Friday, December 27, 2019

Gestational Diabetes Consequences For Fetal Programming of Vascular Disease in Adulthood - Free Essay Example

Sample details Pages: 30 Words: 9080 Downloads: 4 Date added: 2017/06/26 Category Health Essay Type Descriptive essay Level High school Did you like this example? Abstract Gestational Diabetes is a condition present in the later stages of pregnancy where the mother has insulin resistance leading to glucose intolerance. The aetiology of Gestational Diabetes Mellitus is largely unknown but several theories include autoimmune destruction of the beta cells, monogenic mutations and insulin resistance. In pregnancy it is normal for there to be some levels of insulin resistance and it is thought that the products of the placenta contribute to the state of insulin resistance as GDM usually subsides after pregnancy. Don’t waste time! Our writers will create an original "Gestational Diabetes: Consequences For Fetal Programming of Vascular Disease in Adulthood" essay for you Create order GDM in pregnancy can lead to an increased risk of cardiovascular disease in the offspring such as hypertension and atherosclerosis. This is due to the increased levels of oxidative stress and inflammatory mediators present during pregnancy. The placenta is very important as it is able to control and buffer the amount of glucose that is delivered to the fetus but if this level is too high then it is out of the placentas control and the fetus may have increased rate of growth due to this extra glucose. The current focus of research in this area seems to be into finding ways to diagnosis GDM earlier in the pregnancy and to try and reduce the amounts of oxidative stress. Gestational diabetes: consequences for fetal programming of vascular disease in adulthood Introduction Gestational Diabetes Mellitus (GDM) occurs when there is a glucose intolerance that is first detected during pregnancy. It is a form of hyperglycaemia (Buchanan and Xiang 2005). The aetiology of the condition is unknown but there have been many suggestions as to the cause of it, including autoimmune destruction of the ß pancreatic cells and the possibility of a genetic predisposition to the condition. Hormones that are produced in pregnancy help contribute to the insulin resistant state which characterises diabetes. In recent years, there has been an increase in the cases of Obesity and this is a risk factor for both Diabetes Mellitus and Cardiovascular Disease. The intrauterine environment can affect fetal programming and development. This essay will look into how the placenta and its products can affect the insulin resistant state and how this resistance effects programming as well as the role of oxidative stress and inflammation in making the offspring more susceptible to car diovascular disease. Gestational Diabetes Mellitus (GDM) GDM is a state of insulin resistance which disturbs the intrauterine environment and can lead to accelerated fetal growth (Radaelli et al 2003).It effects approximately 7% of pregnant women with approximately 200,000 cases seen each year (Schillan-Koliopoulos and Guadagno 2006). The term GDM is applicable when the onset is during the second and third terms of the pregnancy, but it does not exclude the possibility that the insulin resistance was undiagnosed before the pregnancy. If this is the case and is found to occur in the earlier stages of pregnancy then the mother should be treated the same as mothers who are known to have diabetes before pregnancy (Metzger, Coustan 1998). There is a degree of insulin resistance in normal pregnancy which begins towards the middle of the pregnancy but during the later part of the second and the final trimester these can increase to levels of insulin resistance that are associated with type 2 diabetes (Yogev et al 2008 Chapter 10). Insulin re sistance is when the tissues do not produce a response to insulin due to problems with the secretion of insulin or where the tissues are desensitised to insulin and therefore lack the ability to produce a response (Catalano et al 2003). In a normal pregnancy, the mother changes her metabolism to allow a constant supply of nutrients to reach the fetus to support its rapid growth. Among these nutrients is glucose, which is the main energy source used by the fetus. During the later stages of pregnancy the mother becomes hypoglycaemic and although there is increased gluconeogenesis, the hypoglycaemia still occurs because there is a high rate of transport of glucose to the fetus (Herrera 2000 cited in Herrera and Ortega 2008). GDM can have effects that impact the development of the fetus such as hypoglycaemia and macrosomia, which is an increase in body weight and has the possibility of leading to problems when giving birth, such as shoulder dystocia (Schillan-Koliopoulos and Guadagno 2006). During the second trimester of pregnancy there is peripheral insulin resistance but there is also the possibility that hepatic insulin sensitivity is altered in pregnancy, although few studies confirm this. By the end of the pregnancy the levels of insulin that are circulating are thought to be double those at the start (Redman 2001). Insulin Resistance Insulin resistance in GDM can occur in two forms. The first is where it develops in late pregnancy and it has been postulated that there is a post-receptor mechanism that may influence the insulin signalling pathway which leads to a reduced glucose uptake. The second form is where there is already a degree of resistance before the pregnancy but the changes that occur in normal pregnancy aggravate this (Metznger et al 2007). The insulin resistance that develops in pregnancy is much needed to allow the flow of nutrients, from the mother, directly to the fetus to allow for growth (Radaelli 2003). Increased insulin resistance leads to an increase in insulin secretion by the ß pancreatic cells (Buchanan and Xiang 2005). The insulin resistance is thought to be caused by increased adiposity and as the insulin resistance usually stops after pregnancy this suggests that there is a possibility that the products of the placenta are a potential cause of the resistance. During the course of the pregnancy the actual changes in glucose levels are very small. It would be assumed that the glucose levels would rise due to the increased insulin resistance but the pancreatic ß cells increase their secretion of insulin to maintain homeostatic glucose levels (Yogev et al 2008 Chapter 10). GDM occurs because there is an increased demand for insulin which under normal circumstances can be met unless there are problems with the secretion of insulin leading to the development of hyperglycaemia. The majority of mothers who develop GDM have been discovered to have a degree of insulin resistance before they became pregnant. Therefore, with the insulin resistance that occurs in normal pregnancy it can be said that GDM occurs with a greater insulin resistance than normally present in gestation (Yogev et al 2008 Chapter 10). Insulin resistance causes a decreased uptake of glucose into skeletal muscle, adipose tissue and liver as well as a decreased production of hepatic glucose. (Catalano et al 2003). One suggestion for insulin resistance looks into the possible role of the mitochondria. Studies using Magnetic Resonance Spectroscopy (MRS) have shown that in normal offspring of parents with type 2 diabetes, there is an increased amount of intramyocellular lipid. This has been shown to cause a reduced function in mitochondria which suggests that mitochondrial dysfunction may play a part in insulin resistance (Petersen et al 2004 cited in Morino et al 2005). It has been suggested that this increase in intramyocellular lipid activates a serine kinase cascade which causes an increase in the Insulin Substrate Receptor 1 (IRS-1), which inhibits insulin receptor phosphorylation on tyrosine sites. This can cause a decrease in the effects and utilisation of glucose. One study showed that in the insulin resistant offspring the mitochondrial density was reduced by just over a third to that of a normal offspring. This suggests that offspring who are insulin resistan t may inherit a condition that causes a reduction in rate oxidative phosphorylation in mitochondria (Griffin et al 2009 cited in Morino et al 2005). Detection of GDM Diagnosis of GDM helps to identify pregnancies that are at risk of fetal morbidity as well as obesity and glucose intolerance in the offspring (Buchanan and Xiang 2005). GDM is hard to diagnose as it is asymptomatic. Normal diabetes could be diagnosed by glycosuria but in pregnancy the renal threshold to glucose is lowered so that glycosuria doesnt give a true representation of hyperglycaemia (Redman 2001). There are several risk factors of GDM which can be classified into three groups and help in the screening process. Low risk factors include women who are younger than 25, normal weight at conception, no known family members with diabetes and no history of glucose intolerance. High risk factors include obesity of the mother, diabetes in close relatives, a history of glucose intolerance, current glycosuria and previous pregnancies with GDM (Metzger and Coustan 1998 Chapter 25). Causes of Diabetes There are several theories as to why diabetes occurs and this has been thought to be similar to the underlying mechanisms that cause gestational diabetes. Diabetes is a result of pancreatic beta-cell dysfunction which can present in three main ways: autoimmune, a genetic cause and on top of already present insulin resistance (Buchanan and Xiang 2005). Autoimmune diabetes accounts for approximately 5-10% of all diabetic cases (American Diabetes Association 2010). There are circulating antibodies to the ß cells of the Islet of Langerhans. In GDM, there are a small number of women who have with these antibodies present in their circulation. It is thought that these cases present with GDM due to problems with insulin secretion caused by destruction of the Islets by the autoantibodies (Buchanan and Xiang 2005). This form is similar to type 1 diabetes. The Islet Cell Autoantibodies (ICA) have been shown to have four major molecular targets: Insulin, Glutamic acid decarboxylase (GAD 65), Insulinoma-associated antigen-2 (IA-2) and Zinc Transporter 8 (ZnT8) (Tree 2010). Monogenic diabetes has 2 general forms, one where there are mutations in autosomes and the other where there are mutations in the DNA of mitochondria. The first form is commonly referred to as Maturity Onset Diabetes of the Young (MODY). In both cases onset tends to be at a young age and the patient doesnt present with insulin resistance or obesity (Buchanan and Xiang 2005). Mutations that cause MODY have been found in some women with GDM and commonly occur in genes coding for glucokinase, hepatocyte nuclear factor and insulin promoter factor, MODY is associated with beta cell dysfunction (Weng et al 2002). Chronic insulin resistance with beta-cell dysfunction seems to be the most common cause of GDM. As mentioned before there is an increase in insulin resistance in normal pregnancy but if this develops with background insulin resistance then there is an even greater insulin resistance whic h can lead to GDM. An established suggestion is that women who are unable to increase their secretion of insulin to cope with the insulin resistance developed in late pregnancy are more susceptible to developing GDM (Buchanan and Xiang 2005). However there could be various environmental processes that are involved in the underlying pathophysiology of GDM. The products of the placenta may also have a role in increasing or decreasing insulin resistance and these will be discussed later. Placental Function The placenta is an organ that has many roles during the development of the fetus. One of these functions is that it acts as a barrier to separate the maternal and fetal surfaces such that the syncytiotrophoblast surface exposes the placenta to the maternal circulation and the endothelium is exposed to the fetal circulation. This position between the two circulations means that the placenta is influenced by molecules from both circulatory systems, including cytokines, hormones and growth factors. The placenta produces molecules which can separately affect the maternal and fetal circulation and it expresses a large number of cytokines including leptin, resistin and tumour necrosis factor. However it has been discovered that these molecules are also produced by adipocytes. All molecules that are going from the mother to the fetus have to cross the placenta. Here they are either modified, for example lipids or like glucose, they are metabolised for placental purposes (Desoye et al 2008 ). The placenta plays an important role in fetal growth and the regulation of pregnancy (Giachini 2008). The placenta acts to sustain normal homeostatic levels and to carry out the functions of the vital organs. It also provides an immunological defence to the fetus and allows the exchange of molecules vital to its development (Jansson and Taylor 2007). Placental Development Approximately 4-5 days after conception, the process of cleavage causes rapid cell divisions and one of the groups of cells to form are called trophoblast cells. Further developmental processes form the blastocyte which is surrounded by an outer layer of the trophoblast cells. As the pregnancy progresses, the trophoblast cells develop into the placenta while the inner parts of the blastocyte form the embryo and umbilical cord (Huppertz 2008). The blastocyte implants itself onto the epithelium of the uterus where it differentiates into a syncitiotrophoblast which is able to implant itself in the epithelium leading to it being embedded into the decidual part of the uterus (Huppertz 2008). After the attachment of the blastocyte, the trophoblast layer divides very quickly and changes into 2 layers; the inner cytotrophoblastic layer and the outer syncytiotrophoblastic mass (Gude et al 2004).The whole implantation process takes 12 days to complete and after this the fetus is fully emb edded into the endometrial layer (Huppertz 2008). The chorionic plate is the surface of the placenta that faces the fetus and this is where the umbilical cord inserts. The basal plate is the surface that faces the mother which contains many types of cells including immune cells such as macrophages and killer cells to carry out the placentas immunological function. The maternal basal plate and the fetal chorionic plate converge to form the smooth chorion which is composed of three layers (Huppertz 2008). When the trophopblast invades the endothelium there is a remodelling of the uterine spinal arteries which is necessary to ensure that the fetus and the placenta receive an adequate blood and nutrient supply and is able to remove any waste materials. This direct supply of blood and nutrients to the placenta can define it as being haemochorial villous organ (Gude et al 2004). After the rapid divisions of the trophoblast and development into 2 layers there are two pathways that can occur, the villous and extravillious pathways. The extravillious pathway results in the trophoblast being able to invade into the decidua and cause the remodelling of the uterine arteries to increase blood supply to the placento-fetal unit. The villious pathway has a transportation function as well as having endocrine and protective functions (Gude et al 2004). Normal Placentation Placentation involves the structure and function of the placenta. The process of placentation is helped by the composition and arrangement of the extracellular matrix (ECM) of the endometrium. Studies on rats induced with diabetes provided results that showed that diabetes has an effect on the distribution of the ECM molecules. This study by Giachini et al illustrates that Types I and III collagen as well as other molecules, such as proteoglycan molecules decorin and biglycan were distributed throughout normal and diabetic placentas. It was shown that diabetes affects the expression of fibronectin and an increase in deposition of fibronectin may cause changes to the ECM structure which could affect the transfer of molecules from the mother to the fetus. One way in which changes in the ECM can be overcome is to test blood glucose levels frequently during the pregnancy and if kept in normal ranges this can dramatically decrease the prevalence of diseases and disorders present in the fetus (Giachini et al 2008). As the pregnancy progresses the size of the placenta increases which also means an increase in the amount of products that the placenta produces therefore increasing in the insulin resistance (Schillan-Koliopoulos and Guadagno 2006). This is because the net effect of the products of the placenta is to increase insulin resistance. The increase in size of the placenta means that it needs an increased blood supply. Failure of the mother to increase its blood supply to the placenta can lead to placental insuffiency which if exacerbated can be attributed to be a cause of intrauterine growth restriction (IUGR). This growth restriction is more related to poor maternal nutrition rather than to a cause of GDM. GDM have been associated with an increased fetal and placental weight (Jansson and Taylor 2007). One of the reasons why GDM and increased insulin resistance affects the fetus is that while glucose can cross the placenta, insulin is unable to. This means that the fetal pancreas has to compensate by producing more insulin to prevent high blood glucose levels. The fetal pancreas is capable of doing this and the liver responds to the higher levels of insulin by increasing its production of glucose (Schillan-Koliopoulos and Guadagno 2006). Offspring who have an increase in birth weight have been shown to be at risk of developing cardiovascular disease and diabetes later in life. The main risk factor for this is poor transfer of nutrients via the placenta (Jansson and Taylor 2007). How dramatic these changes are depends on how good the control of blood glucose levels have been during the development of the placenta, if any treatment has been received and if there were any periods of away from normal glucose levels (Desoye 2006). How does diabetes affect Placentation? Diabetic insults at the beginning of the pregnancy can have long last effects of the placenta. One of the roles of the placenta is that it is able to buffer excess maternal glucose which can help to keep the fetal glucose levels within range However if the insult lasts longer than the placenta is able to compensate for then excessive fetal growth may occur (Desoye Mouzon 2007). In diabetes there is endothelial dysfunction which can lead to vascular disease. The endothelial cells help to control the vascular tone of the smooth muscle lining the vasculature. They do this by producing substances that help to vasodilate the smooth muscle including Nitric Oxide, Prostacyclin and Endothelium-Derived Hyperpolarising Factor (EDHF). There have been several studies to suggest different mechanisms of how diabetes affects the endothelium including impaired release of these vasodilating molecules, faults with signal transduction and increased release of constricting mediators of the endothel ium. The dysfunction of the endothelium in diabetes is thought to be caused by activation of protein kinase C (PKC) as well as increased oxidative stress, non-enzymatic glycation and an increased activation of the polyol pathway (De Vries et al 2000).The main reason why these effects occur is thought to be due the activation of the protein kinase C pathway and the increased oxidative stress. This can cause early damage to the development of vascular vessels (Roberts and Raspollini 2008). These mechanisms will be discussed later. The effect of hormones produced in pregnancy Pregnancy causes changes in the circulating hormones and cytokines which can all have different effects on insulin resistance and this may help explain the mechanism underlying the resistance that is found in pregnancy and in GDM. Cytokines produced in pregnancy, such as TNF-a, Adiponectin and Leptin have been found to cause an increase in the insulin resistance (Gao et al 2008). In early pregnancy, the levels of oestrogen and progesterone rise but no net effect is seen as the two have antagonistic effects. Oestrogen increases the binding of insulin to its receptor whereas progesterone reduces the ability of insulin to bind (Ryan and Enns 1988). Cortisol levels in pregnancy increase so that by the end of the pregnancy the levels are three times that of what they were at the beginning (Gibson and Tulchinski 1980 cited in Yogev et al Chapter 10). Studies have shown that with increased amounts of cortisol there was a decrease in insulin sensitivity causing insulin resistance (Ri zza et al 1982 cited in Yogev et al 2008 chapter 10). During pregnancy the levels of prolactin increase up to ten times the normal amount (Yogev et al 2008 chapter 10). Studies have shown that in a culture of pancreatic beta cells, prolactin can cause an increase in levels of secreted insulin (Sorenson et al 1993 cited in Yogev et al 2008 Chapter 10). However, high levels of prolactin are not seen to be a pathological cause of GDM (Yogev et al 2008 chapter 10). Human placental lactogen (HPL) is a hormone, and its levels rise during the second trimester of pregnancy. This causes a decrease in the phosphorylation of insulin receptor substrate (IRS1) which can lead to significant insulin resistance (Ryan and Enns 2008 cited Yogev et al 2008 ch 10). Leptin is associated with obesity and concentrations of leptin have been shown to be related to the concentration of insulin in the plasma. In pregnancy the leptin levels increase dramatically. During pregnancy the mother uses her fat stores to support fetal growth and it is thought that the leptin levels increase with the mobilisation of these fat stores. Leptin levels relate to the body mass of the individual (Sattar et al 1998). Placental Leptin is the same in structure and charge to the one produced by adipose tissue (Ashworth et al 2000). One study showed that high leptin concentrations in the umbilical cord increased the likelihood of developing fetal macrosomia (Wiznitzer et al 2000). It is also thought that leptin effects insulin sensitivity by effecting glucose metabolism in both skeletal muscle and in hepatocytes. Rats that received an external source of leptin were found to have an increase in gluconeogenesis which accounted for the majority of hepatic glucose production (Rossetti et al 1997). In GDM there is a greater secretion of TNF-alpha in response to glucose. TNF-alpha functions to regulate metabolism of glucose and lipids as well as being involved in insulin resistance. Many studies suggest t hat TNF-alpha is involved in the progression to GDM. They found that an increase in glucose cause the placenta and adipose tissue to increase production of TNF-alpha in some cases up to 4 times more than non-diabetic pregnant(Coughlan et al 2001). One study showed that the increases in the levels of TNF-alpha during pregnancy increased consistently with increases in body weight (Catalano et al cited in Yogev et al 2008). Adiponectin is a protein derived from adipose tissue and its function is to regulate insulin resistance and maintains levels of glucose. During pregnancy it has been found that its levels drop and could therefore lead to the increase insulin resistance found in GDM (Gao, Yang, Zao 2008). Adiponectin has also been found to decrease the secretion of TNF-alpha which as stated above can lead to insulin resistance (Hotamisligil 1999 cited in Yogev et al Chapter 10 2008). Adiponectin may cause increased insulin sensitivity as its concentration decreases throughout the gestational period (Desoye and Mouzon 2007). Resistin is a protein that is produced by adipose tissue and is thought to be involved in insulin resistance in diabetes and is associated with obesity (Steppan and Lazar 2002) In pregnancy, resistin is secreted by the placenta and this secretion reaches its peak by the last trimester (Yura et al cited in Megia et al 2008). Studies show that TNF-alpha is an important factor in insulin resistance during pregnancy and with inputs from leptin and cortisol there is altered glucose metabolism whereas inputs from oestrogen, progesterone and prolactin had little significant effects (Kirwan and Mouzon 2002). There are many hormones produced during pregnancy, mainly by the placenta and adipose tissue that have varying affects but with the overall impact being insulin resistance. Inflammation in Diabetes There are genes in the placenta which regulate reorganisation of the endothelium and inflammatory responses and in GDM these were found to be altered. The increase in leptin receptors suggests that in the placenta this can cause proinflammatory responses (Radaelli 2003). One of the current theories is that the abnormal metabolic environment in GDM can lead to increased production of cytokines and inflammatory mediators. Molecules such as TNF-alpha, Resistin and Leptin increase during pregnancy and these increases in these inflammatory mediators produce metabolic changes by increasing insulin resistance (Desoye and Mouzon 2007). Leptin and TNF-alpha activate phospholipase A2 which are a family of eicosanoid precursors that go on to produce essential fatty acids such as w3 polyunsaturated fatty acids (Desoye Mouzon 2007). There has been a recent investigation which found that with increased adiposity at birth there has been an increase in w3 fatty acids in the placenta (Veraste hpour et al 2005 cited Desoye and Mouzon 2007). As stated before, the placenta produces cytokines but it is also a site of action of the cytokines. It is the location of the receptors for these cytokines will influence if the cytokines act on the mother, the placenta or the fetus. With cytokines there is very little transfer across the placenta from mother to fetus and the origin of the cytokines in the fetus can be from either the placenta or from the fetus itself (Desoye and Mouzon 2007). Fetal Programming Many studies have highlighted the fact that events that occur while the fetus is developing can alter its developmental pathway and have adverse outcomes in later life. Fetal programming describes how the environment can affect certain developmental events of which the effects are permanent and can affect processes such as metabolism and the organisms physiology. Women with GDM have an increased risk of the fetus developing macrosomia (Catalano 2008 Chapter 11). The main factor that effects the growth of the fetus is the maternal environment and there is a strong association with the weight and height of the mother and the growth of the fetus such that mothers who are heavier and taller will produce heavy babies. (Love and Kinch 1965 cited in Catalano 2008 Chapter 11). The placenta and fetal programming The placenta is very important to the developmental processes of the fetus as it is able to change the quantity of signals and nutrients that the fetus receives. Deviation from normal would alter the fetal programming, thus making it more susceptible to disease in later life. Pregnancies that are complicated by GDM have excessive oxidative and nitrate stress which has been found to change the activity of certain proteins. Oxidative and nitrate stress alter the placentas function and may cause changes in the fetal programming. Nutrient transfer depends largely on the normal development of the vasculature to allow blood flow and this can be affected by GDM which can cause a decrease in the flow of substrates and is a mechanism in which fetal programming can be affected (Myatt 2006). Fetal programming involves a large amount of development plasticity and interruptions to this development may cause abnormalities in the development of certain cells which may progress to structural di fferences in organ development (Gluckman and Hanson 2004 cited in Jansson and Powell 2008 ref 16). Effects to the fetus exposed to GDM If a fetus is exposed to a diabetic environment during pregnancy then there can be certain long term effects. These effects can be classified into three groups; Anthropometric, Metabolic or Vascular and Neurological or Psychological. Anthropometric changes are concerned with the rates of growth for both height and weight and in a diabetic environment these can be excessive leading to macrosomia and obesity in later life. Metabolic and vascular changes that occur are abnormal glucose tolerance which can eventually lead to diabetes mellitus. Finally the neurological and psychological changes that can occur are usually minor but development of psychological and intellect can sometimes be deficient (Dabelea and Pettitt 2008). Potential problems that may arise with the fetus from an exposure to maternal diabetes include abnormal organ mass, altered angiogenesis and increased levels of fetal insulin (Fetita 2006). It has also been found that if there is an increase in weight during pr egnancy then there is usually a higher birth weight of the fetus (Humphreys 1954 cited in Catalano 2008 Chapter 11). The developing fetus cannot synthesise glucose and is dependent on the mother to produce it where it is transported to the fetus via facilitated diffusion through the placenta (Aerts et al 1996 cited in Mello, Parretti and Hod 2008). The result of decreased insulin sensitivity is that there is more glucose available to the developing fetus which can lead to a greater birth weight (Mello, Parretti and Hod 2008). Using animal models, it has been shown that exposure to high levels of glucose in utero can lead a diminished number of nephrons in the offspring (Amri et al 1999 cited in Fetita 2006 ref 68). This is important as nephrogenesis only occurs in the fetus and stops after birth (Gomez, Norwood 1999). It has been shown that a reduction in the numbers of nephron may affect the rate of progression of renal disease in adults due to an inability to secrete sodium. This may later develop into salt-sensitive hypertension (Brenner et al 1988). The mechanisms of reduced organ mass, high levels of fetal insulin and defects in angiogenesis may help explain how the fetus programs abnormal glucose tolerance in adulthood as a result of exposure to GDM (Fetita 2006). Transmission of diabetes from mother to offspring Exposure to gestational diabetes mellitus increases the risk of the fetus developing abnormal glucose tolerance which may develop into type 2 diabetes. (Fetita et al 2006). The association between greater incidences of the offspring having diabetes with a mother with GDM is greater than what would be predicted that could be passed on by maternal genetics (McLean et al 2006). One study showed that the phenotype for GDM/T2D was more common in daughters of mothers who were diabetic rather than daughters of fathers who were diabetic suggesting that the transmission is from mothers with GDM to their daughters. However there were limitations of the McLean study. Patients may not be aware of their fathers diabetes status due to men having lower inclinations to report symptoms and share illnesses with the family. One study showed that the mass of the pancreatic beta cells is relatively fixed by the end of fetal growth and this can be influenced by an intrauterine environment of hypergly caema (McLean et al 2006). Congenital defects are more common in babies born to diabetic mothers (Farrel et al 2002 cited in Fetita et al 2006). There are many factors that can influence the prevalence of these malformations including the duration, severity and age of onset of GDM (Kousseff 1999). If the onset of GDM is at the beginning of development then development of some organs may be affected. However as said before, the majority of GDM develops during the second trimester. This can then lead to embryopathy which includes defects such as failure of neural tube closure and malformations in the Renal, Cardiac and Gastrointestinal systems which present in childhood (Fetita 2006). In diabetes the hexosamine pathway is activated and inhibits the pentose shunt pathway which decreases the production of antioxidants and therefore leads to an increase in oxidative stress. This oxidative stress has been found to disrupt gene expression and may contribute to congenital defects. One example is that oxidative stress inhibits a gene called pax-3 which is needed for neural tube closure and in diabetes there is an increased risk of neural tube defects (Horal et al 2004). Oxidative stress Endothelial cells play a role in vascular disease and they function to regulate vascular tone, control the proliferation of smooth muscle and inhibit platelet function. This is achieved by Endothelium derived nitric oxide (eNOS). If there is a reduced production of NO then endothelial dysfunction can occur and this can cause inflammation, thrombosis and cause the intima layer of blood vessels to divide (FÃ ¶rstermann 2008). Oxidative stress is an imbalance between the production of reactive oxygen species (ROS) and the ability to defend against them (Jansson and Powell 2007). There is also increasing evidence that suggests that oxidative stress plays an important part in the changes that take place, both microvascular and macrovascular, in association with diabetes. Some studies have shown that the role of oxidative stress and mitochondrial dysfunction leads to intrauterine growth retardation in type 2 diabetes. In these individuals there is an increase in production of free ra dicals due to low activity of the electron chains in the mitochondria and this can lead to damage of proteins, DNA and mitochondria (Giugliano et al 1996 cited in Shah et al 2007). Oxidative stress causes a reduction in NO and reduces protection against ROS which can lead to pro-inflammatory and atherosclerotic pathways being activated (FÃ ¶rstermann 2008). There are many mechanisms in hyperglycaemia which can lead to the generation of free radicals. Hyperglycaemia causes an increase in the polyol pathway which leads to a decrease in antioxidant defence increasing the oxidative stress. Oxidative stress is also increased in the hyperglycaemia state by the increase in glucose autooxidation and increase in protein glycation which increases oxidative factors (Giugliano et al 1996). ROS that are formed from the hyperglycaemic state have been found to be involved in the progression of vascular complications (Gao and Mann 2009). In the human placenta there are many mitochondria w hich is where the electron transport chain takes place. In normal pregnancy there are more electrons leaking from this chain and able to produce reactive oxygen species. This extra production of ROS can lead to damaged lipids, DNA and proteins. Pregnancy is therefore a condition where there is increased possibility of there being damage from oxidative stress (Chen and Scholl 2005). ROS can activate a number of pathways that can cause damage to cells and can be linked to the complications that occur in the later stages of diabetes. One of consequences of GDM is hyperglycaemia and this is known to cause increased oxidative stress through several mechanisms (Evans et al 2003). Firstly hyperglycaemia causes the non-enzymatic glycation of proteins, called advanced glycation end products (AGEs) and these are thought to be important in the underlying pathogenesis of diabetic complications. AGEs can interfere with signal transduction, they can change the soluble levels cytokines, hormone s and free radicals and they can alter the function of the proteins that are glycated (Brownlee 1995). Secondly high blood glucose activates the protein kinase C (PKC) pathway and is associated with complications with many of the bodies systems including the cardiovascular system. There is also the possibility that free fatty acids (FFA) are involved in activating this pathway (Koya and King 1998). Finally, it has been hypothesised that hyperglycaemia activates the polyol pathway. This pathway consists of two enzyme reactions; the first being catalysed by Aldose Reductase which reduces glucose to sorbitol which is then converted to fructose by sorbitol dehydrogenase. In rats lens it was found that these two enzymes contributed to oxidative stress in a hyperglycaemic state (Chung et al 2003). From the evidence that is available it has been suggested that oxidative stress ahs a role in the pathogenesis of GDM. Other ideas are that lower levels of antioxidant defences contribute to the progression to GDM (Chen and Scholl 2005). Vascular Tone Increased oxidative stress and inflammatory mediators will affect the vascular tone of blood vessels. The blood vessels in the umbilical cord have no autonomic innervations and therefore the vascular tone of these vessels relies solely on local substances produced in the systemic circulation (Radenkovic 2009). One study showed that serotonin induces a constrictive response on the umbilical artery (Haugen and Rognerud 2001) In diabetes, there is endothelial dysfunction which umbilical artery responds differently to substances such as serotonin in GDM (Radenkovic 2009). GDM and effects on offspring The presence of GDM during pregnancy predicts metabolic problems such as Type 2 Diabetes and metabolic syndrome which are both associated with atherogenesis and vascular dysfunction later on in life (Carpenter 2006). Gestational diabetes can have many effects of the developing fetus and the effect and how severe it is depends on when the onset of diabetes occurs. GDM usually arises in the 2nd and 3rd trimesters and the effects include macrosomia, orgnomegaly, Central Nervous System (CNS) development delay, chronic hypoxemia and the possibility of still birth (Merlob and Hod 2008 Chapter 47). Insulin resistance along with central obesity and dyslipidaemia is thought to contribute to oxidative stress, endothelial dysfunction and inflammation which in turn lead to an increased risk of developing vascular disease (Carpenter 2006). GDM has effects that can cause programming changes in utero which can lead to cardiovascular diseases later on in life such as Hypertension, Atheroscle rosis, Obesity, Dyslipidaemia and Type 2 diabetes. Hypertension Diabetic pregnancy is associated with a higher rate of hypertension which is thought to be caused by insulin resistance that is present in GDM. There may also be genetic predisposition to developing high blood pressure (Bar and Hod 2008). The presence of insulin resistance and glucose intolerance in the earlier stages of pregnancy leading to the onset of gestational hypertension suggests that there is already underlying vascular problems in the mother and predicts that they will have hypertension and/or vascular problems later in life (Carpenter 2006). A study involving rats demonstrated that offspring who are exposure to maternal diabetes get a salt-sensitive hypertension which can be related to an impaired renal function in adults (Nehiri et al 2008). Studies of women who developed gestational hypertension were shown to have increased insulin resistance and the hypertension developed during the last term of pregnancy is thought to be associated with this. Insulin resistance ca uses slight inflammation, which causes an increase in inflammatory agents and higher levels of vascular resistance (Carpenter 2006). In a study of 1000 children, it was found that those that were exposed to GDM in utero were found to have increased systolic blood pressure at 3 years old as well as increased adiposity (Wright et al 2009). Atherosclerosis Atherosclerosis is a disease of the arteries where there is an accumulation of lipid deposits in the intima layer which is most common at the bifurcation of vessels (Patterson and Stouffer 2005). The biggest causes of deaths from diabetes are from cardiovascular disease including heart attacks, vascular diseases and stroke. Oxidative stress is seen to have an accelerating role in this process and patients with diabetes are known to have increased oxidative stress levels. These increased levels can lead to oxidation of low-density-lipoproteins (LDL), endothelial dysfunction and the division of smooth muscle in the blood vessels and these mechanisms lead to the generation of atherosclerotic plaques (Jay et al 2006). Oxidised LDL attracts monocytes and can also injure cells by necrotic and apoptotic pathways which can make them more prone to forming plaques. However not all of the effects of oxidised LDL lead to atherogenesis and it may play a part in the inhibition of plaques forming (Chisolm and Steinberg 2000). Studies have shown that endothelial cell dysfunction, inflammation and oxidative stress are related to the atherosclerotic plaques found in atherosclerosis (Leduc et al 2009). Studies of women who developed gestational hypertension were shown to have increased insulin resistance and the hypertension developed during the last term of pregnancy is thought to be associated with this. GDM and body weight Rats induced with diabetes in the last term of the pregnancy were found to produce offspring whose weight varied widely from microsomic to macrosomic. The macrosomic rats were produced by mothers with more severe hyperglycaemia and the microsomic rats whose mothers had less severe hyperglycaemia. It was also discovered that there were genetic differences as it was found that the male offspring developed insulin resistance by 6 months and while the females had changed vascular structure (Segar and Norris 2009). Many studies prove that a foetus who is exposed to an environment of GDM has an increased risk of developing macrosomia. This study has helped increase our knowledge in that the diabetic environment plays an important role in determining birth weight of the offspring. Obesity Many studies have looked into whether GDM can affect the chance that the offspring is more susceptible to the development of obesity in later life. GDM causes hyperglycaemia in the fetus and this can lead to increased amounts of insulin being produced as insulin. These increasing amounts of insulin can lead to insulin resistance and could predispose the individual to develop obesity in later life (Wright et al 2009). However, while GDM may cause macrosomia it is more the post-natal environmental factors that have a bigger input into the development of obesity. Obesity in offspring is important as it is a cardiovascular risk factor. Dyslipidaemia Hyperglycaemia is thought to lead to a change in concentrations of lipoproteins. Dyslipidaemia in Diabetes consists of increased triglycerides, high lipid levels after eating and low levels of high density lipoproteins (HDL). High Levels of Lipids is a risk factor for macrovascular disease (Goldberg 2001). Pima Indians development of T2D Offspring born to mothers who have been diagnosed with diabetes have a greater risk of developing type 2 diabetes and macrosomia. Studies of the Pima Indians have shown that. Figure 2 shows that offspring who are exposed to a diabetic environment have a high BMI than siblings who are not exposed to a diabetic environment proving that the environment is a more important determine factor of BMI than any genetic component (Dabelea et al 2000). A different study established a relationship between the high levels of glucose in the last trimester of pregnancy in non-diabetic mothers and the risk to the offspring of developing type 2 diabetes later in life was the study of the Pima Indians. In this study there was a strong correlation between glucose levels in the last term of the pregnancy and the offspring developing type 2 diabetes later in life. There was also evidence to suggest that higher levels of glucose in pregnancy predisposed the child to a greater risk of obesity during ch ildhood (Franks et al 2006). Treatment of GDM Once the mother has been diagnosed with GDM her blood glucose levels should be closely followed. Treatment of GDM is aimed to keep blood glucose levels as close to the normal limits as possible to prevent any risk of developing macrosomia and other problems associated with the developing fetus. The greatest insulin resistance occurs, as stated before, in the last trimester and screening for GDM takes place around 24- 28 weeks into the gestation. Diagnosis can be made with a glucose tolerance test (Cheung 2009). Dietary control is the most important and effective way to treat GDM. If dietary control does not prove to be effective and blood glucose levels are still high then treatment with insulin may be needed. Oral hypoglycaemic agents may be given if other treatment is ineffective (Cheung 2009). Effects of GDM on the mother Mothers who develop GDM have an increased risk of developing diabetes in later years. One study in Denmark followed a group of women who had gestational diabetes during their pregnancy and then approximately 6 years after giving birth 14.5% had developed type 2 diabetes, 3.7% had Type 1 diabetes and 19.5% were classed as having pre-diabetes (Damm 2009). GDM can be seen as a marker for the mother developing T2D later on in life which is useful as it allows treatment and education on how to minimise the risk of developing it. Women who present with GDM have an increased risk of developing metabolic syndrome and are more likely to develop disturbed endothelial function and increased thickness of carotid arteries (Kaaja, RÃ ¶nnemaa 2009). Conclusion and Future Research Gestational Diabetes is a condition that affects 7% of pregnant women annually. It is defined as a glucose intolerance that presents in the later stages of pregnancy. The causes are not fully known but it involves beta-cell dysfunction with the possibility of autoimmune destruction, MODY or on top of already present insulin resistance. During the pregnancy GDM can have many effects on the placenta and its products. These products usually increase the insulin resistance. GDM can alter fetal programming and make the fetus more susceptible to cardiovascular disease mainly hypertension, atherosclerosis and hyperlipidaemia which are risk factors for many other cardiovascular diseases. Oxidative stress can lead to complications by causing damage to proteins, lipids and DNA. In hyperglycaemia there is increased oxidative stress and this can activate several pathways which can be involved in vascular complications. GDM can increase the amounts of Oxidative Stress and inflammatory mediat ors produced which can lead to a decreased vascular tone. If GDM is treated successfully by diet or drugs then this can dramatically reduce the risk of developing complications. Future research should focus on screening with all pregnant women who fall into the middle and high risk categories being screened to decrease the risk of fetal complications. Blood glucose levels should be tested to keep them within range. Possible research areas include methods to control the production of hormones by the placenta in order to keep the inevitable insulin resistance to the minimum. Possible areas of research include Antioxidants such as Vitamin E which can be used to keep oxidative stress damage to a minimum. References American Diabetes Association (2010) Diagnosis and Classification of Diabetes Mellitus. Diabetes Care, Volume 33, Supplement 1: S62- S69 Ashworth C.J., Hoggard N., Thomas L., Mercer J.G., Wallace J.M., Lea R.G., (2000). Placental Leptin. Reviews of Reproduction 5: 18-24 Bar J., Hod M., (2008). Chapter 41 Hypertensive disorders and diabetic pregnancy. Textbook of diabetes and Pregnancy: 308-317 Brenner B.M., Garcia D.L., Anderson S., (1988). Glomeruli and blood pressure. Less of one, more the other? American Journal of Hypertension 1: 335-347 Brownlee M., (1995) Advanced Protein Glycosylation in Diabetes and Ageing. Annual Review of Medicine 46:223-34 Buchanan T.A., Xiang A.H., (2005) Gestational Diabetes Mellitus. Journal of Clinical Investigation 115: 485-491 Carpenter M.W., (2007) Gestational Diabetes, Pregnancy Hypertension and Late Vascular Disease. Diabetes Care Vol 30 Supplement 2: 246-250 Catalano P.M., (2008) Chapter 11 Fetal growth in Normal and Diabetic Pregnancies. Textbook of diabetes and Pregnancy: 79-85 Catalano P.M., Kirwan J.P., Haugel-de Mouzon S., King J., (2003). Gestational Diabetes and Insulin Resistance: Role in Short- and Long-Term Implications for Mother and Fetus. Journal Nutrition 133:1674S-1683S Chen X., Scholl T.O., (2005) Oxidative Stress: Changes in Pregnancy and with Gestational Diabetes Mellitus. Current Diabetes Reports 5:282-288 Cheung N.W., (2009). The management of Gestational Diabetes. Vascular Health and Risk Management 5:153-164 Chisolm G.M., Steinberg D., (2000). The oxidative modification hypothesis of atherogenesis: an overview. Free Radical Biology and Medicine 28: 1815-1826 Chung S.S.M., Ho E.C.M., Lam K.S.L., Chung S.K., (2003). Contribution of Polyol Pathway to Diabetes-Induced Oxidative Stress. Journal American Society of Nephrology 14: S233-S236, Coughlan M. T., Oliva K., Georgiou H. M., Permezel J. M. H., Rice G. E., (2001). Glucose-induced release of tumour necrosis factor-alpha from human placental and adipose tissues in gestational diabetes mellitus. Diabetic Medicine, 18, 921-927 Dabelea D., Pettitt D.J., (2008). Chapter 48 Long term implications: child and adult. Textbook of diabetes and Pregnancy: 362-371 Damm P., (2009) Future risk of diabetes in mother and child after gestational diabetes mellitus. International Journal of Gynaecology and Obstetrics 104: S25-S26 De Vriese A.S., Verbeuren T.J., Van de Voorde J., Lameire N.H., Vanhoutte P.M., (2000). Endothelial dysfunction in diabetes. British Journal of Pharmacology 130, 963-974 Desoye G., Haugel-De Mouzon S., (2007). The Human Placenta in Gestational Diabetes Mellitus- The insulin and cytokine network. Diabetes Care, Volume 30 Supplement 2: S120- 126 Desoye G., Shafrir E., Hauguel-de Mouzon S., (2008) Chapter 8 The placenta in diabetic pregnancy: Placental transfer of nutrients. Textbook of diabetes and pregnancy: 47-57 Evans J.L., Goldfine I.D., Maddux B.A., Grodsky G.M., (2003) Are Oxidative Stress Activated Signalling Pathways Mediators of Insulin Resistance and ß-Cell Dysfunction? Diabetes Volume 52: 1-8 Fetita L.S., Sobngwi E., Serradas P., Calvo F., Gautier J.F., (2006) Consequences of Fetal Exposure to Maternal Diabetes in Offspring. Journal of Clinical Endocrinology and Metabolism Vol 91, No 10: 3718-3724 FÃ ¶rstermann U., (2008) Oxidative stress in vascular disease: causes, defence mechanisms and potential therapies. National Clinical Practice Cardiovascular Medicine Volume 5, Number 6: 338-349 Franks P.W., Looker H.C., Kobes S., Touger L., Tataranni P.A., Hanson R.L., Knowler W.C., (2006). Gestational Glucose Tolerance and Risk of Type 2 Diabetes in Young Pima Indian Offspring. Diabetes Volume 55: 460-465 Gao L., Mann G.E., (2009) Vascular NAD(P)H oxidase activation in diabetes: a double-edged sword in redox signalling. Cardiovascular Research 82: 9-20 Gao X.L., Yang H.X., Zhao Y., (2008) Variations of Tumour Necrosis Factor-alpha, leptin and Adiponectin in mid-trimester of gestational diabetes mellitus. Chinese Medical Journal 121: 701-705 Giachini F. R.C., Carriel V., Capelo L.P., Tostes R.C., Carvalho M.H., Fortes Z.B., Zorn T.M., San Martin S., (2008). Maternal diabetes affects specific extracellular matrix components during placentation. Journal of Anatomy 212: p31-41. Giugliano D., Ceriello A., Paolisso G., (1996) Oxidative stress and diabetic vascular complications. Diabetes Care 19: 257-267 Godfrey M.K., (2002) The of Role of the Placenta in Fetal Programming- A review. Placenta 23: S21-27 Gomez R.A., Norwood V.F., (1999) Recent Advances in Renal Development. Current Opinion in Paediatrics 11: 135- 140 Gude N.M., Roberts C.T., Kalionis B., King R.G., (2004) Growth and function of the normal human placenta. Thrombosis Research 114: 397—407 Haugen G., Rognerud H., (2001) Doppler flow velocity waveforms and vasoactive effects of serotonin in human umbilical arteries. Gynaecologic and Obstetric Investigation 51: 22-27 Herrera E., Ortega H., (2008) Metabolism in normal Pregnancy. Textbook of Diabetes and Pregnancy:25-34 Horal M., Zhang Z., Stanton R., Virkamaki A., Loeken M.R., (2004). Activation of the Hexosamine Pathway Causes Oxidative Stress and Abnormal Embryo Gene Expression: Involvement in Diabetic Teratogenesis. Birth Defects Research (Part A) 70:519-527 Huppertz B., (2008). The anatomy of the normal Placenta. Journal Of clinical Pathology 61: 1296-1302 Jansson T., Powell T.L., (2007) Role of the placenta in fetal programming: underlying mechanisms and potential interventional approaches. Clinical Science 113: 1-13 Jay D., Hitomi H., Griendling K.K., (2006) Oxidative stress and diabetic cardiovascular complications. Free Radical Biology and Medicine 40: 183-192 Kaaja R., RÃ ¶nnemaa T., (2009) Gestational Diabetes: Pathogenesis and Consequences to Mother and Offspring. The Review of Diabetic Studies 5: 194-202 King J.C., (2006) Maternal Obesity, Metabolism and Pregnancy Outcomes. Annual Review of Nutrition 26: 271-291 Kirwan J.P., Hauguel-De Mouzon S., Lepercq J., Challier J.C., Huston-Presley L., Friefman J.E., Kalhan S.C., Catalano P.M., and (2002) TNF-alpha is a Predictor of Insulin Resistance in Human Pregnancy. Diabetes Vol 52: 2207-2213 Kouseff B.G., (1999) Diabetic Embryopathy. Current Opinion in Paediatrics 11: 348-352 Koya D., King G.L., (1998) Protein Kinase C Activation and the Development of Diabetic Complications. Diabetes Volume 47: 859-866 Leduc L., Levy E., Bouity-Voubou M., Delvin E., (2010). Fetal Programming of Atherosclerosis: Possible role of the mitochondria. European journal of Obstetrics and Gynaecology and Reproductive Biology 149: 127-130 McLean M., Chipps D., Wah Cheung N., (2006). Mother to child transmission of diabetes mellitus: does gestational diabetes program Type 2 Diabetes in the next generation? Diabetic Medicine 23: 1213-1215 Megia A., Vendrell J., Gutierrez C., Sabate M., Broch M., Fernandez-Real J.M., Simon I., (2008) Insulin sensitivity and resistin levels in gestational diabetes mellitus and after parturition. European Journal of Endocrinology (2008) 173-178 Megia A., Vendrell J., Gutierrez C., Sabate M., Fernandez-Real J.M., Simon L., (2008). Insulin sensitivity and resistin levels in gestational diabetes mellitus and after parturition. European Journal of Endocrinology 158: 173-178 Mello G., Parretti E., Hod M., (2008). Chapter 28 Prevention of Fetal Macrosomia. Textbook of diabetes and Pregnancy: 291-296 Merlob P., Hod M., (2008) Chapter 47 Short term implications: the neonate. Textbook of diabetes and Pregnancy: 352- 261 Metzger B.E., Buchanan T.A., Coustan D.R., De Leiva A., Dunger D.B., Hadden D.R., Hod M., Kitzmiller J.L., Kjos S.L., Oats J.N., Pettitt D.J., Sacks D.A., Zoupas C,.(2007). Summary and recommendations of the Fifth International Workshop-Conference on Gestational Diabetes Mellitus. Diabetes Care Jul;30:S251-60 Metzger B.E., Coustan D.R., (1998). Summary and Recommendations of the Fourth International Workshop-Conference on Gestational Diabetes Mellitus. Diabetes Care Aug;21 Supplement 2:B161-7 Morino K., Petersen K.F., Dufour S., Befroy D., Frattini J., Shatzkes N., Neschen S., White M.F., Bilz S., Sono S., Pypaert M., Shulman G.I., (2005) Reduced mitochondrial density and increased IRS-1 serine phosphorylation in muscle of insulin-resistant offspring of type 2 diabetic parents. The Journal Of Clinical Investigation Volume 115, No.12: 3587-3593 Myatt L., (2006) Placental adaptive responses and fetal programming Journal Physiology 572: 25-30 Myatt L., Kossenjans W., Sahay R., Eis A., Brockman D., (2000) Oxidative Stress Causes Vascular Dysfunction in the Placenta. The Journal of Maternal-Fetal Medicine 9:79-82 Nehiri T., Duong Van Huyen J.P., Viltard M., Fassot C., Heudes D., Freund N., Deschenes G., Houillier P., Bruneval P., Lelievre-Prgorier M., (2008) Exposure to Maternal Diabetes Induces Salt-Sensitive Hypertension and Impairs Renal Function in Adult Rat Offspring. Diabetes Volume 57: 2167- 2175 Patterson C., Stouffer G.A., (2005). Atherosclerosis. Encyclopaedia of Life Sciences. https://mrw.interscience.wiley.com/emrw/9780470015902/els/article/a0005998/current/abstract?hd=All,Atherosclerosis Radaelli T., Varastehpour A., Catalano P., Hauguel-de Mouzon S., (2003) Gestational Diabetes Induces Placental Genes for Chronic Stress and Inflammatory Pathways. Radenkovic M., Radunovic N., Momcilov P., Grbovic L., (2009) Altered Response of Human Umilical artery to 5-HT in Gestational Diabetic Pregnancy. Pharmacological reports 61: 520-528 Redman C., (2001) Pregnancy: Maternal Disorders ELS Roberts D.J., Raspollini M.R., (2008) Chapter 7 Histopathology of the Placenta. Textbook of diabetes and pregnancy:41-46 Rossetti L., Massillon D., Barzilai N., Vuguin P., Chen W., Hawkins M., Wu J., Wang J., (1997) Short Term Effects of Leptin on Hepatic Gluconeogenesis and in Vivo Insulin Action. The Journal of Biological Chemistry volume 272: 27758-27763 Ryan E.A., Enns L., (1988) Role of gestational hormones in the induction of insulin resistance. Journal Clinical Endocrinology and Metabolism 67(2):341-7 Sattar N., Greer I.A., Pirwain I., Gibson J., Wallace A.M., (1998). Leptin levels in pregnancy: marker for fat accumulation and mobilization? Acta Obstetricia et Gynecologica Scandinavica 77: 278-283 Schillan-Koliopoulos M., Guadagno S., Walker E.A., (YEAR) Gestational Diabetes Management: Guidelines to a Healthy Pregnancy. The Nurse Practitioner Vol 31 No 6: 14-23 Segar E.M., Norris A.W., Yao J.R., Hu S., Koppenhafer S.L., Roghair R.D., Segar J.L., Scholz T.D, (2009) Programme of growth, Insulin resistance and vascular dysfunction in offspring of late gestation diabetic rats. Clinical Science 117: 129-138 Shah S., Iqbal M., Karam J., Salifu M., McFarlane S.I., (2007) Oxidative stress, Glucose Metabolism and the prevention of Type 2 Diabetes: Pathophysiological Insights. Antioxidants and Redox Signalling Vol 9, No. 7: 911-929 Steppan C.M., Lazar M.A., (2002). Resistin and obesity-associated insulin resistance. Trends in Endocrinology and Metabolism Volume 13 Issue 1: 18-23 Thornburg K.L., Otierney P.F., and Louey S., (2010) Review: The Placenta is a Programming Agent for Cardiovascular Disease. Placenta 31, Supplement A, Trophoblast Research Vol 24: S54-59 Tree T., (2010) The pathogenesis of type 1 diabetes Lecture Weng J., Ekelund M., Lehto M., Li H., Erkbery G., Frid A., Aberg A., Groop L., Berntorp K (2002). Screening for MODY Mutations, GAD Antibodies, and Type 1 Diabetes-Associated HLA Genotypes in Women With Gestational Diabetes Mellitus. Diabetes Care 25:68-71 Wiznitzer A., Furman B., Zuili I., Shany S., Reece E.A., Mazor M., (2000). Cord leptin level and fetal macrosomia. Obstetrics and Gynaecology 96: 707-713 Wright C.S., Rifas-Shiman S.L., Rich-Edwards J.W., Taveras E.M., Gillman M.W., Oken E., (2009) Intrauterine Exposure to Gestational Diabetes, Child Adiposity, and Blood Pressure. Am Journal Hypertensive. 2009 February ; 22(2): 215-220 Yogev Y., Ben-Haroush A., Hod M., (2008) Pathogenesis of gestational diabetes mellitus. Textbook of Diabetes and Pregnancy: 71-79 Goldberg I.J., Diabetic Dyslipidaemia: Causes and Consequences. Journal of Clinical Endocrinology and Metabolism. Volume 86: 965-971 Dabelea D., Hanson R.L., Lindsay R.S., Pettitt D.J., Imperatore G., Gabir M.M., Roumain J., Bennett P.H., Knowler W.C., (2000). Intrauterine Exposure to Diabetes Conveys Risks for Type 2 Diabetes and Obesity A Study of Discordant Sibships. Diabetes Volume 49: 2208-2211

Thursday, December 19, 2019

War on Drugs is a Dismal Failure Essay - 2868 Words

With a bipartisan vote of 263-146, the House recently approved a bill that included $1.7 billion to combat the drug cartels of Columbia with additional military aid. In doing so, they perpetuated what could be one of the United States most misguided policies of recent history. At least some Republicans can give themselves a pat on the back for attempting to remove the Columbian aid from the $13 billion foreign aid bill. Unfortunately, todays drug war is largely a Reagan-era Republican creation, so intoxicating that even the vast majority of liberals mindlessly defend it. Regardless, both parties now overwhelmingly champion the war on drugs, leaving its opponents a mix of unlikely allies, from Nobel Laureate and economist†¦show more content†¦Establishing the real facts about drug use is the first step in understanding the flaws inherent in the policy of prohibition. First, cocaine is not an addictive drug, and according to a 1993 National Institute on Drug Abuse report, less than one percent of cocaine users become daily users. Cocaines non-addictive status comes from the fact that users who stop using it have no withdrawal symptoms, which is one of the three criteria to define something as addictive. Like marijuana, cocaine only induces depe ndence, or a desire for use, much like chocolate. Despite its decline throughout the 80s, drug use has been rising since 1992. While, 13 million people use some illicit drug each year (5 percent of the U.S. population), over 37 percent of Americans have used drugs at one time or another, despite their illegal status. Use among twelfth graders increased between 27 percent and 40 percent between 1992 and 1997.2 15,000 people died of drug abuse in 1998, compared to roughly 400,000 from smoking and 100,000 from alcohol.3 Whats more, a significant number of drug overdoses are the result of poor quality drugs - often poisoned in the process of dealers maximizing profit by diluting and substituting ingredients. There has never been one recorded death from the use of marijuana. Best estimates place the drug trade as a $57 billion industry, roughly the equivalent of seven Microsofts. Prohibition hasShow MoreRelatedAmericas War On Drugs1528 Words   |  7 PagesAmerica’s war on drugs has failed. After millions of dollars and untold man hours spent enforcing the prohibition of illegal drugs, there is little, if any, success to show for it. Illicit drugs are still available on most American street corners, drug usage rates have not decreased, and the scourge of drug related violence continues to spread like wildfire. Sadly, the war on drugs has also resulted in the incarceration of millions of Americans for petty possession offenses and has created a blackRead MoreThe United State War On Drugs1005 Words   |  5 Pagesbeen wasting millions of dollars each year on a worthless war that cannot be won. This war is explained in detail by author Art Caden in their essay â€Å"Let’s Be Blunt† about the United State war on drugs. The war on dru gs began in 1971 under the order of President Richard Nixon, and it was one of the worst decisions he ever made. It has been nothing but a waste of government funding, time, and manpower that can only be described as a dismal failure and should be repealed or at the very least medical marijuanaRead More Legalization of Drugs Fails to Resolve Social Problems Essay1125 Words   |  5 Pageswhether the war on drugs has been a success or a failure. Border police and the FBI continue to nab ever-increasing caches of illegal drugs, while our tough on crime policies haul thousands to jail on drug trafficking and possession charges. Yet, people young and old continue to purchase and consume large amounts of drugs for a variety of reasons, ranging from medicinal to escapism. nbsp; Even the most ardent drug enforcers have to admit that the current offensive against drugs has beenRead More The Drug Abuse Resistance Education Program Essay958 Words   |  4 PagesThe Drug Abuse Resistance Education program known as D.A.R.E has become a very widespread and popular program throughout the United States. The program appeals to all ethnic, racial, and socioeconomic lines, which is a large part of the reason why the DARE program has grown exponentially. The program’s basic premise was meant to introduce kids to the danger of drugs, before the drugs got to them. The implementation of the DARE program appeared to be what America needed to begin to put a dent inRead MoreCosi Quotes857 Words   |  4 Pagesnot war, man, rock opera.† P15 â€Å"Don’t blame me, blame my mother.† P23 â€Å"Do I make you nervous? I have a problem with my social mores.† â€Å"This theatre would have burnt like a real beauty. [A beat] My motto is to try and try again.†p85 HENRY â€Å"Bit shy old Henry. Part of this project is to bring out people like Henry.† (Justin to Lewis p4) â€Å"Look, Henry, you’re a failure, as a human being and as a lawyer. Cosi offers you a chance to do something successful at least once in your dismal lifeRead More Chicago’s Cabrini-Green Housing Project Essay1554 Words   |  7 Pagesto a predominantly black, extremely poor ghetto. As it was left to rot, so to speak, Cabrini-Green harbored drug dealers, gangs and prostitution. It continued its downward spiral of despair until the mid 1990’s when the Federal Government assumed control the Chicago Housing Authority, the organization responsible for this abomination. Cabrini-Green has slowly been recovering from its dismal state of affairs recently, with developers building mixed-income and subsidized housing. The Chicago HousingRead MoreThe War Of The World War I1456 Words   |  6 Pagesstates; Unfortunately, what statesmen had not imagined was that the world had to witness to the slaughter of the First World War to achieve such dream. However, precisely because of the the devastation and chaos caused by the war, the establishment of a general association of states was crucial, and needed to be constructed as quickly as possible. In addition, as World War I pointed out a fundamental flaw in The Balance of Power System, therefore, its malfunctions could no longer be considered tolerableRead MoreDrug Legalization will Solve Many Problems Essay1557 Words   |  7 PagesDrug Legalization will Solve Many Problems The United States is by far the richest and most powerful country in the world. We citizens take for granted luxuries that people of other countries can only dream. Yet in our society there are serious social issues that for reasons unknown are not being addressed. One of the most important issues that typical politicians are afraid to address is that of what to do with the nation’s illegal drug problems. Although we hear terms like The War on DrugsRead MoreEssay about Literary Techniques in The Things They Carried1276 Words   |  6 Pagesthat he is a good paramedic devoted to doing his job well, but the MM’s represent something different- Kiley’s optimistic and kind outlook on the war and life in general. Conversely, the tranquilizers carried by Ted Lavender represent his terror of the fighting in the war and his inability to face reality, rather choosing to escape from it by taking drugs. This is an effective technique because, by using these symbols, Oâ €™Brien can let the reader figure out for him/herself deeper aspects of certainRead MoreThe Crisis Of Mexico And The United States1484 Words   |  6 Pagesin all levels of education, and reactivating economic growth by implementing a set of structural reforms. Acting aggressively will allow our youth to aspire for better-paid jobs and find alternatives to criminality. In the last decade we have seen dismal economic growth of less than 2 percent per year on average. This is the worst record for Mexico in 70 years, particularly shocking when compared to double-digit growth in other developing countries. We need to quickly move onto a path of sustained

Wednesday, December 11, 2019

Management Company Law

Questions: 1. Register a proprietary limited co.you should refer to section 117 of the corp. Act, complete an application form and and prepare all relevant consents nb section 117(2).you must also create a share register nb sections 167, 168 and 169.Prepare a constitution - refer to sections 134 and 135.your company's internal management is to be governed by a combination of replaceable rules and a constitution.The constitution must only make provision for a class of redeemable preference shares- nb sections 254a(2) and (3) of the corp act. 2. Research then explain the reason and justification for the following sections of the corp act :- section 124; section 129(1) and section 588m(3). Answers: (1). For registering a company, the person in concern must apply with the ASIC as mentioned sec-117 of the corporation act. After the plan of registration gets over, the next step comes is the concern about the type of company, described under section 112 of the act(asic.gov.au 2016). Type of company: Proprietary Limited Company (under section 112 of the corporation act) Limited by shares company liability as discussed under Sec 601CW under the act: The section mentioned here applies to the registered body subject to the subclause (2). When the registrablebody is also the Australian registrablebody, then this section do not apply to the place where the business is carried on but applied to the place where the business took its origin. Clause 9- other than the Australian ADI body the new company must affix the name in the form of painted or in any other form where the name of the corporation is clearly visible. The name of the company must be displayed in front of all the offices and the place of the registered office. a. the name and the place of origin are compulsory as the display. if it holds the limited liability to the members them the company must put the sin of limited or LTD after the registered name of the business. The section mentioned in this context was necessary to understand the actual liability of the proprietary limited company (Human et al. 2015). Along with the obligations of the limited shareholder, the proprietary company must also use the word proprietary or Pty. in the proposed name with the attachment. Next step for the set up of the business consists of the application procedure to start a new company with accordance to section 117 (2) of the Act. The company should indicate the liability of the every member within its name: Like in this setup the company is a limited liability, so they must use Limited or Ltd. Name of the company (not registered under the business name)- (Name must be such that it can be approved from ASIC, as it does not register the name if there are some offensive or some illegal offense suggestive noticed) An alternative procedure to name the company can be using Australian Company Number (ACN) (fsi.gov.au 2016) After choosing the company name, the consent of the members are important for the note: Under the corporation act, before the application for the registration of the company, there must be a valid consent from the following members: The director(s) of the company expected as a person with the age of more than 18 years. Secretary of the company expected to be a person of more than 18 years of age. Member(s) of the company. In every setup of the corporation, the initial requirement comprises at least one member while the registration application made. In the propitiatory form of company, it is not mandatory to have a secretary, but there must be at least one director present who must be the citizen of Australia. After the consent of the members of the corporation then the registration procedures are followed. The application for the registration of the company has the following: Applicants details- Name: Company: Position: Address: Telephone: Facsimile: Details of proposed company- Company name ( concerning the preference): Name suffix: Incorporating state: Registered Office Address: Business address: Superannuation trustee acting only: Seal: Company presentation: Bank kit Verification of the name whether already registered or not: Actual role of the applicant whether to act as registered agent or ASIC requirement compliance; Shareholder: Type: Name: C.N.: Address: Personal details: Position in the company: Number of Shares: Whether shares beneficially owned or trustee: Advice whether to issue further shares: The above mentioned patterns are followed for all the business shareholders. Any additional notes: Payment: Fee: $738 GST Pattern of payment: Accepting the terms and conditions as mentioned in the clauses. After the registration procedure gets over, then the company needs to set up a constitution which will include the procedures for the governing of the internal management of the corporation as mentioned under the sec 134 of the Act (legislation.gov.au 2016). The constitution also includes the governing of the replaceable rules as mentioned under Sec 135 of the Act. Though the Proprietary company does not need to keep the constitution while registering the corporation, yet it is mandatory to keep a constitution with the company record. The necessity of the clause contains, a company preference to issue shares with special resolutions approval that includes the repayment of capital, surplus assets and profit participation, voting and cumulative dividends. Constitution based on the redeemable preference share at the time of such event or the company or shareholders option (Anderson et al. 2015). (2). Sec 124: defines about the legal capacity of the company along with some powers vested over the corporating body. The section plays a very imperative role because the company must have some power to issue the debentures or the shares or even cancel the shares. There are many aspects, where the company needs to grant option regarding security interest. The legal authority of the company gives jurisdiction to perform many duties as necessary for the benefit of the corporation since the corporation is expected to work in good faith (abr.gov.au 2016). Sec 129(1): the company constitution along with the replaceable rules are compiled with because it is necessary for a company to keeps a constitution so that there can be a specified rules for all the members. The replaceable rules compiled while the actual rules made enables the company to make amendments necessarily (austlii.edu.au 2016). Sec 588(M) (3): this clause is an essential clause under the Act. The creditor is also known as the investor of the company holds the liability to get the recovery of compensation due to loss, from the director. The creditor owned the debt according to subdivision B. Hence it is the right of the creditor to get the compensation, which proves the necessity of the section. (austlii.edu.au 2016). References: Abr.gov.au. 2016. For Business, Super funds Charities | Australian Business Register. Asic.gov.au. 2016. Lodging paper forms | ASIC - Australian Securities and Investments Commission. Austlii.edu.au. 2016. CORPORATIONS ACT 2001 - SECT 129Assumptions that can be made under section 128. Austlii.edu.au. 2016. CORPORATIONS ACT 2001 - SECT 588MRecovery of compensation for loss resulting from insolvent trading. Australia.gov.au. 2016. ABN, ACN, business management | australia.gov.au. Human, S.E., Clark, T., Baucus, M.S. and Eustis, A.C.S., 2015. Idea or Prime Opportunity? A Framework for Evaluating Business Ideas for New and Small Ventures.Journal of Small Business Strategy,15(1), pp.59-80. Legislation.gov.au. 2016. Corporations Act 2001.

Tuesday, December 3, 2019

COBIT vs. ITIL A Comparison of Two IS/IT Governance Frameworks

Introduction Information is a major aspect of all organizations and business firms (Brooks, 2006). This information is in terms of strategic plans, organisation’s financial outlines, consumer database, investors’ information and returns on investments. Others include suppliers’ information, intelligence information collected from competitors and employees’ information.Advertising We will write a custom report sample on COBIT vs. ITIL: A Comparison of Two IS/IT Governance Frameworks specifically for you for only $16.05 $11/page Learn More This information forms the core of any firm and its security greatly determines the survival of the organisation in the market. As a result of this, technological revolutions especially in information technology (IT) are vital to many organizations. Many organisations struggle to fit into the dynamic and changing market within which they operate. Breach of security as far as information is con cerned may greatly affect this adaptability. As a result of this, several information security and technological frameworks have been formulated to address the issue. These are frameworks such as ISO 38500 that allow managers to directly access and control this information. In this paper, the author is going to discuss two main information frameworks namely the Control Objective of Information and related Technologies (herein referred to as COBIT) and IT Information Library (herein referred to as ITIL). The two are IS/IT governance frameworks. In addition, the author will shed light on some technical aspects of the frame works and an analysis of companies that use these frameworks. Control Objective Information and related Technology (COBIT) Overview Control Objective Information and related Technology is an international framework for information technology (IT) governance that helps managers to address daily business challenges in terms of technical issues, regulatory compliance a nd business ideas. They are able to strategically address these challenges and in the process able to achieve the organizational goals (ISACA, n.d). The main objective of the framework is to control information and enhance security of sensitive data as well as IT governance. The first edition of COBIT was launched in the market in 1996 and the latest version dubbed COBIT 5 will be made available in 2012. This version is set to incorporate the features of earlier versions of COBIT and other products of ISACA. COBIT version 4.1 has 34 high level objectives that are streamlined from 215 control objectives of the management. The four major domains that COBIT deals with are planning and organizing, acquisition and implementation, delivering and support as well as monitoring and evaluation (ISACA, n.d).Advertising Looking for report on it? Let's see if we can help you! Get your first paper with 15% OFF Learn More These domains improve IS/IT governance in a business firm by e nhancing the security of information and analyzing the risks that the organization’s information is exposed to. COBIT provides a common language through which managers and IT professionals can communicate. This is given the fact that it has an aspect of ‘sharing knowledge’. The toolset operated by the framework supports IT by defining and aligning the goals of a business organization with those of information technology. Structural Aspects of COBIT According to ISACA (n.d), COBIT has 34 high level processes. Each of these processes has numerical maturity level ranging from 0 to 5 where 0 is non-existent and 5 is optimal maturity. The scale is normally used as a key to evaluate the level of maturity within an organization. This is together with the level of â€Å"best practices considered† (ISACA, n.d: p. 3) and the level achieved by competitors. In summary, COBIT version 4.1 domains are as follows: Planning and Organizing (PO) Domain This domain ranges f rom PO1 to PO10 and addresses the tactics and strategies to identify how IT can contribute to the achievement of organisational objectives. This domain also acknowledges the need to strategically manage, plan and communicate the vision of the business entity from different perspectives. This is together with the relevant parties responsible for its realisation. Key to this domain is proper organization of technological infrastructure. Acquiring and Implementing (AI) This domain runs from AI1 to AI17. It provides that in order to achieve the objectives of IT, possible solutions to its shortcomings should be identified or acquired. The solutions should also be implemented and integrated into the daily business processes. Moreover, change and maintenance of COBIT systems is important as it affects the functioning of the system and its ability to achieve the organisational goals. Monitoring and Evaluation (ME) Abbreviated as ME, the third domain is the shortest domain running from M E1 to ME4. It exclusively addresses improvements of any IT process by stating that it needs to be assessed on a regular basis. This is to ensure that it complies with the control requirements. ME addresses performance management, compliance to external regulations, monitoring and evaluation of internal control systems and governance. Delivering and Supporting (DC) This domain tackles the concerns of actual delivery of required services. This includes security management and continuity, operational facilities, support service for users and data management. The domain runs from DS1 to DS13Advertising We will write a custom report sample on COBIT vs. ITIL: A Comparison of Two IS/IT Governance Frameworks specifically for you for only $16.05 $11/page Learn More Other subsidiary domains include: Process Controls (PC) This is a generic control requirement found on each COBIT process. It is identified as PCn (Process Control number). This domain works in co njunction with process control objectives. It is runs from PC1 to PC6. Application Controls (AC) COBIT assumes that the role of IT is to design and implement automated applications informed by the needs and requirements of the business. This subsidiary domain covers general IT controls with the help of Acquire and Implement domain. Together they create applications control. Figure 1: A Model of COBIT Approach Domain, Arrangements and Key Functions Source: ISACA (n.d) IT Infrastructure Library (ITIL) Overview This is a strategically driven framework with a set of concepts that helps in managing, developing and operating information technology applications. ITIL serves as a platform for managers to align IT services with major business goals (ITIL, 2007). Therefore ITIL provides the linkage between operational guidelines and technical implementation of the same. It was developed by the Office of Government Commerce.Advertising Looking for report on it? Let's see if we can help you! Get your first paper with 15% OFF Learn More ITIL emphasises the importance of IT and how it can be customized to address the needs and requirements of a given organisation. This customization can be with respect to financial operations and strategic goals of the organisation. The aim is to ensure that IT is managed and governed effectively. ITIL is a registered trade mark in UK. The framework is provided as a set of eight (8) with topics on IT management (Brooks, 2006). The topics are as listed below: Service Delivery Service Input ICT Infrastructure Management Security Management The Business Perspective. Application Management. Software Asset Management. Planning to Implement Service Management It is a leading IT service management framework which is used by government agencies and other top notch institutions and organisations such as NASA, IBM and Disney. It is an indication of how IT can be used to address business expectations. It operates along five core guidelines. These include identifying consumers’ needs a nd IT requirements as well as designing and implementing the IT policies required. Other guidelines include monitoring and improving the IT services. Users of ITIL enjoy a wide range of benefits which includes: Reduction of costs associated with IT mishaps Improved service delivery to consumers Improved productivity Improved service delivery to third parties Improved use of IT skills and experience Reduction in operational costs due to improved resources and reduced rework. How Does ITIL Work? Lacy Macfarlane (2007) are of the view that ITIL has five main service- lifecycle stages. These are Service Strategy, Service Design, Service Transition, Service Operation and finally Continual Service Improvement. These are requirements that need to be incorporated into what is known as the four P’s (perspective, position, plan and pattern). The first stage (service strategy), is made up of business outcomes that are identified and agreed on by the management. These outcomes are cri tical to the success of the entity. This leads to the next stage (service design) where a solution is provided. A service delivery package (SDP) proceeds to the next stage which contains necessary items and details that will be passed on to the rest of the stages. As such, a holistic approach has to be adopted to ensure that all IT processes are consistent and with the objectives of the organisation. In the third stage (service transition), the SDP is tested, evaluated and validated. If assumptions and requirements have changed, modifications are carried out at this stage. The SDP is turned into a Service Knowledge Management System (SKMS). This is taken through the IT environment and finally into the fourth stage (service operation). The purpose of this stage is to ensure that the services availed to consumers and end users are of high quality. It is also intended to manage applications and infrastructure thus enhancing service delivery. Weaknesses and possible failures at any of t he stages is identified and addressed through continued improvement of the services provided. The figure below vividly illustrates the five main stages that are involved in ITIL operation: Figure 2: Five Main Stages of ITIL Operation Adapted from: ITIL (2007) Walt Disney Company and ITIL Walt Disney Company has five divisions that are managed by different teams. One of its divisions (the Theme Park and Resorts) accounts for 30% of the company’s revenue. The division was at the verge of collapse before adopting efficient IT governance frameworks provided by ITIL. According to APM Group [APM] (2010), there were various challenges facing the division especially in the IT department. One such challenge is the fact that the goals of the IT department were not aligned with the goals of the division and the company as a whole. It is the largest division in the company which is in direct contact with the clients on a daily basis. There were rampant cases of customer dissatisfaction especially when the customer care representatives were required to confirm information from the division’s database. This problem was brought about by slow connections and at times by network blackouts. The effects of these challenges included deterioration of services offered and reduced consumer confidence. The consumers were opting for the services provided by the competitors. Other problems included lack of security for the division’s information. The information could be easily accessed by hackers and such other third parties. There was also the difficulty in upgrading the system to reflect the changing demands of customers and the dynamic technology. These challenges affected employees’ morale resulting to reduced productivity. Before the integration of ITIL services the Theme Park and Resorts Division was incurring losses. When ITIL was brought on board by the IT Service Management division in mid 2000, all this was set to change. To kick off the initiati ve, the division hired Mr. Glen Taylor, a former ITIL Chief Information Officer (CIO). He was tasked with the responsibility of integrating ITIL into the management system. He took three major steps to ensure that employees at Themes Park and Resort are conversant and able to work with the new system. The steps included: Sensitizing the employees on what ITIL entails. The justification behind this was the fact that the employees were used to bottom-up marketing tactics. It is noted that for ITIL to work properly, executive-down marketing tactics are required. This created the need for forums such as ‘lunch and learn’ to be set up so that all employees were brought into terms with the new system. Instigating educational programs. This included the launch of the Foundation Training Programs on ITIL which were relevant to Walt Disney and specifically the division. The third step entailed the selection of ITIL experts with the ability to articulate the vision and mission o f the management. The experts could also understand what ITIL version 3 entails, persuading and influencing people to work together. By the time the division was taken through all the steps, it had fully adopted ITIL. This led to a tremendous growth in the number of customers and in gross profit. The earlier challenges were effectively tackled and as a result, Themes Restaurant and Resort acquired a competitive edge in the market. It was able to realize a huge return on investments due to adoption of relevant IS/IT management and governance framework that was customized and aligned to the goals and objectives of the organisation. Conclusion In conclusion, it is noted that IS/IT governance is vital to any business organisation that is willing to embrace technology. To come up with a relevant framework, the managers should first determine their IT goals and strategically integrate them with the business objectives. The major aim of COBIT is to ensure that risks brought about by IT mi smanagement have been analysed and fully addressed to enhance information security. Therefore it can be said that its main objective is proper governance of IT infrastructure and maintenance of a risk-free system. On the other hand, ITIL ensures quality and accountability of the IT framework. ITIL can be customized and aligned with the goals of both the IT department and the organization as a whole. ITIL is said to be superior to COBIT because of its high level of competence. The latter entails evaluation, testing, validation and improvement of the framework as required by the organization. This attribute explains its widespread use across the world considering that many reputable organizations are using it. References APM Group. (2010). Case study: Disney and ITIL. Web. Brooks, P. (2006). Metrics for IT service management. London: Van Haren Publishing. ISACA (n.d). Cobit 4.1 domains and collaboration. Web. ITIL. (2007). How does ITIL work? Retrieved from https://www.axelos.com/best -practice-solutions/itil. Lacy, S., Macfarlane, I. (2007). ITIL service transition. Chicago: The Stationary Office. This report on COBIT vs. ITIL: A Comparison of Two IS/IT Governance Frameworks was written and submitted by user GwenStacy to help you with your own studies. You are free to use it for research and reference purposes in order to write your own paper; however, you must cite it accordingly. You can donate your paper here.