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STUDENT DIGITAL NEWSLETTER ALAGAPPA INSTITUTIONS

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Red blood cells medicine app buy ritonavir 250 mg amex, or erythrocytes symptoms carbon monoxide poisoning purchase 250mg ritonavir, are responsible for the bulk of the transportation of oxygen and a little carbon dioxide in the blood via a protein- and iron-containing molecule called hemoglobin symptoms 2 days after ovulation buy 250 mg ritonavir with mastercard, which performs the actual transportation treatment 002 discount ritonavir 250 mg fast delivery. It is estimated that there are about 280 million hemoglobin molecules found in each erythrocyte symptoms of hiv order 250mg ritonavir with visa. For more information on the bicarbonate buffering system of your blood medications over the counter safe 250mg ritonavir, see Chapter 17. Due to the rapid diffusion of carbon dioxide to the lungs and its subsequent exhalation, it can be used as a measure of the efficiency of ventilation. To prevent too much acidity from building up in the blood, H+ will be excreted by the kidneys, and more bicarbonate (base) will be formed to buffer the blood to maintain normal pH. In general, if the hemoglobin is carrying large amounts of oxygen, the blood will be bright red. If there is less oxygen and more carbon dioxide being carried, then the blood will be darker in color. Low levels of red blood cells or anemia would limit the number of hemoglobin molecules that could transport oxygen and thus greatly reduce the amount in the blood available for the tissues. Therefore, the number of red blood cells and the amount of hemoglobin in your blood (both of which can be measured) is important in oxygen delivery to your tissues. Your body can attempt to respond to low oxygen levels by producing more red blood cells by a process called erythropoiesis. This process begins when the kidneys detect low levels of oxygen coming to them from the blood. This substance travels through the blood and eventually reaches specialized cells found in the red bone marrow. When stimulated, these specialized cells begin to increase their production of erythrocytes until demand is met. Having too little iron in the body can also affect oxygen delivery because the iron in the hemoglobin is what holds on to the oxygen molecules. The terms iron-poor blood and tired blood come from the fact that a patient with low levels of iron tires easily due to low oxygen levels. The alveolar layer that lowers surface tension to keep the alveoli expanded is the: a. Simple squamous epithelium, pseudostratified epithelium, and ciliated columnar epithelium d. Simple squamous epithelium, pseudostratified epithelium, and pseudostratified columnar epithelium Complete the following. The iron-containing molecule responsible for transporting oxygen in the blood is. Over time, an irritation could occur as the lungs rub the inside of the thoracic cage. To prevent such damage, each lung is wrapped in a serous membrane called the pleura. The thoracic cavity and the upper side of the diaphragm are lined with the outer layer of this membrane, the parietal pleura. Between these two pleural layers is a microscopic intrapleural space (pleural cavity) that contains a slippery liquid called pleural fluid that greatly reduces the friction as an individual breathes. The right lung base is a little higher than the left to accommodate the large liver lying underneath. The hilum is the area where the two mainstem bronchi and associated structures attach to each lung. Each root contains the mainstem bronchus, pulmonary artery and vein, nerve tracts, and lymph vessels. The right lung has three lobes-the upper, middle, and lower lobes-that are divided by the horizontal and oblique fissures. The left lung has only one fissure, the oblique fissure, and therefore only two lobes, called the upper and lower lobes. Remember that the heart is located in a space (cardiac impression) in the left anterior area of the chest and therefore takes up some space of the left lung. The lobes are even further divided into specific segments related to their anatomical position. For example, the apical segment of the right upper lobe is the top portion or tip of the right upper lobe. The Protective Bony Thorax the lungs, heart, and great vessels are all protected by the bony thorax. This bony and cartilaginous frame provides protection and also movement of the thoracic cage to accommodate breathing. The sternum is centrally located at the anterior portion of the thoracic cage and is comprised of the manubrium, body, and xiphoid process. If the hand placement is too low on the xiphoid process, it can break off and lacerate the internal organs. The true ribs are pairs 1 through 7 and are called vertebrosternal because they connect anteriorly to the sternum and posteriorly to the thoracic vertebrae of the spinal column. Pairs 8, 9, and 10 are called the false ribs, or vertebrocostal, because they connect to the costal cartilage of the superior rib and again posterior to the thoracic vertebrae. Rib pairs 11 and 12 are called the floating ribs because they have no anterior attachment. Inspiration is an active process of ventilation in which the main breathing muscle, the diaphragm (a dome-shaped muscle when at rest), is sent a signal via the phrenic nerve, from the cervical plexus of the spinal cord. The increase in volume in the thoracic cavity causes a decrease in pressure in the thoracic cavity that is transmitted to the lungs. The external intercostal muscles also assist by moving the ribs up and outward during inspiration to increase the total volume in the thoracic cavity. As the diaphragm relaxes, it forms a dome shape, which decreases the amount of space in the thoracic cavity. As a result, pressure in the lungs becomes greater than the atmospheric pressure, and the air is pushed out of the lungs. The fact that the lungs are elastic and are stretched during inspiration also aids in expiration because this tissue returns to rest (recoils), much as a stretched rubber band that is released. Low compliance means that it is more difficult to expand the lungs, whereas high compliance means that less effort is required to expand the lungs. You have an increased chance of being bitten during and right after exercising or doing any strenuous labor. This is because increases of lactic acid and body heat when you are active appear to attract mosquitoes, as does an increase in uric acid. Also, if you have blood type O, you are twice as likely to get bitten as a person with blood type A (type B is somewhere in the middle). Certain skin bacteria also attract mosquitoes; this is why your ankles and feet, which have greater bacterial colonies, seem to be targeted more so than other parts of the body. Finally, pregnant women are twice as likely to be bitten because they exhale about 21% more carbon dioxide and their body temperature is approximately 1. Another amazing carbon dioxide fact is that many people believe swimmers hyperventilate to get more oxygen in their systems before a sustained underwater dive. Unfortunately, the body still uses up its oxygen at a regular rate and sometimes uses enough of the reserve that swimmers risk losing consciousness. Although we can consciously speed up or slow down our breathing, our breathing rate is normally controlled by the level of carbon dioxide in our blood. Sensory receptors in the aorta and carotid arteries and the medulla oblongata constantly monitor blood chemistry. For example, during increased physical activity or in disease states in which more oxygen is required, accessory muscles are used to help pull up your rib cage to make an even larger space in the thoracic cavity. The accessory muscles used are the scalene and the sternocleidomastoid muscles in the neck and the pectoralis major and pectoralis minor muscles of the chest. Although exhalation is a passive process, there are times, especially with certain disease states, when exhalation may need to be assisted. Again, the body has accessory muscles of exhalation that assist in a more forceful and active exhalation by increasing abdominal pressure. The main accessory muscles of exhalation are the various abdominal muscles that push up the diaphragm or the back muscles that pull down and thus compress the thoracic cage. You will feel the abdominal muscles tighten to increase the force of expiration to blow out the candle. First, the various volumes can be measured by having the patient breathe normally and then take a maximum deep breath followed by a maximum exhalation. The normal tidal volume is 500 mL, although there is considerable variation depending on age, sex, height, and general fitness. Your inspiratory reserve volume is what you can breathe in beyond a normal inspiration. Likewise, your expiratory reserve volume is what you can exhale beyond a normal exhalation. We can combine these volumes to get various lung capacities, as shown in Figure 14­16 and below. This a good test to reflect how the larger airways are functioning and to monitor diseases such as asthma that affect these airways. The nerve innervates the main breathing muscle, called the. Atelectasis and Pneumonia Atelectasis, commonly occurring in hospitalized patients, is a condition in which the air sacs of the lungs are either partially or totally collapsed. Atelectasis usually occurs in patients who cannot or will not take deep breaths to fully expand the lungs and keep the passageways open. Surgery or an injury of the thoracic cage (such as broken ribs) often makes deep breathing painful. Taking periodic deep breaths is important not only to expand the lungs but also to stimulate the production of surfactant, which helps keep the small alveolar sacs open between breaths. Patients with large amounts of secretions who cannot cough them up are also at risk for atelectasis because the secretions block airways and lead to areas of collapse. Quite often, if atelectasis is not corrected and secretions are retained, pneumonia can develop within 72 hours. Pneumonia is a lung infection that can be caused by either viruses, fungi, protists, or bacteria. Inflammation occurs in the infected areas, with an accumulation of cell debris and fluid. As a result of gas trapping, fresh air cannot get into the lungs, so the victim breathes the same air over and over. This lowers the amount of oxygen in the blood and increases the blood levels of carbon dioxide. Because this is an inflammatory process of the airways, there is also an increase in the amount of mucus that the airways produce. These increased secretions can block the airways (a phenomenon known as mucus plugging) and further reduce the flow of fresh air to the lungs. Although asthma can be a life-threatening disease, it can be controlled with the use of medication. It is difficult to get air in and even more difficult to get air out of the lungs. The inability to get air out of Normal bronchiole Emphysema Emphysema is a nonreversible lung condition in which the alveolar air sacs are destroyed and the lung itself becomes "floppy" (see Figure 14­17), much like a balloon that has been inflated and deflated too many times. The lung tissue becomes fragile and can easily rupture (much like a worn tire), causing air to escape into the thoracic cavity and further inhibit gas exchange. Chronic Bronchitis Chronic bronchitis is a lung disease in which there are inflamed airways and large amounts of sputum are being produced. As inflammation occurs, the airways swell, and the inner diameter of the airways become smaller. As they get smaller, it becomes difficult to move air in and out, which increases the work of breathing. Because of this increased work level, more oxygen is used, and more carbon dioxide is produced. Because fluids are affected by gravity, pleural effusions tend to move to the lowest point in the pleural space. If a pleural effusion is large enough, it can have the same effect as a large pneumothorax. This additional work of breathing may exhaust an individual to the point that he or she can no longer breathe without intervention. Pneumothorax A pneumothorax is a condition in which there is air inside the thoracic cavity and outside the lungs, often in the pleural cavity. Gas or fluid may be forced into the cavity, separating the layers of the membrane. A stab wound or gunshot wound to the chest would allow air to rush into the thoracic cavity from the outside. The lung might develop a leak as a result of either a structural deformity or a disease process (such as in emphysema). In this situation, air would enter the thoracic cavity from the lung as air is breathed in. In either case, if the gas cannot escape, it will continue to fill a space in the thoracic cavity and provide less space for the lung or lungs to expand when breathing. If the lungs are too greatly restricted to expand, a life-threatening situation may occur. Tuberculosis bacilli can remain dormant in the body for years before beginning to multiply. Patients with lung disease may exhibit signs and symptoms such as dyspnea, tachypnea, cyanosis due to low oxygen levels, and use of accessory muscles of ventilation to assist normal breathing. In addition, the cardiac system may exhibit tachycardia to speed up oxygen delivery and may increase the number of red blood cells that carry oxygen.

When the genetic contribution is weak medicine 75 yellow cheap 250mg ritonavir otc, the environmental influence must be strong to produce disease symptoms 7 weeks pregnant buy ritonavir 250 mg low price, and vice versa treatment atrial fibrillation ritonavir 250mg overnight delivery. In most instances a susceptibility gene strongly influences the risk of developing a disease only in response to a specific environmental exposure medicine zyprexa order ritonavir 250mg with mastercard. If the environmental exposure occurs infrequently medicine youtube cheap ritonavir 250 mg on line, the gene will be of low penetrance symptoms for strep throat cheap ritonavir 250 mg with mastercard, and it may seem that the environmental exposure is the primary cause of the disease, even though the gene is required for developing the disease. For this reason, even when environmental agents are suspected to be a major cause of a particular disease, there is still the possibility that genetic factors also play a major part, particularly genetic mutations with low penetrance. Similarly, a critical mix of nature and nurture is likely to determine individual traits and characteristics. Genetic factors may be considered as the foundation on which environmental agents exert their influence. Based on this premise, it is now widely accepted that while certain environmental factors alone and certain genetic factors alone may explain the origins of some traits and diseases, most of the time the interaction of both genetic and environmental factors will be required for their expression. Twin studies also help to determine the proportion of the variability in a trait that might be because of genetic factors. The studies aim to identify the causes of familial resemblance by comparing the concordance rates of monozygotic twins and dizygotic twins. Monozygotic twins share the same genetic material-they have 100% of their genes in common-and dizygotic twins share only half their genetic material-they have 50% of their genes in common. Most twin studies report their results in terms of pairwise concordance rates, which measure the number Genetics and the Environment 45 of pairs, or probandwise concordance rates, which count the number of individuals. Monozygotic twins serve as excellent subjects for controlled experiments because they share prenatal environments and those reared together also share common family, social, and cultural environments. Furthermore, studies of twins can both point to hereditary effects and estimate heritability, a term that describes the magnitude of the genetic effect. The limitations of such studies include the potential to overestimate or underestimate the role of genetics if environmental influences treat twins as more alike or more different than they actually may be. In addition, in some studies it has been difficult to control for other potential causes or sources of variation. Some of the most conclusive twin study research has analyzed identical and fraternal twins who were raised apart. Researchers have sought to establish whether characteristics such as personality traits, aptitudes, and occupational preferences are the products of nature or nurture. Similar characteristics among identical twins reared apart might indicate that their genes played a major role in developing that trait. Different characteristics might indicate the opposite-that environmental influences assume a much stronger role. By comparing monozygotic and dizygotic twins, investigators can test their hypotheses and confirm the findings of earlier research. For example, if identical twins raised in different homes have many similarities, but fraternal twins raised apart have little in common, researchers may conclude that genes are more important than environment in determining specific characteristics, traits, susceptibilities, and diseases. The results of this large-scale study revealed that environmental factors are linked to twice as many cancers as genetic factors. In fact, the risk of developing only three types of cancer (albeit some of the most common cancers)-breast, colorectal, and prostate cancers-show a significant genetic correlation. Prostate cancer is found to have the strongest genetic link, with 42% of risk explained by genetic factors and 58% by environmental factors. The other cancers with a demonstrable genetic link, breast and colorectal cancers, are found to have less than a 35% link to genetics. Lichtenstein and his colleagues conclude that inherited genetic factors make a minor contribution to susceptibility to most types of cancer. The role of genetics in establishing sexual orientation (the degree of sexual attraction to men or women) and its link to homosexuality have been hotly debated in the relevant scientific literature and the media. Studies of identical twins reveal that sexual orientation, like the overwhelming majority of human traits and characteristics, is not exclusively governed by genetics, but is more likely the result of a gene-environment interaction. For example, if homosexuality was exclusively controlled by genes, then either both members of a set of identical twins would be homosexual or neither would be. Multiple studies show that if one twin is homosexual his or her sibling is also homosexual less than 40% of the time. Martin systematically evaluated gender identity and sexual orientation of twins and reported their findings in ``Genetic and Environmental Influences on Sexual Orientation and Its Correlates in an Australian Twin Sample' (Journal of Personality and Social Psychology, March 2000). Bailey, Dunne, and Martin observed that both male and female homosexuality appears to run in families and that studies of unseparated twins suggest that this is primarily because of genetic rather than familial environmental influences. They also observe that previous research suffers from limitations such as recruiting subjects via publications aimed at homosexuals or by word of mouth-strategies likely to bias the samples and results. To overcome these limitations, Bailey, Dunne, and Martin assessed twins from the Australian Twin Registry rather than recruiting twins especially for the purpose of their research. Using probandwise concordance (an estimate of the probability that a twin is nonheterosexual given that his or her co-twin is nonheterosexual), they found lower rates of twin concordance for nonheterosexual orientation than in previous studies. Previously, the lowest concordances for single-sex identical twins were 47% for women and 48% for men. This study documents concordances of just 20% for women and 24% for men, significantly lower than the rates reported for the two largest previous twin studies of sexual orientation. Bailey, Dunne, and Martin conclude that sexual orientation is familial; however, their study does not provide statistically significant support for the importance of genetic factors for this trait. They caution that this does not mean that their results entirely exclude heritability. In fact, they consider their findings consistent with moderate heritability for male and female sexual orientation, even though their male monozygotic concordance suggests that any major gene for homosexuality has either low penetrance or low frequency. Genetics and Genetic Engineering Bailey, Dunne, and Martin attribute their markedly different results to the observation that in previous studies twins deciding whether to participate in research that was clearly designed to study homosexuality probably considered the sexual orientation of their co-twins before agreeing to participate. In contrast, the more general focus of the Bailey, Dunne, and Martin study and its anonymous response format made such considerations less likely. Even though it remains unclear from recent studies whether concordance is closer to 50% or 30%, all researchers concur that it is not 100%. This finding suggests that the influence of genes on sexual orientation is indirect and influenced by environment. Neil Whitehead and Briar Whitehead claim in My Genes Made Me Do It (1999) that ``genes make proteins, not preferences. Furthermore, Whitehead and Whitehead believe that all influences-genetic and environmental- are subject to change and that it is possible to ``foster or foil genetic or family influences. Investigators looked at the genetic makeup of 456 men from 146 families with two or more gay brothers and found the same genetic patterns among the gay men on three chromosomes: 7, 8, and 10. Sixty percent of the gay men in the study shared these common genetic patterns, which was slightly more than the 50% expected by chance alone. Patterns involving chromosomes 7 and 8 were associated with sexual orientation regardless of whether the man received them from his father or his mother; however, the areas on chromosome 10 were only associated with male sexual orientation if they were inherited from the mother. The identification of these regions has spurred further research to identify the individual genes in these regions that are linked to sexual orientation. The results of many studies and contentious debate in the scientific community have produced little consensus about the relationship between genetics and intelligence. At least part of the problem stems from the fact that the term intelligence is defined differently by different people. Although this issue has been argued since the 1870s-when Galton proposed his controversial and arguably racist notions about the heritability of intelligence-the debate was reignited during the 1990s when Richard J. Herrnstein and Charles Murray published the Bell Curve: Intelligence and Class Structure in American Life (1994). Herrnstein and Murray expressed their beliefs that between 40% and 80% of intelligence is determined by genetics and that it is intelligence levels, not environmental circumstances, poverty, or lack of education, that are at the root of many of our social problems. Critics argued that Herrnstein and Murray not only manipulated and misinterpreted data to support their contention that intelligence levels differ among ethnic groups but also reintroduced outdated and harmful racial stereotypes. However, few have been willing to accept the idea that intelligence is entirely genetically encoded, permanently fixed, and unresponsive to environmental influences. They observe that the tests measure one small segment of the diverse abilities that comprise intelligence, evaluate only analytic abilities, fail to assess creative or practical abilities, and measure only a small sample of the skills that define the domain of intelligent human behavior. Few would deny that genes play some role, but many are uncomfortable with the idea that genes determine intelligence. The preponderance of evidence from twin, family, and adoption studies supports increasing heritability of intelligence over time, ranging from 20% in infancy to 60% in adulthood, along with environmental factors estimated to contribute about 30%. Kaufman believes that the genetic contribution to weight and intelligence are comparable. He observes that many overweight people have a genetic predisposition for a large frame and a metabolism that promotes weight gain, whereas naturally thin people have the opposite genetic predisposition. Nonetheless, for most people environmental factors such as diet and exercise have a substantial impact on weight. Segal examined virtual twins-genetically unrelated siblings (typically adopted) of the same age who were reared together from early infancy-to assess environmental influences on intelligence. Segal interprets these results as a demonstration of the modest effects of environment on intellectual development and as supporting a predominantly genetic role in determining intelligence. He observes that adoption studies have a substantial estimated heritability, finding that identical twins reared apart are almost as similar for measures of intelligence as identical twins reared together. He finds significant correlations between biological mothers and their adopted-away children and almost no parent-offspring correlations for adoptive parents and their adopted children, suggesting that family environment shared by parents and offspring does not contribute as strongly as genetic influences to parent-offspring resemblance for selected measures of intelligence. The question of interest is no longer whether human social behavior is genetically determined; it is to what extent. Wilson, On Human Nature (1978) Genetics and Genetic Engineering Heredity is what sets the parents of a teenager wondering about each other. Peter, author of the Peter Principle (1968) Most people accept the premise that genes at least in part influence personality and behavior. Families have long decried a characteristic ``bad temper' or ``wild streak' appearing in a new generation, or boasted about inherited musical or artistic talents. It seems intuitively correct to assume that some of our behaviors and attitudes, both the desirable and less desirable ones, are in part genetically mediated. Maybe It Runs in the Family' (New York Times, June 15, 2006), Amy Harmon asserts that an increasing understanding of genetics has renewed consideration about the degree to which individuals can actually control how they behave. Studies of families and twins strongly suggest genetic influences on the development and expression of specific behaviors, but there is no conclusive research demonstrating that genes determine behaviors. He further asserts that genetically influenced behaviors also bring about gene-environment correlations. Rutter explains the mechanism of genetic influence on behavior: genes affect proteins, and through the effects of these proteins on the functioning of the brain there are resultant effects on behavior. Rutter views environmental influences as comparable to genetic influences in that they are strong and pervasive but do not determine behaviors, and studies of environmental effects show that there are individual differences in response. Some individuals are severely affected and others experience few repercussions from environmental factors. This has given rise to the idea of varying degrees of resiliency-that people vary in their relative resistance to the harmful effects of psychosocial adversity-as well as the premise that genetics may offer protective effects from certain environmental influences. Jan Strelau, in ``The Contribution of Genetics to Psychology Today and in the Decade to Follow' (European Psychologist, December 2001), asserts that the proportion of phenotypic variance that may be attributed to genetic variance shows that personality traits, including temperament as well as specific behaviors and intelligence, have a heritability ranging from 40% to about 60%, but that it is primarily environmental influences Genetics and Genetic Engineering that explain individual differences. He states that genetics influence the environment experienced by individuals, which explains how, for example, children growing up in the same family often experience and interpret their environments differently. This also explains why individuals who share the same genes though living apart show some concordance in selecting or creating similar experiences. Traditional psychological theory holds that attitudes are learned and most strongly influenced by environment. In ``The Heritability of Attitudes: A Study of Twins' (Journal of Personality and Social Psychology, June 2001), James M. Olson and his collaborators argue that the premise that attitudes are learned is not incompatible with the idea that biological and genetic factors also influence attitudes. They hypothesize that genes probably influence predispositions or natural inclinations, which then shape environmental experiences in ways that increase the likelihood of the individual developing specific traits and attitudes. For example, children who are small for their age might be teased or taunted by other children more than their larger peers. As a result, these children might develop anxieties about social interaction, with consequences for their personalities, such as shyness or low self-esteem discomfort with large groups. In research supported by the National Institutes of Health, Amy Abrahamson, Laura Baker, and Avshalom Caspi examine genetic influences on attitudes of adolescents and report their findings in ``Rebellious Teens? Genetic and Environmental Influences on the Social Attitudes of Adolescents' (Journal of Personality and Social Psychology, December 2002). The purpose of their study was to investigate sources of familial influence on adolescent social attitudes in an effort to understand whether and how families exert an influence on the attitudes of adolescents. Abrahamson, Baker, and Caspi explored genetic and environmental influences in social attitudes in 654 adopted and nonadopted children and their biological and adoptive relatives in the Colorado Adoption Project. Conservatism and religious attitudes were measured in the children annually from ages twelve to fifteen and in the parents during the twelveyear-old visit. The study finds that both conservatism and religious attitudes are strongly influenced by shared-family environmental factors throughout adolescence. Familial resemblance for conservative attitudes arises from both genetic and common environmental factors, and familial Genetics and the Environment 49 influence on religious attitudes is almost entirely in response to shared-family environmental factors. These findings are different from previous findings in twin studies, which suggest that genetic influence on social attitudes do not emerge until adulthood. In contrast, the Colorado Adoption Project study detects significant genetic influence in conservatism as early as age twelve, but finds no evidence of genetic influence on religious attitudes during adolescence. Abrahamson, Baker, and Caspi conclude that genetic factors exert an influence on social attitudes much earlier than previously indicated.

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Additionally symptoms your dog is sick order ritonavir 250mg with mastercard, a statistically significant but well less than a twofold increase for E medications quizlet buy cheap ritonavir 250mg. A doubling in mutant frequency was observed at the 5 medicinenetcom symptoms buy ritonavir 250 mg amex,000 ppm carbon tetrachloride concentration and reached a fivefold increase compared to pooled controls at the 20 85 medications that interact with grapefruit generic ritonavir 250mg line,000-ppm concentration symptoms synonym purchase ritonavir 250mg on line. This increased sensitivity to oxidative damage may help explain both the Araki et al symptoms pancreatic cancer cheap 250 mg ritonavir amex. Again, the control frequencies reported by Araki (2004) are lower than those reported by others (Watanabe et al. However, approximately half of the observed increase was due to an unusually low mutant frequency. Also, it should be noted that the results were not statistically analyzed as the experiments were not performed in triplicate. Some caution should be exercised in the interpretation of these and other in vitro studies as a number of the factors listed in Table 4-12 could potentially influence the outcome of the assays and contribute to both positive and negative results. For example, the bioactivation of carbon tetrachloride to a mutagenic species can be affected in a variety of ways. The trichloromethyl radical or a derived species can also react with and inactivate the monooxygenase activation system (Weber et al. Because of the many possible confounding factors, the in vitro carbon tetrachloride results should be interpreted cautiously. Genotoxicity Studies: Nonmammalian Eukaryotic Organisms Carbon tetrachloride has also been tested in the yeast Saccharomyces cerevisiae and the mold Aspergillus nidulans (Table 4-9). In contrast to the bacterial results, the majority of the studies conducted in these species have yielded positive results. However, the results obtained from the two fungal species differ significantly, most likely due to the test strains selected and the endpoints chosen for examination. The increases were only seen at the highest test concentration of 34 mM, one that caused extensive toxicity (90%). Toxicity was >99% at the highest test concentration where the increase in recombinants was seen. Follow-up studies showed that the induced recombinants occurred during the G1 and G2, but not S phase of the cell cycle, and in some cases, an increase in interchromosomal recombination was also seen. The dose-response curves tended to be steep and occurred concurrently with significant toxicity (Galli and Schiestl, 1996, 1995). Since carbon tetrachloride did not induce recombination during S phase even though it was toxic, the authors suggested that carbon tetrachloride acted by prematurely pushing G1 cells into S phase and G2 cells into cell division (Galli and Schiestl, 1998). Brennan and Schiestl (1998) showed that yeast cells treated with carbon tetrachloride showed an increase in oxidative radical species as measured by the intracellular oxidation of 2,7-dichlorofluorescein diacetate. Additional studies showed a strong correlation between toxicity and altered segregation leading to aneuploid cells. Cysteamine (a free-radical scavenger) was also co-administered with carbon tetrachloride and showed some protection against the induced alterations in chromosome segregation. In a series of related studies, carbon tetrachloride was consistently shown to interfere with chromosome segregation leading to aneuploidy. More modest effects (approximately threefold) were seen beginning at lower concentrations (0. Similar results both on chromosome segregation and crossing over were observed in a follow-up study using a narrower and somewhat lower dose range (0. In a 94 related quantitative structure-activity-relationship study of carbon tetrachloride and 23 other chlorinated aliphatic hydrocarbons, the ease at which the compounds were able to accept electrons, as characterized by the energy of lowest unoccupied molecular orbital, was the best predictor of their aneuploidy-inducing properties (Crebelli et al. As indicated in Table 4-9, the genotoxic effects were seen in both Saccharomyces and Aspergillus experiments without the use of exogenous metabolic activation. As indicated above, the studies in Saccharomyces detected primarily recombination, whereas those in Aspergillus detected primarily alterations in chromosome segregation. This difference in outcome appears to be due primarily to the nature of the specific strains used and the endpoints selected for evaluation by the investigators. There was a close association seen between cytotoxicity and the recombinogenic and aneugenic effects measured in the two systems. Additionally, carbon tetrachloride did not produce sex-linked recessive lethal mutations in Drosophila melanogaster (Foureman et al. Genotoxicity Studies: Mammalian Cells In Vitro Numerous studies have been performed to evaluate the ability of carbon tetrachloride to cause genotoxic effects or precursor lesions in mammalian cells in vitro (Table 4-10). These studies have been performed using both model cell systems frequently with exogenous metabolic activation and hepatocytes that retain their xenobiotic-metabolizing capabilities. In studies using peripheral blood lymphocytes or lymphoblastoid cells, carbon tetrachloride yielded mixed results. Exposure to different concentrations of carbon tetrachloride ranging from 1 to 40 mM did not induce a statistically significant increase in micronucleated cells at any concentrations except at 10 mM in one donor with S9 mix and at 5 mM in the second donor without S9 mix. Cell division was not affected at these mutagenic concentrations; however, the authors identified a cytotoxic concentration of 40 mM both with and without S9 mix in one donor. No statistically significant response was found for either tail length or tail moment at concentrations tested (5­ 20 mM) either with or without S9 mix. Under similar conditions, no increase in structural chromosome aberrations was seen, although a decrease in the mitotic index was detected. In spite of the protective effects of the antioxidants, these studies observed effects at fairly low concentrations and the greater activity in the absence of S9. The increases occurred mostly in kinetochore-positive micronuclei, indicating an origin from chromosome loss. Smaller increases (~two- to fourfold) in micronuclei originating from chromosomal breakage (kinetochore-negative) were also seen. At the 10 mM concentration, the percentage of binucleated cells, an indicator of cell proliferation and an indirect indicator of cytotoxicity, was 6­7% of the control values indicating that the increase in micronuclei occurred primarily under conditions producing potent cytotoxic or cytostatic effects. Carbon tetrachloride was also tested for its ability to induce morphological transformation in Syrian hamster embryo cells (Amacher and Zelljadt, 1983). Although this was considered a positive result by the authors, the increase is not statistically significant, does not meet criteria for a positive result (Kerckaert et 96 al. In studies using mouse lymphoma (L5178Y) cells with exogenous activation, carbon tetrachloride was inactive in inducing mutations at the tk locus when tested up to toxic concentrations (Wangenheim and Bolcsfoldi, 1988). The increases in strand breaks were accompanied by increases in cytotoxicity (Garberg et al. Carbon tetrachloride has also exhibited mixed results when tested in vitro using isolated hepatocytes or cell lines derived from the rat liver. In contrast, using an alkaline elution assay on isolated rat hepatocytes, Sina and colleagues reported a 3. This binding was greater in the incubations containing the 3-methylcholanthrene-induced microsomes. The incubation was performed under a N2 atmosphere using conditions that, in previous studies, had resulted in maximal binding to proteins and lipids. Oruambo and Van Duuren (1987) investigated the binding of radiolabeled carbon tetrachloride to various regions of mouse chromatin. Overall, these data indicate that, under certain conditions, carbon tetrachloride can induce genotoxic effects in mammalian cells exposed in vitro. There are also multiple studies indicating that carbon tetrachloride is able to interfere with chromosome segregation resulting in modest levels of chromosome loss and aneuploidy. However, since exogenous bioactivation was required in some studies and not others, the observed effects may result from both specific and nonspecific mechanisms. As seen in nonmammalian assay systems, in most cases where genotoxic effects were observed, they occurred concurrently with significant cytotoxicity. Genotoxicity Studies: Mammalian Cells In Vivo Carbon tetrachloride has been extensively tested for genotoxicity in mammalian systems in vivo (Table 4-11). A number of these studies have been conducted using standard protocols and examined genotoxicity in highly proliferating nontarget organs such as the bone marrow. A summary of the important studies by target organ and endpoint is presented below. In studies of chromosomal alterations occurring in the bone marrow, carbon tetrachloride has shown negative results for the induction of structural chromosome aberrations in the bone marrow of male Sprague-Dawley rats and 101/H mice (Rossi et al. The increase is of questionable relevance as it was only seen at one of the three time points tested and only at the lower of the two doses tested. Within the rodent liver, carbon tetrachloride has been evaluated for a range of genotoxic effects across a considerable dose range. Negative results were seen in eight of the studies, equivocal or weak responses were seen in two studies, and positive results were seen in four studies. When positive or equivocal responses were seen, they consistently occurred at cytotoxic doses. Although breaks were seen, the authors argued that the breaks were most likely physiological in nature, reflecting changes in proliferation and/or gene expression. The authors stated that "these changes were observed only following doses of carbon tetrachloride which resulted in liver necrosis. This pattern was notably different from that seen with the alkylating agent, dimethylnitrosamine. In cytogenetic assays of hepatocytes isolated from treated rodents, carbon tetrachloride produced mixed, largely negative results. In an early study by Curtis and Tiley (1968), no increase in chromosomal fragments or bridges occurring in anaphase cells was seen in liver squash preparations of mice treated with a high (8,000 mg/kg) dose of carbon tetrachloride. Negative results were also reported for micronucleus formation and altered ploidy by Uryvaeva and Delone (1995). In two studies conducted by Van Goethem and colleagues, however, an increase in micronuclei was reported. In their initial study investigating the early stages of hepatic carcinogenesis (Van Goethem et al. Initial studies of the mitotic index and the percent binucleated cells indicated that 72 hours was the optimal time to harvest hepatocytes for the detection of micronuclei. In a follow-up study, Van Goethem and associates repeated portions of their earlier experiment (Van Goethem et al. Using fluorescence in situ hybridization with a multicentromeric rat probe, the authors attributed the increase in micronucleus primarily to chromosomal breakage. Based on the frequencies given in the paper, chromosome breakage can be calculated to be 5. It should be noted that the observed difference in the proportion of centromere-containing and -lacking micronuclei in the study is attributable to a low frequency of centromere-containing micronuclei in only one rat and is unlikely to be either statistically or biologically significant. Although the sample sizes of the studies are quite small, the two studies indicate that the micronucleus results are reproducible and that under regenerative conditions following toxicity, an increase in chromosome breakage and possibly chromosome loss can be detected in the regenerating cells of carbon tetrachloride-treated rats. However, because of the numerous and significant methodological issues with these experiments, this paper has not been included in Table 4-11. The ability of carbon tetrachloride to induce mutations in hepatocytes in vivo has been investigated in three studies using transgenic mice. As reported by Mirsalis and coworkers, transgenic B6C3F1 lacI mice were treated with five daily doses of carbon tetrachloride at 35 mg/kg-day and the animals were sacrificed 7 days after the first dose (Mirsalis, 1995; Mirsalis et al. Mice were implanted with an osmotic pump that released [3H]-thymidine at the beginning of the study to measure the percent of hepatocytes in S phase (labeling index). Carbon tetrachloride produced a nearly 1,000-fold increase in the labeling index with no increase in the mutant frequency. The authors concluded that short bursts of cell proliferation induced by carbon tetrachloride do not result in mutations in the liver. As part of another study to investigate the impact of cell proliferation on liver mutagenesis, carbon tetrachloride was administered at 80 mg/kg by i. The percent of hepatocytes labeling with BrdU during the last 2 hours before sacrifice peaked at 59 times that of the controls at 3 days after treatment and returned to control levels by day 7. A small increase in mutant frequency, considered biologically insignificant by the authors, was seen. The mutant frequencies for six of the nine carbon tetrachloride-treated animals were within the control range (53 Ч 10-6­100. The mutant frequencies for the other three mice exceeded the upper end of the control range by 3­ 49%. The authors concluded that no biologically significant increase in the mutant frequency was seen in the carbon tetrachloride-treated mice. Although a historical control range for the Hayashi and Motohashi lab was not presented, the range for the concurrent controls was 5. Using this as a historical control, no treatment group exceeded twofold that of the control and only one treated animal in the study was outside of this range. As a caveat, the numbers of animals used in the three studies were small, and the dosing and sampling protocols did not follow those currently recommended (Lambert et al. However, the results of these three in vivo studies are consistent and provide no evidence for the formation of carbon tetrachloride-induced mutations in the liver following acutely toxic doses. Half of the animals had been previously treated with 3-methylcholanthrene to induce hepatic metabolism. Since the livers of the treatment groups were pooled for analysis, no measure of variability or statistical significance could be established. In addition, although the article mentions that the counts per minute (cpm) of the samples was at least twice that of the background, there is no mention of controls nor information on how the samples were corrected for radioactivity in the control samples. Three samples, each comprised of one rat liver or the pooled livers from 10 mice, were measured per experimental group. A small but significant increase in radiocarbon binding was seen in both the mouse and rat samples in this experiment. In another series of experiments, mice previously treated with phenobarbital or 3-methylcholanthrene to induce hepatic metabolism were administered carbon tetrachloride at 1.

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As children begin to relate cause and effect medicine hollywood undead purchase ritonavir 250 mg otc, painful procedures make lasting impressions; be considerate by limiting painful procedures and adequately treating pain 3 symptoms for diabetes ritonavir 250 mg with mastercard. The rapid increase in language means they will understand much of what you say if simple terms are used iii medicine that makes you throw up safe ritonavir 250 mg. Do not waste time trying to use logic to convince preschoolers; they are concrete thinkers symptoms knee sprain purchase 250 mg ritonavir amex,; avoid frightening or misleading comments vii medicine youtube buy 250mg ritonavir amex. Children with chronic illness or disabilities begin to be very self-conscious iii treatment for pneumonia discount ritonavir 250mg on line. With patients loosing baby teeth and getting adult teeth, one must be particularly careful when intubating ii. School aged children can understand simple explanations for illness and treatments iii. Reassure children that everything is going to be all right, if appropriate, and that they are not going to die vi. Relationships generally transition from mostly same sex ones to those with the opposite sex d. History (age, preceding symptoms, choking episode, underlying disease, sick contacts, prematurity) b. Physical findings (mental status, respiratory rate, pulse oximetry, capnometry, work of breathing, color, heart rate, degree of aeration, presence of stridor or wheeze) 4. Chronic lung disease that usually occurs in infants form born prematurely and treated with positive pressure ventilation and high oxygen concentrations b. Recurrent respiratory infections and exercise induced bronchospasm are complications c. Inhaled medicationsbronchodilators (albuterol, ipratropium, racemic epinephrine) v. Oral and intramuscular medications (prednisolone, dexamethasone)Corticosteroids vi. History (fever, vomiting, diarrhea, urine output, fluid intake, blood loss, allergic symptoms, burns, accidental ingestion) b. Physical findings (heart rate, blood pressure, capillary refill, color, petechiae, mental status, mucous membranes, skin turgor, face/lip/tongue swelling) 4. Anaphylactic: subcutaneous epinephrine, intravenous antihistamines (diphenhydramine, ranitidine), and intravenous steroids d. History (age, sweating while feeding, cyanotic episodes, difficulty breathing, syncope, prior cardiac surgery, poor weight gain) a. Physical findings (heart rate, blood pressure, capillary refill, color, mental status, cardiac murmurs/rubs/gallops, pulse oximetry, 4 extremity blood pressures) c. Causes of altered mental status in children (trauma, toxins, infection, electrolyte or glycemic imbalance, intussusception, seizure, uremia, intracranial bleed, intracranial mass) b. History (age, fever, vomiting, photophobia, headache, prior seizures, extremity shaking, staring episodes, trauma, ataxia, ingestions, oral intake, bloody stool, urine output, baseline developmental level) b. Medications for intubation (thiopental, etomidate, lidocaine, non-depolarizing muscle relaxants) Page 339 of 385 ii. History (polyuria, polydipsia, weight loss, visual changes, poor feeding, abnormal odors, growth delays) b. Physical findings (heart rate, blood pressure, mucous membranes, mental status, virilization, frontal bossing, blindness) c. Administration of stress dose steroids for cortisol deficiency Hematologic/Oncologic/Immunoloic 1. History (chest pain, weakness, abdominal pain, extremity pain, trauma, bleeding, swollen joints, swollen glands, fever, bruising) Page 340 of 385 G. Physical findings (all vital signs, lung sounds, extremity tenderness, signs of active bleeding, bruises, joint swelling, lympadenopathy, capillary refill) c. History (blood or bile in emesis, diarrhea, age, gender, constipation, fever, medications, tolerance of gastrostomy tube feeds, prematurity, blood type incompatibility, epistaxis, liver disease) b. Physical findings (heart rate, blood pressure, mucous membranes, icterus, capillary refill, blood in nares, abdominal distention or mass, hepatomegaly, pallor, anal fissure) c. School age (infectious enteritis, juvenile polyps, hemolytic uremic syndrome, Henoch Schonlein purpura) iii. History (time of ingestion/exposure, amount ingested, abnormal symptoms, bottles/containers available) b. Specific toxidromes (anticholinergics, cholinergics, opiates, benzodiazepines, sympathomimetics, beta-blockers, calcium channel blockers, salicylate, tricyclic antidepressants) b. Page 343 of 385 Special Patient Population Geriatrics Paramedic Education Standard Integrates assessment findings with principles of pathophysiology and knowledge of psychosocial needs to formulate a field impression and implement a comprehensive treatment/disposition plan for patients with special needs. Normal changes associated with aging primarily occur due to deterioration of organ systems; B. Pathological changes in the elderly are sometimes difficult to discern from normal aging changes. Temperature Sensory perception ­ including audio, visual, olfactory, touch and pain 3. Liver function decreases with increased potential for drug toxicity Genitourinary 1. Reduction in renal function due to decreased blood flow and tubule degeneration 2. Pain Perception - inability to differentiate hot from cold Pharmacokinetic change A. Consider polypharmacy as a reason for problems Psychosocial and economic aspects A. May present with only dyspnea, acute confusion (delirium), syncope, weakness or nausea and vomiting B. Peripheral edema is frequently present in elderly patients with or without failure and may signify a variety of conditions 4. Transient reduction in blood flow to the brain due to cardiac output drop for any reason d. Presentation can include dyspnea, congestion, altered mental status, or abdominal pain. Anxiety and fear of treatment of current medical problems Delirium- a sudden change in behavior, consciousness, or cognitive processes generally due to a reversible physical ailment. Evaluation of pathophysiology through history, possible risk factors, and current medications a. Evaluation of pathophysiology through history, possible risk factors, and current medications. Alcohol/ Cirrhosis of the Liver Medications in use: nonsteroidal anti-inflammatory drugs, warfarin i. Venous access- care should be taken to avoid use of indwelling fistulas or shunt unless necessary in cardiac events. Diffuse tenderness on palpation of abdomen, with distention, guarding, or masses; upon auscultation high pitched noises k. Blood pressures, lying, sitting, and standing noting any change of 10 mm/Hg or more lower as the patient moves to an upright position d. Pulses, lying, sitting, and standing noting any change of 10 beats per minute more higher as the patient moves to an upright position. Evaluation of patient treatment through reassessment Biliary disease is disorders of the liver and gallbladder. Evaluation of patient treatment through reassessment Chronic Renal Failure- is the inability of the kidneys to excrete waste, concentrate urine, or control electrolyte balance in the body. Medications that damage the kidneys: antibiotics, nonsteroidal anti-inflammatory drugs, anticancer drugs 2. Diabetes Mellitus- an inability of the pancreas to produce a sufficient amount of insulin causing hyperglycemia. Hyperglycemia: plasma levels greater than 200 mg/dl, fasting levels of greater than 126 mg/dl iii. Diaphoresis, pale skin, poor skin turgor; pale, dry, oral mucosa, furrowed tongue iii. This causes the cells to burn fat, which causes the body to create ketones and ketoacids. Warm, flushed skin, (even though the patient can be hypothermic) poor skin turgor; pale, dry, oral mucosa, furrowed tongue iii. Warm, flushed skin, poor skin turgor; pale, dry, oral mucosa, furrowed tongue iii. Evaluation of patient treatment through reassessment Hypothyroidism-is destruction of the thyroid tissue over time that causes an insufficient amount of thyroid hormone in the blood. Myxedema coma is a premorbid consequence of hypothyroidism in the elderly caused by a recent history of surgery, hypothermia, infection, hypoglycemia, and sedative use. Oxygen with adjuncts appropriate to patient condition; may necessitate aggressive management iii. Type I osteoporosis is seen in post menopausal women due to the decline in estrogen and most commonly causes radial and hip fractures. Osteoarthritis- is a progressive disease from repetitive trauma to the joints causing destruction of the cartilage. Rheumatoid Arthritis is an autoimmune disorder that affects the joints of the body. Rheumatoid causes inflammation of the joints, resulting in pain and instability of the joints. The changes in the immunological system of the elderly make them more prone to infections and exacerbations of chronic disease processes. These infections compounded by an inability, due to ageing of the hypothalamus, may not produce a fever in the face of an immunological insult such as a viral, bacterial, or occult infection. Page 360 of 385 Special Patient Population Patients with Special Challenges Paramedic Education Standard Integrates assessment findings with principles of pathophysiology and knowledge of psychosocial needs to formulate a field impression and implement a comprehensive treatment/disposition plan for patients with special needs. Role of the Prehospital Professional (scene assessment, assessment of the caregiver, communication with the caregiver, documentation, reporting suspected abuse/neglect, safely transporting one or more injured children) 2. Prevention strategies will likely be absent, increasing the probability of disease D. It is estimated that 41 million Americans and one-third of people living in poverty have no health insurance, and insurance coverage held by many others would not carry them through a catastrophic illness F. Financial challenges for health care can quickly result from loss of a job and depletion of savings G. Financial challenges combined with medical conditions that require uninterrupted treatment. In addition, poor health is closely associated with homelessness, where rates of chronic or acute health problems are extremely high I. People with financial challenges are often apprehensive about seeking medical care 2. When caring for a patient with financial challenges who is concerned about the cost of receiving needed health care, explain the following: a. Free (or near-free) health care services are available through local, state, and federally-funded organizations 3. In cases where no life-threatening condition exists, counsel the patient with financial challenges about alternative facilities for health care that do not require ambulance transport for emergency department evaluation 4. Impaired or insufficient development of the brain that causes an inability to learn at the usual rate (developmental delay) B. Social interaction Accommodations that may be necessary when providing patient care include allowing adequate time for obtaining a history, performing assessment and patient management procedures, and preparing the patient for transport Down Syndrome 1. Genetic conditions a) Phenylketonuria b) Chromosomal disorder c) Fragile X syndrome ii. Problems during pregnancy a) Use of alcohol or other drugs by the mother b) Use of tobacco c) Illness and infection iii. Problems after birth a) Childhood diseases b) Injury c) Exposure to lead, mercury, and other environmental toxins v. Poverty and cultural deprivation a) Malnutrition b) Disease-producing conditions c) Inadequate medical care d) Environmental health hazards e) Lack of stimulation Special considerations Physical Needs/Challenges A. Speech impairments include disorders of language, articulation, voice production, or fluency (blockage of speech), all of which can lead to an inability to communicate effectively 2. Both paraplegia and quadriplegia are accompanied by a loss of sensation and may have loss of urinary and or bowel control 4. Patients with extremity and trunk paralysis may require accommodations in patient care b. Additional manpower may be needed to move special equipment and prepare patient for transport. Psychological aspects of providing care to these patients include an emphasis on the following: a. Overview Paramedics will care for terminally ill patients (patients with advanced 1. Hospice Care-the goal of hospice care is comfort during the end of a terminal illness Special considerations 1. Care of a terminally ill patient will often be primarily supportive and limited to calming and comfort measures, and perhaps transport for physician evaluation 2. Examine the patient for the presence of transdermal drug patches or other pain-relief devices 3. Comprises a group of mental disorders in which the individual loses contact with reality 2. Thought to be related to complex biochemical disease that disorders brain function 3.

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Third symptoms you have worms purchase ritonavir 250 mg line, despite the intense effort to determine how macrophages affect atherosclerosis medicine ball exercises buy ritonavir 250 mg mastercard, there is a remarkable number of fundamental issues that remain mysterious symptoms 11 dpo best 250 mg ritonavir. For example treatment 12th rib syndrome 250mg ritonavir overnight delivery, we are far from understanding how the most obvious and distinguishing feature of lesional macrophages medications during pregnancy generic 250 mg ritonavir with mastercard, lipid loading treatment naive definition purchase 250 mg ritonavir mastercard, precisely affects macrophage biology and atherosclerotic processes. Solving these mysteries will require a combination of innovative ideas and new and improved methods of investigation. Finally, investigators in the field must continually evaluate how work in this area can be translated into new and useful therapeutic strategies. Even as we continue to attack the unsolved mysteries in this area, there are already an abundance of plausible targets. However, there are two rate-limiting steps: specificity issues, particularly with regard to the possibility of compromising host defense, and the feasibility of evaluating the effectiveness of arterial wall-based therapy in humans without the requirement for long and costly clinical trials that rely on delayed disease endpoints. The former area is likely to benefit from innovative drug delivery systems, such as arterial wall-targeted nanoparticles, and the latter from new imaging procedures focused on the features of the vulnerable plaque. As is the case with the identification of the targets themselves, Cell 145, April 29, 2011 Є2011 Elsevier Inc. The authors acknowledge invaluable discussions with members of their laboratories and colleagues in the field. The stromal cell-derived factor-1 chemokine is a potent platelet agonist highly expressed in atherosclerotic plaques. Inflammatory monocytes recruited after skeletal muscle injury switch into antiinflammatory macrophages to support myogenesis. Role of polymorphonuclear neutrophils in atherosclerosis: Current state and future perspectives. A novel function of lipoprotein [a] as a preferential carrier of oxidized phospholipids in human plasma. Dendritic cells in atherosclerosis: current status of the problem and clinical relevance. Tumor necrosis factoralpha promotes macrophage-induced vascular smooth muscle cell apoptosis by direct and autocrine mechanisms. Safety of anacetrapib in patients with or at high risk for coronary heart disease. Identification of antigen-presenting dendritic cells in mouse aorta and cardiac valves. Leukocytosis and ischemic vascular disease morbidity and mortality: is it time to intervene? Age-accelerated atherosclerosis correlates with failure to upregulate antioxidant genes. Beyond high-density lipoprotein cholesterol levels evaluating high-density lipoprotein function as influenced by novel therapeutic approaches. Matrix metalloproteinase-13/collagenase-3 deletion promotes collagen accumulation and organization in mouse atherosclerotic plaques. Inflammation in atherosclerosis: visualizing matrix metalloproteinase action in macrophages in vivo. Atherosclerosis drug development in jeopardy: the need for predictive biomarkers of treatment response. Increased expression of matrix metalloproteinases and matrix degrading activity in vulnerable regions of human atherosclerotic plaques. Myeloid type I interferon signaling promotes atherosclerosis by stimulating macrophage recruitment to lesions. Interleukin-10 overexpression in macrophages suppresses atherosclerosis in hyperlipidemic mice. Advanced atherosclerotic foam cell formation has features of an acquired lysosomal storage disorder. Identification of a novel macrophage phenotype that develops in response to atherogenic phospholipids via Nrf2. Disrupting functional interactions between platelet chemokines inhibits atherosclerosis in hyperlipidemic mice. Macropinocytosis is the endocytic pathway that mediates macrophage foam cell formation with native low density lipoprotein. Defective phagocytosis of apoptotic cells by macrophages in atherosclerotic lesions of ob/ob mice and reversal by a fish oil diet. Reduced macrophage apoptosis is associated with accelerated atherosclerosis in low-density lipoprotein receptor-null mice. Executive summary: heart disease and stroke statistics-2010 update: a report from the American Heart Association. Increased endoplasmic reticulum stress in atherosclerotic plaques associated with acute coronary syndrome. Catheter-based adenovirus-mediated anti-monocyte chemoattractant gene therapy attenuates in-stent neointima formation in cynomolgus monkeys. Resident intimal dendritic cells accumulate lipid and contribute to the initiation of atherosclerosis. Suppressed monocyte recruitment drives macrophage removal from atherosclerotic plaques of Apoe-/- mice during disease regression. Decreased atherosclerosis in low-density lipoprotein receptor knockout mice transplanted with Abcg1-/- bone marrow. Animal models of spontaneous plaque rupture: the holy grail of experimental atherosclerosis research. High-density lipoprotein heterogeneity and function in reverse cholesterol transport. A soluble form of the Mer receptor tyrosine kinase inhibits macrophage clearance of apoptotic cells and platelet aggregation. Matrix-metalloproteinase-14 deficiency in bone-marrow-derived cells promotes collagen accumulation in mouse atherosclerotic plaques. Genetically programmed biases in Th1 and Th2 immune responses modulate atherogenesis. Resolving inflammation: dual anti-inflammatory and pro-resolution lipid mediators. Granulocyte macrophage colony-stimulating factor regulates dendritic cell content of atherosclerotic lesions. Molecular mechanisms integrating pathways of endoplasmic reticulum stress-induced apoptosis. Lipoprotein lipase and sphingomyelinase synergistically enhance the association of atherogenic lipoproteins with smooth muscle cells and extracellular matrix. A possible mechanism for low density lipoprotein and lipoprotein(a) retention and macrophage foam cell formation. The impact of macrophage insulin resistance on advanced atherosclerotic plaque progression. Impaired development of atherosclerosis in Abcg1-/- Apoe-/- mice: identification of specific oxysterols that both accumulate in Abcg1-/- Apoe-/- tissues and induce apoptosis. Oxidation, lipoproteins, and atherosclerosis: which is wrong, the antioxidants or the theory? The oxidative modification hypothesis of atherosclerosis: does it hold for humans? Increased cellular free cholesterol in macrophage-specific Abca1 knock-out mice enhances pro-inflammatory response of macrophages. By this ointment all wounds are healed; anointing the instrument by which the wound was made, once a day, every day, if the wound be great, otherwise, if the wound be small, once every second or third day may suffice. The weapon is to be kept wrapt up in a clean linen cloth, and in a place not too hot, lest the patient suffers thereby. They chose those who had met violent death, for the reason that those dying of disease would sow the germs of destruction. To cure quartans (fever) and the gout, take the said hair and nails, cut small and either give them to birds in a roasted egg, or put them into a hole bored into the body of an oak tree, or else mix them with wax, and stitch it to a live crab, casting it into the river again. The above are but the survival of the old superstition "The hair of the dog that bit you will heal the wound. On page 37 he says: "A pleurisy terminates either in a cure, in other diseases, or in death. On page 159 he says: "In a medical or chemical point of view, animals are inferior in rank to vegetables, as neither affording remedies of such power, nor consisting of so many distinct principles, as the latter. In general, we only mention those substances which are, or rather have been, kept in the shops. The powder is used in epilepsy; those which have been long buried are to be preferred; and some even limit the effect to that triangular bone called the os triquetrum (os triangulare, cuneiform bone of the wrist). Hundreds of scientists are devoting their lives to the study of bacteriology, germ investigation, a microscopical branch of biology, in order to determine their relation to health and disease, not realizing that life action is due to the combination of intelligence and matter, spirit manifestation through material. The theory is, the serum of one animal when introduced into the blood of another may destroy or modify the form, nature and structure of the red corpuscles. Disease is a disturbed condition, functions performed abnormally, in too great a degree or not enough, it is not something foreign to the body which by some means enters it; it is not a thing of enmity which we have to fight. Disease does not involve any new functional expression which it did not already possess. The amount of energy stored for future use depends upon the condition of the organ as a storage receptacle. Energy is the latent power or force in an organ, which when released creates action. Energy is aroused by a motor impulse; if the impulse is normal in force then the normal amount of energy is expended. Disease is abnormal functioning-not enough or too much action-too much or not enough life. In all diseases we find an excess of, or a diminished amount of energy (force) expended. In one lesson I cannot fully cover the cause of disease, as it takes in a large amount of chiropractic education in principles and facts regarding the science of biology. It is an intelligent force, which I saw fit to name Innate, usually known as spirit. It creates and continues life when the vital organs are in a condition to be acted upon by that intelligence. Medical dictionaries, pathological and orthopedic works describe definitely the malformation of the bones, degeneration of the organs, general feverishness and abnormal functionating. Rachitis, or rickets, is a disease of early childhood characterized by defective nutrition of the entire body and alterations in the growing bones. The prominent symptoms are restlessness, fever, profuse sweating, and general sensitiveness associated with characteristic skeletal lesions. The head becomes bulky, the spinal column curved, the sternum projected and the long bones bent. When it becomes generally known that heat is a function of nerves, chiropractic beams of enlightenment will revolutionize the practice of medicine and make visible that which is now obscure. A natural insight of your teacher untrammeled by superstition or education, assisted by revelation and an investigation from a chiropractic viewpoint has enabled him to throw an illuminating light on the etiology of this heretofore mysterious disease. It is my desire to make you and the world acquainted with the etiology of this well-known disease, characterized by disorders of the digestive system and alterations in the shape and structure of bones. Osteomalacia and rickets are similar in some respects and yet quite dissimilar in others. The former is present while bones are being constructed, while the latter is only found after bones are formed. The structure of all tissue, more especially that of nerve, is modified as age advances. The same pressure upon, or tension of the same nerves at different ages, produce quite different effects, which are classed as different diseases. No two of us look alike, no two have nerves of the same quality in health, while in disease these differences are augmented. The primary and secondary qualities of the nervous system differ in individuals regarding their size, figure, number, situation, molecular action, and more especially in intellectual perception, the quality and character of which is formed by contact with the five senses of consciousness. Those of a child are composed of three parts gelatine and one part phosphate of lime, bone matter; in old age the proportion is reversed, one part gelatine to three parts of bone material. Herein is the reason why the bones of the aged do not knit so readily when fractured as in those of younger years. Hyperthymia, excessive heat, temperature above normal, creates a larger per cent of the red corpuscles and a corresponding inadequate number of the white corpuscles. This increase of the erythrocytes and the lessening of leukocytes has a tendency to soften all tissue, more noticeably bones and nerves. The normal per cent of the red and white corpuscles are variously given as 300 to 600 of the red to one of the white. The corpuscles are the solid portion of the blood and constitute about one-third to one-half of the blood. In fever there is an increase of the colored and a lessening of the colorless corpuscles; during convalescence this order is reversed. In the healing of wounds and fractures the temperature of the body is physiologically increased in order to produce plastic material, which is cartilage-like, known as callus, the osseous substance deposited in and around the divided portions of a fractured bone. Poisons change the relative per cent of the red and white corpuscles, whether more or less depends upon the increase or decrease of organic function. Poisons affect nerves, cause a greater or lessened tension, raise or lower the temperature, modify the per cent of red and white corpuscles. Excess of heat makes it unfavorable for their existence and favorable for the red. If the temperature falls below normal, remaining so for a time, there will be an excess of the leukocytes and a lessening of the erythrocytes. A very high temperature causes an increase in the vascular circulation and all increased tension of the nervi vasorum (nerves distributed to the walls of blood vessels) in the perivascular (around) tissue. Varying degrees of temperature represent a corresponding rate of molecular oscillation, a greater or less vibration of atoms. Substances known as poison are noxious because of their exciting or depressing effects on the nervous system and their adaptation to modify functions; for this reason and for such a purpose physicians prescribe drugs.

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