Fetal Monitors

♥ College Girl ♥ asked:


Can you decided whether you want to be connected to it or not during birth? and why wouldn’t you want to be connected to it during delivery?

Thanks!

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nola-gal asked:


I did not have one with my first, and generally was not really worried about it. But a lot of my currently pregnant friends have them, and now it’s making me think I should get one. But I don’t want to go crazy checking for it all the time, then freaking out becuase I can’t hear it. Since it’s available, should a pregnant woman get one, or is it a waste of money?

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nana asked:


Are there any medical stores that sell them directly or do I have to get them online?
please don’t suggest the ones at the stores like baby r us and walmart because i have purchased one and it has not worked till today and many people have reported the same thing.

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Business Local Listings asked:


“Congratulations, you’re pregnant!” We take it for granted that women are always happy when pregnant. Unfortunately, this is not always the case. Even if the pregnancy is welcome, the physical, psychological and emotional toll on the woman is so great that depression is a common occurrence. It is therefore very fortunate that the University of Miami School of Medicine has proven in a study that pregnancy massage therapy eases the depression of pregnant women and even improves the health of their babies. This is good news for female massage therapy fans in Brandon, Valrico, Riverview and Bloomingdale.  Pregnant ladies can now massage away their blues in 33511.

There are just too many physiological changes to adapt to during pregnancy and this causes much anxiety. A pregnant woman is also experiencing a lot of discomfort. What could normally be treated with over-the-counter pain relief medication can’t be dealt with that easily anymore since a lot of medicines are not safe for pregnant women. As the pregnancy progresses and the uterus grows bigger, the weight and pressure causes even more back pain and leg pain. All these plus fears about labor, delivery and the safety of the baby, coupled with issues of self-image and the impending responsibilities of parenthood are factors that could easily cause depression.

In the study conducted by the University of Miami School of Medicine, 84 pregnant women diagnosed with depression were compared to a separate group of pregnant women who were found to be not depressed. The 84 depressed pregnant women were randomly assigned to three groups.

The first group was the massage group. The women’s partners were trained to give them a set massage routine for 20 minutes twice a week. This was done for 16 weeks. The second group was the muscle relaxation group. The women were taught a 20-minute muscle relaxation routine which they were made to do twice a week also for 16 weeks. The third group was the control group. The women were given standard pregnancy care.

The scientific study showed a greater improvement in mood and a decrease in anxiety among pregnant women in the first group who had received regular massage therapy. The decrease in depression was also cumulative and progressively increasing, with greater decrease shown on the last day of the study as compared to the first day. Interestingly, the pregnant women in the massage group also reported less back pain and leg pain.

The study also assessed the effects of the massage therapy, muscle relaxation techniques and standard pregnancy care on the babies during the pregnancy, delivery and neonatal period using fetal monitoring and the Obstetrics Complications Scale. Fetal activity among the pregnant women was monitored at 18 to 24 weeks and at 36 weeks. There was a greater decrease in fetal activity among the pregnant women who had received massage therapy. They also had fewer premature births.

According to the researchers from the University of Miami School of Medicine, it could be concluded from the study that massage therapy is “effective for reducing pregnant women’s stress hormones, stressful mood states, leg and back pain and for lessening obstetric and post-natal complications, hence improving neonatal outcomes.”

With such scientific data proving the beneficial effects of massage therapy not only for pregnant woman but also for their babies, it should definitely be made part of standard pregnancy care for all pregnant women.

If you are the partner, family member or dear friend of a pregnant lady, you can further boost her mood by accompanying her to her pregnancy massage session. You can choose Swedish massage, deep tissue massage or sports massage for yourself in the same Brandon massage facility. It would be good for both of you.



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clinicalguard asked:


How do I distinguish my baby’s heartbeat from mine?

The easiest and most effective way to distinguish your heartbeat from your baby’s is to count your baby’s heart rate by using fetal Doppler. The baby’s heart rate is normally within a range of 120 to 180 BPM.

On the other hand, expectant mother’s heart rate is much lower, which is 60 to 100 BPM.

Please note that your baby’s BPM, like adults, varies at different activity levels.

In what way can I get baby’s fetal heart rate by using fetal Doppler?

For fetal Dopplers without a display, such as Sonotrax Lite model, you can listen to fetal heart beats and count the beats for 10 seconds or 15 seconds. And then calculate BPM (beats per minute) by multiplying the beats by 6 or 4 (10 seconds multiplied by 6 equals 60 seconds, or 15 seconds multiplied by 4 equals 60 seconds – one minute).

For fetal Dopplers with a display, such as Sonotrax Basic model, you can read the BPM directly on the screen.

What is the normal fetal heart rate of my unborn baby?

Normally, the fetal heart rate is between 120 to 180 beats per minute (BPM). BPM can vary as the fetal movement may influence BPM during the day. Also BPM changes at different pregnancy periods. While the fetal heart rate changes due to various conditions, but it is normal as far as the beats are within the range. With the progress of your pregnancy and the growth of your baby, the heart rate will be more static. If you have something uncertain, please talk to your healthcare professionals.

Why do we need to monitor fetal heart rate?

Fetal Heart Monitoring is the way that the doctor or yourself may use to monitor the condition of the fetus by listening to the fetal heart rate and keep track of the FHR (fetal heart rate of the baby – fetus) during the pregnancy.

By using fetal Doppler with 3MHz probe, you can listen to the fetal heart beat as early as 8-week pregnancy. This can help you to make sure that the developing fetus is in healthy condition and make you relieved from stress.

Furthermore, fetal heart rate monitoring can prevent miscarriage and decrease the miscarriage percentage in pregnancies from 15 percent to the 1 percent under monitoring of fetal heart beat.

Does stress do harm to my fetus and affect FHR ?

The answer is YES.

If you worry about your fetus’ health and keep anxious all the way during your pregnancy, FHR will be affected and the risk of low-birth weight infant as well as premature birth will increase consequently. Last but not the least, pregnancy stress can eventually induce the baby’s withdrawal behavior and affect normal functioning in life as he grows up.

If you are able to listen to your fetus’ heart rate with a fetal Doppler, it would be a safe method for you to relieve yourself from stress and anxiety caused from unknowns during pregnancy.

Can I get to know the gender of my fetus by listening to fetal heart rate?

Some people get the idea that a boy’s fetal heart beat is slower than a girl’s, which arises from an old wives’ tale. The reason is that the boy is bigger so his heart rate is slower, which is not the truth. With the growth of your baby and the progress of your gestation, the FHB becomes slower and static, but within the range from 120 to 180 beats. If you want to know the exact sex of your baby, the accurate method is —- birth.

Disclaimer:

The information on this website aims to provide customers with relevant knowledge regarding our products. Under no circumstances should the information be used for therapeutic purposes. Customers must consult their doctors for the correct use of these information and products. ClinicalGuard.com is not responsible for any losses or accidents caused by the use of information on this website.



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clinicalguard asked:


What is fetal Doppler?

A fetal Doppler is a kind of non-invasive monitoring device for babies before delivery. It is a specially designed device to monitor fetal heart rate (FHR). Fetal Heart Rate assessment is an effective and useful means used to evaluate the fetal condition by identifying FHR patterns. Currently there are several ways to monitor the heart rate of the fetus before birth. Electronic fetal monitoring is one of them. This device is usually used in labor and it is able to measure FHR and continuously records it in graphical form. Another type of monitoring fetus is by the aid of a special kind of stethoscope to measure baby’s heartbeat. This type of fetoscope is usually used after about 30-week gestation. Internal fetal monitoring of FHR is an invasive procedure. It needs a spiral electrode attached to the baby’s scalp to record and calculate the fetal heart rate. A handheld ultrasound fetal heart Doppler is another avenue to detect the fetal heart rate. The little device makes use of the Principle of Doppler Effect to record and measure the FHR through an external non-invasive way. The fetal heart Doppler works by means of emitting and receiving continuous ultrasound waves and then emitting the shift in frequency and wavelength.

What kind of probe is Doppler equipped with?

Each ultrasonic Doppler is equipped with a 3MHz or a 2MHz probe. The probe is waterproof. The higher frequency probe will produce shorter wavelength than the lower frequency one. The results of millions of tests prove that 3MHz works better than the lower frequency one during pregnancy. Only in some special cases for overweight expecting mothers, 2MHz probe works better than higher frequency one.

How does the Fetal Doppler work?

The ultrasonic baby Doppler provides the expecting mothers a safe method to listen to the fetal heart rate. The usage of such a device is comfortable and convenient. What pregnant women need to do is to just lie down and expose their abdomen. A certain amount of ultrasonic gel is indispensable to be greased on the probe. The function of the gel is to protect the probe and reduce static and the popping sound during the course of doing the exam. Normally, the fetal heart rate can be detected from 8-12 weeks pregnant women. The fetal Dopplers can detect maternal sounds and placental sounds, that comes the sound of blood flow of the expecting mothers. The average normal range of FHR is between 120BPM-180BPM. And it’s a normal phenomenon that the fetal heart rate can reach as high as 190. The data may vary within a reasonable range. The calculation of baby’s heart-rate is easy. Users can set and count any interval of time and then multiply that number to get the final results.

Now more and more expecting parents are choosing to rent or purchase a reliable FDA approved ultrasound fetal Doppler for home monitoring and reference. For more questions and concerns about this device, please consult your own health care provider.

Disclaimer:

The information on this website aims to provide customers with relevant knowledge regarding our products. Under no circumstances should the information be used for therapeutic purposes. Customers must consult their doctors for the correct use of these information and products. ClinicalGuard.com is not responsible for any losses or accidents caused by the use of information on this website.



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Miss_Thang30 asked:


I am pregnant with my 2nd child and I’m about 15 weeks, I saw one of the fetal heart monitors for home use the other day at K Mart and I thought how cool it would be to have it..so I put it in my buggy and just so happen to pick it up and read it and on the package it said that in the 7th month is when you could pick up on the heart beat and movement…then in a magazine I was reading said that at 12 weeks you could hear the heartbeat through a stethoscope so I was thinking well if you can hear it with a stethoscope then surely you can hear it with a heart monitor…anyways, if you have used one let me know..I would love to go out and buy one right away but I don’t want to get it home and not be able to use it for 3 or 4 more months.
Where did you buy one from in the U.S…I haven’t even thought about looking for them elsewhere, that’s advice in it’s self lol

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Andyj00 asked:


Baby monitors are a very useful monitoring items for carers or parents as they provide the freedom to lay down their baby to rest while they carry on doing the usual household jobs – or maybe watch TV - knowing that their baby is being safely monitored. Technology has moved on so much in recent years and there are many choices of baby monitor that are now available. The wired type of monitor was the only one, but today the popular choice is the wireless baby monitor. It is helpful to be aware of the advantages and disadvantages for each being make a choice of which is most suitable for you.

These systems essentially consist of two electronic devices: a transmitter and receiver. The transmitter unit is placed near to the baby for monitoring while they are sleeping and the receiver is used by the parent or person caring for the baby to listen or watch the baby when they are asleep.

Baby monitors come in two flavours which are wired or wireless. Wired baby monitors, as the name implies use wires to connect the transmitter and receiver together. The main and really only advantage of a wired system is there will be no chance of interference from household items and appliances such as a neighbors baby monitor, a cordless phones, microwaves and wireless home networks. However, there will be a cost to install this kind of system but the main problem is the restriction of the fixed position of the receiver unit. Being wired, it has to be installed in one location and cannot be picked up or moved around like the wireless unit.

Alternatively, the wireless baby monitor is much, much better as it is less restrictive. It’s a popular choice due to its flexibility and portability. No installation is required for this device so it can be up and running in a matter of minutes. They allow the parents to move all around the house as the receiver unit and can be carried with them either clipped to a belt. You can always listen to your baby wherever you are in your house, kitchen sitting room or garden or wherever, provided you are in range.

The main drawback to the wireless baby monitor is the issue of interference. Most units have the option of choosing different frequencies thus minimizing interference so they will not interfere with other household equipment. FM units have the most issues with regards to interference but there is a solution to this problem. With the advancement in technology, digital or DECT baby monitors address the problem of interference and make it a thing of the past. Digital monitors are much clearer and more responsive and will not deteriorate in quality like an analog monitor system.

One other concern is the operation range in which the device will work successfully. You don’t want to be wandering so far away from the transmitter unit so you can no longer hear your baby. The good news is most monitors allow a distance of up to 100 feet range through obstructions which should be more than adequate for most properties.



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Aurelia asked:


There’s no set answer as to how many pounds you should gain while pregnant.  Just as each woman’s pregnancy is different, each body type and metabolism differs as well.  Pregnancy Without Pounds allows you to identify the distinct category you fall into in order to have normal weight gain during pregnancy.   Couple this with the best pregnant diet possible, and some good daily exercise, and you’re more than halfway there.

In order to stay there though, you’ll need to know if you’re where you should be.  The best thing to do is monitor your pregnancy weight gain by week.  This is a good indication of whether you’re doing well or straying slightly from the paths of good nutrition.  Having such a chart, and referring to it each week/month or trimester, lets you keep accountability for yourself and reflects an honest indictation of whether or not you’re overeating.

Your doctor will tell you to monitor your caloric intake upward, and may give you a number.  But keep in mind that just because you’re eating for two doesn’t mean you can eat twice the normal amount of food.  On the contrary, since you’re going to be consuming more calories it’s more important than ever that you balance your diet and get the best possible nutrition out of everything you eat.  Breaking this down, some of the best diet on pregnancy advice is as follows:

* Proteins - When carrying a child, it’s extremely important that you get enough daily protein to ensure good fetal development.  Proteins come from red meats, fish, and eggs, but you should avoid eating any of these things raw!  The bacteria associated with these uncooked foods can be harmful to pregnant women.  That’s why it’s also good to get your protein from other sources like bean, nuts, and lentils.  These highly protein-rich foods offer good fats and have the added benefit of bringing lots of fiber into your diet too.  Consider them in place of meats at least two or three times a week.

* Carbohydrates - Being pregnant can really sap your energy, especially in the later stages.  Getting enough carbs in your diet is a great way to boost energy, but too many of the wrong carbohydrates can inhibit fat-burning and can cause weight gain with pregnancy.  That’s why you need to identify the right carbs to eat: whole wheats, pastas, and whole grain breads and cereals.  Eating these will boost energy and fulfill your requirements in this regard while also offering B-complex vitamins such as B6, which is proven to help with morning sickness.

* Vegetables & Fruits - Always good, make sure any produce you eat gets thoroughly washed in order to fertilizers or pesticides off the surface of the skin.  Snacking on fruits and vegetables throughout the day will reduce hunger and help avoid pregnancy weight that might’ve been gained from eating in excess at lunch or dinner.

* Folic Acid - This nutrient is an extremely vital part of any pregnancy diet.  High levels of folates have been proven to promote good fetal development, so make sure you get enough.  Drinking orange juice will provide you with folic acid, as will eating the beans and lentils mentioned above.

* Calcium - You need calcium all throughout the time you are pregnant.  Make sure you get enough of it by drinking non-fat milk, or if you happen to be lactose intolerant you can substitute soy milk or yogurt.  You can combine this with your whole grain cereal to get both Vitamin-D and B.

* Iron - Greens, spinach, broccoli, and turnip are all good sources of iron.  The best though, are lean red meats, seafood, and beans.  As mentioned above, be very careful when choosing seafood to make sure everything is cooked.  Some seafoods have been shown to exhibit high levels of mercury, and these should be avoided as well.

Once you’re following the best pregnancy diet possible, it’s time to incorporate some exercises.  Just because you’re carrying a baby doesn’t mean you need to sit around and wait for your due date!  Walking is a fantastic exercise to do while pregnant, and it gets you out into the open air.  Swimming is also a great non-impact choice, and you can usually find a swim or water aerobics class near you.  Even stretching can be exercise… you should do some each day to get the oxygen flowing to your muscles and to keep yourself limber and strong.  Or go one step further and sign up for a Pilates or Yoga class - both of these choices will teach you breathing and relaxation techniques that will be invaluable to you later on in the delivery room. 

Mark your pregnancy weight gain trimester by trimester, and see if you’re still within your set goals.  Adjust your diet and/or the intensity of your workout program if needed.  Never overexert yourself, or exhaust yourself while exercising.  And when doing Yoga or Pilates, be sure to consult an instructor first as some of the positions performed in those classes should be avoided while pregnant.



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Ronda Behnke asked:


Are you an average adult American?  If so, then you consume 70 pounds of beef, 60 pounds of pork, and 550 pounds of dairy (love that ice cream).  Americans feel safe eating because they know the foods they eat have been monitored by the United States Department of Agriculture (USDA) and the Food and Drug Administration (FDA).

But, how safe is our food industry really?  Do the USDA and FDA really monitor our food for quality and safety?  Is there anything to fear?

When I was contracted to write an article about foodborne illnesses (illnesses that come directly from eating food), I discovered that illness directly related to food come in all shapes and sizes.  In 2005, the Centers for Disease Control and Prevention (CDC) estimated there are more than 200 foodborne illnesses, from allergies to “stomach flu” to vomiting; the CDC have identified 30 pathogens associated with these foodborne illnesses, classified as bacteria, virus, chemical, parasitic, prions, antibiotic residues, genetic modifications, or unknown.  In fact, the CDC estimated the average adult American consumes 10 pounds of additives each year, pathogens included!

And any one of these pathogens could cause or lead to illness, disability or death.

Caroline Smith DeWaal, director of food safety at the Center for Science in the Public Interest stated “Consumers play a lottery every day they eat.”  But it isn’t just E. coli and Salmonella that cause illnesses to occur.  Sure, they cause the classical signs of stomach and digestive distress, but what about those illnesses that occur down the road from eating foods?  What about antibiotic resistance or allergies?  These too are now being considered foodborne illnesses.

The CDC stated that foodborne illnesses cause 9,000 American deaths annually, 81 million are sickened, and 325,000 require hospitalization.  The long-term effects of some food-borne contaminants are still being studied by the CDC; these effects are cancer, paralysis, and disability.

As many illnesses are now being considered “food-borne” because they began with food, this article looks at the “traditional” foodborne illnesses (i.e. parasites, bacteria, viruses), genetically modified foods, hormones and irradiation.  Each needs to be examined for its impact on health, as the building blocks to health begin with what we put in our mouths.

Food Poisoning (previously considered as “Foodborne Illnesses”)

Foodborne illnesses used to be considered as illnesses caused by eating food contaminated with a bacteria, virus or parasite.  The majority of the time the symptoms are digestive:  diarrhea and vomiting are the two main symptoms.  Each year, hundreds of millions become sickened worldwide.

The two most common pathogens (illness-causing substances) are E. coli and Salmonella, with Salmonella being the leader in causing deaths from foodborne illness.  E. coli in itself is considered harmless because it exists in human and animal digestive tracts; however, when too much E. coli enters the body through ingesting it, illnesses can occur.  Most cases of E. coli do not harm a person long-term; however there is one E. coli that can lead to disability and death:  E. coli O157:H7.  Approximately 3% of the deaths from foodborne illnesses occur from having this deadly form of E. coli.

Most cases of foodborne illnesses are mild, so people attribute the symptoms to being the “stomach flu.”  Plus, people rarely make the connection between their symptoms and food from two days prior.  Most cases of foodborne illness do not occur shortly after eating.

The USDA states that foodborne illnesses are primarily caused by improper food handling, storage, and preparation.  However, Robert A. Robinson, associate director of food and agricultural issues at the Resources, Community & Economic Development Division of the USDA, in a statement to the House of Representatives Subcommittee on Human Resources & Intergovernmental Relations on May 23rd, 1996, stated that experts agree that, in many cases, the pathogens were present at the processing stage, i.e. before the food reached the cook’s hands.  Despite the new methods of destroying bacteria, viruses and parasites, the incidences of foodborne illnesses have increased over the past 20 years, and the pathogens have become more deadly, as incidences of hospitalizations and deaths have also increased.

Over the past 20 years, genetic modifications, irradiation of foods, and the use of antibiotics and pesticides have not decreased the incidences of foodborne illnesses.  Why?

According to Mr. Robinson in his address to the House of Representatives, six reasons can be considered aside from undercooking or otherwise mishandling of food:



*  Food supply is changing in ways that promote foodborne illnesses: ex:  large numbers of animals herded together; broad distribution, so contaminated food can reach more people in more locations.

*  Demographics: certain people are more at risk for foodborne illnesses:  those with suppressed immune systems, children in group daycare, and the elderly.

*  Three of the four most common pathogens the CDC consider most important were unrecognized as causes of foodborne illnesses 20 years ago: Camphylobacter, Listeria, and E. coli O157:H7.

*  Bacteria already recognized as sources of foodborne illnesses have found new modes of transmission: ex:  E. coli O157:H7 previously found only in uncooked hamburger is now being found in other foods such as salami, raw milk, apple cider, and lettuce.

*  Some pathogens are far more resistant than expected with long-standing food-processing and storage techniques: ex:  Yersinia and Listeria can continue to grow in food under refrigeration.

*  According to the CDC, virulent strains of well-known bacteria have continued to emerge: for example  E. coli O104:H21 is another new potentially deadly strain of E. coli.

The two government agencies that monitor food quality in the United States are the USDA (monitors meat, poultry and eggs) and the FDA (monitors everything else).  Because of the vastness of the food processing industry, only 2% of the annually estimated 5 million shipments of food are inspected; but still, all commercialized food bears a label as being inspected by either the USDA or FDA.  Unsurprisingly, perhaps, 2/3 of all outbreaks of foodborne illnesses are from FDA- or USDA-regulated foods.

The commercialized beef and poultry industries blame the organic farmers for the increased incidences of foodborne illnesses and the enhanced virulence of the pathogens, stating that organic farmers use cow manure as fertilization instead of chemical fertilizers, and they do not use antibiotics on their cows and chickens.  Mr. Robinson believes the increase in incidences of illness was directly related to the commercialized slaughtering and processing of meats.  In the larger commercialized farms, cows, for example, are cared for through automation.  The milking is done by machine, the feeding is automated, and distribution of antibiotics is automated.  When the cow reaches the factory for slaughter, it too is automated, and severely dirty with cow manure that finds its way into the meat that is processed.  The meat from one “bad” or contaminated cow can be mixed into many pounds of meat, and distributed across the United States.

With organic farming, very little is automated.  Mr. Robinson did not state any concern about the organic farming industry as being a contributor to foodborne illnesses.  All fingers were pointed at commercialized industries.

Genetically-Modified Foods

Genetically-modified foods are called a variety of names:  transgenic crops, hybrid crops, GE (Genetically Engineered), GMOs (Genetically Modified Organisms), Frankenfoods, or GM (Genetically Modified), to name several of the more common names.  No matter the name, the premise behind them is the same:  Genetic engineering makes it possible to mix genetic material from one species into another species, thereby giving the altered species traits it would normally not possess.  For example, taking genetic material from a fish and inserting it into corn, thereby giving corn some of the characteristics of the fish.

At this time, more than 60 genetically modified crops have been approved by the United States for human consumption and feed for animals.  Eighty percent of the GE crops are modified to resist pesticide and herbicides that would normally kill them and, to resist pests such as insects or worms; the balance are tailored to either increase or decrease growing/ripening time.  As of 2005, the GE crops currently approved for planting and consumption in the US are varieties of alfalfa, canola, corn, cotton, flax, papaya, potatoes, radicchio, rice, soybean, sugar beets, tobacco, tomatoes, and yellow crookneck squash.

Genetic modifying of crops was first introduced in 1997 as a way to increase farmer profit, decrease pesticide use, increase convenience, and support hunger throughout the world. In proposed estimates, or example, GE soy, corn and cotton would decrease insecticide and herbicide sprays by over 8 million pounds/year. They also were estimated to decrease the death of farmers who die from these sprays by 75%.  Work hours, gas use, and water use are also estimated to decrease, along with the decrease in soil erosion due to the decrease in tillage.

Although the concept of genetic modified crops looks beneficial to the farmers as well as consumers, studies have concluded that the public does not support genetic engineering.  Consumer polls by the USDA repeatedly show that 80-95% of Americans want GE foods to be labeled—so they could avoid buying them.

It isn’t just the American population that is averse to GE foods.  Aside from the U.S., Canada, China and Argentina, no other country allows GE foods, making it impossible for these four countries to export their GE crops and foods.   Charles Margulis of The Center for Food Safety, and Michael Hansen, senior scientist of The Consumers Union, stated that some African nations have even refused GE crops in the form of food aid.  As Margulis said, “Even people who are hungry don’t want to be used as guinea pigs.”

To date, the U.S. government does not make it mandatory to label foods that are genetically engineered, leaving consumers to wonder if their foods have GE ingredients.  Surprisingly, lab tests and industry disclosures indicate that 60-75% of all non-organic supermarket foods now “test positive” for the presence of GE ingredients, with 60-70% of corn, soy, canola and/or cottonseed being genetically modified.  Some products in themselves, such as corn and “vine ripened” tomatoes have been genetically modified.

So where does this leave the consumer?

There are several troubling things that have been discovered through the use of genetically engineered crops.  Scientists have warned that GE foods may set off allergies, increase cancer risks, produce antibiotic-resistant pathogens, damage food quality, and produce dangerous toxins.

Consider the way the crops are modified:  genetic material from one organism is taken and forcibly injected into a DNA strand of the crop seed.  The new piece of code is tagged with an antibiotic-resistant code, which is used to test which seeds are viable and which are not.  Once the procedure is done, antibiotics are used to see which seeds are viable (able to be used) and which are not (they die).  The viable seeds are planted, and the plants that result have antibiotic-resistant DNA.  The medical community is having difficulty treating infections due to the prevalence of antibiotic resistant bacteria.

Another problem that is now being seen is allergies to foods where a person hadn’t been allergic before.  When the strand of genetic code is inserted into a seed, the abilities, and contaminants, of the genetic strand go along with it.  This includes viruses and allergens.  Nut DNA inserted into tomatoes can now elicit an allergy in a person eating the tomato who is allergic to nuts.  The British Medical Association has called for a global ban on GE foods, while the New England Journal of Medicine has warned, “the allergic potential of these newly introduced microbial proteins is uncertain, unpredictable, and untestable.”

Also, as mentioned, viruses are transmitted through genetic engineering.  Eating GE crops may transmit the virus to the consumer, and the virus may have new properties it didn’t have before being genetically modified.  The virus may now be more deadly.

As for the farmer, GE crops didn’t help them as planned.  Studies have found that herbicide use has increased because some of the GE crops themselves wouldn’t die with herbicide use, so more toxic and stronger herbicides needed to be used to kill the GE crops.  With the use of these more toxic and stronger herbicides, farmer profit has decreased, and the ingestion of more toxins has increased for animals and humans.

Also, field contamination can occur, where GE seeds are transferred to a non-GE farm by the wind or birds, and the farmer of the contaminated field is held responsible.  One farmer in Canada is being sued for patent infringement for having GE crops growing in his field when a GE field contaminated his.  For organic farmers, they would lose their organic status if this occurred.  The farmer is responsible for his field, no matter what gets planted there by “others.”

For consumers wanting to avoid GE foods, it is best to buy organic or buy local.  Some products also bear the label “non-GE” or “non-GMO”; these are not supposed to have GE ingredients.

Hormones

One of the most common genetic modifications is recombinant Bovine Growth Hormone (rBGH), which is designed to increase milk production in dairy cows.  Currently, 10-30% of cows are injected with rBGH.

Consumers protested the use of rBGH in their milk, causing the dairy industry to remove the labeling from milk cartons, but not to stop using the hormone.  rBGH has been banned in every other industrialized nation of the world, leaving the United States as the largest producer of cattle injected with this growth hormone.  Although the hormone is designed to increase milk production, millions of gallons of milk are destroyed daily as the purchasing of this modified milk is avoided by consumers, and other countries have banned importing.

Studies in Europe and Canada have determined that rBGH is linked to increased risk for cancer and antibiotic resistance.  Approximately 79% of cows treated with rBGH develop udder infections, requiring additional antibiotics to be given.  Antibiotics from cows treated with rBGH have also been found in milk, as has pus that went into the milk from infected utters.  Plus, the CDC has recently warned that 16% of all U.S. meat contained potentially dangerous antibiotic resistant bacteria.

Since all commercially-raised cattle are given antibiotics, and the majority (90%) are given hormones of some form, consumers must look to organic sources for their beef, milk, and dairy products to avoid antibiotics and hormones from cow sources.

Irradiation

Irradiation of food was researched for the past three decades ever since it was discovered that radiation killed the parasite Trichonella in pork.  Since that time, irradiation has been used in an effort to decrease the number of foodborne illnesses, increase shelf life, preserve food quality and make more food available at a more reasonable cost.  Legally defined as an additive, irradiation has now been approved for use on more than 100 foods, and is being used in 52 countries throughout the world.

Irradiation involves treating food with high doses of ionizing gamma radiation.  This radiation is different from microwaves, as it is not designed to heat food, but to destroy pathogens such as bacteria and parasites, destroy sprouting enzymes in potatoes, delay ripening, and kill infestations from insects.

The amount of radiation used depends upon the intention.  For example, 15,000 rads are needed to kill the sprouting enzymes in potatoes whereas 3 million are needed to kill bacteria in meats.  How does this compare to medical x-rays?  A chest x-ray, for example, requires 0.5 rads.  This is considerably less than what is being used on food.

With hundreds of millions of people worldwide succumbing to a foodborne illness each year, the FDA felt that irradiating foods that contain the common sources of pathogens (such as beef and chicken) would decrease the number of foodborne illnesses.  Irradiating food was shown to kill the number of illness-causing pathogens in meat, for example, and it was touted to not affect taste or nutritional value of the food.

However, several studies have indicated that radiation levels over 100,000 rads destroyed vitamin C, B1, B2, B6, A, E, and K, as well as amino acids  (the building blocks of protein) within the food.  At doses of 7.5 million rads, trace minerals in food (potassium, magnesium, nickel, etc) can become radioactive, according to the FDA. The FDA claims that the radioactivity is short-lived however.

Dr. Joseph Barna performed a study for the Hungarian Government in 1979; in his findings, irradiated foods produced 185 beneficial effects, and 1,414 harmful effects.  Plus, irradiation of food did not ensure that the food was uncontaminated with foodborne pathogens; some parasites, bacteria and viruses survived.

Many other studies have been done to confirm that irradiated food is safe to eat.  Animals fed irradiated food have shorter lifespans, have increased rate of infertility, lose weight quickly, and developed nervous system disorders, organ damage, cancer, tumors, and kidney disease.

Malnourished children developed abnormal blood cells called polyploids, which are linked to leukemia.  Other tests involving humans led to human subjects developing internal bleeding, chromosomal disorders, cancer, organ damage, stillbirths, and fetal anomalies.

Today, there are many less-invasive ways to process and handle foods that can accomplish the same benefits for foods, and are considered less harmful to the public.  For example, FDA Commissioner Lester Crawford, speaking to the International Congress on Meat Science and Technology on August 8, 2004, said that the risk of food-borne illnesses in shellfish can be substantially reduced by cutting the time from harvest to refrigeration or freezing and using high pressure or mild heating.  Crawford said, “85 to 90 percent of illnesses in the United States could be eliminated if the product were iced within four hours or refrigerated within one hour of harvest.”

The FDA does not require labeling of irradiated ingredients in foods, but does require it for whole foods that have been irradiated.  The flower symbol “radura” is the labeling; it is a flower circled by a thick broken line.  No words need to be written.

To avoid foods that have been irradiated, consider foods that are labeled stating the foods have not been irradiated.  You may also want to consider buying organic and/or locally.

Late Addition

In the Green Bay Press-Gazette (Saturday, August 19, 2006) and the Shawano Leader (Monday, August 22, 2006), a brief article was printed announcing the FDA approval of using viruses to kill bacteria on poultry and ready-to-eat meats, such as hotdogs and cold cuts.

The virus spray contains 6 viruses that are designed to kill the foodborne pathogen Listeria.  The meats would be sprayed with this new formulation before packaging in an effort to decrease the cases of foodborne illnesses caused by this pathogen.

The American Society for Microbiology stated that viruses tend to swap their genes with other viruses, opening the potential for this spray to cause different strains of viruses, as well as more deadly ones.  Plus, the bacteria may develop a resistance to the viruses in the spray, making the bacteria more difficult to kill through conventional means.

There is also the concern that the viruses will mutate once ingested into the human body.  As mentioned previously, E. coli exists naturally in the human digestive system, and is required for adequate nutrient absorption and food break-down.  Although currently E. coli is not a target of this spray, if any of the viruses mutate, it could be.  Also, a virus formulation to destroy E. coli is being developed, to be sprayed on beef, before it is ground for hamburger.

Although this formulation is classified by the FDA as an additive, it will not appear in food labeling.

Conclusion

Foodborne illnesses are on the rise despite efforts by the USDA and FDA, and the pathogens are becoming more deadly.  Twenty years ago, a foodborne illness rarely caused more than a few days of diarrhea and vomiting; today, more people are being hospitalized and dying as a result of a pathogen in their food.  The pathogens exist despite efforts to irradiate or modify the foods genetically; some of the interventions to destroy these pathogens are making more harmful bacteria, viruses and parasites, and adding dangerous toxins and by-products.

The only industry that does not irradiate, genetically-modify, or use hormones in the raising and preparation of foods is the organic industry.  The beef industry, for example, has routinely tried to blame the organic industry on the increase in incidences of foodborne illnesses.  However, Robert A. Robinson, in his report to the House of Representatives stated it was the current commercialized food industry that is causing the increase of foodborne illnesses, NOT the organic farming industry.

All farmers before World War I were “organic”, using cow manure to fertilize their fields.  It was only after WWI that farmers began using chemicals in their fields.  Today, only farmers that do not use chemicals on their fields are considered organic.  When looking for organic products, however, look for the seal that says “USDA Organic”, as anyone can say they are organic (even if they are not), but only those certified by the USDA are considered to be truly organic.

No matter where you get your food, always prepare it as recommended by the Centers for Disease Control:  cook meat thoroughly leaving no red meat; do not eat raw eggs; refrigerate all cooked food immediately after cooking; and wash cutting boards and work surfaces with warm, soapy water after cutting meats to decrease contamination.

If you suspect you have a foodborne illness, seek medical care for diagnosis and treatment.

(Research sources available by written request)

The information provided by Ronda Behnke ND, RN is for educational purposes only.  It is not a substitute for medical advice and it is important that you not make medical decisions without first consulting with your personal physician or health care practitioner.



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