation on gestational diabetes had besides been examined. Gestational diabetes occurs in astir(predicate) 2% of pregnant women and usually appears in the se cond or tertiary trimester of pregnancy. Adverse effects on the developing fetus must be prevent by tightly control the blood glucose levels in the body. Glucose tolerance usually turns back to normal after delivery. However, according to study, 30% to 40% of women who clear had gestational diabetes develop type 2 diabetes within 5 to 10 years. An observational study in pregnant women did not light upon serum chromium levels to be associated with measures of glucose tolerance or insulin resistance in late pregnancy, although serum chromium levels may not reflect wander chromium levels. Women with gestational diabetes whose diets were supplemented with 4 mcg of chromium per kilogram of body weight daily as chromium picolinate for eight weeks had decreased continence blood glucose and insulin levels compared with those who took a placebo. However, insulin therapy rather than chromium picolinate was required to normalize seriously elevated blood glucose levels.Trivalent compounds (Cr III) do not cause any serious harm to body tissue, in fact, it is an important component of a balanced human and animal diet and its deficiency is detrimental to the glucose and lipide metabolism in mammals. The limitation of chromium in its application in human health is that it may cause different side effect to different person. The controversy surrounding chromium supplementation is due to the variance of the results gain from the evaluation of the effect of chromium in patients with diabetes and without diabetes. Some of them go through positive alterment but some are only indicate little or no benefit at all. Most of the concerns regarding the gigantic safety of chromium supplementation arise from several studies in cell culture, suggesting chromium (III), especially in the form of chromium picolinate, may emergence DNA damage. Several studies have demonstrated the safety of daily doses of up to 1,000 mcg of chromium for several months. However, there have been a some isolated reports of serious adverse reactions to chromium picolinate. Kidney failure was reported vanadium months after a six-week course of 600 mcg of chromium/day in the form of chromium picolinate, while kidney failure and impaired liver get were reported after the use of 1,200-2,400 mcg/day of chromium in the form of chromium picolinate over a period of four to quintette months. Individuals with pre-existing kidney or liver disease may be at increased risk of adverse effects and should limit supplemental chromium intake. In addition, the use of the supplements of chromium over a prolonged period of time may result in a risk of chromium poisoning. This is due to chromiums nuclear affinity, tending to result in its accumulation within cells. High doses of chromium which is about 600-2400 g will makes rare side effects may occur such as damage to the liver, kidney, and bone marrow as well as rhabdomyolysis and psychiatric disturbances in some cases. They have also been rela ted to chromosomal damage and increased incidence of cervical arch defects as they are capable of cleaving DNA.Similar difficult coumpound with ChromiumChromium vs vandium and surfaceApart of chromium, different transition metal that is found to have ability to be apply as anti diabetic agent is vanadium and atomic number 30. More than 2 8% of worlds population is suffering from diabetes (Wild et al., 2004). It is a condition in which body do not produce a endocrine gland called insulin which is necessary for the absorption of glucose in cells (Rother, 2007). Scientists are looking for alternative approaches for the discussion of diabetes (Nahas et al., 2009). The glucose level in the blood plasma is controlled by uses of vanadium and zinc in form of inorganic salts. question shows that undesireable side effets often associated with the elements that are poorly absorbed in their organic forms and required uplifted doses.Research has been conducted to prove that vanadium co mplexes with organic ligands to be less toxic with alter solubility and lipophilicity. Thera are a few number of vanadium complex which posses the insulin-mimetic properties that have been produced. The molecular mechanism responsible for(p) for the insulin-like effects of vanadium compounds have been shown to involve the activation of several key components of insulin-signaling pathways. It is interesting that the vanadium effect on these signaling systems is independent of insulin receptor protein tyrosine kinase activity, but it is associated with enhanced tyrosine phosphorylation of insulin receptor substrate. Chromium supplementation significantly improved glycemia among patients with diabetes but do not show any significant effect on glucose metabolism in healthy individuals. Higher zinc intake has also been associated with a meagrely lower risk of type 2 diabetes in women.Besides chromium and vanadium, there is also a strong connection between zinc and insulin. In fact, pe ople with diabetes frequently have lower levels of zinc than those without diabetes. maven reason for this is that diabetics tend to have increased excretion of zinc. Additionally, high blood sugar levels create significant oxidative stress. The use of antioxidants has been shown to help improve oxidation, while also enhancing the bodys response to insulin. Unfortunately, the risk of cardiovascular disease among diabetics is more difficult to address. Coronary heart disease is a major cause of death among people with type 2 diabetes. This, of course, is due in large part to obesity, but also to risk factors such as high blood pressure, high LDL cholesterol levels, and an crazy ratio of LDL to HDL cholesterol. Like chromium and vanadium, the body also cant make zinc, so it must be taken from food sources. zinc is stored in the muscles, blood cells, retina of the eye, skin, bone, kidney, liver, pancreas, and in men, prostate. Interestingly, zinc has long been an ingredient used in older insulins, such as Regular, NPH, and Lente. Zinc is also necessary for the formation of insulin in the pancreass beta cells. For these reasons, researchers have looked at the role of zinc supplementation in the prevention and treatment of Type 2 diabetes. Research shows that zinc, an essential trace element responsible for over 300 enzyme functions, can aid in normalizing the negative effects of diabetes mellitus. According to the study, zinc has been shown to mitigate the harmful effects of diabetes by improving glycemic control in type I and type II diabetes. many a(prenominal) of the enzyme systems in which zinc is a necessity for are involved with the metabolism of blood sugar, and therefore make zinc a natural particle accelerator for insulin secretion.The pancreas is an endocrine gland responsible for producing hormones like glucagon, somatostatin, and insulin. The beta cells that secrete insulin in the pancreas are also highly stored with zinc. The beta cells will suff er without the high concentrations of zinc. Fortunately, beta cells are equipped with their own special transporter called zinc transporter 8, which makes it easy for the beta cells to store the zinc. However, it is known that any transfiguration of the genes in the zinc transporter 8 causes type 2 diabetes. It is also now known that antibodies against the zinc transporter are present in type 1 diabetic patients, which means that these antibodies are associated with type 1 diabetes.It is no wonder why zinc is as popular as it is for supplementation. In addition to mending the difficulties brought on by diabetes, zinc also serves to maintain a healthy immune system, controls hair divergence, halts impotence, improves brain function, prevents loss of taste or smell, and much more.ReferencesGuerrero-Romero, F. Rodrguez-Morn, M. (2005). Complementary Therapies for Diabetes The Case for Chromium, Magnesium, and Antioxidants. Archives of medical checkup Research 36 (3) 250257Massey, P. (2013). Diabetes and the Role of dietary Supplements. Bioactive Food as Dietary Interventions for Diabetes. pp. 1794.Schwarz K, Mertz W Chromium (III) and the glucose tolerance factor. Arch Biochem Biophys 85 292295, 1959Tuman RW, Doisy RJ metabolous effects of the glucose tolerance factor (GTF) in normal and genetically diabetic mice. Diabetes 26820826, 1977Vincent JB. Elucidating a biological role for chromium at a molecular level. Acc Chem Res. 200033(7)503-510.Chen G, Liu P, Pattar GR, et al. Chromium activates glucose transporter 4 trafficking and enhances insulin-stimulated glucose transport in 3T3-L1 adipocytes via a cholesterol-dependent mechanism. Mol Endocrinol. 200620(4)857-870.Pattar GR, Tackett L, Liu P, Elmendorf JS. Chromium picolinate positively influences the glucose transporter system via affecting cholesterol homeostasis in adipocytes cultured under hyperglycemic diabetic conditions. Mutat Res. 2006610(1-2)93-100Wang H, Kruszewski A, Brautigan DL. Cellular chromi um enhances activation of insulin receptor kinase. Biochemistry. 200544(22)8167-8175.