Historical Changes to Illnesses and Infections

Historical Changes to Illnesses and InfectionsGeneral introductionE actually individual or human being desires to live a healthy and respectful life. There is an age old saying health is wealth. Every country desires that its subjects remain healthy to keep itself prosperous and progressive. In enmity of the best efforts to achieve this goal, human suffering has become synonymous with the rapid advancements made in technology. It has taken competition to break neck levels and the young generations confine given the health parameters a go by. Commercialization in agriculture has assured in a green revolution, yields commence increase with bioengineered crops but the nutritional components absorb progressively returnd. The current day lifestyle of fast food and non exercise has led to a spurt in non communicable and metabolic associate diseases.1If lifestyle diseases be self created destruct buttons, infections have re ared its head in spite of the best attempts to tackle them. Charles Darwins statement survival of the fittest works competently in this scenario. Microorganisms and parasites are rapidly adapting to new environs with ever increasing reports of drug resistance.1Drug discovery programmes today are not restricted to a single country, so too are the markets. Pharma studys invest heavily in research, but their agenda is mainly commercial. Countries with deep pockets also have extensive budgets with investment in drug research focused to their health care needs. Many drugs in the past are overdue to serendipity, with universities impart substantially. academician involvement is signifi displacet and academic research, however small, can be a contributor to the development of science and beneficial to mankind at large.Introduction to Infections rapid growth in population, especially in the developing countries is leading to challenges in combating infectious diseases. Reports state that there are 17 infectious diseases, which include the int erchangeables of leprosy, tuberculosis, malaria, kala azar etc., to be endemic in 149 countries, with over one billion people being exposed to them. The World Health Organization has raised the ante and has suggested to the various(a) impact countries to be more focused on disease control. Most of these diseases are vector borne or communicable. Climate change has also been a contributing factor in slowing down vector control programmes. Favourable changes in the weather suiting to the growth of vectors have generated new transmission zones with an increased spread of infections.2Tropical countries, including India are prone to certain common infections like malaria, dengue, chikungunya, filariasis, tuberculosis, leprosy, leishmaniasis, typhoid fever etc. The geographical distribution of some of them is localized depending on the regional climatic conditions. 6,60,000 deaths were describe in 2012 due to malaria of which 95% was in Africa.3 A cohort study by Neeraj Dhingra and c olleagues suggest that the mortality rates of malaria in India are much higher than reported. They attribute this to a similarity of malarial symptoms with other infections like typhoid, ricketsial fever etc., thereby making malaria go unnoticed. Symptomatically similar typhoid has a fatality rate of 2 lakh deaths per division across the globe.4,5Dengue and chikungunya, spread by the mosquito Aedes aegypti has been wide spread. Improper sanitation and hygienics has let to their rapid growth and an estimated 2/5th of the worlds population is exposed to them.6 A positive aspect of the WHO report is that the combined efforts of the countries has shown a decreased incidence by 17% and a 26% reduction in morbidity for the period 2000 2010.7There is a lot of concern with rootage to tuberculosis (TB). The World Health Organization in its latest report states that over 8.6 billion people developed tuberculosis in 2012 with 1.3 million TB related deaths.8 Some reports suggest that there are a million missing patients who are actually positive but undiagnosed and one million infected children.9,10 A significant 13% of this infected population were HIV positive. The report also states that India alone accounted for a staggering 26% of the reported cases. The government activity has stressed the need for better diagnostic methods to detect the infection at early stages especially multi drug resistant tuberculosis (MDR-TB). Patients with MDR-TB are resistant to the jump line drugs rifampicin and isoniazid.8 The advent of modern techniques like GeneXpert has helped to identify as many as 64,000 cases in India alone.11 Experts believe that TB is a silent epidemic which has mutated very fast in the extend twenty years leading to MDR-TB and extremely drug resistant tuberculosis (XDR-TB) with the first case of XDR-TB reported in the year 1997 at Sewri. Even though there are thirteen drugs available in the management of tuberculosis, it is difficult to treat drug resistan t varities.11A Reports of XDR-TB in Africa have been frightening12-13 and according to WHO, accounts for 9.6% of MDR-TB cases. It is now believed that a wrong diagnosis and treatment of XDR-TB as MDR-TB complicates the further treatment. Attempts are being made to develop fixed dose combinations for treatment of TB, especially in children.14 Another mycobacterial infection that prominently bags the headlines is leprosy. 58% of the 2,32,857 leprosy cases reported worldwide were from India. Though there has been a substantial reduction in the matter of cases, there needs to be some more work done till leprosy is completely eradicated.15An area of concern is the development of resistance to antibiotics. This has impeded spheric efforts in containing infections. Higher rising incomes and higher rates of hospitalization have let to the higher use of antibiotics. There is also rampant over the recurrence sales of antibiotics without prescription in many countries including India. Micr oorganisms, when exposed to sub optimal doses of antibiotics develop resistance by undergoing mutations and these strains are increasingly transmitted. Some of the nearly enter drug resistant strains are methicillin resistant Staphylococcus aureus (MRSA), Escherichia coli ST131 and Klebsiella ST258.16 Resistance is more to lactam class of antibiotics, with a 10 fold increased incidence in the last 20 years. The evolution of hospital MRSA was directly attributed to the indiscriminate use of quinolone antibiotics.17 Recently, the gene responsible for resistance in the malaria parasite Plasmodium falciparam was also identified.18Inflammation19-21Inflammation can be defined as series of pathological changes associated with local vascular reactions and cellular responses of living tissue to an injury insufficient to kill the tissue. It is the bodys defence mechanism in order to eliminate or limit the spread of an injurious agent and is characterized by local heat, redness, s considera blying, pain and loss of function. Depending upon the succession and the mode of on cast, the inflammatory reaction can be classified as acute, sub-acute or chronic.Acute inflammation is characterized by a sudden onset and as a short course which may last for a few minutes to several hours. On the other hand, sub acute inflammation is set to last for one to six weeks or more. Chronic inflammation is known to last for months to years and is characterized by proliferation of connective tissue and blood vessels with presence of lymphocytes, plasma cells and histocytes but absence of polymorphs. Another prominent feature is the denaturation of proteins that occur in the region of inflammation.The root cause for inflammation could be a variety of chemotactic factors which could be any one among the following Membrane derived lipid substances like eicosanoids platelet activating factors, Vasoactive amines, cytokines, lysosomal proteases etc., the most common however being the eicosanoi ds.The arachidonic acid pathway is well known to be the primary mechanism for the generation of pain and inflammation. The arachidonic acid itself is derived from lipid hydrolysates that are supplied from the diet. At the cellular level, the enzyme phospholipase A2 converts the phospholipids to arachidonic acid. This arachidonic acid is acted upon by two major enzyme systems namely lipoxygenases and cyclooxygenases. Together, they regulate various immune defenses and pain mediating responses in the body and maintain homeostasis.The enzymes 5-lipoxygenases and 12-lipoxygenases metabolize the arachidonic acid to various leukotirenes which bring about vasoconstriction and vascular permeability, abet adherence of leucocytes to vascular endothelium and induce bronchial smooth muscle contraction. The role of 5-LOX in inflammation is well established. Modulating the activity of these intermediates has helped in the better management of asthma.The prostaglandins, obtained as the major prod ucts of action of cyclooxygenases on arachidonic acid show significant physiological activity when activated. Thromboxanes help to increase vascular permeability and in the aggregation of platelets, the prostacyclines decrease vascular tone and decrease platelet adhesion, the prostaglandin D2 increases hyperalgesia in sensory likely nerve fibres whereas the prostaglandins E1, E2, F1 F2 are known to increase vascular permeability, increases hyperalgesia in sensory apparent nerve fibres, cause inflammation, reduce gastric acidity. Both isoforms of the enzyme cycloxygenase, namely COX 1 and COX 2 are verbalised in various cells and tissues. It is well established that COX 1 is expressed more in the stomach and prominently involved in the regulation of acid levels, whereas COX 2 is expressed in tissues only during an injury and releases eicosonoids which regulate inflammation. Regulation of COX 2 is therefore a primary focus area in the management of inflammation.Arthritis is a very common occurrence these days. Eating habits and non-exercise have let to obesity. Lack of synovial fluids is known to increase friction resulting in the inflammation of the joints. Patients suffering from arthritis are subject to chronic medication and under such circumstances, patient safety becomes critical. The current strategies of NSAID research are to develop selective COX 2 inhibitors. Drugs like celecoxib, rofecoxib have been introduced in the past for the management of chronic inflammation.Figure 1 Scheme of Arachidonic acid pathwayReactive oxygenated speciesAs reported in the initial part, lifestyle related diseases are quite common. Extremely stressful life and the enormous level of pollution that one is exposed to has affected the health of the common man. Free radicals are extensively produced in the body due to various chemo stimuli. These reactive oxygenated species are known to damage various tissues in the body. The role of antioxidants in scavenging these free radi cals is well known.22The reactive oxygenated species are formed due to different mechanisms which could be due to ionizing radiations, byproducts of cellular respiration or due to defence mechanisms of neutrophils and phagocytes. The electrons lost in electron transport chain attack molecular oxygen to form superoxide ion. These superoxide ions are capable of assail various mitochondrial membranes and fatty acid side chains, thereby damaging them. The body has its own defence against these destructive reactive species like the enzymes superoxide dismutase and catalases which salve these radicals. It is also well established now that antioxidants also go a long way in combating this reactive species.23Combating the menace of free radicals is either by legal profession or by scavenging of already existing free radicals. Various enzyme, metals and vitamins work in tandem to remove these reactive oxygenated species.24a) Anti-oxidative enzymes These are superoxide dismutase, catalase, and glutathione reductase. They are synthesized in the body and convert reactive oxygenated species like superoxides and hydroxyperoxides into non-reactive oxygen molecules.b) Metal Chelating antioxidant The role of metal ions in accelerating lipid oxidation is of paramount importance, especially the transition metals like iron and copper. The initiation step of oxygen oxidation requires removal of a hydrogen atom which are catalysed by these metals.c) Singlet oxygen-quenching antioxidants Singlet oxygen is extremely reactive towards any molecule with electron or lone pairs of low ionization energy.d). Radical scavenging antioxidants These can donate hydrogen atoms to free radicals, can scavenge free radicals and prevent lipid oxidation. Eg vitamin C, albumin (hydrophilic), vitamin E, carotenoids (lipophilic)Acharya Nagarjuna University, GunturPage 1