Statins and Muscle Pain

Statins and muscle pain unfortunately go hand in hand. Another reason why you should lower cholesterol without statins. Statin side effects involve abnormal changes to the way your cells make energy. This is called mitochondrial dysfunction. It leads to a muscle wasting disease called Rhabdomylosis which can be fatal in some cases.

It can also lead to Alzheimer's disease, stroke, cancer, statin memory loss, and a number of other serious medical problems. Do I have your attention now? Want to know why you should lower cholesterol naturally?

Lets look at what statins*actually do and then the connection between statins and muscle pain will become more clear.

Statins coq10
Statins deplete a vital nutrient that your cells need to make energy properly called coq10. When the mitochondria in your cells (the energy producing part) do not get enough coq10, they can't carry out the chemical reactions needed to make ATP, which is the primary fuel your body runs on.

The muscle pain comes from the inability of the muscles to make energy due to depleted coq10 and other vital nutrients that are diminished by the use of statins. Beyond the statins coq10 problem, there are other nutrients that statins deplete in your body:

    Carnitine - a B-vitamin
    Selenium - a mineral
    Vitamin-E

Statins and muscle pain - only part of the problem
There are other problems that statin drugs cause that range from discomfort up to life threatening.

Among these statin side effects are:

    Kidney failure
    Diarrhea
    Cramping
    Constipation
    Statin memory loss
    Erectile dysfunction
    Nerve damage
    Liver damage
    Neuropathy
    Congestive heart failure

How can a drug that is supposed to protect people from heart attacks cause so many other problems? The answer is*that statin drugs interfere with the body's production of cholesterol. The body makes cholesterol for a reason. It is a vital component of critical chemical bio-synthesis in the body and brain. This is why you should lower cholesterol naturally, and not with drugs.

Statins are prescribed to lower cholesterol, in the mistaken belief that simply lowering cholesterol provides a significant health benefit to your body. It does not work that way. Heart disease is caused by inflammation in your arteries, and focusing on cholesterol alone does not work.

It ignores other important factors that contribute to heart disease, and does not address them, while promoting dangerous drugs that prevent your body from making energy properly.

The relationship between statins and muscle pain should tell you there is something seriously wrong with these medications, if they cause pain and cramping in your muscles and prevent your body from functioning normally. Statin side effects posed much too serious a risk to your health. Lower cholesterol without statins. You will be much better off!

Worried about your cholesterol level? Want to prevent heart disease? Then click on the link to my new blog Lower Cholesterol Naturally Now, and learn how to lower your cholesterol levels naturally, without dangerous statin drugs!

Human Dental Structure and the Wisdom Teeth Removal

One often narrates stories of the wisdom tooth to young children. People associate it with adulthood and intelligence. However, the dentist has another opinion! The dentist will commonly suggest that you remove the tooth. Meanwhile, you are left to wonder why you must do it. Hence, it is time to understand the human dental structures so that we can understand the process and need for the wisdom teeth removal.

The wisdom tooth is present for one main reason. The main function is to help the person to eat and chew the food. For this purpose, the human teeth are of different shapes and structures and they do specific roles. The structures include the incisors, the canines, the premolars, the molars, and the third molars. The incisors are the teeth in the front of the jaws. They help in biting. The canines form a sharp arrangement which aids tearing of food. The premolars help for grinding, while the molars support the same process. They grow about a year after the premolars appear in the mouth. The last types of teeth that grow are known as the third molars. These are responsible for crowding in the mouth. Due to this reason, the wisdom teeth removal becomes mandatory as it is a type of third molar structure.

However, healthcare experts have different schools of thought about this procedure. Some believe that a structure which is well placed and intact does not need removal because it is harmless. While, others believe that these growths can cause dental difficulties in the future.

It is a known fact that these teeth may become useful to the person, but at the same time, it is also possible that they develop in an inappropriate place causing other problems. For instance, the person may face trouble in biting of food. Moreover, the bones in the mouth get affected. Due to the unnatural positioning and disruption of the set pattern of arrangement of teeth, slight decay is possible along with bone problems.

Nevertheless, if your teeth have grown in a proper way and it is possible for you to keep up your dental hygiene, then, you may not need to get them removed.

The most peculiar aspect about third molars is that they can grow in any fashion! Sometimes, the jaw is not large enough to support their eruption. Sometimes, they may begin to appear in the far end of the mouth. So, they may not have enough space to grow properly and may end up growing in a horizontal direction. This is abnormal and hence, wisdom teeth removal becomes inevitable.

Youngsters and young adults are often asked to undergo an extraction as they can recover more easily from surgery and future problems can also be avoided this way.

Wisdom teeth are the last molar teeth to develop which usually grow at the very back of the upper and lower jaw bones, one at each back 'corner' of the mouth. Find out about Wisdom teeth removal and other Healthcare Experts [http://docturs.com/dd/] from our website.

Head and Neck Cancer

Head and neck cancers refer to a group of biologically similar cancers, which originate in the upper aerodigestive tract. This tract includes the lip, oral cavity, nasal cavity, paranasal sinuses, pharynx, and larynx. A large majority of cancers that begin in the head and neck area have the potential to spread to other parts of the body, which is why they must be treated as soon as possible. Such cancers usually spread through the lymph system or through the blood stream. If detected early, head and neck cancers are highly curable. However, in most cases, ENT specialists usually advise a treatment plan consisting of surgery, in combination with chemotherapy and radiation therapy.

Head And Neck Dissection

A dissection is a surgical procedure through which a cancer may be removed. There are basically two types of neck dissection: a radial neck dissection and a partial neck dissection.

• A radial neck dissection: The main aim of this surgical procedure is to remove all the lymph nodes in the neck, between the collarbone and the jaw. It is usually advised if tests have shown the presence of one or more cancer-affected lymph nodes in the neck. As the lymph nodes are often stuck to various neck structures, this surgery may also involve the removal of other tissues, to make sure that all cancer nodes are completely cleared.

• Partial neck dissection: This procedure is usually advised when the ENT surgeon suspects the presence of microscopic amounts of cancer cells, within the lymph nodes in the neck. It involves the removal of only those groups of nodes, which are expected to get affected by the type of cancer diagnosed in the patient.

This surgery is performed under general anaesthesia, which means that the patient will be asleep for the entire duration of the procedure. In most cases, the surgeon will make two long incisions in the neck to remove the nodes. Most patients do not feel much discomfort after the surgery. As the surgeon may generally remove one of the large muscles in the neck during the surgery, most patients would notice that their neck seems flatter than before, and is also stiff.

The skin on the neck will also feel a bit numb after the surgery. Though over time, this numbness may reduce to some extent, the patient should not expect their skin to return to normal. Other complications of head and neck dissection are blood clots, leak of tissue fluid, nerve injuries, stiff shoulders and inability to swallow food properly.

In general, patients will require at least two to*three weeks off from their normal duties, which will vary according to the type of treatment advised by the ENT surgeon.

The patient will be given full information about head and neck surgery, including benefits, risks and complications, to help them make a decision on whether to undergo the surgery or not. They may change their decision regarding proceeding with the surgery at any time prior to the procedure, even if they have previously signed a consent form.

Our Nose Surgery doctors are specialist in Otology, Sinofacial pain, Voice disorders, Facial plastics, Head and neck surgery, abstructive Sleep Apnoea, Rhinoplasty, Nose Surgery.

For more info visit: http://www.entlondon.co.uk/

Heroin - Why It's Here, and Where It Stands

Although Heroin is a highly addictive opiate narcotic, it is an extremely effective painkiller and anxiolytic. In fact, in the United Kingdom, it is used the same way in which we physicians in the United States use Morphine.

That's right. In the UK, Heroin is manufactured and prescribed as the drug, Dimorphine. We U.S. physicians feel this is unnecessary, and potentially risky, as Dimorphine is quickly metabolized by the liver into Morphine, the socalled, "ultimate warm blanket" of the opiate world.

It seems, however, that the side effects to Heroin make it an "electric warm blanket" when talking about it with IV Heroin users. Having interviewed many former intravenous Heroin users, they consistently inform me that they feel the euphoria from Heroin is much more intense than Morphine. Interestingly, because of this more intense effect, many have started thinking outside the box regarding this medication's ability to treat the hospice patient.

Certainly, Europe is leaning in this direction concerning palliative therapy in terminally ill patients with malignant pain. Germany, Switzerland, Denmark and the Netherlands have legalized its use in this regard, and currently Norway and other European Union nations are considering a move in this direction.

It seems that of the first world nations, the Union of Europe always leads with the Caduceus first. In a humanitarian effort to make a more dignified and comfortable place for the dying patient, one should not be surprised that Europe made the first move, moreover, Germany, the worlds engineering guru, would be the first nation to endorse it in this way. It is very interesting that Germany advances this particular type of therapy. As you may have guessed, Heroin is a German Invdntion.

Historically, Heroin had an interesting birth. After Dr. Bayer of Bayer Laboratories (a German company to this day) isolated acetylsalicylic acid from willow bark, he was able to move forward with other work. Aspirin, the very first in an important class of medications now known as Non Steroidal Anti-Inflammatory Drugs, is what he isolated from willow bark. After this great discovery, his now wealthy laboratory went to work isolating isomers of the central nervous system's mu receptor agonists we call opiate compounds.

What Bayer Labs isolated was diacetylmorphine. You guessed it, Heroin. The company went to work immediately, packaged the drug in liquid form, and began selling it over the counter in the United States as a non-addictive cough medicine patented with the brand name, Heroin, meaning "hero within." That's right. Heroin is a registered trademark of Bayer Laboratories. Go figure.

This marketing campaign went on from 1895 to 1910. Then, reports from the U.S. began to mount from a concerned American public, undermining Bayer's marketing efforts, warning of the morphine metabolite and addiction.

You must remember that at that time, most Americans were already aware of the severe problem with morphine and its evil hold, as we were taking care of hundreds of thousands of Civil War Veterans wounded in combat who had become addicted to it.

Bayer capitulated with embarrassment and removed the product from the marketplace.

Of interest, is that the U.S. Congress would install the Harrison Narcotics and Tax Act, making Heroin illegal, 4 years later. By 1924, it was a felony to even possess the drug, and has been ever since.

Chances are, Americans in general, will never accept this drug for any therapy, no matter what argument is laid on the table. Americans, the first industrialized people to have dealt with this dragon on a gigantic scale, at war with cartels who push it through our southern borders, and dealing with a monster which runs wild in our streets to this day, will probably never accept or tolerate its presence in our pharmacopeia.

Dr. Counce

Founded by Dr. Charles Counce, The Venture 17 Conservatory is a collegiate education consulting firm and private teaching resource based in the mountains of Lake George, Colorado. The Conservatory is the flagship of The Venture 17 Division of Education, a nonprofit collegiate consulting firm and professorate specializing in higher academics in the medical arts and sciences. The Venture 17 Conservatory began as an educational institution and online teaching tool to aid local college students in Colorado Springs, Colorado. Over the last two years, however, The Conservatory web site has grown rapidly and now reaches a large contingent of college students across America as well as World Wide. The Conservatory now has a vast number of supporters and users in Europe, including Germany, The Netherlands, Austria, Russia, France, Sweden, and The Ukraine. The Conservatory's large fan base of supporters in Japan, China, India, and other Asian Countries continues to grow exponentially. Teaching at the college level, The Doctor is a professor of Human Anatomy and Physiology, as well as Cardiopulmonary Medicine, Molecular Biology, Clinical Chemistry, and Hematology. In addition, he teaches American History.

Dr. Counce's blog, "The Searchlight Messenger", can be seen and commented on at http://www.venture17.com

Sugar Alcohol Vs Sugar

Erythritol is classified as a sugar alcohol and is a naturally-derived sugar substitute that looks and tastes very much like sugar. The key point is that it has almost no calories and doesn't count as a carbohydrate or a sugar.

Erythritol is my favorite sugar alcohol. Why? Unlike another sugar alcohol, Xylitol, Erythritol is completely absorbed in the stomach and upper intestines and is immediately excreted by the body in the urine. However other common sugar alcohol sweeteners like Sorbitol and Xylitol have some digestive issues.

Xylitol is another sugar alcohol passes through the entire gastrointestinal system, not cleared immediately by the kidneys and that is why Xylitol is associated with abdominal cramping and diarrhea. Xylitol has essentially no calories like Erythritol and really shouldn't be added to your carbohydrate or sugar consumption as calories.

Sorbitol is also a sugar alcohol whose absorption in the human body is slow, and this allows part of the ingested sorbitol to reach the large intestine where metabolism yields fewer calories. Therefore, unlike sugar which contributes four calories per gram, the caloric contribution of sorbitol is about 2.6 calories per gram.

NATURAL SWEETENER STEVIA

Steviais in the sunflower family native totropical regions in South America.. It is known as sweet leaf, sugarleaf or just Stevia. As a sweetener Stevia's taste has a slow onset but last longer than that of sugar, although some of its extracts may have a bitter aftertaste.

The steviol glycoside extracts are 300 times sweeter than sugar. Stevia undoubtedly has an important role in the low-carbohydrate lifestyles as a low-sugar sweetener. A very important part of Stevia's metabolism in our body is that it has a negligible effect on blood glucose, and therefore won't cause insulin spikes so common with a carbohydrate rich (low-fat) diets. I find Stevia and therefore Truvia with Erythritol very helpful as a natural sweetener in patients who require a carbohydrate-controlled diet, and strongly recommend it.

Truvia® is a combination of Erythritol and a purified Steviol glycoside called Rebaudioside(Rebiana).The carbohydrate in Truvia® natural sweetener comes from erythritol - a natural sugar alcohol that is also found in grapes and pears - that also has zero calories. Erythritol passes through the body without being broken down for calories. As a result, it has no effect on blood sugar. Erythritol is used in Truvia® natural sweetener to evenly disperse rebiana to achieve uniform sweetness, similar to how dextrose and other ingredients are used by other high intensity sweeteners like Splenda® to evenly disperse the sweetener.

Of all the substances we consume that are damaging, sugar is the most harmful as it ignites inflammation and inflammation causes heart disease. We can see the result of excessive sugar in diabetes, obesity and cancer as well. Having seen the ravages of damaged hearts for 15 years as a heart surgeon, my goal today is helping patients prevent disease. A huge step in prevention is overcoming sugar addiction. To learn how you can easily end sugar addiction visit http://stopsugarcravingseasily.com

History of the ECG Machine

The modern day ECG machine is a breakthrough in the field of medical science. This machine is used daily throughout the world saving lives. Modern hospitals simply could not function with out them. The ECG machine that we see today has evolved over the years from a very basic device that was used to measure electricity. This device was known as Galvanometer which was developed in the year 1749.

Ten years later, in the year 1849, Dubois-Raymond enhanced the existing measuring device to measure the current. This device was known as Rheotome.
In 1868, Raymond's student, Julius Bernstein modified the rheotome, so that the simulation and sampling could be varied. This was called as the differential Rheotome. This was the first kind of ECG machine of that time. It was experimented on frog hearts, by measuring their heartbeat using two electrodes. This was the birth of the Electro Cardiograph Machine as we know it today.

Due to lack of sensitivity which lead to the further advancement in the design and Capillary electrometer was developed by Gabriel Lippmann in 1872.

Augustus De'sire waller was the first one to discover that the capillary electrometer can measure the electrical activity of the human heart without opening the chest. The firs electrical activity of the human heart was recorded in 1887. It was initially called as cardiogram and later Einthoven named it as Electrocardiogram.

Einthoven began to work his work on ECG in 1900.The first improvement in the capillary electrometer was the invention of string galvanometer in 1903. The first ECG machine introduced in the US was the string electrocardiograph that was developed by Cohn in 1909.

The first machine in the US was designed by Horatio Williams and built in 1914 by Charles Hindle. On May 20, 1915, the machine traced the electrical activity of the human heart for the first time. The next improvement was done on the electrodes. The size of the ECG was greatly reduced. In 1920, the strap on electrode was introduced by Cohn.. In 1932, Rudolph Burger introduced the suction electrode, which was later modified by Welsh as the suction cup that is currently in use with 12 lead machines.

The GE Corporation developed the vacuum tubes for amplification. The next CRT was introduced into electrocardiography. The introduction of the amplifier type electrocardiographs helped in improvement in recording the electrical activity of the heart.

As you can see, the ECG machine has come a long way from its early days measuring the stress of frogs!

matt @ ECG Machines

Types of Stethoscopes

The stethoscope was invented in France in the year 1816. A stethoscope can be used to hear internal sounds from a human's body. It is also used to count blood pressure in patient's body & is a valuable tool in listening to the resonance inside veins.

Characteristically, the stethoscope has become a symbol of doctor's profession. The Stethoscope is the integral part of doctor's profession & helpful in diagnosing a patient's health status. It is the one tool that all doctors (and some nurses) carry with them at all times. This piece of equipment is such a big part of the doctors life that many times they will have them engraved to increase their sentimental value.

A stethoscope can be differentiated or characterized on the basis of ergonomics, clarity and loudness of the sound coming out from human body. Apart from the common one we see there are specialized ones used every day, including:

Acoustic: Acoustic stethoscope is generally used for listening to sounds coming out from the chest. It contains a chest piece and hollow tube. The only limitation with acoustic stethoscope is that they cannot work with reduced sounds. A quiet environment is necessary to get accurate readings.

Electronic: This kind of stethoscope can give ultimate output especially with low sound waves. This stethoscope amplifies the sound waves and gives indicators. This type of stethoscope is used mostly for taking faint readings.

Recording: Few stethoscopes hold the feature of recording the sound waves. These kinds of stethoscopes can be connected with any type of recorder and can trap the output for later use and analysis.

Noise Reduction Stethoscopes: This kind of stethoscope is the same as electronic ones only they come with noise cancelling or background noise reduction.

Fetal Stethoscopes: This fetal stethoscope is being used for pregnant women. It features an enlarged end, which is placed over the abdomen of the pregnant lady. A common name for this stethoscope is fetoscope. However, in current world, with advancement of technology, fetal stethoscopes are being replaced by sonaid, which is more advanced and electronic.

Stethoscope is one of the most important pieces of medical equipment used in the healthcare industry. While advancements in the medical field are increasing dramatically, the stethoscope has largely remained unchanged for over 150 years. This is one piece of equipment that has seen little change from the increase of technology in the medical field. Many doctors prefer just your standard stethoscope vs. some of the newer models with more electronic features. Over time more will be forced to use an electronic stethoscope as more practices are starting to use an EMR (electronic medical records) system.

Lee Joseph is a Medical Equipment Expert.  You can purchase a stethoscope by visiting swissmedicalequipment.com. You will find a large selection of Stethoscopes for any budget.

Types of Ophthalmoscopes

The ophthalmoscope was invented In 1847 by Charles Babbage. Over time, it underwent several modifications and advancements by the industry. The latest version of Ophthalmoscope is highly efficient and user friendly. For any health care professional working with vision, it is a necessity.

The ophthalmoscope is a medical device used for looking inside the eye of the patient. This process is called Ophthalmoscopy. The ophthalmoscope is also called as funduscope. Using this equipment a health care professional can examine vitreous humor and the retina. For any eye examination, the ophthalmoscope is an important device for the diagnosis of the eye related diseases and conditions.

There are two major categories where ophthalmoscopes can be classified.

Direct ophthalmoscope: It is a flashlight-sized instrument, containing several lenses. The direct ophthalmoscope can amplify the image around 15 times original size. A normal direct ophthalmoscope gives a field of view of approximately 6 to 10 degrees and magnification feature of about 15 times. This type of ophthalmoscope is most generally used for regular checkups.

A common process for examination includes having the patient open both eyes & cover up one eye with a wand. Slow movement towards patient, with gradually reducing the power of the lens is required while testing. First focus should be on the lens and then the eye. While performing ophthalmoscopy, it is recommended not to put hands over patient's head or shoulder as this may affect the accuracy of the exam.

Indirect ophthalmoscope: This medical device contains a light on one end and a small lens. A standard indirect ophthalmoscope gives 30 degrees of field of view and 5 times magnification. The output is wider, and gives clear idea of inside structure of eye. With a clear image the indirect ophthalmoscope captures the correct status of the eye and helps the healthcare professional is assessing the overall condition of the eye. Viewing the retina in concert with the rest of the eye, a professional can assess a myriad of conditions. The indirect ophthalmoscope can be in either monocular or binocular in nature. Using this type of indirect ophthalmoscope, four types of ophthalmoscopy can be done:

    Slit lamp indirect ophthalmoscopy
    Head mounted binocular indirect ophthalmoscopy
    Monocular indirect ophthalmoscopy
    Modified (monocular) indirect ophthalmoscopy

There are many ophthalmoscopes present in market containing helpful features. The consolidated set of features of a good ophthalmoscope should include the following:

    It should be workable with undiluted and small pupils.
    View of fundus should be panoramic, wider and clear.
    On standard, magnification should increase by 25 degrees approximately.
    It should provide an appropriate field of view

Lee Joseph is a Medical Equipment Expert.  You can purchase an economical ophthalmoscope by visiting the website Swissmedicalequipment.com.  They have a large selection of medical equipment to fit any budget.