Month: April 2008

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Meditation News on Health & Science

Scientists Probe Meditation Secrets

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Scientists are beginning to uncover evidence that meditation has a tangible effect on the brain.

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There is evidence that meditation changes brain structures

Sceptics argue that it is not a practical way to try to deal with the stresses of modern life.

But the long years when adherents were unable to point to hard science to support their belief in the technique may finally be coming to an end.

When Carol Cattley’s husband died it triggered a relapse of the depression which had not plagued her since she was a teenager.

“I instantly felt as if I wanted to die,” she said. “I couldn’t think of what else to do.”

Carol sought medical help and managed to control her depression with a combination of medication and a psychological treatment called Cognitive Behavioural Therapy.

However, she believes that a new, increasingly popular course called Mindfulness Based Cognitive Therapy (MBCT) – which primarily consists of meditation – brought about her full recovery.

It is currently available in every county across the UK, and can be prescribed on the NHS.

One of the pioneers of MBCT is Professor Mark Williams, from the Department of Psychiatry at the University of Oxford.

He helps to lead group courses which take place over a period of eight weeks. He describes the approach as 80% meditation, 20% cognitive therapy.

New perspective

He said: “It teaches a way of looking at problems, observing them clearly but not necessarily trying to fix them or solve them.

“It suggests to people that they begin to see all their thoughts as just thoughts, whether they are positive, negative or neutral.”

MBCT is recommended for people who are not currently depressed, but who have had three or more bouts of depression in their lives.

Trials suggest that the course reduces the likelihood of another attack of depression by over 50%.

Professor Williams believes that more research is still needed.

He said: “It is becoming enormously popular quite quickly and in many ways we now need to collect the evidence to check that it really is being effective.”

However, in the meantime, meditation is being taken seriously as a means of tackling difficult and very modern challenges.

Scientists are beginning to investigate how else meditation could be used, particularly for those at risk of suicide and people struggling with the effects of substance abuse.

What is meditation?

Meditation is difficult to define because it has so many different forms.

Broadly, it can be described as a mental practice in which you focus your attention on a particular subject or object.

It has historically been associated with religion, but it can also be secular, and exactly what you focus your attention on is largely a matter of personal choice.

It may be a mantra (repeated word or phrase), breathing patterns, or simply an awareness of being alive.

Some of the more common forms of meditative practices include Buddhist Meditation, Mindfulness Meditation, Transcendental Meditation, and Zen Meditation.

The claims made for meditation range from increasing immunity, improving asthma and increasing fertility through to reducing the effects of aging.

Limited research

Research into the health claims made for meditation has limitations and few conclusions can be reached, partly because meditation is rarely isolated – it is often practised alongside other lifestyle changes such as diet, or exercise, or as part of group therapy.

So should we dismiss it as quackery? Studies from the field of neuroscience suggest not.

It is a new area of research, but indications are intriguing and suggest that meditation may have a measurable impact on the brain.

In Boston, Massachusetts, Dr Sara Lazar has used a technique called MRI scanning to analyse the brains of people who have been meditating for several years.

She compared the brains of these experienced practitioners with people who had never meditated and found that there were differences in the thickness of certain areas of the brain’s cortex, including areas involved in the processing of emotion.

She is continuing research, but she believes that meditation had caused the brain to change physical shape.

Buddhist monks

In Madison, Wisconsin, Dr Richard Davidson has been carrying out studies on Buddhist monks for several years.

His personal belief is that “by meditating, you can become happier, you can concentrate more effectively and you can change your brain in ways that support that.”

In one study he observed the brains of a group of office workers before and after they undertook a course of meditation combined with stress reduction techniques.

At the end of the course the participants’ brains seemed to have altered in the way they functioned.

They showed greater activity in the left-hand side – a characteristic which Davidson has previously linked to happiness and enthusiasm.

This idea that meditation could improve the wellbeing of everyone, even those not struggling with mental illness, is something that is exciting researchers.

Professor Williams believes it has huge potential.

“It involves dealing with expectations, with constantly judging ourselves – feeling we’re not good enough,” he said.

“And, that is something which is so widespread in our communities.

“All of these things are just thoughts. And, they will come up in meditation and learning to recognize what they are as thoughts, and let them go, can be enormously empowering for anybody.”

There is, of course, a distinct possibility that this research will come to nothing and that interest in meditation will turn out to be a passing fad, but for now this ancient discipline is being taken seriously by scientists as a tool with potential to make each one of us happier and more content.

“By meditating, you can become happier, you can concentrate more effectively and you can change your brain in ways that support that” says Dr Richard Davidson.

Click to see also:->
Meditation ‘brain training’ clues
Meditation ‘good for brain’
How to temper your temper
Misery: the secret to happiness
Meditation
Sources: BBC NEWS:2nd. April.’08

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News on Health & Science

Molecules That Cure Liver Cirrhosis

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Scientists in Japan have designed artificial molecules that when used with rats successfully reversed liver cirrhosis, a serious chronic disease in humans that until now can only be cured by transplants.

Cirrhosis is the hardening or scarring of the liver, and is caused by factors such as heavy drinking and Hepatitis B and C. The disease is especially serious in parts of Asia, including China.

Cirrhosis occurs when a class of liver cells starts producing collagen, a fibrous material that toughens skin and tendons. Such damage cannot be reversed although steps can be taken to prevent further damage. In advanced cases, transplants are the only way out.

In the journal Nature Biotechnology, the researchers said they designed molecules that can block collagen production by liver “stellate cells”, which are also known to absorb vitamin A. The scientists then loaded the molecules into carriers that were coated with vitamin A, which tricked stellate cells into absorbing the molecules.

“By packaging the (molecules) in carriers coated with vitamin A, they tricked the stellate cells into letting in the inhibitor, which shut down collagen secretion,” the researchers wrote.

In the study, the researchers induced liver cirrhosis in rats and then injected them with the vitamin A-laced molecules. “We were able to completely eradicate the fibrosis by injecting this agent … we cured them of the cirrhosis,” Yoshiro Niitsu at the Sapporo Medical University School of Medicine in Japan said. “The liver is such an important organ, after you remove the fibrosis, the liver by itself starts to regenerate tissues. So liver damage is reversible.”

Explaining how the damage reversal came about, Niitsu said: “Liver is itself responsible for the production and deposition of collagen, it also secretes certain enzymes that dissolve collagen … dissolve the fibrosis which has already been deposited in the tissues.”

Niitsu was hopeful that the molecules would provide a cure for cirrhosis patients in time. “We hope it (a drug) will be ready for humans in a few years,” he said.

Sounces: The Times Of India

Categories
Healthy Tips

‘Press Chest to Save Cardiac Victim’

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If you see a person near you having a cardiac arrest, you can skip performing mouth-to-mouth breathing, better known as the ”kiss of life”, on the person. Just press the centre of the patient’s chest, hard and fast. This is the new recommendation made by the American Heart Association.

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According to the association, chest compressions, or hands-only cardiopulmonary resuscitation (CPR) — rapid, deep presses on the victim’s chest until help arrives — work just as well for sudden cardiac arrest in adults.

The statement, from the association’s emergency cardiovascular care committee, in this week’s Circulation journal comes after three separate studies last year described outcomes after bystanders performed CPR on people suffering cardiac arrests.

Experts now hope that bystanders will be more willing to come forward and help if they see someone suddenly collapse by pushing the middle of the victim’s chest without stopping, until emergency medical services responders arrive.

Studies show that on average, less than one-third of out-of-hospital cardiac arrest victims receive bystander CPR, which can double or treble a person’s chance of surviving cardiac arrest.

Not only is hand-only CPR simpler and easier to execute, it also encourages people uncomfortable about mouth-to-mouth breathing to come forward and help those suffering cardiac arrests.

Dr Deepak Natarajan, senior cardiologist at Apollo hospital, estimates that 5 lakh to 7.5 lakh people die of sudden cardiac arrests every year in India. More than 80% of these emergencies occur outside a hospital setting.

Click to learn more about:->

FIRST AID

Home Emergency Preparedness

“The New Science Of Cardiac Arrest”

Sources: The Times Of India

Categories
Ailmemts & Remedies

When Travelling Isn’t Fun

Kinetosis  sounds better than  motion sickness,  especially if you want to say that is the reason you cannot travel. But using the refined term does not in any way reduce the suffering endured by 30 per cent of the people as they travel by car, bus, airplane, ship or train. In 10 per cent, the symptoms of queasiness, discomfort, sweating, palpitations, nausea and sometimes vomiting are severe enough to be incapacitating.

We are born with an ability to spatially relate our position to that of our surroundings, a natural in-built efficient global positioning system (GPS). It receives inputs from our eyes and the peripheral nerves in our hands and feet. The messages are carried by chemicals in the blood to the brain. Our middle ear houses fine hair-like structures and contains a fluid called endolymph. As our head and body move, these hairs also change position and send messages to the brain. Coordination and processing all the information occurs in the brain at a rate “faster than the speed of light”. The body immediately knows where it is relative to the environment.

At times there is a dissociation between the two sets of impulses. While seated in a moving car, the peripheral nerves say the body is still. But the eyes see a rapidly changing moving horizon. The endolymph swishes and swirls if the road is winding or if there is sudden acceleration and deceleration. All this confuses the brain.

There is an illusion of motion created by the travel, combined with the absence of motion detected by the body. The brain infers that something has gone wrong. Subconsciously fearing toxin ingestion, nausea and vomiting set in to rid the body of the supposed poison.

The 21st century, however, has produced new types of kinetosis. Simulation sickness produces symptoms identical to motion sickness and occurs while playing 3D computer games with virtual reality. This creates a dissociation in the input information, causing spatial disorientation, almost like hitting the “save” and “delete” buttons at the same time.

Motion sickness is more likely to affect women and children under the age of 12. The symptoms may be severe enough to make travelling in a lift or escalator difficult. Some children have problems playing video games or even looking through a microscope. It also becomes a severe problem in children who have to travel long distances to school. Arriving daily with nausea, sweating or after actually having vomited is an ordeal in itself, enough to set off a cycle of “school phobia”.

The good news is that motion sickness which sets in at a young age often disappears as the children grow older. The elderly who suddenly develop this symptom, however, usually find that it slowly starts worsening.

Motion sickness can be treated. The common remedies are Dramamine or Avomine. It has to be taken at least an hour before travel to be effective. This may cause drowsiness. Domperidone and other anti emetics do not work in motion sickness. They are effective in nausea caused by gastrointestinal problems.

People who do not like to take medication for motion sickness can try home remedies:

Avoid eating a full meal prior to the journey. Light, non-spicy food with less oil is best.

 Avoid alcohol.

While booking seats sit facing forwards as far as possible. In a bus try to get a seat close to the driver. In a plane a seat near the wings is best. If travelling by ship, try to get a cabin near the centre of the ship and lie down.

Avoid reading or looking down.

 Smell or suck on a lime.

Eat sweetened ginger cubes or swallow ginger capsules.

 Try magnetic amulets.

Acupressure bracelets or a wristband can be worn in the centre of the wrist three finger widths below the wrist crease.

Amulets, ginger and lime have not been scientifically evaluated. It is difficult to ascertain whether there is a psychological overlay in their purported beneficial action, as the problem is caused by faulty brain signals, and the brain is very powerful and unpredictable. Acupressure has been proven to work. Also, motion sickness can recur after remaining quiescent for many years. It has to be considered a factor in career choices. Astronauts, pilots and anyone planning a career on ships or trains have to consider a predisposition to motion sickness. Rapid acceleration and deceleration may precipitate the symptoms once again.

Sources: The Telegraph (Kolkata, India)

Categories
Ailmemts & Remedies

Motion Sickness

Definition:

Motion sickness or kinetosis is a condition in which a disagreement exists between visually perceived movement and the vestibular system’s sense of movement.

To understand motion sickness, it helps to understand a few parts of your body and how they affect the way you feel movement:

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*inner ears – liquid in the semicircular canals of the inner ear allows you to sense if you’re moving, and, if you are, which way you’re moving – up, down, side to side, round and round, forward, or backward.

*eyes – what you see also lets your body know whether you’re moving and in which direction.

*skin receptors – these receptors tell your brain which parts of your body are touching the ground.

*muscles and joint sensory receptors – these sensing receptors tell your brain if you’re moving your muscles and which position your body is in.

The brain gets an instant report from these different parts of your body and tries to put together a total picture about what you are doing just at that moment. But if any of the pieces of this picture don’t match, you can get motion sickness.

For example, if you’re riding in a car and reading a book, your inner ears and skin receptors will detect that you are moving forward. However, your eyes are looking at a book that isn’t moving, and your muscle receptors are telling your brain that you’re sitting still. So the brain gets a little confused. Things may begin to feel a little scrambled inside your head at that point.

When this happens, you might feel really tired, dizzy, or sick to your stomach. Sometimes you might even throw up. And if you’re feeling scared or anxious, your motion sickness might get even worse.

Depending on the cause it can also be referred to as seasickness, carsickness, simulation sickness, airsickness, or space sickness.

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Kinds of Motion Sickness:

Airsickness
Airsickness is a sensation which is induced by air travel. It is a specific form of motion sickness, and is considered a normal response in healthy individuals. Airsickness occurs when the central nervous system receives conflicting messages from the body (including the inner ear, eyes and muscles) affecting balance and equilibrium.

Sea-sickness
Seasickness is a form of motion sickness characterized by a feeling of nausea and, in extreme cases, vertigo experienced after spending time on a craft on water. It is typically brought on by the rocking motion of the craft.

Simulation sickness
Simulation sickness, or simulator sickness, is a condition where a person exhibits symptoms similar to motion sickness caused by playing computer/simulation/video games.

The most common theory for the cause of simulation sickness is that the illusion of motion created by the virtual world, combined with the absence of motion detected by the inner ear, causes the area postrema in the brain to infer that one is hallucinating and further conclude that the hallucination is due to poison ingestion. The brain responds by inducing nausea and mass vomiting, to clear the supposed toxin.[7] According to this theory, simulation sickness is just another form of motion sickness.

The symptoms are often described as quite similar to that of motion sickness. Some can range from headache, drowsiness, nausea, dizziness, vomiting and sweating. A research done at the University of Minnesota had students play Halo for less than an hour, and found that up to 50 percent felt sick afterwards.
In a study conducted by U.S. Army Research Institute for the Behavioral and Social Sciences in a report published May 1995 titled “Technical Report 1027 – Simulator Sickness in Virtual Environments”, out of 742 pilot exposures from 11 military flight simulators, “approximately half of the pilots (334) reported post-effects of some kind: 250 (34%) reported that symptoms dissipated in less than 1 hour, 44 (6%) reported that symptoms lasted longer than 4 hours, and 28 (4%) reported that symptoms lasted longer than 6 hours. There were also 4 (1%) reported cases of spontaneously occurring flashbacks”.

Space sicknesss
Space sickness was effectively unknown during the earliest spaceflights, as these were undertaken in very cramped conditions; it seems to be aggravated by being able to freely move around, and so is more common in larger spacecraft. Around 60% of all Space Shuttle astronauts currently experience it on their first flight; the first case is now suspected to be Gherman Titov, in August, 1961 onboard Vostok 2, who reported dizziness and nausea. However, the first significant cases were in early Apollo flights; Frank Borman on Apollo 8 and Rusty Schweickart on Apollo 9. Both experienced identifiable and reasonably severe symptoms — in the latter case causing the mission plan to be modified.

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Signs and Symptoms:
The most common signs and symptoms of motion sickness include:

*Nausea
*Paleness of the skin
*Cold sweats
*Vomiting
*Dizziness
*Headache
*Increased salivation
*Fatigue

Dizziness, fatigue, and nausea are the most common symptoms of motion sickness. Sopite syndrome is also a side effect of motion sickness. In fact, nausea in Greek means seasickness (naus means ship). If the motion causing nausea is not resolved, the sufferer will frequently vomit. Unlike ordinary sickness, vomiting in motion sickness tends not to relieve the nausea.

Causes:
Motion sickness occurs when the body, the inner ear, and the eyes send conflicting signals to the brain. This reaction is generally provoked by a moving vehicle such as a car, boat, airplane, or space shuttle, but it may also happen on flight simulators or amusement park rides. From inside a ship’s cabin, the inner ear may sense rolling motions that the eyes cannot perceive, and, conversely, the eyes may perceive movement on a “virtual reality” simulation ride that the body does not feel. Interestingly, once a person adapts to the movement and the motion stops, the symptoms may recur and cause the person to adjust all over again (although, this reaction is generally brief). In addition, even anticipating movement can cause anxiety and symptoms of motion sickness. For example, a person with a previous experience of motion sickness may become nauseous on an airplane before take-off.

About 33% of people are susceptible to motion sickness even in mild circumstances such as being on a boat in calm water, although nearly 66% of people are susceptible in more severe conditions. Approximately 50% of the astronauts in the U.S. space program have suffered from space sickness.Individuals and animals without a functional vestibular system are immune to motion sickness.

Motion sickness on the sea can result from being in the berth of a rolling boat without being able to see the horizon. Sudden jerky movements tend to be worse for provoking motion sickness than slower smooth ones, because they disrupt the fluid balance more. A “corkscrewing” boat will upset more people than one that is gliding smoothly across the oncoming waves. Cars driving rapidly around winding roads or up and down a series of hills will upset more people than cars that are moving over smooth, straight roads. Looking down into one’s lap to consult a map or attempting to read a book while a passenger in a car may also bring on motion sickness.

The most common hypothesis for the cause of motion sickness is that it functions as a defense mechanism against neurotoxins. The area postrema in the brain is responsible for inducing vomiting when poisons are detected, and for resolving conflicts between vision and balance. When feeling motion but not seeing it (for example, in a ship with no windows), the inner ear transmits to the brain that it senses motion, but the eyes tell the brain that everything is still. As a result of the disconcordance, the brain will come to the conclusion that one of them is hallucinating and further conclude that the hallucination is due to poison ingestion. The brain responds by inducing vomiting, to clear the supposed toxin.

Risk Factors:

The following are the most common risk factors for motion sickness:

  • Riding in a car, boat, airplane, or space shuttle
  • Age — children between the ages of 2 – 12 are most at risk. Occurrence of motion sickness declines with age (this is probably due to behavioral changes and coping strategies rather than anything inherent in the aging process).
  • Susceptibility to nausea or vomiting
  • Heightened level of fear or anxiety
  • Exposure to unpleasant odors
  • Poor ventilation
  • Spending long hours at a computer screen
  • Being outside of the earth’s gravitational force

Diagnosis:

Most people who have experienced motion sickness in the past ask their health care provider how to prevent another episode from occurring in the future. Rarely will an individual arrive at his or her health care provider’s office actually experiencing motion sickness. To establish a diagnosis of motion sickness, the provider will inquire about the individual’s symptoms as well as the event that typically causes the condition (such as riding in a boat, flying in a plane, or driving in car). Laboratory tests are generally not necessary to establish a diagnosis of motion sickness.

Preventive Care:

The following general measures may be taken to help avoid the discomfort caused by motion sickness:

  • Reduce anxiety and fears, particularly through methods such as cognitive-behavioral therapy and biofeedback.
  • Use head rests to minimize head movements.
  • Maintain proper ventilation to decrease foul odors that may cause nausea.
  • Stay occupied to distract the mind from thinking about motion sickness. Reading may worsen symptoms.
  • Particular exercises, such as tumbling or jumping on a trampoline, may desensitize an individual prior to being in a situation that causes motion sickness.

Individuals who commonly experience motion sickness on a plane should take the following preventive measures:

  • Avoid bulky, greasy meals and overindulgence in alcoholic beverages the night before air travel.
  • Eat light meals or snacks that are low in calories in the 24 hours before air travel.
  • Avoid salty foods and dairy products before air travel.
  • Sit toward the front of the aircraft or in a seat by the wing because the ride will feel smoother in these locations.
  • Eat foods high in carbohydrates before air travel.

Individuals with a tendency toward motion sickness on a boat should take the following preventive measures:

  • Passengers below the deck should keep their eyes closed and minds occupied (by engaging in conversation, for example).
  • Passengers on the deck should keep their eyes fixed on the horizon or visible land.

Treatment:

While medications may be an acceptable treatment for travelers who occasionally experience motion sickness, the goal for individuals who experience motion sickness on a regular basis or whose work is affected by their symptoms is to learn to control — and eventually prevent — these symptoms. This may be accomplished with mind-body practices, such as cognitive-behavioral therapy and biofeedback. Other alternatives to medication include homeopathy, acupuncture, dietary supplements, dietary changes, and physical exercise.

Modern Medications:

Medications for motion sickness may cause drowsiness and impair judgement and, therefore, should be avoided in pilots, astronauts, ship crew members, and individuals in any other occupation where heavy equipment is operated or where being alert is critical. The following medications are a reasonable option for infrequent travelers and others who experience motion sickness occasionally:

  • Scopolamine — most commonly prescribed medication for motion sickness. It must be taken before the onset of symptoms. It is available in patch form that is placed behind the ear 6 – 8 hours before travel. The effects last up to 3 days. Side effects may include dry mouth, drowsiness, blurred vision, and disorientation.
  • Promethazine — take 2 hours before travel. The effects last between 6 – 8 hours. Side effects may include drowsiness and dry mouth.
  • Cyclizine — most effective when taken at least 30 minutes before travel. It is not recommended for children younger than 6, and side effects are similar to scopolamine.
  • Dimenhydrinate — take every 4 – 8 hours. Side effects are similar to scopolamine.
  • Meclizine — most effective when taken 1 hour before travel. It is not recommended for children under 12, and side effects may include drowsiness and dry mouth

Nutrition and Dietary Supplements:

Generally, small frequent meals are recommended for individuals prone to motion sickness. A comprehensive treatment plan for recovering from motion sickness may include a range of complementary and alternative therapies. Ask your team of health care providers about the best ways to incorporate these therapies into your overall treatment plan. Always tell your health care provider about the herbs and supplements you are using or considering using.

Following these nutritional tips may help reduce symptoms and improve overall health:

  • Try to eliminate potential food allergens, including dairy, wheat (gluten), corn, preservatives, and food additives. Your health care provider may want to test for food sensitivities.
  • Eat antioxidant foods, including fruits (such as blueberries, cherries, and tomatoes) and vegetables (such as squash and bell peppers).
  • Eat foods high in B-vitamins and calcium, such as almonds, beans, whole grains (if no allergy), dark leafy greens (such as spinach and kale), and sea vegetables.
  • Avoid refined foods, such as white breads, pastas, and especially sugar.
  • Eat fewer red meats and more lean meats, cold-water fish, tofu (soy, if no allergy), or beans for protein.
  • Use healthy oils in foods, such as olive oil or vegetable oil.
  • Reduce or eliminate trans-fatty acids, found in commercially baked goods such as cookies, crackers, cakes, French fries, onion rings, donuts, processed foods, and margarine.
  • Avoid coffee and other stimulants, alcohol, and tobacco.
  • Drink 6 – 8 glasses of filtered water daily.

Nutritional deficiencies may be addressed with the following supplements:

  • A multivitamin daily, containing the antioxidant vitamins A, C, E, the B-complex vitamins, and trace minerals such as magnesium, calcium, zinc, and selenium.
  • Omega-3 fatty acids, such as fish oil, 1 – 2 capsules or 1 tablespoonful oil one to three times daily, to help decrease inflammation and help with immunity. Cold-water fish, such as salmon or halibut, are good sources.
  • Probiotic supplement (containing Lactobacillus acidophilus among other species), 5 – 10 billion CFUs (colony forming units) a day, when needed for maintenance of gastrointestinal and immune health. You should refrigerate your probiotic supplements for best results.
  • Alpha-lipoic acid, 25 – 50 mg twice daily, for antioxidant support.
  • Resveratrol (from red wine), 50 – 200 mg daily, to help decrease inflammation and for antioxidant effects.
  • 5-hydroxytryptophan (5-HTP), 50 mg two to three times daily, for mood stabilization.
  • Grape seed extract ( Vitis vinifera ) standardized extract, 25 – 100 mg three times daily, for antioxidant effects.

Herbal Suppliments:

Herbs are generally a safe way to strengthen and tone the body’s systems. As with any therapy, you should work with your health care provider to get your problem diagnosed before starting any treatment. You may use herbs as dried extracts (capsules, powders, teas), glycerites (glycerine extracts), or tinctures (alcohol extracts). Unless otherwise indicated, you should make teas with 1 tsp. herb per cup of hot water. Steep covered 5 – 10 minutes for leaf or flowers, and 10 – 20 minutes for roots. Drink 2 – 4 cups per day. You may use tinctures alone or in combination as noted.

  • Ginger ( Zingiber officinale ) standardized extract, 250 mg three times daily as needed, for symptoms of nausea.
  • Peppermint ( Mentha piperita ) standardized extract, 1 enteric coated tablet two to three times daily as needed. You may also make a tea of the leaf.
  • Milk thistle ( Silybum marianum ) seed standardized extract, 80 – 160 mg two to three times daily, for detoxification support.

Acupuncture:

Although results have been less convincing, studies suggest that acupressure may help reduce symptoms of motion sickness in the same way as acupuncture. An acupressure practitioner works with the same points used in acupuncture, but stimulates these healing sites with finger pressure, rather than inserting fine needles.

The acupuncture point known as Pericardium 6, located on the palm side of the wrist about the length of 2 fingernails up the arm from the center of the wrist crease, is a classic point for motion sickness and nausea of all kinds. Many travel stores sell wrist bands with built in buttons designed to apply acupressure to this point.

Massage and Physical Therapy:

One case study of a woman with motion sickness suggests that balance training and habituation (reducing or modifying one’s response to a stimulus that causes motion sickness) may help diminish the symptoms of the condition. The use of habituation for the treatment of motion sickness is based on the theory that when an individual prone to motion sickness is repetitively exposed to the stimulus that causes motion sickness (such as driving in a car or riding on an elevator) in a controlled, supervised fashion, they will become used to (habituate) that stimulus. Over time, the stimulus will no longer evoke the motion sickness response, and symptoms will diminish.

Cranio-Sacral therapy may be helpful in treating acute motion sickness and diminishing one’s tendency towards motion sickness. Ask your health care provider about more information on this alternative treatment for motion sickness.

Homeopathy Medications:

Few studies have examined the effectiveness of specific homeopathic remedies. A professional homeopath, however, may recommend one or more of the following treatments for motion sickness based on their knowledge and clinical experience. Before prescribing a remedy, homeopaths take into account a person’s constitutional type — your physical, emotional, and intellectual makeup. An experienced homeopath assesses all of these factors when determining the most appropriate remedy for a particular individual.

  • Borax — for nausea caused by downward motions, such as landing in an airplane
  • Cocculus — the primary treatment for motion sickness, particularly if nausea and vertigo or other type of dizziness are present
  • Nux vomica — for motion sickness accompanied by headache, nausea, and ringing in the ears
  • Petroleum — for dizziness and nausea that occur when riding in a car or boat
  • Sepia — for motion sickness brought on by reading while in a moving vehicle
  • Tabacum — for motion sickness with severe nausea and vomiting

Mind-Body Medicine

Biofeedback Training and Relaxation

In a study of 55 pilots who had to stop flying due to symptoms of motion sickness, 76% of them successfully overcame their motion sickness and were able to return to work after participating in a biofeedback training and relaxation program. Biofeedback instruments recorded skin temperature and changes in muscle tension while the pilots were exposed to a stimulus that caused motion sickness (sitting in a tilting, rotating chair). While in the chair, the pilots performed various relaxation techniques, such as deep muscle relaxation and mental imagery. Over time, the pilots became used to the rotating chair, and they no longer felt sick because they learned to relax.

Cognitive Behavioral Therapy

The goal of cognitive behavioral therapy is to alleviate the anxiety that some people experience simply thinking about movement or motion sickness. In a study of 50 pilots who occasionally experienced motion sickness, 86% of them successfully overcame their symptoms after cognitive behavioral therapy. During this therapy, individuals are exposed to a provocative stimulus (such as a tilting, rotating chair) in a slow and controlled fashion until they experience some symptoms of motion sickness, but not until the symptoms become overwhelming. As the individual performs better and better on the rotating chair, they build confidence, reducing their anxiety.

Breathing Techniques

In a study of 46 people with motion sickness, those who were instructed to take slow, deep breaths had a significant reduction in symptoms of motion sickness compared to those who breathed normally or counted their breaths. Interestingly, involuntary rapid and shallow breathing often exacerbates symptoms of motion sickness. While it makes sense that slow, deliberate breathing would help reduce the anxiety associated with motion sickness, further studies are needed to determine whether breathing techniques effectively diminish the symptoms associated with the condition.

Prognosis and Complications:

While motion sickness has no long-term complications, the condition may be devastating for those in an occupation that involves constant movement, such as a flight attendant, pilot, astronaut, or ship crew member.

The symptoms of motion sickness generally disappear quickly once the journey is over. People who travel infrequently may also become accustomed to movement during a trip lasting several days. Even those who travel often may improve from repeated exposures to the same type of experience. However, people who become anxious before a journey often experience worsened symptoms of motion sickness and tend to require more formal interventions, such as biofeedback and relaxation training

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First aid

Disclaimer: This information is not meant to be a substitute for professional medical advise or help. It is always best to consult with a Physician about serious health concerns. This information is in no way intended to diagnose or prescribe remedies.This is purely for educational purpose.

Resources:
http://en.wikipedia.org/wiki/Motion_sickness
http://kidshealth.org/kid/talk/qa/motion_sickness.html
http://www.umm.edu/altmed/articles/motion-sickness-000110.htm

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