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AIDS Essay Research Paper AIDS

Aids Essay, Research Paper


AIDS – What’s new ?


——————-


Is the message getting through? We already know enough about AIDS to


prevent its spread, but ignorance, complacency, fear and bigotry continue to


stop many from taking adequate precautions.


We know enough about how the infection is transmitted to protect ourselves


from it without resorting to such extremes as mandatory testing, enforced


quarantine or total celibacy. But too few people are heeding the AIDS


message. Perhaps many simply don’t like or want to believe what they hear,


preferring to think that AIDS “can’t happen to them.” Experts repeatedly


remind us that infective agents do not discriminate, but can infect any and


everyone. Like other communicable diseases, AIDS can strike anyone. It is not


necessarily confined to a few high-risk groups. We must all protect ourselves


from this infection and teach our children about it in time to take effective


precautions. Given the right measures, no one need get AIDS.


The pandemic continues:


———————–


Many of us have forgotten about the virulence of widespread epidemics, such


as the 1917/18 influenza pandemic which killed over 21 million people,


including 50,000 Canadians. Having been lulled into false security by modern


antibiotics and vaccines about our ability to conquer infections, the Western


world was ill prepared to cope with the advent of AIDS in 1981. (Retro-


spective studies now put the first reported U.S. case of AIDS as far back as


1968.) The arrival of a new and lethal virus caught us off guard. Research


suggests that the agent responsible for AIDS probably dates from the 1950s,


with a chance infection of humans by a modified Simian virus found in African


green monkeys. Whatever its origins, scientists surmise that the disease


spread from Africa to the Caribbean and Europe, then to the U.S. Current


estimates are that 1.5 to 2 million Americans are now probably HIV carriers,


with higher numbers in Central Africa and parts of the Caribbean.


Recapping AIDS – the facts:


—————————


AIDS is an insidious, often fatal but less contagious disease than measles,


chicken pox or hepatitis B. AIDS is thought to be caused primarily by a virus


that invades white blood cells (lymphocytes) – especially T4-lymphocytes or


T-helper cells – and certain other body cells, including the brain. In 1983


and 1984, French and U.S. researchers independently identified the virus


believed to cause AIDS as an unusual type of slow-acting retrovirus now


called “human immunodeficiency virus” or HIV. Like other viruses, HIV is


basically a tiny package of genes. But being a retrovirus, it has the rare


capacity to copy and insert its genes right into a human cell’s own chromo-


somes (DNA). Once inside a human host cell the retrovirus uses its own


enzyme, reverse transcriptase, to copy its genetic code into a DNA molecule


which is then incorporated into the host’s DNA. The virus becomes an integral


part of the person’s body, and is subject to control mechanisms by which it


can be switched “on” or “off”. But the viral DNA may sit hidden and inactive


within human cells for years, until some trigger stimulates it to replicate.


Thus HIV may not produce illness until its genes are “turned on” five, ten,


fifteen or perhaps more years after the initial infection.


During the latent period, HIV carriers who harbour the virus without any


sign of illness can unknowingly infect others. On average, the dormant virus


seems to be triggered into action three to six years after first invading


human cells. When switched on, viral replication may speed along, producing


new viruses that destroy fresh lymphocytes. As viral replication spreads, the


lymphocyte destruction virtually sabotages the entire immune system. In


essence, HIV viruses do not kill people, they merely render the immune system


defenceless against other “opportunistic: infections, e.g. yeast invasions,


toxoplasmosis, cytomegalovirus and Epstein Barr infections, massive herpes


infections, special forms of pneumonia (Pneumocystis carinii – the killer in


half of all AIDS patients), and otherwise rare malignant tumours (such as


Kaposi’s sarcoma.)


Cofactors may play a crucial contributory role:


———————————————–


What prompts the dormant viral genes suddenly to burst into action and


start destroying the immune system is one os the central unsolved challenges


about AIDS. Some scientists speculate that HIV replication may be set off by


cofactors or transactivators that stimulate or disturb the immune system.


Such triggers may be genetically determined proteins in someone’s system, or


foreign substances from other infecting organisms – such as syphilis,


chlamydia, gonorrhea, HTLV-1 (leukemia), herpes, or CMV (cytomegalovirus) -


which somehow awaken the HIV virus. The assumption is that once HIV


replication gets going, the lymphocyte destruction cripples the entire immune


system. Recent British research suggest that some people may have a serum


protein that helps them resist HIV while others may have one that makes them


genetically more prone to it by facilitating viral penetration of T-helper


cells. Perhaps, says one expert, everybody exposed to HIV can become


infected, but whether or not the infection progresses to illness depends on


multiple immunogenic factors. Some may be lucky enough to have genes that


protect them form AIDS!


Variable period until those infected develop antibodies:


——————————————————–


While HIV hides within human cells, the body may produce antibodies, but,


for reasons not fully understood, they don’t neutralise all the viruses. The


presence of HIV antibodies thus does not confer immunity to AIDS, nor prevent


HIV transmission. Carriers may be able to infect others. The usual time taken


to test positive for HIV antibodies after exposure averages from four to six


weeks but can take over a year. Most experts agree that within six months all


but 10 per cent of HIV-infected people “seroconvert” and have detectable


antibodies.


While HIV antibody tests can indicate infection, they are not foolproof.


The ELISA is a good screening test that gives a few “false positives” and


more “false negatives” indicating that someone who is infected has not yet


developed identifiable antibodies.) The more specific Western Blot test, done


to confirm a positive ELISA, is very accurate. However, absence of antibodies


doesn’t guarantee freedom form HIV, as someone may be in the “window period”


when, although already infected, they do not yet have measurable levels of


HIV antibodies. A seropositive result does not mean someone has AIDS; it


means (s)he is carrying antibodies, may be infectious and may develop AIDS at


some future time. As to how long seropositive persons remain infectious, the


June 1987 Third International Conference on AIDS was told to assume “FOR


LIFE”.


What awaits HIV-carriers who test positive?:


——————————————–


On this issue of when those who test HIV positive will get AIDS, experts


think that the fast track to AIDS is about two years after HIV infection; the


slow route may be 10, 15, or more years until symptoms appear. Most


specialists agree that it takes at least two years to show AIDS symptoms


after HIV infection, and that within ten years as many as 75 per cent of


those infected may develop AIDS. A report from Atlanta’s CDC based on an


analysis of blood collected in San Francisco from 1978 to 1986, showed a


steady increase with time in the rate of AIDS development among HIV-infected


persons – 4 percent within three years; 14 percent after five years; 36


percent after seven years. The realistic, albeit doomsday view is that 100


percent of those who test HIV-positive may eventually develop AIDS.


Still spread primarily by sexual contact:


—————————————–


AIDS is still predominantly a sexually transmitted disease: The other main


route of HIV infection is via contaminated blood and shared IV needles. Since


the concentration of virus is highest in semen and blood, the most common


transmission route is from man to man via anal intercourse, or man to woman


via vaginal intercourse. Female HIV carriers can infect male sex partners.


Sm

all amounts of HIV have been isolated from urine, tears, saliva, cereb-


rospinal and amniotic fluid and (some claim) breast milk. But current


evidence implicates only semen, blood, vaginal secretions and possibly breast


milk in transmission. Pregnant mothers can pass the infection to their


babies. While breastfeeding is a rare and unproven transmission route, health


officials suggest that seropositive mothers bottle feed their offspring.


AIDS is not confined to male homosexuals and the high risk groups: There


are now reports of heterosexual transmission – form IV drug users, hemo-


philiacs or those infected by blood transfusion to sexual partners. There are


a few reported cases of AIDS heterosexually acquired from a single sexual


encounter with a new, unknown mate. And there are three recent reports of


female-to-female (lesbian) transmissions.


Spread of AIDS among drug users alarming:


—————————————–


In many cities, e.g. New York and Edinburgh, where IV drug use is wide-


spread, IV drug users often share blood-contaminated needles. In New York,


more than 53 percent of drug users are HIV-infected and may transmit the


infection to the heterosexual population by sexual contact and transmission


from mother to child. Studies in Edinburgh, where 51 percent of drug users


are HIV-infected, show that providing clean needles isn’t enough to stem


infection. Even given free disposable needles, many drug abusers preferred


the camaraderie of shared equipment. Only with added teaching programs and


free condom offers, are educational efforts likely to pay off. In New Jersey,


offering free treatment coupons plus AIDS education brought 86 percent of


local drug users to classes. A San Francisco program issued pocket-size


containers of chlorine bleach to IVDAs with instructions on how to kill HIV


viruses. The Toronto Addiction Research Foundation notes a similar demand for


AIDS information.


Risk of infection via blood transfusion very slight:


—————————————————-


Infection by blood transfusion is very rare in Canada today. As of November


1985, the Red Cross, which supplies all blood and blood products to Canadian


hospitals, had routinely tested all blood donations for the HIV antibody. In


1986, when we last discussed AIDS, the Red Cross reported the incidence of


HIV-positive blood samples as 25 in 100,000. Now, at the start of 1988, only


10 per 100,000 blood samples are found to be infected – which, of course, are


discarded. Only a tiny fraction of HIV-positive blood (from HIV-infected


people who haven’t yet developed detectable antibodies) can now slip through


the Red Cross screening procedure. The minimal risk is further decreased by


screening methods, medical history-taking, questionnaires and donor inter-


views. Very few people at risk of AIDS now come to give blood. The “self-


elimination form”, filled out in a private booth, allows any who feel


compelled by peer pressure to donate blood, total privacy to check the box


that says “Do not use my blood for transfusion.”


As to banking one’s own blood, or autologous donations, the Red Cross


permits a few “medically suitable” people, referred by their physician, to


store their blood if they are likely to need blood transfusion in upcoming


elective surgery. They can bank up to four units of blood, taken in the five


weeks before surgery.


Finally – it can be categorically stated – IT IS ABSOLUTELY IMPOSSIBLE TO


GET AIDS BY GIVING BLOOD!!!


Minimal risk to health care workers:


————————————


While health care personnel face a slight risk of HIV infection, all cases


reported to date have been due to potentially avoidable mishaps or failure to


follow recommended precautions. Of thousands caring for AIDS patients


worldwide, only a tiny percentage has become infected, and so far no Canadian


health personnel have become HIV-infected. A survey done by the Federal


Centre for AIDS (FCA) of 50 workers occupationally exposed to AIDS showed


that none became infected. A british hospital study on staff looking after


400 AIDS patients over several years found none who became HIV-positive. In


one U.S. survey, 7 out of 2,500 health care workers seroconverted and


developed HIV antibodies all by potentially avoidable accidents such as


needle pricks, exposure to large amounts of blood, body fluids spattered into


unprotected mouth, eyes or open sores. The reported mishaps underscore the


need for rigorous, vigilant compliance with preventive guidelines.


Universal body substance precautions (BSP) urged:


————————————————-


The newest guidelines suggest that every health care worker, including


dentists, should handle all blood and body fluids as if infectious. Testing


all patients for HIV is not practical and does not confer protection. Rely-


ing on tests that are not 100 per cent accurate would only induce a false


sense of security. Rather than trying to identify infected persons, the CDC


and Ottawa’s FCA now promote a philosophy that regards all patients as


potentially infected. (At Johns Hopkins in Baltimore, about six percent of


admissions to the Traumatic Emergency Unit recently tested HIV-positive.)


Hospital and health care workers (including those caring for patients at


home) are encouraged to “think AIDS” and protect themselves. All patients


should be handled in a way that minimizes exposure to blood and body fluids,


e.g. by always wearing gloves when touching open sores, mucous membranes,


taking blood, attending emergencies, putting in IV needles, touching blood-


soiled items, with scrupulous hand-washing between patients (and whenever


gloves are removed), wearing masks, eye protection, plastic aprons and gowns


when appropriate. Taking such precautions will not only protect against AIDS


but also against more infectious agents such as hepatitis B and some hospital


acquired infections. We are all being forced to remember stringent anti-


infection rules!


Absolutely no evidence of spread by casual contact:


—————————————————


All the research to date points to the fact that AIDS is not very easy to


catch. One University of Toronto microbiologist speculates that those with


high antibody counts are probably not very infectious. The most infectious


appear to be seemingly healthy persons carrying HIV without any sign of


disease as yet.


AIDS CANNOT BE PICKED UP CASUALLY via doorknobs, public washrooms, shared


school books, communion coups, cutlery or even by food handlers with open


cuts. A relatively weak virus, HIV is easily killed by a dilute 1 in 10


solution of Javex/bleach, rubbing alcohol and other disinfectants. Even where


parents or caregivers have cleaned up HIV-infected blood, vomit or feces, HIV


has not been transmitted. It is perfectly safe to share a kitchen, bathroom,


schoolroom or workbench with HIV-infected individuals. But it is inadvisable


to share toothbrushes, razors, acupuncture needles, enema equip-


ment or sharp gadgets, which could carry infected blood through the skin.


ORDINARY, NONSEXUAL WORKPLACE AND CHILDHOOD ACTIVITIES DON’T TRANSMIT AIDS.


The rare exception might be direct blood-to-blood contact via cuts or wounds


if infected blood (in considerable amounts) spills onto an open sore. Even in


such cases a swab with dilute bleach can kill HIV viruses.


Not spread by mosquitoes and other insects:


——————————————-


There’s no evidence of HIV transmission by insects. Researchers report that


the AIDS virus cannot multiply or survive inside a mosquito. The infection


pattern in Africa – where children who are not sexually active might be


expected to have AIDS if mosquito bites were a real threat – shows no sign of


insect transmission.


Vaccines still a way off:


————————-


Scientists caution that a safe, effective vaccine against HIV may be at


least a decade away, mainly because, like the influenza virus, HIV mutates


(changes structure) quickly, producing different strains. (Several different


HIV strains have already been isolated.) An ideal vaccine must be able to


stimulate neutralization of both “free” viruses and those hidden within


lymphocytes, such as T-helper cells. Researchers in various countries have


developed and are testing a fe

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