Thursday, July 30, 2009

The Management of Acute, Chronic and Cancer Pain

For thousands of years, doctors have been helping to relieve their patients' pain with a variety of medications and treatments. Like other areas of medicine, a new subset of doctors have become specialists in treating pain. They are focused on managing all types of pain - studying what causes it, how the body reacts to it, how different medications dull or eliminate the pain, and how other treatments can be used to relieve many painful conditions.

What type of training does a pain medicine doctor have?
Like other physicians, anesthesiologists earned a college degree and then completed four years of medical school. They spent four more years learning the medical specialty of anesthesiology and pain medicine during residency training. Many anesthesiologists who specialize in pain medicine receive an additional year of fellowship training to become a "subspecialist," or an expert in treating pain. Some also have done research, and many have special certification in pain medicine through the American Board of Anesthesiology (ABA). The ABA is the only organization recognized by the American Board of Medical Specialties to offer special credentials in pain medicine.

MEDICATIONS FOR MANAGING PAIN

Due to rapid advances in medicine, a wide variety of medications and treatments are available for acute, chronic and cancer pain. Patients often will be prescribed medications before receiving other forms of therapy. In addition, your pain medicine doctor may conclude that a combination of medication and treatments may be right for you. Your therapy plan will be tailored to your specific needs and circumstances.

Your pain medicine doctor may suggest that you use certain over-the-counter pain relievers or may prescribe stronger medicine for your condition. DO NOT MIX PAIN PRESCRIPTION DRUGS WITH OVER-THE-COUNTER PAIN RELIEVERS WITHOUT CONSULTING YOUR DOCTOR. Advise your doctor if you are taking any herbal medicines or dietary supplements.

Common pain relievers - Nonaspirin pain relievers such as acetaminophen (Tylenol®) can relieve headaches and minor pain but do not reduce swelling. They are sometimes used in combination with other drugs to provide greater pain relief.

Anti-inflammatory drugs - Aspirin (Anacin®, Bayer®), coated or buffered aspirin (Ascripton®, Bufferin®) and aspirin with acetaminophen (Excedrin®) may be used to reduce swelling and irritation as well as to relieve pain. There also are non-steroidal anti-inflammatory drugs (NSAIDs, commonly called "N-sayeds") such as ibuprofen (Advil®, Motrin®) and naproxen (Aleve®). Anti-inflammatory drugs are used to relieve pain, inflammation and fever. There also are steroidal drugs (like cortisol and prednisone), available only by prescription, that are used to treat more serious inflammatory conditions such as chronic arthritis.

Opioid pain medications - Morphine-like drugs called opioids are prescribed to treat acute pain or cancer pain. They are occasionally used for certain chronic, noncancer pain as well.

Anti-depressants - These drugs were originally used only to treat depression. Studies now show, however, that they also can relieve certain pain. Available only by prescription, they often are used to help you sleep better at night.

Anti-seizure medicines - These medications are used to relieve what some patients describe as "shooting" pain by decreasing abnormal painful sensations caused by damaged nerves.

Other medicines - The doctor may also prescribe other types of medication that will be helpful for your specific pain problems. In addition, medications that counteract the side effects of opioids or treat the anxiety and depression associated with pain may also be prescribed.

Wednesday, July 29, 2009

Heart disease

Types of heart disease

Coronary heart disease

Main article: Coronary heart disease

Coronary artery disease is a disease of the artery caused by the accumulation of atheromatous plaques within the walls of the arteries that supply the myocardium. Angina pectoris (chest pain) and myocardial infarction (heart attack) are symptoms of and conditions caused by coronary heart disease.

Over 459,000 Americans die of coronary heart disease every year^[5]. In the United Kingdom, 101,000 deaths annually are due to coronary heart disease.^[6]

Cardiomyopathy

Main article: Cardiomyopathy

Cardiomyopathy literally means "heart muscle disease" (Myo= muscle, pathy= disease) It is the deterioration of the function of the myocardium (i.e., the actual heart muscle) for any reason. People with cardiomyopathy are often at risk of arrhythmia and/or sudden cardiac death.

Extrinsic cardiomyopathies - cardiomyopathies where the primary pathology is outside the myocardium itself. Most cardiomyopathies are extrinsic, because by far the most common cause of a cardiomyopathy is ischemia. The World Health Organization calls these specific cardiomyopathies^{[citation needed]}:
- Alcoholic cardiomyopathy
- Coronary artery disease
- Congenital heart disease - see below
- Nutritional diseases affecting the heart
- Ischemic (or ischaemic) cardiomyopathy
- Hypertensive cardiomyopathy
- Valvular cardiomyopathy - see also Valvular heart disease below
- Inflammatory cardiomyopathy - see also Inflammatory heart disease below
- Cardiomyopathy secondary to a systemic metabolic disease
Intrinsic cardiomyopathies - weakness in the muscle of the heart that is not due to an identifiable external cause.
- Dilated cardiomyopathy (DCM) - most common form, and one of the leading indications for heart transplantation. In DCM the heart (especially the left ventricle) is enlarged and the pumping function is diminished.
- Hypertrophic cardiomyopathy (HCM or HOCM) - genetic disorder caused by various mutations in genes encoding sarcomeric proteins. In HCM the heart muscle is thickened, which can obstruct blood flow and prevent the heart from functioning properly.
- Arrhythmogenic right ventricular cardiomyopathy (ARVC) - arises from an electrical disturbance of the heart in which heart muscle is replaced by fibrous scar tissue. The right ventricle is generally most affected.
- Restrictive cardiomyopathy (RCM) - least common cardiomyopathy. The walls of the ventricles are stiff, but may not be thickened, and resist the normal filling of the heart with blood. ** Noncompaction Cardiomyopathy - the left ventricle wall has failed to properly grow from birth and such has a spongy appearance when viewed during an echocardiogram.

Cardiovascular disease

Main article: Cardiovascular disease

Cardiovascular disease is any of a number of specific diseases that affect the heart itself and/or the blood vessel system, especially the veins and arteries leading to and from the heart. Research on disease dimorphism suggests that women who suffer with cardiovascular disease usually suffer from forms that affect the blood vessels while men usually suffer from forms that affect the heart muscle itself. Known or associated causes of cardiovascular disease include diabetes mellitus, hypertension, hyperhomocysteinemia and hypercholesterolemia.

Types of cardiovascular disease include:

Atherosclerosis

Ischaemic heart disease

Ischaemic heart disease - another disease of the heart itself, characterized by reduced blood supply to the organs.

Heart failure

Main article: Heart failure

Heart failure, also called congestive heart failure (or CHF), and congestive cardiac failure (CCF), is a condition that can result from any structural or functional cardiac disorder that impairs the ability of the heart to fill with or pump a sufficient amount of blood throughout the body. Therefore leading to the heart and body's failure.

Cor pulmonale, a failure of the right side of the heart.

Hypertensive heart disease

Main article: Hypertensive heart disease

Hypertensive heart disease is heart disease caused by high blood pressure, especially localised high blood pressure. Conditions that can be caused by hypertensive heart disease include:

Inflammatory heart disease

Inflammatory heart disease involves inflammation of the heart muscle and/or the tissue surrounding it.

Endocarditis - inflammation of the inner layer of the heart, the endocardium. The most common structures involved are the heart valves.
Inflammatory cardiomegaly
Myocarditis - inflammation of the myocardium, the muscular part of the heart.

Valvular heart disease

Main article: Valvular heart disease

Valvular heart disease is disease process that affects one or more valves of the heart. The valves in the right side of the heart are the tricuspid valve and the pulmonic valve. The valves in the left side of the heart are the mitral valve and the aortic valve.

AIDS

Acquired immune deficiency syndrome or acquired immunodeficiency syndrome (AIDS) is a disease of the human immune system caused by the human immunodeficiency virus (HIV).^[1]^[2]^[3]

This condition progressively reduces the effectiveness of the immune system and leaves individuals susceptible to opportunistic infections and tumors. HIV is transmitted through direct contact of a mucous membrane or the bloodstream with a bodily fluid containing HIV, such as blood, semen, vaginal fluid, preseminal fluid, and breast milk.^[4]^[5]

This transmission can involve anal, vaginal or oral sex, blood transfusion, contaminated hypodermic needles, exchange between mother and baby during pregnancy, childbirth, breastfeeding or other exposure to one of the above bodily fluids.

AIDS is now a pandemic.^[6] In 2007, it was estimated that 33.2 million people lived with the disease worldwide, and that AIDS had killed an estimated 2.1 million people, including 330,000 children.^[7] Over three-quarters of these deaths occurred in sub-Saharan Africa,^[7] retarding economic growth and destroying human capital.^[8]

Genetic research indicates that HIV originated in west-central Africa during the late nineteenth or early twentieth century.^[9]^[10] AIDS was first recognized by the U.S. Centers for Disease Control and Prevention in 1981 and its cause, HIV, identified in the early 1980s.^[11]

Although treatments for AIDS and HIV can slow the course of the disease, there is currently no vaccine or cure. Antiretroviral treatment reduces both the mortality and the morbidity of HIV infection, but these drugs are expensive and routine access to antiretroviral medication is not available in all countries.^[12] Due to the difficulty in treating HIV infection, preventing infection is a key aim in controlling the AIDS pandemic, with health organizations promoting safe sex and needle-exchange programmes in attempts to slow the spread of the virus.

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Back pain

Back pain (also known "dorsalgia") is pain felt in the back that usually originates from the muscles, nerves, bones, joints or other structures in the spine.

The pain can often be divided into neck pain, upper back pain, lower back pain or tailbone pain. It may have a sudden onset or can be a chronic pain; it can be constant or intermittent, stay in one place or radiate to other areas. It may be a dull ache, or a sharp or piercing or burning sensation. The pain may be felt in the neck (and might radiate into the arm and hand), in the upper back, or in the low back, (and might radiate into the leg or foot), and may include symptoms other than pain, such as weakness, numbness or tingling.

Back pain is one of humanity's most frequent complaints. In the U.S., acute low back pain (also called lumbago) is the fifth most common reason for physician visits. About nine out of ten adults experience back pain at some point in their life, and five out of ten working adults have back pain every year.^[1]

The spine is a complex interconnecting network of nerves, joints, muscles, tendons and ligaments, and all are capable of producing pain. Large nerves that originate in the spine and go to the legs and arms can make pain radiate to the extremities.

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Abortion

An abortion is the termination of a pregnancy by the removal or expulsion from the uterus of a fetus/embryo, resulting in or caused by its death. An abortion can occur spontaneously due to complications during pregnancy or can be induced, in humans and other species. In the context of human pregnancies, an abortion induced to preserve the health of the gravida (pregnant female) is termed a therapeutic abortion, while an abortion induced for any other reason is termed an elective abortion. The term abortion most commonly refers to the induced abortion of a human pregnancy, while spontaneous abortions are usually termed miscarriages.

Abortion has a long history and has been induced by various methods including herbal abortifacients, the use of sharpened tools, physical trauma and other traditional methods. Contemporary medicine utilizes medications and surgical procedures to induce abortion. The legality, prevalence, and cultural views on abortion vary substantially around the world. In many parts of the world there is prominent and divisive public controversy over the ethical and legal issues of abortion. Abortion and abortion-related issues feature prominently in the national politics in many nations often involving the opposing pro-life and pro-choice worldwide social movements. Incidence of abortion has declined worldwide, as access to family planning education and contraceptive services has increased. Abortion incidence in the United States declined 8% from 1996 to 2003.^[1]

Abortion methods

Gestational age may determine which abortion methods are practiced.

Medical

Main article: Medical abortion

"Medical abortions" are non-surgical abortions that use pharmaceutical drugs, and are only effective in the first trimester of pregnancy.^{[citation needed]} Medical abortions comprise 10% of all abortions in the United States^[13] and Europe.^{[citation needed]} Combined regimens include methotrexate or mifepristone, followed by a prostaglandin (either misoprostol or gemeprost: misoprostol is used in the U.S.; gemeprost is used in the UK and Sweden.) When used within 49 days gestation, approximately 92% of women undergoing medical abortion with a combined regimen completed it without surgical intervention.^[14] Misoprostol can be used alone, but has a lower efficacy rate than combined regimens. In cases of failure of medical abortion, vacuum or manual aspiration is used to complete the abortion surgically.

Surgical

A vacuum aspiration abortion at 8 weeks gestational age (6 weeks after fertilization).
1: Amniotic sac
2: Embryo
3: Uterine lining
4: Speculum
5: Vacurette
6: Attached to a suction pump

In the first 12 weeks, suction-aspiration or vacuum abortion is the most common method.^[15] Manual Vacuum aspiration (MVA) abortion consists of removing the fetus or embryo, placenta and membranes by suction using a manual syringe, while electric vacuum aspiration (EVA) abortion uses an electric pump. These techniques are comparable, and differ in the mechanism used to apply suction, how early in pregnancy they can be used, and whether cervical dilation is necessary. MVA, also known as "mini-suction" and "menstrual extraction", can be used in very early pregnancy, and does not require cervical dilation. Surgical techniques are sometimes referred to as 'Suction (or surgical) Termination Of Pregnancy' (STOP). From the 15th week until approximately the 26th, dilation and evacuation (D&E) is used. D&E consists of opening the cervix of the uterus and emptying it using surgical instruments and suction.

Dilation and curettage (D&C), the second most common method of abortion, is a standard gynecological procedure performed for a variety of reasons, including examination of the uterine lining for possible malignancy, investigation of abnormal bleeding, and abortion. Curettage refers to cleaning the walls of the uterus with a curette. The World Health Organization recommends this procedure, also called sharp curettage, only when MVA is unavailable.^[16] The term D and C, or sometimes suction curette, is used as a euphemism for the first trimester abortion procedure, whichever the method used.

Other techniques must be used to induce abortion in the second trimester. Premature delivery can be induced with prostaglandin; this can be coupled with injecting the amniotic fluid with hypertonic solutions containing saline or urea. After the 16th week of gestation, abortions can be induced by intact dilation and extraction (IDX) (also called intrauterine cranial decompression), which requires surgical decompression of the fetus' head before evacuation. IDX is sometimes called "partial-birth abortion," which has been federally banned in the United States. A hysterotomy abortion is a procedure similar to a caesarean section and is performed under general anesthesia. It requires a smaller incision than a caesarean section and is used during later stages of pregnancy.^[17]

From the 20th to 23rd week of gestation, an injection to stop the fetal heart can be used as the first phase of the surgical abortion procedure^[18]^[19]^[20]^[21]^[22] to ensure that the fetus is not born alive.^[23]

Other methods

Bas-relief at Angkor Wat, Cambodia, c. 1150, depicting a demon inducing an abortion by pounding the abdomen of a pregnant woman with a pestle.^[24]

Historically, a number of herbs reputed to possess abortifacient properties have been used in folk medicine: tansy, pennyroyal, black cohosh, and the now-extinct silphium (see history of abortion).^[25] The use of herbs in such a manner can cause serious — even lethal — side effects, such as multiple organ failure, and is not recommended by physicians.^[26]

Abortion is sometimes attempted by causing trauma to the abdomen. The degree of force, if severe, can cause serious internal injuries without necessarily succeeding in inducing miscarriage.^[27] Both accidental and deliberate abortions of this kind can be subject to criminal liability in many countries. In Southeast Asia, there is an ancient tradition of attempting abortion through forceful abdominal massage.^[28] One of the bas reliefs decorating the temple of Angkor Wat in Cambodia depicts a demon performing such an abortion upon a woman who has been sent to the underworld.^[28]

Reported methods of unsafe, self-induced abortion include misuse of misoprostol, and insertion of non-surgical implements such as knitting needles and clothes hangers into the uterus. These methods are rarely seen in developed countries where surgical abortion is legal and available.^[29]

What is Autism? What Causes Autism?

Autism is known as a complex developmental disability. Experts believe that Autism presents itself during the first three years of a person's life. The condition is the result of a neurological disorder that has an effect on normal brain function, affecting development of the person's communication and social interaction skills.

People with autism have issues with non-verbal communication, a wide range of social interactions, and activities that include an element of play and/or banter.

What is ASD?

ASD stands for Autism Spectrum Disorder and can sometimes be referred to as Autistic Spectrum Disorder. In this text Autism and ASD mean the same. ASDs are any developmental disabilities that have been caused by a brain abnormality. A person with an ASD typically has difficulty with social and communication skills.

A person with ASD will typically also prefer to stick to a set of behaviors and will resist any major (and many minor) changes to daily activities. Several relatives and friends of people with ASDs have commented that if the person knows a change is coming in advance, and has time to prepare for it; the resistance to the change is either gone completely or is much lower.

Autism is a wide-spectrum disorder

Autism (or ASD) is a wide-spectrum disorder. This means that no two people with autism will have exactly the same symptoms. As well as experiencing varying combinations of symptoms, some people will have mild symptoms while others will have severe ones. Below is a list of the most commonly found characteristics identified among people with an ASD.

Social skills

The way in which a person with an ASD interacts with another individual is quite different compared to how the rest of the population behaves. If the symptoms are not severe, the person with ASD may seem socially clumsy, sometimes offensive in his/her comments, or out of synch with everyone else. If the symptoms are more severe, the person may seem not to be interested in other people at all.

It is common for relatives, friends and people who interact with someone with an ASD to comment that the ASD sufferer makes very little eye contact. However, as health care professionals, teachers and others are improving their ability to detect signs of autism at an earlier age than before, eye contact among people with autism is improving. In many cases, if the symptoms are not severe, the person can be taught that eye contact is important for most people and he/she will remember to look people in the eye.

A person with autism may often miss the cues we give each other when we want to catch somebody's attention. The person with ASD might not know that somebody is trying to talk to them. They may also be very interested in talking to a particular person or group of people, but does not have the same skills as others to become fully involved. To put it more simply, they lack the necessary playing and talking skills.

Empathy - Understanding and being aware of the feelings of others

A person with autism will find it much harder to understand the feelings of other people. His/her ability to instinctively empathize with others is much weaker than other people's. However, if they are frequently reminded of this, the ability to take other people's feelings into account improves tremendously. In some cases - as a result of frequent practice - empathy does improve, and some of it becomes natural rather than intellectual. Even so, empathy never comes as naturally for a person with autism as it does to others.

Having a conversation with a person with autism may feel very much like a one-way trip. The person with ASD might give the impression that he is talking at people, rather than with or to them. He may love a theme, and talk about it a lot. However, there will be much less exchanging of ideas, thoughts, and feelings than there might be in a conversation with a person who does not have autism.

Almost everybody on this planet prefers to talk about himself/herself more than other people; it is human nature. The person with autism will usually do so even more.

Physical contact

A number of children with an ASD do not like cuddling or being touched like other children do. It is wrong to say that all children with autism are like that. Many will hug a relative - usually the mother, father, grandmother, grandfather, teacher, and or sibling(s) - and enjoy it greatly. Often it is a question of practice and anticipating that physical contact is going to happen. For example, if a child suddenly tickles another child's feet, he will most likely giggle and become excited and happy. If that child were to tickle the feet of a child with autism, without that child anticipating the contact, the result might be completely different.

Loud noises, some smells, and lights

A person with autism usually finds sudden loud noises unpleasant and quite shocking. The same can happen with some smells and sudden changes in the intensity of lighting and ambient temperature. Many believe it is not so much the actual noise, smell or light, but rather the surprise, and not being able to prepare for it - similar to the response to surprising physical contact. If the person with autism knows something is going to happen, he can cope with it much better. Even knowing that something 'might' happen, and being reminded of it, helps a lot.

Speech

The higher the severity of the autism, the more affected are a person's speaking skills. Many children with an ASD do not speak at all. People with autism will often repeat words or phrases they hear - an event called echolalia.

The speech of a person with ASD may sound much more formal and woody, compared to other people's speech. Teenagers with Asperger's Syndrome can sometimes sound like young professors. Their intonation may sound flat.

Repetitive behaviors

A person with autism likes predictability. Routine is his/her best friend. Going through the motions again and again is very much part of his/her life. To others, these repetitive behaviors may seem like bizarre rites. The repetitive behavior could be a simple hop-skip-jump from one end of the room to the other, repeated again and again for one, five, or ten minutes - or even longer. Another could be drawing the same picture again and again, page after page.

People without autism are much more adaptable to changes in procedure. A child without autism may be quite happy to first have a bath, then brush his teeth, and then put on his pajamas before going to bed - even though he usually brushes his teeth first. For a child with autism this change, bath first and then teeth, could completely put him/her out, and they may become very upset. Some people believe that helping a child with autism learn how to cope better with change is a good thing, however, forcing them to accept change like others do could adversely affect their quality of life.

A child with autism develops differently

While a child without autism will develop in many areas at a relatively harmonious rate, this may not be the case for a child with autism. His/her cognitive skills may develop fast, while their social and language skills trail behind. On the other hand, his/her language skills may develop rapidly while their motor skills don't. They may not be able to catch a ball as well as the other children, but could have a much larger vocabulary. Nonetheless, the social skills of a person with autism will not develop at the same pace as other people's.

Learning may be unpredictable

How quickly a child with autism learns things can be unpredictable. They may learn something much faster than other children, such as how to read long words, only to forget them completely later on. They may learn how to do something the hard way before they learn how to do it the easy way.

Physical tics and stimming

It is not uncommon for people with autism to have tics. These are usually physical movements that can be jerky. Some tics can be quite complicated and can go on for a very long time. A number of people with autism are able to control when they happen, others are not. People with ASD who do have tics often say that they have to be expressed, otherwise the urge does not stop. For many, going through the tics is enjoyable, and they have a preferred spot where they do them - usually somewhere private and spacious. When parents first see these tics, especially the convoluted ones, they may experience shock and worry.

Obsessions

People with autism often have obsessions.

Myths about autism

A person with autism feels love, happiness, sadness and pain just like everyone else. Just because some of them may not express their feelings in the same way others do, does not mean at all that they do not have feelings - THEY DO!! It is crucial that the Myth - Autistic people have no feelings - is destroyed. The myth is a result of ignorance, not some conspiracy. Therefore, it is important that you educate people who carry this myth in a helpful and informative way.

Not all people with autism have an incredible gift or savantism for numbers or music. People with autism are ordinary people... with autism.

All About Atrial Fibrillation

What is Atrial Fibrillation?

This is a file from Wikimedia Commons

The human heart has two upper chambers and two lower chambers. The upper chambers are called the left atrium and the right atrium - the plural of atrium is atria. The two lower chambers are the the left ventricle and the right ventricle. When the two upper chambers - the atria - contract at an excessively high rate, and in an irregular way, the patient has atrial fibrillation.

The term atrial fibrillation comes from the Latin words atrium, meaning "hall", fibrilla, meaning "small fiber", and atio, meaning "process".

According to Medilexicon's medical dictionary, atrial fibrillation is "fibrillation in which the normal rhythmic contractions of the cardiac atria are replaced by rapid irregular twitchings of the muscular wall; the ventricles respond irregularly to the dysrhythmic bombardment from the atria."

The most common type of arrhythmia

Atrial fibrillation is the most common arrhythmia - problems with the speed or rhythm of the heartbeat. Arrhythmias are caused by a disorder in the heart's electrical system.

How does arrhythmia occur?

The walls of the atria and ventricles are made of virtually 100% pure muscle. A heartbeat is caused by the tightening of these muscles. When the muscles tighten the chambers squeeze closed and push out the blood which is inside them.

Heartbeat control begins with the sinoatrial node - a small clump of muscle cells located in the right atrium. This is the heart's natural pacemaker; it sends electrical impulses to the atrioventricular node which exists between the atria and ventricles. The atrioventricular node determines how much the ventricles contract. Our pulse rate is caused by the contraction of the left ventricle.

When the atrioventricular node receives too many impulses - more than it is able to conduct - atrial fibrillation occurs. The result is irregular contractions of the ventricles. That is why a patient with atrial fibrillation has an irregular and high pulse rate.

Put simply - during atrial fibrillation the contractions of the two upper chambers of the heart are not synchronized with the contractions of the two lower chambers. Atrial fibrillation is a rapid and irregular heart rate. It frequently causes poor blood flow to the body.

Incidence of atrial fibrillation in the USA and Europe

Atrial fibrillation currently affects almost 7 million people in the USA and Europe. Incidence is expected to double within the next forty years.

All About Asthma

What is Asthma? What Causes Asthma?

Asthma is a disease affecting the airways that carry air to and from your lungs. People who suffer from this chronic condition (long-lasting or recurrent) are said to be asthmatic.

The inside walls of an asthmatic's airways are swollen or inflamed. This swelling or inflammation makes the airways extremely sensitive to irritations and increases your susceptibility to an allergic reaction.

As inflammation causes the airways to become narrower, less air can pass through them, both to and from the lungs. Symptoms of the narrowing include wheezing (a hissing sound while breathing), chest tightness, breathing problems, and coughing. Asthmatics usually experience these symptoms most frequently during the night and the early morning.

For information on the different causes of asthma (allergy, colds, stress, exercise, etc) please see page 4 (causes of asthma).

Asthma is Incurable

Asthma is an incurable illness. However, with good treatment and management there is no reason why a person with asthma cannot live a normal and active life.

What is an Asthma Episode / Attack?

An asthma episode, or an asthma attack, is when symptoms are worse than usual. They can come on suddenly and can be mild, moderate or severe.

What happens during an asthma attack?

The muscles around your airways tighten up, narrowing the airway.
Less air is able to flow through the airway.
Inflammation of the airways increases, further narrowing the airway.
More mucus is produced in the airways, undermining the flow of air even more.

Asthma Attacks Vary

In some asthma attacks, the airways are blocked such that oxygen fails to enter the lungs. This also prevents oxygen from entering the blood stream and traveling to the body's vital organs. Asthma attacks of this type can be fatal, and the patient may require urgent hospitalization.

Asthma attacks can be mild, moderate, severe and very severe. At onset, an asthma attack does allow enough air to get into the lungs, but it does not let the carbon dioxide leave the lungs at a fast enough rate. Carbon dioxide - poisonous if not expelled - can build up in the lungs during a prolonged attack, lowering the amount of oxygen getting into your bloodstream.

See Your Doctor

If you suffer from asthma you should see your doctor. He/she will help you find out what triggers your asthma symptoms and how to avoid them. You will also be prescribed medications which will help you manage your asthma.

With experience you will learn to keep away from things that irritate your airways, know when to take your medication, and better control your asthma. Effective asthma control allows you to take part in normal everyday activities.

Consequences of Not Controlling Your Asthma

If you don't control your asthma you will miss school or work more often and you will be less likely to be able to take part in some activities you enjoy. In the USA and Western Europe, asthma is one of the leading causes of school absenteeism.

All About Diabetes

What is diabetes? What causes diabetes?

Diabetes (diabetes mellitus) is classed as a metabolism disorder. Metabolism refers to the way our bodies use digested food for energy and growth. Most of what we eat is broken down into glucose. Glucose is a form of sugar in the blood - it is the principal source of fuel for our bodies.

When our food is digested the glucose makes its way into our bloodstream. Our cells use the glucose for energy and growth. However, glucose cannot enter our cells without insulin being present - insulin makes it possible for our cells to take in the glucose.

Insulin is a hormone that is produced by the pancreas. After eating, the pancreas automatically releases an adequate quantity of insulin to move the glucose present in our blood into the cells, and lowers the blood sugar level.

A person with diabetes has a condition in which the quantity of glucose in the blood is too elevated (hyperglycemia). This is because the body either does not produce enough insulin, produces no insulin, or has cells that do not respond properly to the insulin the pancreas produces. This results in too much glucose building up in the blood. This excess blood glucose eventually passes out of the body in urine. So, even though the blood has plenty of glucose, the cells are not getting it for their essential energy and growth requirements.

Why is it called Diabetes Mellitus?

Diabetes comes from Greek, and it means a siphon. Aretus the Cappadocian, a Greek physician during the second century A.D., named the condition diabainein. He described patients who were passing too much water (polyuria) - like a siphon. The word became "diabetes" from the English adoption of the Medieval Latin diabetes.

In 1675 Thomas Willis added mellitus to the term, although it is commonly referred to simply as diabetes. Mel in Latin means honey; the urine and blood of people with diabetes has excess glucose, and glucose is sweet like honey. Diabetes mellitus could literally mean "siphoning off sweet water".

In ancient China people observed that ants would be attracted to some people's urine, because it was sweet. The term "Sweet Urine Disease" was coined.

There are three main types of diabetes:

Diabetes Type 1 - You produce no insulin at all.
Diabetes Type 2 - You don't produce enough insulin, or your insulin is not working properly.
Gestational Diabetes - You develop diabetes just during your pregnancy.

(World Health Organization)

Diabetes Types 1 & 2 are chronic medical conditions - this means that they are persistent and perpetual. Gestational Diabetes usually resolves itself after the birth of the child.

Treatment is effective and important

All types of diabetes are treatable, but Type 1 and Type 2 diabetes last a lifetime; there is no known cure. The patient receives regular insulin, which became medically available in 1921. The treatment for a patient with Type 1 is mainly injected insulin, plus some dietary and exercise adherence.

Patients with Type 2 are usually treated with tablets, exercise and a special diet, but sometimes insulin injections are also required.

If diabetes is not adequately controlled the patient has a significantly higher risk of developing complications, such as hypoglycemia, ketoacidosis, and nonketotic hypersosmolar coma. Longer term complications could be cardiovascular disease, retinal damage, chronic kidney failure, nerve damage, poor healing of wounds, gangrene on the feet which may lead to amputation, and erectile dysfunction.

DIABETES STATISTICS:
In the USA - 2007

17.9m people are diagnosed with diabetes

5.7m people are undiagnosed with diabetes

57m people have pre-diabetes

186,300 (0.22%) people under 20 have diabetes

1 in every 400 to 600 under 20-year olds have Type 1 diabetes

2m adolescents have pre-diabetes

23.5m (10.7%) of those over 20 have diabetes

12.2m of those over 60 have diabetes

12m men (11.2%) have diabetes

11.5m women (10.2%) have diabetes

American Diabetes Association

What is Cancer? What Causes Cancer?

Cancer is a class of diseases characterized by out-of-control cell growth. There are over 100 different types of cancer, and each is classified by the type of cell that is initially affected.

Cancer harms the body when damaged cells divide uncontrollably to form lumps or masses of tissue called tumors (except in the case of leukemia where cancer prohibits normal blood function by abnormal cell division in the blood stream). Tumors can grow and interfere with the digestive, nervous, and circulatory systems, and they can release hormones that alter body function. Tumors that stay in one spot and demonstrate limited growth are generally considered to be benign.

More dangerous, or malignant, tumors form when two things occur:

a cancerous cell manages to move throughout the body using the blood or lymph systems, destroying healthy tissue in a process called invasion
that cell manages to divide and grow, making new blood vessels to feed itself in a process called angiogenesis.

When a tumor successfully spreads to other parts of the body and grows, invading and destroying other healthy tissues, it is said to have metastasized. This process itself is called metastasis, and the result is a serious condition that is very difficult to treat.

In 2007, cancer claimed the lives of about 7.6 million people in the world. Physicians and researchers who specialize in the study, diagnosis, treatment, and prevention of cancer are called oncologists.

What causes cancer?

Cancer is ultimately the result of cells that uncontrollably grow and do not die. Normal cells in the body follow an orderly path of growth, division, and death. Programmed cell death is called apoptosis, and when this process breaks down, cancer begins to form. Unlike regular cells, cancer cells do not experience programmatic death and instead continue to grow and divide. This leads to a mass of abnormal cells that grows out of control.

What are the symptoms of cancer?

Cancer symptoms are quite varied and depend on where the cancer is located, where it has spread, and how big the tumor is. Some cancers can be felt or seen through the skin - a lump on the breast or testicle can be an indicator of cancer in those locations. Skin cancer (melanoma) is often noted by a change in a wart or mole on the skin. Some oral cancers present white patches inside the mouth or white spots on the tongue.

Other cancers have symptoms that are less physically apparent. Some brain tumors tend to present symptoms early in the disease as they affect important cognitive functions. Pancreas cancers are usually too small to cause symptoms until they cause pain by pushing against nearby nerves or interfere with liver function to cause a yellowing of the skin and eyes called jaundice. Symptoms also can be created as a tumor grows and pushes against organs and blood vessels. For example, colon cancers lead to symptoms such as constipation, diarrhea, and changes in stool size. Bladder or prostate cancers cause changes in bladder function such as more frequent or infrequent urination.

As cancer cells use the body's energy and interfere with normal hormone function, it is possible to present symptoms such as fever, fatigue, excessive sweating, anemia, and unexplained weight loss. However, these symptoms are common in several other maladies as well. For example, coughing and hoarseness can point to lung or throat cancer as well as several other conditions.

When cancer spreads, or metastasizes, additional symptoms can present themselves in the newly affected area. Swollen or enlarged lymph nodes are common and likely to be present early. If cancer spreads to the brain, patients may experience vertigo, headaches, or seizures. Spreading to the lungs may cause coughing and shortness of breath. In addition, the liver may become enlarged and cause jaundice and bones can become painful, brittle, and break easily. Symptoms of metastasis ultimately depend on the location to which the cancer has spread.

How is cancer diagnosed and staged?

Early detection of cancer can greatly improve the odds of successful treatment and survival. Physicians use information from symptoms and several other procedures to diagnose cancer. Imaging techniques such as X-rays, CT scans, MRI scans, PET scans, and ultrasound scans are used regularly in order to detect where a tumor is located and what organs may be affected by it. Doctors may also conduct an endoscopy, which is a procedure that uses a thin tube with a camera and light at one end, to look for abnormalities inside the body.

Extracting cancer cells and looking at them under a microscope is the only absolute way to diagnose cancer. This procedure is called a biopsy. Other types of molecular diagnostic tests are frequently employed as well. Physicians will analyze your body's sugars, fats, proteins, and DNA at the molecular level. For example, cancerous prostate cells release a higher level of a chemical called PSA (prostate-specific antigen) into the bloodstream that can be detected by a blood test. Molecular diagnostics, biopsies, and imaging techniques are all used together to diagnose cancer.

After a diagnosis is made, doctors find out how far the cancer has spread and determine the stage of the cancer. The stage determines which choices will be available for treatment and informs prognoses. The most common cancer staging method is called the TNM system. T (1-4) indicates the size and direct extent of the primary tumor, N (0-3) indicates the degree to which the cancer has spread to nearby lymph nodes, and M (0-1) indicates whether the cancer has metastasized to other organs in the body. A small tumor that has not spread to lymph nodes or distant organs may be staged as (T1, N0, M0), for example.

TNM descriptions then lead to a simpler categorization of stages, from 0 to 4, where lower numbers indicate that the cancer has spread less. While most Stage 1 tumors are curable, most Stage 4 tumors are inoperable or untreatable.

How is cancer treated?

Cancer treatment depends on the type of cancer, the stage of the cancer (how much it has spread), age, health status, and additional personal characteristics. There is no single treatment for cancer, and patients often receive a combination of therapies and palliative care. Treatments usually fall into one of the following categories: surgery, radiation, chemotherapy, immunotherapy, hormone therapy, or gene therapy.

Surgery

Surgery is the oldest known treatment for cancer. If a cancer has not metastasized, it is possible to completely cure a patient by surgically removing the cancer from the body. This is often seen in the removal of the prostate or a breast or testicle. After the disease has spread, however, it is nearly impossible to remove all of the cancer cells. Surgery may also be instrumental in helping to control symptoms such as bowel obstruction or spinal cord compression.

Radiation

Radiation treatment, also known as radiotherapy, destroys cancer by focusing high-energy rays on the cancer cells. This causes damage to the molecules that make up the cancer cells and leads them to commit suicide. Radiotherapy utilizes high-energy gamma-rays that are emitted from metals such as radium or high-energy x-rays that are created in a special machine. Early radiation treatments caused severe side-effects because the energy beams would damage normal, healthy tissue, but technologies have improved so that beams can be more accurately targeted. Radiotherapy is used as a standalone treatment to shrink a tumor or destroy cancer cells (including those associated with leukemia and lymphoma), and it is also used in combination with other cancer treatments.

Chemotherapy

Chemotherapy utilizes chemicals that interfere with the cell division process - damaging proteins or DNA - so that cancer cells will commit suicide. These treatments target any rapidly dividing cells (not necessarily just cancer cells), but normal cells usually can recover from any chemical-induced damage while cancer cells cannot. Chemotherapy is generally used to treat cancer that has spread or metastasized because the medicines travel throughout the entire body. It is a necessary treatment for some forms of leukemia and lymphoma. Chemotherapy treatment occurs in cycles so the body has time to heal between doses. However, there are still common side effects such as hair loss, nausea, fatigue, and vomiting. Combination therapies often include multiple types of chemotherapy or chemotherapy combined with other treatment options.

Immunotherapy

Immunotherapy aims to get the body's immune system to fight the tumor. Local immunotherapy injects a treatment into an affected area, for example, to cause inflammation that causes a tumor to shrink. Systemic immunotherapy treats the whole body by administering an agent such as the protein interferon alpha that can shrink tumors. Immunotherapy can also be considered non-specific if it improves cancer-fighting abilities by stimulating the entire immune system, and it can be considered targeted if the treatment specifically tells the immune system to destroy cancer cells. These therapies are relatively young, but researchers have had success with treatments that introduce antibodies to the body that inhibit the growth of breast cancer cells. Bone marrow transplantation (hematopoetic stem cell transplantation) can also be considered immunotherapy because the donor's immune cells will often attack the tumor or cancer cells that are present in the host.

Hormone therapy

Several cancers have been linked to some types of hormones, most notably breast and prostate cancer. Hormone therapy is designed to alter hormone production in the body so that cancer cells stop growing or are killed completely. Breast cancer hormone therapies often focus on reducing estrogen levels (a common drug for this is tamoxifen) and prostate cancer hormone therapies often focus on reducing testosterone levels. In addition, some leukemia and lymphoma cases can be treated with the hormone cortisone.

Gene therapy

The goal of gene therapy is to replace damaged genes with ones that work to address a root cause of cancer: damage to DNA. For example, researchers are trying to replace the damaged gene that signals cells to stop dividing (the p53 gene) with a copy of a working gene. Other gene-based therapies focus on further damaging cancer cell DNA to the point where the cell commits suicide. Gene therapy is a very young field and has not yet resulted in any successful treatments.

How can cancer be prevented?

Cancers that are closely linked to certain behaviors are the easiest to prevent. For example, choosing not to smoke tobacco or drink alcohol significantly lower the risk of several types of cancer - most notably lung, throat, mouth, and liver cancer. Even if you are a current tobacco user, quitting can still greatly reduce your chances of getting cancer.

Skin cancer can be prevented by staying in the shade, protecting yourself with a hat and shirt when in the sun, and using sunscreen. Diet is also an important part of cancer prevention since what we eat has been linked to the disease. Physicians recommend diets that are low in fat and rich in fresh fruits and vegetables and whole grains.

Certain vaccinations have been associated with the prevention of some cancers. For example, many women receive a vaccination for the human papillomavirus because of the virus's relationship with cervical cancer. Hepatitis B vaccines prevent the hepatitis B virus, which can cause liver cancer.

Some cancer prevention is based on systematic screening in order to detect small irregularities or tumors as early as possible even if there are no clear symptoms present. Breast self-examination, mammograms, testicular self-examination, and Pap smears are common screening methods for various cancers.