10 Highest Paying Jobs for College Graduates

10 Highest Paying Jobs for College Graduates A a college degree is not a guarantee for the big bucks the way it used to be. and law school and medical school are always a good idea for making good money over the course of a career, but they can be prohibitively expensive- and take far too long. Here are 10  of the highest paying jobs  for college graduates  that don’t require any additional schooling.1. Investment banker – $100kIt’s not the most altruistic career, but starting salaries are often over $100k on average, and if you’ve got a degree in economics, business, or math, this could be a great way to set yourself up nicely right out of the gate.2. Software developer – $80kIf you’ve got a degree in computer science, math, or engineering, and you’d like to make over $80k in your first year, plus you’re interested in getting in a field with a 30% growth rate, this career may be for you.3. Actuary – $79kActuaries work for insurance companies, assessing risk a nd helping to determine rates. You’ll need a strong math background, plus you’ll have to pass a few professional exams, but the money is good- an average of $79k per year.4. Engineer – $72kYou’ll need a BS in engineering, and to pass two different state licensure exams, but if you’re the problem-solving type and you’d like to make an average of $72k your first year, you might want to go to work- literally- fixing the world.5. Network systems admin – $70kWith an average first-year salary of just under $70k per year, network systems administrators need a degree in computer science (sometimes even an associate’s degree plus experience!). It’s got good growth potential (23%) and if you love computers and helping people, this could be a great fit.6.  Internet marketer – $70kWith more companies turning to the internet and social media for marketing, this is a good ground-floor career to get in on. Best pursued with a bachelor’s degree in marketing, you’ll likely make just under $70k in your first year.7. Financial analyst – $66kIf you have a degree in business, finance, economics, accounting, or statistics, and you feel you can give sound advice to business about expanding their growth, then you could make an average of $66k in your first year.8. Pharmaceutical rep – $60kYou’ll need a degree in chemistry, pharmaceutical science, or marketing, plus some training, but the pay is almost $60k in the first year, and you’ll be interacting with people for a good chunk of your workweek.9. Web designer – $58kIf you have a degree in computer science, graphic design, and/or some programming knowledge (i.e. HTML, CSS, java, flash, PHP, or MySQL), and you’d perhaps like to set your own schedule and workplace location, then you could be making around $58k in your first year designing and building websites.10. RN – $45kRegistered nurses make over $ 45k in their first year. You’ll need a degree in nursing, plus you’ll have to pass a national licensure exam, but there’s good growth (22%), and you’ll be helping people for a living!

Daniel Websters Seventh of March Speech

Daniel Websters Seventh of March Speech As the United States struggled with the deeply divisive issue of slavery a decade before the Civil War, public attention in early 1850 was directed to Capitol Hill. And  Daniel Webster, widely regarded as the nations greatest orator, delivered one of the most controversial Senate speeches in history. Websters speech was widely anticipated and was a major news event. Crowds flocked to the Capitol and packed the galleries, and his words traveled quickly by telegraph to all regions of the country. Websters words, in what became famous as the Seventh of March Speech, provoked instant and extreme reactions. People who had admired him for years suddenly denounced him as a traitor. And those who had been suspicious of him for years praised him. The speech led to the Compromise of 1850 and helped to hold off open warfare over slavery. But it came at a cost to Websters popularity. Background of Websters Speech In 1850, the United States seemed to be splitting apart. Things seemed to be going well in some regards: the country had concluded the Mexican War, a hero of that war, Zachary Taylor, was in the White House, and newly acquired territories meant the country reached from the Atlantic to the Pacific. The nations nagging problem, of course, was slavery. There was a strong sentiment in the North against allowing slavery to spread to new territories and new states. In the South, that concept was deeply offensive. The dispute played out in the U.S. Senate. Three legends would be the major players:  Henry Clay of Kentucky would represent the West;  John C. Calhoun of South Carolina represented the South;  and Webster of Massachusetts would speak for the North. In early March, John C. Calhoun, too frail to speak for himself, had a colleague read a speech in which he denounced the North. Webster would respond. Websters Words In the days before Websters speech, rumors circulated that he would oppose any sort of compromise with the South. A New England newspaper, the Vermont Watchman and State Journal, published a dispatch credited to the Washington correspondent of a Philadelphia newspaper. After asserting that Webster would never compromise, the news item lavishly praised the speech Webster had not yet delivered: But Mr. Webster will make a powerful Union speech, one which will be a model of eloquence, and the memory of which will be cherished long after the orators bones shall have mingled with the kindred of his native soil. It will rival Washingtons farewell address, and be an admonition to both sections of the country to fulfill, through union, the great mission of the American people. On the afternoon of March 7, 1850, crowds struggled to get into the Capitol to hear what Webster would say.  In a packed Senate chamber, Webster rose to his feet and gave one of the most dramatic speeches of his long political career. I speak today for the preservation of the Union, Webster said near the beginning of his three-hour oration. The Seventh of March Speech  is now considered a classic example of American political oratory. But at the time it deeply offended many in the North. Webster endorsed one of the most hated provisions of the compromise bills in Congress, the Fugitive Slave Act of 1850. And for that, he would face withering criticism. Public Reaction On the day after Websters speech a leading newspaper in the North, the New York Tribune, published a brutal editorial. The speech, it said, was unworthy of its author. The Tribune asserted what many in the North felt. It was simply immoral to compromise with slave states to the extent of requiring citizens to become involved in capturing fugitive slaves: The position that Northern States and their Citizens are morally bound to recapture fugitive Slaves may be good for a lawyer, but is  not good for a Man. The provision is on the face of the Constitution. True, but that does not make it the duty of Mr. Webster nor any other human being, when a panting fugitive presents himself at  his door begging for shelter and the means of escape, to arrest and bind him and hand him over to the pursuers who are hot upon his trail. Near the end of the editorial, the Tribune stated: We cannot be converted into Slave-catchers, nor  can Slave-catchers operate freely among us. An abolitionist newspaper in Ohio, the Anti-Slavery Bugle, blasted Webster. Quoting the noted abolitionist William Lloyd Garrison, it referred to him as the Colossal Coward. Some northerners, especially business people who preferred tranquility between the regions of the nation, did welcome Websters appeal for compromise. The speech was printed in many newspapers and was even sold in pamphlet form. Weeks after the speech, the Vermont Watchman and State Journal, the newspaper which had predicted that Webster would deliver a classic speech, published what amounted to a scorecard of editorial reactions. It began: As to Mr. Websters speech: it has been better praised by his enemies and better condemned by his friends than any speech ever before made by any statesman of his standing. The Watchman and State Journal noted that some northern papers praised the speech, yet many denounced it. And in the South, the reactions were considerably more favorable. In the end, the Compromise of 1850, including the Fugitive Slave Act, became law. And the Union wouldnt split until a decade later when the slave states seceded.

HRM in Organisations Coursework Example | Topics and Well Written Essays - 3750 words

HRM in Organisations - Coursework Example Ulrich’s foundation to HR model was based on his statement, â€Å"HR should be defined not by what it does but by what it delivers – the results that enrich the organization’s value to customers, investors, and employees† (1998; p.29). To underpin this proposition, Ulrich has proposed the four-role model of HRM that clearly defines the roles of human resource professionals in creating value for the organization. The present work is an attempt to understand both models from a critical perspective through respective advantages and disadvantages. These models have been studied based on few examples derived from organizations that have successfully adopted them; demerits have also been explored based on some unsuccessful attempts. Four-role model of HR: Identification of various roles that HR professionals performed has led Ulrich to organize these multiple roles in a more systematic and understandable fashion that resulted in the four-role model. In the four-role model, Ulrich has emphasized the business-partnership roles that HR professionals play in terms of focus on long-term/strategic to short-term/operational functions, and activities ranging from managing processes through HR tools and systems to managing people. Based on these two dimensions, focus and activities, Ulrich has identified four key roles for HR professionals that include, management of strategic human resources, management of firm infrastructure, management of employee contribution, and management of transformation and change (Ulrich, 1997; p.25). Ulrich (1997) has referred to each of these functions with specific metaphors that are identical with respective role or function, namely, strategic partner, administrative expert, employee champion, and change agent. As strategic partners, HR professionals are involved in framing HR strategies in line with organizational goals and objectives; specific operational objectives are also considered while framing the strategies. For instance, Ulrich (1997) cites the example of Marriott Hotel’s initiative while starting their operations in Hong Kong. This strategic initiative included introduction of five-day working schedule for its staff, which was unlike most other competitors in that sector. This initiative was meant to attract the best talent in the industry, as well as a step to retain them. Ulrich stated, â€Å"The five-day workweek became a cornerstone of Marriott’s strategy for achieving high-quality service, enabling the company to advertise, solicit, and secure the talented employees who would provide that service in Hong Kong market† (1997; p.26). It has been proven in many organizations that appropriate HR strategies are very effective in achieving organizational objec tives. Critiques, which include Ulrich also, have argued that the HR roles in this model literally mean HR functions, and not limited to specific roles. However, many organizations that adopted the Ulrich model had misinterpreted the model and its adoption. Adoption of this model had lead to division of HR functions based on roles, which was not the original intention or idea embedded in this model. Moreover, HR functions and structures cannot be fixed, and need to be changed based on

Case study(BMW Films) Essay Example | Topics and Well Written Essays - 1250 words

Case study(BMW Films) - Essay Example BMW is very clear in fulfilling its consumer’s needs and expectations; therefore they installed the features the target audience demanded from their luxury cars. As said by McDowell the vice president for marketing of BMW, company has lots of products to offer and it yet possesses a very small market share; therefore they need to have a strong influential and creative marketing plan to advertise its campaign and maintain its share. Because of its wild unconventional and creative advertising campaigns the company has survived tough times. Through the introduction of new concepts in advertisements, BMW films have managed to maintain its market share successfully in business. Sales increased rapidly which encouraged the company to invest in this department. Market is very narrowly segmented for the luxury cars business. According to BMW’s marketing head BMW is master at understanding the psychographic demands of its consumers. The target audience of BMW is around 46 years old with an income around $150,000, majority males. These are people who eye for perfection and are willing to pay for the best. They enjoy the attitude that the car enriches their personalities with which makes them loyal to its products. They focus in serving their consumers only with specific demands and to approach them. It is important to have a proper consumer segmentation model because different consumers have different needs and expectations. The company have its primary focus on fulfiling the demands of the existing customers and further on creating awareness to expand the range of consumers. Because if the luxury products it offer there is a specific niche market who can only afford it therefore all the strategies are implemented keeping them in mind. (Durker) Peter Drucker believes that there are two basic function of a business; marketing and innovation. BMW have keenly followed the innovation path to make successful marketing plan. There are three parts of being

Philosophy of Science Coursework Example | Topics and Well Written Essays - 250 words - 2

Philosophy of Science - Coursework Example These research methods include philosophical assumptions such as ontology, epistemology, and philosophical assumptions. While ontology is the claim about what knowledge is, epistemology refers to how a researcher recognizes the knowledge (Creswell, 2013). Additionally, how investigators write the facts is referred to as rhetoric while the study procedure is the methodology. Dr. Patton explains epistemology as the investigation of learning taking a deep insight on how we distinguish what we know. The meaning of this is how human differentiate between what they know and what they do not know. On the other hand, ontology refers to the address of the issue that someone is examining, what makes up the world. Philosophy of science refers to the study of theoretical fundamentals of scientific investigation. It is important for a researcher to be familiar with the philosophy of science to study and offer disapprovals for scientific ideas.

Haemoglobin-related Diseases Management Strategies

Haemoglobin-related Diseases Management Strategies Abstract Haemoglobinopathies or inherited disorders of haemoglobin are the most common monogenic disorders in humans. Red cell transfusion is a well accepted therapy for clinical management of the most severe form of haemoglobinopathies namely, sickle cell disease (SCD) and ÃŽ ²-thalassaemia major. Patients affected by SCD need red blood cell transfusions on a regular basis to reduce morbidity and mortality. The transfusions are administered intermittently to control or prevent a serious complication of SCD, and as a perioperative measure. Or, as a chronic procedure, transfusion strategy is applied to prevent the recurrence, or the first occurrence, of stroke which is a major crisis in SCD, and to manage pulmonary hypertension and other sources of morbidity and mortality. Exchange transfusions are used to reduce the sickle cell haemoglobin (HbS) levels during crisis. Several situations also exist wherein the indication for red cell transfusion is controversial, uncertain, or downright injudic ious. Many side effects of transfusion have been identified and methods to overcome them have been developed. Iron overload (remedy: iron chelation), and alloimmunisation (remedy: phenotypical matching of transfused blood) are two notable examples. Association of haemoglobinopathies and neurologic sequelae after transfusion is also known. At the present time, bone marrow transplant is the only curative procedure available for both SCD and ÃŽ ²-thalassaemia major. Potential therapies involving stem cell transplantation and gene techniques are being vigorously researched. A detailed discussion of the current status of clinical management strategies as applied to inherited haemoglobin-related diseases in particular, sickle cell disease and the thalassaemias, is presented in this paper. 1. Introduction Anaemia is a syndrome characterised by a lack of healthy red blood cells or haemoglobin deficiency in the red blood cells, resulting in inadequate oxygen supply to the tissues. The condition can be temporary, long-term or chronic, and of mild to severe intensity. There are many forms and causes of anaemia. Normal blood consists of three types of blood cells: white blood cells (leucocytes), platelets and red blood cells (erythrocytes). The first generation of erythrocyte precursors in the developing foetus are produced in the yolk sac. They are carried to the developing liver by the blood where they form mature red blood cells that are required to meet the metabolic needs of the foetus. Until the 18th week of gestation, erythrocytes are produced only by liver after which the production shifts to the spleen and the bone marrow. The life of a red blood cell is about 127 days or 4 months (Shemin and Rittenberg, 1946; Kohgo et al., 2008). The main causes of anaemia are blood loss, product ion of too few red blood cells by the bone marrow or a rapid destruction of cells.   Ã‚  Ã‚  Ã‚  Ã‚  Haemoglobin, a protein, present in the red blood cells is involved in the transport of oxygen from the lungs to all the other organs and tissues of the body. Iron is an important constituent of the haemoglobin protein structure which is intimately involved in the transport of oxygen. Anaemia is generally defined as a lower than normal haemoglobin concentration. The normal blood haemoglobin concentration is dependent on age and sex, and, according to the World Health Organisation (WHO) Expert Committee Report, anaemia results when the blood concentration of haemoglobin falls below 130 g/L in men or 120 g/L in non-pregnant women (WHO, 1968). However, the reference range of haemoglobin concentration in blood could vary depending on the ethnicity, age, sex, environmental conditions and food habits of the population analysed. According to Beutler and Warren (2006), more reasonable benchmarks for anaemia are 137 g/L for white men aged between 20 and 60 years and 132 g/L for older men. The value for women of all ages would be 122 g/L. Also, the lower limit of normal of haemoglobin concentrations of African Americans are appreciably lower than that of Caucasians (Beutler and Warren, 2006).   Ã‚  Ã‚  Ã‚  Ã‚  Besides the well recognised iron deficiency anaemia, several inherited anaemias are also known. These are mostly haemoglobinopathies. Adult haemoglobin is a tetrameric haeme-protein. Abnormalities of beta-chain or alpha-chain produce the various medically significant haemoglobinopathies. The variations in amino acid composition induced genetically impart marked differences in the oxygen carrying properties of haemoglobin. Mutations in the haemoglobin genes cause disorders that are qualitative abnormalities in the synthesis of haemoglobin (e.g., sickle cell disease) and some that are quantitative abnormalities that pertain to the rate of haemoglobin synthesis (e.g., the thalassemias) (Weatherall., 1969). In SCD, the missense mutation in the ÃŽ ²-globin gene causes the disorder. The mutation causing sickle cell anemia is a single nucleotide substitution (A to T) in the codon for amino acid 6. The substitution converts a glutamic acid codon (GAG) to a valine codon (G TG). The form of haemoglobin in persons with sickle cell anemia is referred to as HbS. Also, the valine for glutamic acid replacement causes the haemoglobin tetramers to aggregate into arrays upon deoxygenation in the tissues. This aggregation leads to deformation of the red blood cell making it relatively inflexible and restrict its movement in the capillary beds. Repeated cycles of oxygenation and deoxygenation lead to irreversible sickling and clogging of the fine capillaries. Incessant clogging of the capillary beds damages the kidneys, heart and lungs while the constant destruction of the sickled red blood cells triggers chronic anaemia and episodes of hyperbilirubinaemia.   Ã‚  Ã‚  Ã‚  Ã‚  Fanconi anaemia (FA) is an autosomal recessive condition, and the most common type of inherited bone marrow failure syndrome. The clinical features of FA are haematological with aplastic anaemia, myelodysplastic syndrome (MDS), and acute myeloid leukaemia (AML) being increasingly present in homozygotes (Tischkowitz and Hodgson, 2003). Cooleys anaemia is yet another disorder caused by a defect in haemoglobin synthesis.   Ã‚  Ã‚  Ã‚  Ã‚  Autoimmune haemolytic anaemia is a syndrome in which individuals produce antibodies directed against one of their own erythrocyte membrane antigens. The condition results in diminished haemoglobin concentrations on account of shortened red blood cell lifespan (Sokol et al., 1992).   Ã‚  Ã‚  Ã‚  Ã‚  Megaloblastic anaemia is a blood disorder in which anaemia occurs with erythrocytes which are larger in size than normal. The disorder is usually associated with a deficiency of vitamin B12 or folic acid . It can also be caused by alcohol abuse, drugs that impact DNA such as anti-cancer drugs, leukaemia, and certain inherited disorders among others (Dugdale, 2008).   Ã‚  Ã‚  Ã‚  Ã‚  Malaria causes increased deformability of vivax-infected red blood cells (Anstey et al., 2009). Malarial anaemia occurs due to lysis of parasite-infected and non-parasitised erythroblasts as also by the effect of parasite products on erythropoiesis (Ru et al., 2009).   Ã‚  Ã‚  Ã‚  Ã‚  Large amounts of iron are needed for haemoglobin synthesis by erythroblasts in the bone marrow. Transferrin receptor 1 (TfR1) expressed highly in erythroblasts plays an important role in extracellular iron uptake (Kohgo et al., 2008). Inside the erythroblasts, iron transported into the mitochondria gets incorporated into the haeme ring in a multistep pathway. Genetic abnormalities in this pathway cause the phenotype of ringed sideroblastic anemias (Fleming, 2002). The sideroblastic anemias are a heterogeneous group of acquired and inherited bone marrow disorders, characterised by mitochondrial iron overload in developing red blood cells. These conditions are diagnosed by the presence of pathologic iron deposits in erythroblast mitochondria (Bottomley, 2006).   2. Classification of anaemia Anaemia can be generally classified based on the morphology of the red blood cells, the pathogenic spectra or clinical presentation (Chulilla et al., 2009). The morphological classification is based on mean corpuscular volume (MCV) and comprises of microcytic, macrocytic and normocytic anaemia. (a) Microcytic anaemia refers to the presence of RBCs smaller than normal volume, the reduced MCV ( 15 would probably indicate IDA (Chulilla et al., 2009).   Ã‚  Ã‚  Ã‚  Ã‚  In macrocytic anaemia, erythrocytes are larger (MCV > 98 fL) than their normal volume (MCV = 82-98 fL). Vitamin B12 deficiency leads to delayed DNA synthesis in rapidly growing haematopoietic cells, and can result in macrocytic anaemia. Drugs that interfere with nucleic acid metabolism, such as.hydroxyurea increases MCV (> 110 fL) while alcohol induces a moderate macrocytosis (100-110 fL). In the initial stage, most anaemias are normocytic. The causes of normocytic anaemia are nutritional deficiency, renal failure and haemolytic anemia (Tefferi, 2003). The most common normocytic anaemia in adults is ACD (Krantz, 1994). Common childhood normocytic anaemias are, besides iron deficiency anaemia, those due to acute bleeding, sickle cell anaemia, red blood cell membrane disorders and current or recent infections especially in the very young (Bessman et al., 1983). Homozygous sickle cell disease is the most common cause of haemolytic normocytic anemias in children (Weat herall DJ, 1997a).   Ã‚  Ã‚  Ã‚  Ã‚  In practice, the morphological classification is quicker and therefore, more useful as a diagnostic tool. Besides, MCV is also closely linked to mean corpuscular haemoglobin (MCH), which denotes mean haemoglobin per erythrocyte expressed in picograms (Chulilla et al., 2009). Thus, MCV and MCH decrease simultaneously in microcytic, hypochromic anaemia and increase together in macrocytic, hyperchromic anemia.   Ã‚  Ã‚  Ã‚  Ã‚  Pathogenic classification of anaemia is based on the production pattern of RBC: whether anaemia is due to inadequate production or loss of erythrocytes caused by bleeding or haemolysis. This approach is useful in those cases where MCV is normal. Pathogenic classification is also essential for proper recognition of the mechanisms involved in the genesis of anaemia. Based on the pathogenic mechanisms, anaemia is further divided into two types namely, (i) hypo-regenerative in which the bone marrow production of erythrocytes is decreased because of impaired function, decreased number of precursor cells, reduced bone marrow infiltration, or lack of nutrients; and (ii) regenerative: when bone marrow upregulates the production of erythrocytes in response to the low erythrocyte mass (Chulilla et al., 2009). This is typified by increased generation of erythropoietin in response to lowered haemoglobin concentration, and also reflects a loss of erythrocytes, due to bleeding or haemolysis. The reticulocyte count is typically higher.   Ã‚  Ã‚  Ã‚  Ã‚  Sickle cell disease is characterised by sickled red cells.   The first report of SCD was published a century ago noting the presence of peculiar elongated cells in blood by James Herrick, an American physician (1910). Pauling et al. (1949) described it as a molecular disease. The molecular nature of sickle haemoglobin (HbS) in which valine is substituted for glutamic acid at the sixth amino acid position in the beta globin gene reduces the solubility of haemoglobin, causing red cells to sickle (Fig. 1). Sickling of cells occurs at first reversibly, then finally as a state of permanent distortion, when cells containing HbS and inadequate amounts of other haemoglobins including foetal haemoglobin, which retards sickling, become deoxygenated (Bunn, 1997). The abnormal red cells break down, leading to anaemia, and clog blood vessels with aggregates, leading to recurrent episodes of severe pain and multiorgan ischaemic damage (Creary et al., 2007). The high levels of inflammatory cytokines in SCD may promote retention of iron by macrophage/reticuloendothelial cells and/or renal cells. SCD care commonly depends on transfusion that results in iron overload (Walter et al., 2009). 3. Pathogenesis of anaemia Anaemia is a symptom , or a syndrome, and not a disease (Chulilla et al., 2009). Several types of anaemia have been recognised, the pathogenesis of each being unique. Iron deficiency anaemia (IDA) is the most common type of anaemia due to nutritional causes encountered worldwide (Killip et al., 2008). Iron is one of the essential micronutrients required for normal erythropoietic function While the causes of iron deficiency vary significantly depending on chronological age and gender, IDA can reduce work capacity in adults (Haas Brownlie, 2001) and affect motor and mental development in children (Halterman et al., 2001). The metabolism of iron is uniquely controlled by absorption rather than excretion (Siah et al., 2006). Iron absorption typically occurring in the duodenum accounts for only 5 to 10 per cent of the amount ingested in homoeostatis. The value decreases further under conditions of iron overload, and increases up to fivefold under conditions of iron depletion (Killip et al., 2008). Iron is ingested as haem iron (10%) present in meat, and as non-haem ionic form iron (90%) found in plant and dairy products. In the absence of a regulated excretion of iron through the liver or kidneys, the only way iron is lost from the body is through bleeding and sloughing of cells. Thus, men and non-menstruating women lose about 1 mg of iron per day while menstruating women could normally lose up to 1.025 mg of iron per day (Killip et al., 2008). The requirements for erythropoiesis   which are typically 20-30 mg/day   are dependent on the internal turnover of iron (Munoz et al., 2009) For example, the amount of iron required for daily production of 300 billion RBCs (20-30 mg) is provided mostly by recycling iron by macrophages (Andrews, 1999).   Ã‚  Ã‚  Ã‚  Ã‚  Iron deficiency occurs when the metabolic demand for iron exceeds the amount available for absorption through consumption. Deficiency of nutritional intake of iron is important, while abnormal iron absorption due to hereditary or acquired iron-refractory iron deficiency anemia (IRIDA) is another important cause of unexplained iron deficiency. However, IDA is commonly attributed to blood loss e.g., physiological losses in women of reproductive age. It might also represent occult bleeding from the gastrointestinal tract generally indicative of malignancy (Hershko and Skikne, 2009).   Ã‚  Ã‚  Ã‚  Ã‚  Iron absorption and loss play an important role in the pathogenesis and management of IDA. Human iron disorders are necessarily disorders of iron balance or iron distribution. Iron homeostasis involves accurate control of intestinal iron absorption, efficient utilisation of iron for erythropoiesis, proper recycling of iron from senescent erythrocytes, and regulated storage of iron by hepatocytes and macrophages (Andrews, 2008). Iron deficiency is largely acquired, resulting from blood loss (e.g., from intestinal parasitosis), from inadequate dietary iron intake, or both. Infections, for example, with H pylori, can lead to profound iron deficiency anemia without significant bleeding. Genetic defects can cause iron deficiency anaemia. Mutations in the genes encoding DMT1 (SLC11A2) and glutaredoxin 5 (GLRX5) lead to autosomal recessive hypochromic, microcytic anaemia (Mims et al., 2005). Transferrin is a protein that keeps iron nonreactive in the circulation, and del ivers iron to cells possessing specific transferrin receptors such as TFR1 which is found in largest amounts on erythroid precursors. Mutations in the TF gene leading to deficiency of serum transferrin causes disruption in the transfer of iron to erythroid precursors thereby producing an enormous increase in intestinal iron absorption and consequent tissue iron deposition (Beutler et al., 2000). Quigley et al. (2004) found a haem exporter, FLVCR, which appears to be necessary for normal erythroid development. Inactivation of FLVCR gene after birth in mice led to severe macrocytic anaemia, indicating haem export to be important for normal erythropoiesis.   Ã‚  Ã‚  Ã‚  Ã‚  The anaemia of chronic disease (ACD) found in patients with chronic infectious, inflammatory, and neoplastic disorders is the second most frequently encountered anaemia after iron-deficiency anaemia. It is most often a normochromic, normocytic anaemia that is primarily caused by an inadequate production of red cells, with low reticulocyte production (Krantz, 1994). The pathogenesis of ACD is unequivocally linked to increased production of the cytokines including tumour necrosis factor, interleukin-1, and the interferons that mediate the immune or inflammatory response. The various processes leading to the development of ACD such as reduced life span of red cells, diminished erythropoietin effect on anaemia, insufficient erythroid colony formation in response to erythropoietin, and impaired bioavailability of reticuloendothelial iron stores appear to be caused by inflammatory cytokines (Means, 1996;2003). Although iron metabolism is characteristically impaired in A CD, it may not play a key role in the pathogenesis of ACD (Spivak, 2002). Neither is the lack of available iron central to the pathogenesis of the syndrome, according to Spivak (2002), who found reduced iron absorption and decreased erythroblast transferrin-receptor expression to be the result of impaired erythropoietin production and inhibition of its activity by cytokines. However, reduced erythropoietin activity, mostly from reduced production, plays a pivotal role in the pathogenesis of ACD observed in systemic autoimmune diseases (Bertero and Caligaris-Cappio, 1997). Indeed, iron metabolism as well as nitric oxide (NO), which contributes to the regulation of iron cellular metabolism are involved in the pathogenesis of ACD in systemic autoimmune disorders. Inflammatory mediators, particularly the cytokines, are important factors involved in the pathogenesis of the anaemia of chronic disease, as seen in rheumatoid arthritis anaemia (Baer et al., 1990), the cytokines causing impai rment of erythroid progenitor growth and haemoglobin production in developing erythrocytes.     Ã‚  Ã‚  Ã‚  Ã‚  Anaemia is also commonly found in cases of congestive heart failure (CHF), again caused by excessive cytokine production leading to reduced erythropoietin secretion, interference with erythropoietin activity in the bone marrow and reduced iron supply to the bone marrow (Silverberg et al., 2004). However, in the presence of chronic kidney insufficiency, abnormal erythropoietin production in the kidney plays a role in the pathogenesis of anaemia in CHF.   Ã‚  Ã‚  Ã‚  Ã‚  The myelodysplastic syndromes (MDS) are common haematological malignancies affecting mostly the elderly as age-related telomere shortening enhances genomic instability (Rosenfeld and List, 2000). Radiation, smoking and exposure to toxic compounds e.g., pesticides, organic chemicals and heavy metals, are factors promoting the onset of MDS via damage caused to progenitor cells, and, thereby, inducing immune suppression of progenitor cell growth and maturation. TNF- and other pro-apoptotic cytokines could play a central role in the impaired haematopoiesis of MDS (Rosenfeld and List, 2000). Premature intramedullary cell death brought about by excessive apoptosis is another important pathogenetic mechanism in MDS (Aul et al., 1998).     Ã‚  Ã‚  Ã‚  Ã‚  SCD arising from a point mutation in the ÃŽ ²-globin gene and leading to the expression of haemoglobin S (HbS) is the most common monogenetic disorder worldwide. Chronic intravascular haemolysis and anaemia are some important characteristics of SCD. Intravascular haemolysis causes endothelial dysfunction marked by reduced nitric oxide (NO) bioavailability and NO resistance, leading to acute vasoconstriction and, subsequently, pulmonary hypertension (Gladwin and Kato, 2005).    However, a feature that differentiates SCD from other chronic haemolytic syndromes is the persistent and intense inflammatory condition present in SCD. The primary pathogenetic event in SCD is the intracellular polymerisation or gelation of deoxygenated HbS leading to rigidity in erythrocytes (Wun, 2001). The deformation of erythrocytes containing HbS is dependent on the concentration of haemoglobin in the deoxy conformation (Rodgers et al., 1985). It has been demonstrated that sickle mono cytes are activated which, in turn, activate endothelial cells and cause vascular inflammation. The vaso-occlusive processes in SCD involve inflammatory and adhesion molecules such as the cell adhesion molecules (CAM family), which play a role in the firm adhesion of reticulocytes and leukocytes to endothelial cells, and the selectins, which play a role in leukocyte and platelet rolling on the vascular wall (Connes et al., 2008). Thus, inflammation, leucocyte adhesion to vascular endothelium, and subsequent endothelial injury are other crucial factors contributing to the pathogenesis of SCD (Jison et al., 2004). 4. Current therapies for clinical management of sickle cell disease including a critical appraisal of transfusion Between 1973 and 2003, the average life expectancy of a patient with SCD increased dramatically from a mere 14 years to 50 years thanks to the development of comprehensive care models and painstaking research efforts in both basic sciences especially molecular and genetic studies, and clinical aspects of SCD (Claster and Vichinsky, 2003). The clinical manifestations of SCD are highly variable. Both the phenotypic expression and intensity of the syndrome are vastly different among patients and also vary longitudinally within the same patient (Ballas, 1998). New pathophysiological insights available have enabled treatments to be developed for the recognised haematologic and nonhaematologic abnormalities in SCD (Claster and Vichinsky, 2003). The main goals of SCD treatment are symptom alleviation, crises avoidance and effective management of disease complications. The strategy adopted is primarily palliative in nature, and consists of supportive, symptomatic and preventative approaches to therapy. Symptomatic management includes pain mitigation, management of vasoocclusive crisis, improving chronic haemolytic anaemia, treatment of organ failure associated with the disease, and detection and treatment of pulmonary hypertension (Distenfeld and Woermann, 2009). The preventative strategies include use of prophylactic antibiotics (e.g., penicillin) in children, prophylactic blood transfusion for prevention of stroke in patients especially young children who are at a very high risk of stroke, and treatment with hydroxyurea of patients experiencing frequent acute painful episodes (Ballas, 2002). Currently, curative therapy for sickle cell anaemia is only available through bone marrow and stem cell transplantation. Hematopoietic cell transplantation using stem cells from a matched sibling donor has yielded excellent results in paediatric patients (Krishnamurti, 2007). Curative gene therapy is still at the exploratory stage (Ballas, 2002). 4.1 Current and potential therapies The potential treatment strategies basically target cellular dehydration, sickle haemoglobin concentrations, endothelial dysfunction, and abnormal coagulation regulation (Claster and Vichinsky, 2003). HbS concentrations are essentially tackled through transfusions while approaches to reduce HbS polymerisation which is the main mechanism for the development of vaso-occlusion include (a) increasing foetal haemoglobin (HbF) concentration using hydroxyurea (Fig. 2), butyrate, or erythropoietin, and (b) preventing sickle cell dehydration using Clotrimazole (Fig. 3) or Mg2+pidolate. Hydroxyurea therapy increases the production of HbF in patients with sickle cell anaemia, and, thereby, inhibits the polymerisation of HbS and alleviates both the haemolytic and vaso-occlusive manifestations of the disease (Goldberg et al., 1990). Recombinant erythropoietin also increases the number of reticulocytes with HbF. Additionally, it has been observed that administration of intravenous recombinant eryt hropoietin with iron supplementation alternating with hydroxyurea enhances HbF levels more than hydroxyurea alone (Rodgers et al., 1993). As SCD is essentially characterized by an abnormal state of endothelial cell activation   that is, a state of inflammation, a pharmacologic approach to inhibit endothelial cell activation has proved clinically beneficial (Hebbel and Vercellotti, 1997). Thus, administration of sulfasalazine which is a powerful inhibitor of activation of nuclear factor (NF)-B, the transcription factor promoting expression of genes for a number of pro-adhesive and procoagulant molecules on endothelium to humans has been found to provide transcriptional regulation of SCD at the endothelium level (Solovey et al., 2001). 4.2 Red blood cell transfusion A key therapy that is applied regularly in the clinical management of patients with SCD is packed red blood cell transfusion. RBC transfusion improves the oxygen-carrying capacity which is achieved by enhancing the haemoglobin levels, causes dilution of HbS concentration thereby, reducing blood viscosity and boosting oxygen saturation. Furthermore, RBC transfusion is helpful in suppressing endogenous production of sickle RBCs by augmenting tissue oxygenation ( Josephson et al., 2007). There are two major types of RBC transfusion therapy: intermittent and chronic which are further classified as prophylactic or therapeutic. Intermittent transfusions are generally therapeutic in nature and administered to control acute manifestations of SCD whereas chronic transfusions are performed as general preventative measures to check complications of SCD. RBC transfusion given as a single dose is termed as simple transfusion. Exchange transfusion involves administration of a larger volume of RBCs replacing the patients RBCs that are simultaneously removed. Details of the various types of RBC transfusion and the major clinical indications for the same in SCD patients are listed in Table 1. 4.3 Indications for intermittent transfusions Indications for intermittent transfusions include acute manifestations of SCD, as indicated in Table 1, that require redressal through therapeutic transfusions. However, under certain circumstances intermittent transfusions could be prophylactic such as for instance, when SCD patients are transfused before specific surgeries viz., those related to pregnancy complications or renal failure (Table 1). Acute Chest Syndrome (ACS) describes a manifestation of SCD in which, due to sickling, infectious and noninfectious pulmonary events are complicated, resulting in a more severe clinical course. The diagnosis is the presence of a new infiltrate on chest radiography that is accompanied by acute respiratory symptoms. ACS accounts for nearly 25% of all deaths from SCD (Vichinsky, 2002). Repeated episodes of ACS are associated with an increased risk of chronic lung disease and pulmonary hypertension (Castro, 1996). The severe pulmonary events occurring in SCD may be precipitated by any trigger of hypoxia (Vichinsky, 2002). Transfusions are very efficacious and provide immediate benefit by reversing hypoxia in ACS. Transfusion of leucocyte-poor packed red cells matched for Rh, C, E, and Kell antigens can curtail antibody formation to below 1% (Vichinsky, 2002). Simple transfusions suffice for less severe cases; however, exchange transfusion is recommended to minimise the risk of increased viscosity. Also, chronic transfusion appears promising for prevention of recurrence in selected patients (Styles and Vichinsky, 1994). In a multicentre ACS trial, prophylactic transfusion was found to almost completely eliminate the risk of pulmonary complications (Vichinsky, 2002).   Ã‚  Ã‚  Ã‚  Ã‚  Acute Symptomatic Anaemia arises in SCD as a result of blood loss, increased RBC destruction, suppression of erythropoiesis etc. and is effectively treated with intermittent transfusion of RBCs to relieve symptoms of cardiac and respiratory distress (Josephson et al., 2007).   Ã‚  Ã‚  Ã‚  Ã‚  Aplastic Anaemia is commonly caused in SCD on account of infection of haematopoietic precursors in the bone marrow by Parvovirus B19 leading to a steep fall in RBCs. According to Josephson et al. (2007), therapeutic intermittent transfusion of RBCs is again the recommended first-line of treatment to improve total haemoglobin count and prevent cardiac decompensation. However, in those patients who are prone to fluid overload on account of cardiac or renal dysfunction an alternative transfusion strategy is to remove the whole blood and replace it with packed cells while avoiding the addition of excess volume (Josephson et al., 2007).   Ã‚  Ã‚  Ã‚  Ã‚  Acute Stroke is a high risk especially in paediatric SCD cases because of elevated cerebral flow. Enormous decline in stroke rate have occurred in children receiving intermittent simple transfusion (Adams et al., 1998). However, the identification of the stroke type would be necessary in all SCD patients in order to determine the appropriate treatment approach since the occurrence of infarctive strokes is higher in children as opposed to a higher incidence of haemorrhagic strokes in adults (Adams, 2003). 4.4 Indications for Chronic Transfusions Prophylactic chronic RBC transfusion every 3 to 4 weeks to maintain HbS levels lower than 30% is crucial for preventing first as well as recurrent strokes in children (Johnson et al., 2007). The transfusions could either be chronic simple transfusion or prophylactic chronic RBC exchange transfusion. Prophylactic chronic transfusions are recommended for patients with chronic renal failure so as to avoid severe symptomatic anaemia and for those patients with SCD undergoing pregnancy with complications. However, prophylactic transfusion is not indicated for SCD patients with normal pregnancy (Tuck et al., 1987). 4.5 Controversial and indeterminate indications for transfusion Several situations also exist wherein the indication for red cell transfusion is controversial, uncertain, or downright injudicious in SCD management. Some examples are indicated in Table 1.   Ã‚  Ã‚  Ã‚  Ã‚  According to Hankins et al. (2005), chronic transfusion therapy is helpful in reducing the incidence of strokes in children but not the severity of strokes. In the case of acute priapism, improvement in patients has been observed after exchange or simple transfusion (Rifikind   et al., 1979). Yet, due to the ASPEN syndrome, transfusion therapy currently is only a second-line therapy in the management of priapism ( Miller et al., 1995).   Ã‚  Ã‚  Ã‚  Ã‚  RBC transfusion is a vital component in the management of symptoms and complications of SCD. It has drastically reduced the morbidity and mortality of SCD. Yet, immune-related effects such as FNHTRs (Febrile Non-Haemolytic Transfusion Reaction i.e., fever resulting from a blood transfusion) and alloimmunisation to HLAs (Human Leucocyte Antigens),   and nonimmune-related effects e.g., iron overload and transfusion-transmitted infections are serious adverse effects of the transfusion therapy that need to be attended to in SCD patients receiving transfusion (Johnson et al., 2007). Chronic transfusions could result in an inexorable accumulation of tissue iron that could become fatal if not treated (Cohen, 1987). Excess iron damages the liver, endocrine organs, and heart and may be fatal by adolescence (E Haemoglobin-related Diseases Management Strategies Haemoglobin-related Diseases Management Strategies Abstract Haemoglobinopathies or inherited disorders of haemoglobin are the most common monogenic disorders in humans. Red cell transfusion is a well accepted therapy for clinical management of the most severe form of haemoglobinopathies namely, sickle cell disease (SCD) and ÃŽ ²-thalassaemia major. Patients affected by SCD need red blood cell transfusions on a regular basis to reduce morbidity and mortality. The transfusions are administered intermittently to control or prevent a serious complication of SCD, and as a perioperative measure. Or, as a chronic procedure, transfusion strategy is applied to prevent the recurrence, or the first occurrence, of stroke which is a major crisis in SCD, and to manage pulmonary hypertension and other sources of morbidity and mortality. Exchange transfusions are used to reduce the sickle cell haemoglobin (HbS) levels during crisis. Several situations also exist wherein the indication for red cell transfusion is controversial, uncertain, or downright injudic ious. Many side effects of transfusion have been identified and methods to overcome them have been developed. Iron overload (remedy: iron chelation), and alloimmunisation (remedy: phenotypical matching of transfused blood) are two notable examples. Association of haemoglobinopathies and neurologic sequelae after transfusion is also known. At the present time, bone marrow transplant is the only curative procedure available for both SCD and ÃŽ ²-thalassaemia major. Potential therapies involving stem cell transplantation and gene techniques are being vigorously researched. A detailed discussion of the current status of clinical management strategies as applied to inherited haemoglobin-related diseases in particular, sickle cell disease and the thalassaemias, is presented in this paper. 1. Introduction Anaemia is a syndrome characterised by a lack of healthy red blood cells or haemoglobin deficiency in the red blood cells, resulting in inadequate oxygen supply to the tissues. The condition can be temporary, long-term or chronic, and of mild to severe intensity. There are many forms and causes of anaemia. Normal blood consists of three types of blood cells: white blood cells (leucocytes), platelets and red blood cells (erythrocytes). The first generation of erythrocyte precursors in the developing foetus are produced in the yolk sac. They are carried to the developing liver by the blood where they form mature red blood cells that are required to meet the metabolic needs of the foetus. Until the 18th week of gestation, erythrocytes are produced only by liver after which the production shifts to the spleen and the bone marrow. The life of a red blood cell is about 127 days or 4 months (Shemin and Rittenberg, 1946; Kohgo et al., 2008). The main causes of anaemia are blood loss, product ion of too few red blood cells by the bone marrow or a rapid destruction of cells.   Ã‚  Ã‚  Ã‚  Ã‚  Haemoglobin, a protein, present in the red blood cells is involved in the transport of oxygen from the lungs to all the other organs and tissues of the body. Iron is an important constituent of the haemoglobin protein structure which is intimately involved in the transport of oxygen. Anaemia is generally defined as a lower than normal haemoglobin concentration. The normal blood haemoglobin concentration is dependent on age and sex, and, according to the World Health Organisation (WHO) Expert Committee Report, anaemia results when the blood concentration of haemoglobin falls below 130 g/L in men or 120 g/L in non-pregnant women (WHO, 1968). However, the reference range of haemoglobin concentration in blood could vary depending on the ethnicity, age, sex, environmental conditions and food habits of the population analysed. According to Beutler and Warren (2006), more reasonable benchmarks for anaemia are 137 g/L for white men aged between 20 and 60 years and 132 g/L for older men. The value for women of all ages would be 122 g/L. Also, the lower limit of normal of haemoglobin concentrations of African Americans are appreciably lower than that of Caucasians (Beutler and Warren, 2006).   Ã‚  Ã‚  Ã‚  Ã‚  Besides the well recognised iron deficiency anaemia, several inherited anaemias are also known. These are mostly haemoglobinopathies. Adult haemoglobin is a tetrameric haeme-protein. Abnormalities of beta-chain or alpha-chain produce the various medically significant haemoglobinopathies. The variations in amino acid composition induced genetically impart marked differences in the oxygen carrying properties of haemoglobin. Mutations in the haemoglobin genes cause disorders that are qualitative abnormalities in the synthesis of haemoglobin (e.g., sickle cell disease) and some that are quantitative abnormalities that pertain to the rate of haemoglobin synthesis (e.g., the thalassemias) (Weatherall., 1969). In SCD, the missense mutation in the ÃŽ ²-globin gene causes the disorder. The mutation causing sickle cell anemia is a single nucleotide substitution (A to T) in the codon for amino acid 6. The substitution converts a glutamic acid codon (GAG) to a valine codon (G TG). The form of haemoglobin in persons with sickle cell anemia is referred to as HbS. Also, the valine for glutamic acid replacement causes the haemoglobin tetramers to aggregate into arrays upon deoxygenation in the tissues. This aggregation leads to deformation of the red blood cell making it relatively inflexible and restrict its movement in the capillary beds. Repeated cycles of oxygenation and deoxygenation lead to irreversible sickling and clogging of the fine capillaries. Incessant clogging of the capillary beds damages the kidneys, heart and lungs while the constant destruction of the sickled red blood cells triggers chronic anaemia and episodes of hyperbilirubinaemia.   Ã‚  Ã‚  Ã‚  Ã‚  Fanconi anaemia (FA) is an autosomal recessive condition, and the most common type of inherited bone marrow failure syndrome. The clinical features of FA are haematological with aplastic anaemia, myelodysplastic syndrome (MDS), and acute myeloid leukaemia (AML) being increasingly present in homozygotes (Tischkowitz and Hodgson, 2003). Cooleys anaemia is yet another disorder caused by a defect in haemoglobin synthesis.   Ã‚  Ã‚  Ã‚  Ã‚  Autoimmune haemolytic anaemia is a syndrome in which individuals produce antibodies directed against one of their own erythrocyte membrane antigens. The condition results in diminished haemoglobin concentrations on account of shortened red blood cell lifespan (Sokol et al., 1992).   Ã‚  Ã‚  Ã‚  Ã‚  Megaloblastic anaemia is a blood disorder in which anaemia occurs with erythrocytes which are larger in size than normal. The disorder is usually associated with a deficiency of vitamin B12 or folic acid . It can also be caused by alcohol abuse, drugs that impact DNA such as anti-cancer drugs, leukaemia, and certain inherited disorders among others (Dugdale, 2008).   Ã‚  Ã‚  Ã‚  Ã‚  Malaria causes increased deformability of vivax-infected red blood cells (Anstey et al., 2009). Malarial anaemia occurs due to lysis of parasite-infected and non-parasitised erythroblasts as also by the effect of parasite products on erythropoiesis (Ru et al., 2009).   Ã‚  Ã‚  Ã‚  Ã‚  Large amounts of iron are needed for haemoglobin synthesis by erythroblasts in the bone marrow. Transferrin receptor 1 (TfR1) expressed highly in erythroblasts plays an important role in extracellular iron uptake (Kohgo et al., 2008). Inside the erythroblasts, iron transported into the mitochondria gets incorporated into the haeme ring in a multistep pathway. Genetic abnormalities in this pathway cause the phenotype of ringed sideroblastic anemias (Fleming, 2002). The sideroblastic anemias are a heterogeneous group of acquired and inherited bone marrow disorders, characterised by mitochondrial iron overload in developing red blood cells. These conditions are diagnosed by the presence of pathologic iron deposits in erythroblast mitochondria (Bottomley, 2006).   2. Classification of anaemia Anaemia can be generally classified based on the morphology of the red blood cells, the pathogenic spectra or clinical presentation (Chulilla et al., 2009). The morphological classification is based on mean corpuscular volume (MCV) and comprises of microcytic, macrocytic and normocytic anaemia. (a) Microcytic anaemia refers to the presence of RBCs smaller than normal volume, the reduced MCV ( 15 would probably indicate IDA (Chulilla et al., 2009).   Ã‚  Ã‚  Ã‚  Ã‚  In macrocytic anaemia, erythrocytes are larger (MCV > 98 fL) than their normal volume (MCV = 82-98 fL). Vitamin B12 deficiency leads to delayed DNA synthesis in rapidly growing haematopoietic cells, and can result in macrocytic anaemia. Drugs that interfere with nucleic acid metabolism, such as.hydroxyurea increases MCV (> 110 fL) while alcohol induces a moderate macrocytosis (100-110 fL). In the initial stage, most anaemias are normocytic. The causes of normocytic anaemia are nutritional deficiency, renal failure and haemolytic anemia (Tefferi, 2003). The most common normocytic anaemia in adults is ACD (Krantz, 1994). Common childhood normocytic anaemias are, besides iron deficiency anaemia, those due to acute bleeding, sickle cell anaemia, red blood cell membrane disorders and current or recent infections especially in the very young (Bessman et al., 1983). Homozygous sickle cell disease is the most common cause of haemolytic normocytic anemias in children (Weat herall DJ, 1997a).   Ã‚  Ã‚  Ã‚  Ã‚  In practice, the morphological classification is quicker and therefore, more useful as a diagnostic tool. Besides, MCV is also closely linked to mean corpuscular haemoglobin (MCH), which denotes mean haemoglobin per erythrocyte expressed in picograms (Chulilla et al., 2009). Thus, MCV and MCH decrease simultaneously in microcytic, hypochromic anaemia and increase together in macrocytic, hyperchromic anemia.   Ã‚  Ã‚  Ã‚  Ã‚  Pathogenic classification of anaemia is based on the production pattern of RBC: whether anaemia is due to inadequate production or loss of erythrocytes caused by bleeding or haemolysis. This approach is useful in those cases where MCV is normal. Pathogenic classification is also essential for proper recognition of the mechanisms involved in the genesis of anaemia. Based on the pathogenic mechanisms, anaemia is further divided into two types namely, (i) hypo-regenerative in which the bone marrow production of erythrocytes is decreased because of impaired function, decreased number of precursor cells, reduced bone marrow infiltration, or lack of nutrients; and (ii) regenerative: when bone marrow upregulates the production of erythrocytes in response to the low erythrocyte mass (Chulilla et al., 2009). This is typified by increased generation of erythropoietin in response to lowered haemoglobin concentration, and also reflects a loss of erythrocytes, due to bleeding or haemolysis. The reticulocyte count is typically higher.   Ã‚  Ã‚  Ã‚  Ã‚  Sickle cell disease is characterised by sickled red cells.   The first report of SCD was published a century ago noting the presence of peculiar elongated cells in blood by James Herrick, an American physician (1910). Pauling et al. (1949) described it as a molecular disease. The molecular nature of sickle haemoglobin (HbS) in which valine is substituted for glutamic acid at the sixth amino acid position in the beta globin gene reduces the solubility of haemoglobin, causing red cells to sickle (Fig. 1). Sickling of cells occurs at first reversibly, then finally as a state of permanent distortion, when cells containing HbS and inadequate amounts of other haemoglobins including foetal haemoglobin, which retards sickling, become deoxygenated (Bunn, 1997). The abnormal red cells break down, leading to anaemia, and clog blood vessels with aggregates, leading to recurrent episodes of severe pain and multiorgan ischaemic damage (Creary et al., 2007). The high levels of inflammatory cytokines in SCD may promote retention of iron by macrophage/reticuloendothelial cells and/or renal cells. SCD care commonly depends on transfusion that results in iron overload (Walter et al., 2009). 3. Pathogenesis of anaemia Anaemia is a symptom , or a syndrome, and not a disease (Chulilla et al., 2009). Several types of anaemia have been recognised, the pathogenesis of each being unique. Iron deficiency anaemia (IDA) is the most common type of anaemia due to nutritional causes encountered worldwide (Killip et al., 2008). Iron is one of the essential micronutrients required for normal erythropoietic function While the causes of iron deficiency vary significantly depending on chronological age and gender, IDA can reduce work capacity in adults (Haas Brownlie, 2001) and affect motor and mental development in children (Halterman et al., 2001). The metabolism of iron is uniquely controlled by absorption rather than excretion (Siah et al., 2006). Iron absorption typically occurring in the duodenum accounts for only 5 to 10 per cent of the amount ingested in homoeostatis. The value decreases further under conditions of iron overload, and increases up to fivefold under conditions of iron depletion (Killip et al., 2008). Iron is ingested as haem iron (10%) present in meat, and as non-haem ionic form iron (90%) found in plant and dairy products. In the absence of a regulated excretion of iron through the liver or kidneys, the only way iron is lost from the body is through bleeding and sloughing of cells. Thus, men and non-menstruating women lose about 1 mg of iron per day while menstruating women could normally lose up to 1.025 mg of iron per day (Killip et al., 2008). The requirements for erythropoiesis   which are typically 20-30 mg/day   are dependent on the internal turnover of iron (Munoz et al., 2009) For example, the amount of iron required for daily production of 300 billion RBCs (20-30 mg) is provided mostly by recycling iron by macrophages (Andrews, 1999).   Ã‚  Ã‚  Ã‚  Ã‚  Iron deficiency occurs when the metabolic demand for iron exceeds the amount available for absorption through consumption. Deficiency of nutritional intake of iron is important, while abnormal iron absorption due to hereditary or acquired iron-refractory iron deficiency anemia (IRIDA) is another important cause of unexplained iron deficiency. However, IDA is commonly attributed to blood loss e.g., physiological losses in women of reproductive age. It might also represent occult bleeding from the gastrointestinal tract generally indicative of malignancy (Hershko and Skikne, 2009).   Ã‚  Ã‚  Ã‚  Ã‚  Iron absorption and loss play an important role in the pathogenesis and management of IDA. Human iron disorders are necessarily disorders of iron balance or iron distribution. Iron homeostasis involves accurate control of intestinal iron absorption, efficient utilisation of iron for erythropoiesis, proper recycling of iron from senescent erythrocytes, and regulated storage of iron by hepatocytes and macrophages (Andrews, 2008). Iron deficiency is largely acquired, resulting from blood loss (e.g., from intestinal parasitosis), from inadequate dietary iron intake, or both. Infections, for example, with H pylori, can lead to profound iron deficiency anemia without significant bleeding. Genetic defects can cause iron deficiency anaemia. Mutations in the genes encoding DMT1 (SLC11A2) and glutaredoxin 5 (GLRX5) lead to autosomal recessive hypochromic, microcytic anaemia (Mims et al., 2005). Transferrin is a protein that keeps iron nonreactive in the circulation, and del ivers iron to cells possessing specific transferrin receptors such as TFR1 which is found in largest amounts on erythroid precursors. Mutations in the TF gene leading to deficiency of serum transferrin causes disruption in the transfer of iron to erythroid precursors thereby producing an enormous increase in intestinal iron absorption and consequent tissue iron deposition (Beutler et al., 2000). Quigley et al. (2004) found a haem exporter, FLVCR, which appears to be necessary for normal erythroid development. Inactivation of FLVCR gene after birth in mice led to severe macrocytic anaemia, indicating haem export to be important for normal erythropoiesis.   Ã‚  Ã‚  Ã‚  Ã‚  The anaemia of chronic disease (ACD) found in patients with chronic infectious, inflammatory, and neoplastic disorders is the second most frequently encountered anaemia after iron-deficiency anaemia. It is most often a normochromic, normocytic anaemia that is primarily caused by an inadequate production of red cells, with low reticulocyte production (Krantz, 1994). The pathogenesis of ACD is unequivocally linked to increased production of the cytokines including tumour necrosis factor, interleukin-1, and the interferons that mediate the immune or inflammatory response. The various processes leading to the development of ACD such as reduced life span of red cells, diminished erythropoietin effect on anaemia, insufficient erythroid colony formation in response to erythropoietin, and impaired bioavailability of reticuloendothelial iron stores appear to be caused by inflammatory cytokines (Means, 1996;2003). Although iron metabolism is characteristically impaired in A CD, it may not play a key role in the pathogenesis of ACD (Spivak, 2002). Neither is the lack of available iron central to the pathogenesis of the syndrome, according to Spivak (2002), who found reduced iron absorption and decreased erythroblast transferrin-receptor expression to be the result of impaired erythropoietin production and inhibition of its activity by cytokines. However, reduced erythropoietin activity, mostly from reduced production, plays a pivotal role in the pathogenesis of ACD observed in systemic autoimmune diseases (Bertero and Caligaris-Cappio, 1997). Indeed, iron metabolism as well as nitric oxide (NO), which contributes to the regulation of iron cellular metabolism are involved in the pathogenesis of ACD in systemic autoimmune disorders. Inflammatory mediators, particularly the cytokines, are important factors involved in the pathogenesis of the anaemia of chronic disease, as seen in rheumatoid arthritis anaemia (Baer et al., 1990), the cytokines causing impai rment of erythroid progenitor growth and haemoglobin production in developing erythrocytes.     Ã‚  Ã‚  Ã‚  Ã‚  Anaemia is also commonly found in cases of congestive heart failure (CHF), again caused by excessive cytokine production leading to reduced erythropoietin secretion, interference with erythropoietin activity in the bone marrow and reduced iron supply to the bone marrow (Silverberg et al., 2004). However, in the presence of chronic kidney insufficiency, abnormal erythropoietin production in the kidney plays a role in the pathogenesis of anaemia in CHF.   Ã‚  Ã‚  Ã‚  Ã‚  The myelodysplastic syndromes (MDS) are common haematological malignancies affecting mostly the elderly as age-related telomere shortening enhances genomic instability (Rosenfeld and List, 2000). Radiation, smoking and exposure to toxic compounds e.g., pesticides, organic chemicals and heavy metals, are factors promoting the onset of MDS via damage caused to progenitor cells, and, thereby, inducing immune suppression of progenitor cell growth and maturation. TNF- and other pro-apoptotic cytokines could play a central role in the impaired haematopoiesis of MDS (Rosenfeld and List, 2000). Premature intramedullary cell death brought about by excessive apoptosis is another important pathogenetic mechanism in MDS (Aul et al., 1998).     Ã‚  Ã‚  Ã‚  Ã‚  SCD arising from a point mutation in the ÃŽ ²-globin gene and leading to the expression of haemoglobin S (HbS) is the most common monogenetic disorder worldwide. Chronic intravascular haemolysis and anaemia are some important characteristics of SCD. Intravascular haemolysis causes endothelial dysfunction marked by reduced nitric oxide (NO) bioavailability and NO resistance, leading to acute vasoconstriction and, subsequently, pulmonary hypertension (Gladwin and Kato, 2005).    However, a feature that differentiates SCD from other chronic haemolytic syndromes is the persistent and intense inflammatory condition present in SCD. The primary pathogenetic event in SCD is the intracellular polymerisation or gelation of deoxygenated HbS leading to rigidity in erythrocytes (Wun, 2001). The deformation of erythrocytes containing HbS is dependent on the concentration of haemoglobin in the deoxy conformation (Rodgers et al., 1985). It has been demonstrated that sickle mono cytes are activated which, in turn, activate endothelial cells and cause vascular inflammation. The vaso-occlusive processes in SCD involve inflammatory and adhesion molecules such as the cell adhesion molecules (CAM family), which play a role in the firm adhesion of reticulocytes and leukocytes to endothelial cells, and the selectins, which play a role in leukocyte and platelet rolling on the vascular wall (Connes et al., 2008). Thus, inflammation, leucocyte adhesion to vascular endothelium, and subsequent endothelial injury are other crucial factors contributing to the pathogenesis of SCD (Jison et al., 2004). 4. Current therapies for clinical management of sickle cell disease including a critical appraisal of transfusion Between 1973 and 2003, the average life expectancy of a patient with SCD increased dramatically from a mere 14 years to 50 years thanks to the development of comprehensive care models and painstaking research efforts in both basic sciences especially molecular and genetic studies, and clinical aspects of SCD (Claster and Vichinsky, 2003). The clinical manifestations of SCD are highly variable. Both the phenotypic expression and intensity of the syndrome are vastly different among patients and also vary longitudinally within the same patient (Ballas, 1998). New pathophysiological insights available have enabled treatments to be developed for the recognised haematologic and nonhaematologic abnormalities in SCD (Claster and Vichinsky, 2003). The main goals of SCD treatment are symptom alleviation, crises avoidance and effective management of disease complications. The strategy adopted is primarily palliative in nature, and consists of supportive, symptomatic and preventative approaches to therapy. Symptomatic management includes pain mitigation, management of vasoocclusive crisis, improving chronic haemolytic anaemia, treatment of organ failure associated with the disease, and detection and treatment of pulmonary hypertension (Distenfeld and Woermann, 2009). The preventative strategies include use of prophylactic antibiotics (e.g., penicillin) in children, prophylactic blood transfusion for prevention of stroke in patients especially young children who are at a very high risk of stroke, and treatment with hydroxyurea of patients experiencing frequent acute painful episodes (Ballas, 2002). Currently, curative therapy for sickle cell anaemia is only available through bone marrow and stem cell transplantation. Hematopoietic cell transplantation using stem cells from a matched sibling donor has yielded excellent results in paediatric patients (Krishnamurti, 2007). Curative gene therapy is still at the exploratory stage (Ballas, 2002). 4.1 Current and potential therapies The potential treatment strategies basically target cellular dehydration, sickle haemoglobin concentrations, endothelial dysfunction, and abnormal coagulation regulation (Claster and Vichinsky, 2003). HbS concentrations are essentially tackled through transfusions while approaches to reduce HbS polymerisation which is the main mechanism for the development of vaso-occlusion include (a) increasing foetal haemoglobin (HbF) concentration using hydroxyurea (Fig. 2), butyrate, or erythropoietin, and (b) preventing sickle cell dehydration using Clotrimazole (Fig. 3) or Mg2+pidolate. Hydroxyurea therapy increases the production of HbF in patients with sickle cell anaemia, and, thereby, inhibits the polymerisation of HbS and alleviates both the haemolytic and vaso-occlusive manifestations of the disease (Goldberg et al., 1990). Recombinant erythropoietin also increases the number of reticulocytes with HbF. Additionally, it has been observed that administration of intravenous recombinant eryt hropoietin with iron supplementation alternating with hydroxyurea enhances HbF levels more than hydroxyurea alone (Rodgers et al., 1993). As SCD is essentially characterized by an abnormal state of endothelial cell activation   that is, a state of inflammation, a pharmacologic approach to inhibit endothelial cell activation has proved clinically beneficial (Hebbel and Vercellotti, 1997). Thus, administration of sulfasalazine which is a powerful inhibitor of activation of nuclear factor (NF)-B, the transcription factor promoting expression of genes for a number of pro-adhesive and procoagulant molecules on endothelium to humans has been found to provide transcriptional regulation of SCD at the endothelium level (Solovey et al., 2001). 4.2 Red blood cell transfusion A key therapy that is applied regularly in the clinical management of patients with SCD is packed red blood cell transfusion. RBC transfusion improves the oxygen-carrying capacity which is achieved by enhancing the haemoglobin levels, causes dilution of HbS concentration thereby, reducing blood viscosity and boosting oxygen saturation. Furthermore, RBC transfusion is helpful in suppressing endogenous production of sickle RBCs by augmenting tissue oxygenation ( Josephson et al., 2007). There are two major types of RBC transfusion therapy: intermittent and chronic which are further classified as prophylactic or therapeutic. Intermittent transfusions are generally therapeutic in nature and administered to control acute manifestations of SCD whereas chronic transfusions are performed as general preventative measures to check complications of SCD. RBC transfusion given as a single dose is termed as simple transfusion. Exchange transfusion involves administration of a larger volume of RBCs replacing the patients RBCs that are simultaneously removed. Details of the various types of RBC transfusion and the major clinical indications for the same in SCD patients are listed in Table 1. 4.3 Indications for intermittent transfusions Indications for intermittent transfusions include acute manifestations of SCD, as indicated in Table 1, that require redressal through therapeutic transfusions. However, under certain circumstances intermittent transfusions could be prophylactic such as for instance, when SCD patients are transfused before specific surgeries viz., those related to pregnancy complications or renal failure (Table 1). Acute Chest Syndrome (ACS) describes a manifestation of SCD in which, due to sickling, infectious and noninfectious pulmonary events are complicated, resulting in a more severe clinical course. The diagnosis is the presence of a new infiltrate on chest radiography that is accompanied by acute respiratory symptoms. ACS accounts for nearly 25% of all deaths from SCD (Vichinsky, 2002). Repeated episodes of ACS are associated with an increased risk of chronic lung disease and pulmonary hypertension (Castro, 1996). The severe pulmonary events occurring in SCD may be precipitated by any trigger of hypoxia (Vichinsky, 2002). Transfusions are very efficacious and provide immediate benefit by reversing hypoxia in ACS. Transfusion of leucocyte-poor packed red cells matched for Rh, C, E, and Kell antigens can curtail antibody formation to below 1% (Vichinsky, 2002). Simple transfusions suffice for less severe cases; however, exchange transfusion is recommended to minimise the risk of increased viscosity. Also, chronic transfusion appears promising for prevention of recurrence in selected patients (Styles and Vichinsky, 1994). In a multicentre ACS trial, prophylactic transfusion was found to almost completely eliminate the risk of pulmonary complications (Vichinsky, 2002).   Ã‚  Ã‚  Ã‚  Ã‚  Acute Symptomatic Anaemia arises in SCD as a result of blood loss, increased RBC destruction, suppression of erythropoiesis etc. and is effectively treated with intermittent transfusion of RBCs to relieve symptoms of cardiac and respiratory distress (Josephson et al., 2007).   Ã‚  Ã‚  Ã‚  Ã‚  Aplastic Anaemia is commonly caused in SCD on account of infection of haematopoietic precursors in the bone marrow by Parvovirus B19 leading to a steep fall in RBCs. According to Josephson et al. (2007), therapeutic intermittent transfusion of RBCs is again the recommended first-line of treatment to improve total haemoglobin count and prevent cardiac decompensation. However, in those patients who are prone to fluid overload on account of cardiac or renal dysfunction an alternative transfusion strategy is to remove the whole blood and replace it with packed cells while avoiding the addition of excess volume (Josephson et al., 2007).   Ã‚  Ã‚  Ã‚  Ã‚  Acute Stroke is a high risk especially in paediatric SCD cases because of elevated cerebral flow. Enormous decline in stroke rate have occurred in children receiving intermittent simple transfusion (Adams et al., 1998). However, the identification of the stroke type would be necessary in all SCD patients in order to determine the appropriate treatment approach since the occurrence of infarctive strokes is higher in children as opposed to a higher incidence of haemorrhagic strokes in adults (Adams, 2003). 4.4 Indications for Chronic Transfusions Prophylactic chronic RBC transfusion every 3 to 4 weeks to maintain HbS levels lower than 30% is crucial for preventing first as well as recurrent strokes in children (Johnson et al., 2007). The transfusions could either be chronic simple transfusion or prophylactic chronic RBC exchange transfusion. Prophylactic chronic transfusions are recommended for patients with chronic renal failure so as to avoid severe symptomatic anaemia and for those patients with SCD undergoing pregnancy with complications. However, prophylactic transfusion is not indicated for SCD patients with normal pregnancy (Tuck et al., 1987). 4.5 Controversial and indeterminate indications for transfusion Several situations also exist wherein the indication for red cell transfusion is controversial, uncertain, or downright injudicious in SCD management. Some examples are indicated in Table 1.   Ã‚  Ã‚  Ã‚  Ã‚  According to Hankins et al. (2005), chronic transfusion therapy is helpful in reducing the incidence of strokes in children but not the severity of strokes. In the case of acute priapism, improvement in patients has been observed after exchange or simple transfusion (Rifikind   et al., 1979). Yet, due to the ASPEN syndrome, transfusion therapy currently is only a second-line therapy in the management of priapism ( Miller et al., 1995).   Ã‚  Ã‚  Ã‚  Ã‚  RBC transfusion is a vital component in the management of symptoms and complications of SCD. It has drastically reduced the morbidity and mortality of SCD. Yet, immune-related effects such as FNHTRs (Febrile Non-Haemolytic Transfusion Reaction i.e., fever resulting from a blood transfusion) and alloimmunisation to HLAs (Human Leucocyte Antigens),   and nonimmune-related effects e.g., iron overload and transfusion-transmitted infections are serious adverse effects of the transfusion therapy that need to be attended to in SCD patients receiving transfusion (Johnson et al., 2007). Chronic transfusions could result in an inexorable accumulation of tissue iron that could become fatal if not treated (Cohen, 1987). Excess iron damages the liver, endocrine organs, and heart and may be fatal by adolescence (E

Male Reactions to Female Power in Antigone Essay -- Literary Analysis

Western society has a long history of subjugating women to men. Some cite the idea that women are somehow weaker or inferior to men as a reason for the existence of this social dynamic. In Sophocles's Antigone and, Dürrenmatt's The Visit, however, the female leads show great strength and are even able to threaten the male leads with their power. Creon and Alfred Ill's disdainful and oppressive treatment of women stems not from the supposed inferiority of women, but from the theme that man is afraid to lose control. This theme is developed through particular events in the plot: the men begin in positions of power, which are then threatened by the women. Their amateur reactions to the powerful women cause them to lose more control until in the end, they have nothing. Their redemption comes not through defeating the women, but through accepting responsibility for their own actions. To begin with, Creon and Ill have power socially and politically. Creon is the King of Thebes and Ill is the â€Å"most popular personality† (Dürrenmatt 15) of Guellen. Sophocles and Dürrenmatt set the stage by implying that their current situation will last–– â€Å"the gods† (Sophocles 170) themselves appoint Creon as king and the people of Guellen unanimously â€Å"[agree] to nominate† (Dürrenmatt 15) Ill as the mayor's successor. Furthermore, foreshadowing of their actions towards Antigone and Claire appears as approval. The elders of Thebes assure Creon that he has power over the â€Å"living and the dead† (Sophocles 172), justifying his actions towards Polyneices's body and empowering his punishment of Antigone. Ill, on the other hand, represents Guellen's last chance for survival. â€Å"All depends† (Dürrenmatt 14) on Ill's ability to capitalize on his and Claire's ... ...no reason to continue mistreating Antigone and Claire. A series of events catalyzed by powerful women and ending with a tragic loss for the male leads of The Visit and Antigone reveals a reason for the mistreatment of women in western society. Dürrenmatt and Sophocles show that the oppression of women stems from man's fear of losing control. By identifying this fear, the authors underscore the importance of treating women as equals, as the decision of the male leads to blame the women rather than to accept responsibility for their actions is what causes their downfall. Works Cited Dürrenmatt, Friedrich. The Visit: a Tragi-comedy. Trans. Patrick Bowles. New York: Grove, 1982. Sophocles. The Oedipus Plays of Sophocles; Oedipus the King, Oedipus at Colonus, Antigone. Trans. Paul Roche. New York: New American Library, 1958.

Indofood Swot Analysis Essay

PT.Indofood Sukses Makmur is the Indonesia most successful company in producing food and drinks. PT.Indofood is located at Jakarta and it is founded by Sudono Salim in 1990 with the name of PT. Panganjaya Intikusuma and changed their name in 1994 to Indofood. Indofood company has also exported their food and drinks into Australia,Europe, and Asia. In this few decades, the Indofood company has turned to be a total food solutions that they do the whole food operational from the processing the raw materials of food until become a food that are stored in the supermarket or convenient store. Now Indofood is also have the plantation and distribution company. SWOT analysis of the company. Strengthness. 1.Indofood is the biggest food company in Indonesia 2.Indofood brand is the most known food brand in Indonesia. 3.Indofood has the low cost of production. 4.Indofood product is practical and easy to find anywhere. 5.Distribution reachs are so big. 6.Indofood product cost cheaper than their compatitors. 7.Indofood taste is already accepted by the Indonesians and the foreigners. 8.Indofood distribute their food to alot of country. 9.Indofood has done a lot of corporate social responsibility. 10.Indofood financial is very strong. Weaknesses. 1.too much alternative products rather than focusing on one product. 2.too much flavour on their products 3.market demand hasn’t fulfilled yet. 4.too many variations of food. Opportunities. 1.Can do exporting their product to the whole world 2.Can do partnership with foreign food company 3.Can control the whole food market in Indonesia 4.Indofood Stocks can be the highest price in the stockmarket. Threats. 1.Too much compatitors nowadays 2.they dont focused on one product 3.Competitors Innovation and Promotion are better. 4.Bad Issues from other country about the health.

Mercutios Effect on Romeo and Juliet essays

Mercutio's Effect on Romeo and Juliet essays In the book Romeo and Juliet by William Shakespeare, Romeos friend Mercutio has a large effect on both Romeo and Juliets lives. Mercutios actions cause the death of Juliets cousin Tybalt. He indirectly causes Romeo and Juliet to meet, and he has an indirect cause in both Romeo and Juliets deaths. In the book Mercutios first effect on Romeo and Juliets lives was the fact that he caused them to meet. Romeo had been feeling down about the fact that the woman he loved, Rosaline, did not return his affection. While he, Mercutio and others were walking the streets, a servant from the Capulets house approached them and asked Romeo if he could read the guest list to a Capulet ball aloud to him. After he had heard that there was going to be a ball at the Capulets house Mercutio suggested that he, Romeo, and their other friends should go to the ball. Mercutio told Romeo that if he went to the ball it might take his mind off of Rosaline. Romeo decided to go to the ball and while he was there his attention was diverted from Rosaline, he met Juliet and they fell in love. If Mercutio had not insisted to Romeo that he should go to the ball, Romeo and Juliet might never have met and fallen in love. Another way Mercutio affected Romeo and Juliets lives was his death. Mercutio was killed while having a playful duel with Tybalt. This angered Romeo so much that he challenged Tybault to a duel. Romeo ended up killing Tybault. This effected Romeo and Juliets lives in a major way. For killing Tybalt, Romeo was banished from Verona. Since he was banished from Verona he could not see Juliet as often as he wished. Juliet and Romeos friend Friar Lawrence concocted a plan to get Juliet out of town and with Romeo. But for the plan to work Juliet had to pretend she was dead. After the plan was in affect Romeo heard that Juliet had died. (He had not gotten Juliets letter telling h ...

Frankenstein reflecting Mary Sheleys values

Frankenstein reflecting Mary Sheleys values Throughout the novel ?Frankenstein? the composer Mary Shelley unambiguously reflects her values as well as that of her society. The context in which it was composed exemplifies profound statements of Mary Shelley?s time. Initially, conceptions of man and the human race are characterized, distinguishing man as dominant over women, merely perceiving them as objects of man thus creating gender roles of the early eighteenth century. On the other hand we see perceptions of greed and obsessive behavior through the central characters Frankenstein and Walton who become driven by selfish desires. The influence of the development of science evidently caused a foremost impact upon Mary Shelley?s society therefore it became a primary theme during Frankenstein, particularly the ascendancy of science over nature. Nature becomes symbolism of the sublime while Mary Shelley?s conception of the negative consequences of science over nature becomes apparent. In addition we may distinguish science as a r epresentation of man and nature as women, which was most likely a view determined by Shelley?s view of her mother and father since her mother was a feminist and father was a scientist.Manuscript page from Frankenstein by Mary ShelleyThus, Mary Shelly includes these ideas in Frankenstein making imperative statements as well as reflecting values due to the context it was written.Through the focal characters of Frankenstein we gain an insight into the way in which Shelley perceived men through the influences of male role models in her life. Due to the death of Mary Shelley?s mother when Shelley was born, she would have had few female role models growing up, consequently we see the dominance of male characters in the novel with women characters contained in passive roles. Shelley was frequently surrounded by scientific philosophers, such as, Humphry Davy and Erasmus Darwin, both having insightful theories regarding creation. Robert Walton and Victor Frankenstein are both...

Ultimately fulfillment, and not pleasure, is essential to a happy life Essay

Ultimately fulfillment, and not pleasure, is essential to a happy life - Essay Example His book entitled The Art of Happiness opens with the simple statement: â€Å"I believe that the very purpose of our life is to seek happiness† (Dalai Lama and Cutler, 2009, p. 13) and he goes on to explain all of the ways that human beings can cultivate an inner state of happiness through self-discipline and an awareness of the connectedness of each human being with others and with the world. For him there is a spiritual dimension to happiness, that comes with a realization that there is more to life than just what is superficially visible. He does not think that happiness comes from pleasure of a physical kind: â€Å"Happiness that depends mainly on physical pleasure is unstable; one day it’s there and the next day it may not be† (Dalai Lama and Cutler, 2009, p. 33). A traditional Judeo-Christian perspective is found in the Old Testament in the verse â€Å"Happy is the man that findeth wisdom, and the man that getteth understanding† (Proverbs 3:18). This line of thinking reveals that it is in the process of working towards a laudable goal that people find happiness, and this rings true in modern experience too. Most people are happiest when they are lost in their work, or in a hobby, and they are proud and pleased when they can look back at their own hard won achievements. The transitory pleasures of modern life can keep us amused for short periods of time. True happiness, however, comes from the inside of a person, and develops over time as an attitude of mind. Life can be very hard, and for every living thing, death is the only certainty. This knowledge can lead to feelings of deep despair and hopelessness that no amount of pleasure can ever displace. It is only when people learn to focus on something worthwhile, and channel their energies into bettering themselves and helping their fellow citizens, that they start to fill up the empty hole of despair deep inside them. Fullfillment comes from

Society and Political Sciences Essay Example | Topics and Well Written Essays - 1000 words

Society and Political Sciences - Essay Example However, in the world of sociology and study of theories, the word "welfare" is preferred over happiness. This is to say that how much value that end result has on the person, relates to how much "welfare" he gets out of it. Rights and Justice: "All human beings are born free and equal in dignity and rights. without distinction of any kind, such as race, color, sex, language, religion, political or other opinion, national or social origin, property, birth or other status. Everyone has the right to life, liberty and the security of person" says the UN Human Rights Declaration website. These three statements merely cover the first basic rights to being called human. Today, we see justice being called in accordance with the law. But, still in many places today we see assassinations of rights being made to keep the law clean, to simply have justice. This so called justice, as the book defines it, is slashing away people's throats just to do what the law feels is appropriate. The war on terror is the biggest example we have today which has led to the deterioration of man, in pursuit of dreams of "advancement" and "power". Deal terror with justice, pose war on terror, abolish capital punishment, stop child ab use, stop violence against women, have proper arms control etc are issues we deal with when we talk about law. But, most of the time, we are faced with complexities when we start defining limits and learn that things are so deeply mixed together that it's difficult to not have dilemmas when dealing with human rights and justice. Does America deal with it better than other countries, is still a question left unanswered. The Market System: This concept pertains to establishing boundaries and limits that define how economic, social and political forces interact to form a system called the Market System. With the help of a market system, coordination between these forces is maintained and given a boost as when required. It erases confusion and directs by giving away what responsibilities each role carries. According to this system, even the smallest things are not avoided and the resulting picture is complete with collective goals, control and continuity. Cost-Benefit Analysis: This relates to how governments set their regulations through the use of measuring up their decisions and options carefully. This method is called the cost-benefit analysis since each option is carefully weighed out. It is important to employ this rule, since it's essential to our existence that we think about the future as well when making decisions. The kind of effects one's decision can have on for instance our future generations is one example. When cost-benefit analysis is accurately incorporated in ruling a country or simply making any decision, it automatically becomes effective. Kantianism: This is a moral theory that was coined by Immanuel Kant. Kant proposes that intentions play a great role in praising or punishing a person's acts. A person's purpose or drive behind his action is the main factor that results in the outcome being labeled good/praise-worthy or bad/punishable. Hence, this concept relates to morality, because