Bardella, Maria Teresa, et al. “Gluten
intolerance: Gender- and Age-Related Differences in Symptoms.” Scandinavian Journal of Gastroenterology
40.1 (2005): 15-19. Academic Search
Premier. Web. 5 Apr. 2015.
This article describes a study that
was done to determine if there is any correlation between gender and gluten
intolerance. The study determined that the diagnosis of coeliac disease is more
frequent in women, but this could be disproven in time with improved
diagnostics of men. They also stated that the difference was only significant
when diagnosed in adulthood when there is a greater association of
iron-deficiency anaemia in women.
Buechle, Kurt.
“The Great, Global Promise of Genetically Modified Organisms: Overcoming Fear,
Misconceptions, and the Cartagena Protocol on Biosafety.” Indiana Journal of Global Legal Studies 9.1 (2001): 283-324. JSTOR. Web. 3 Jun 2015.
This article discusses the Cartagena Protocol on Biosafety (Protocol) which
was formed in January 2000 at the Convention on Biological Diversity (CBD) and
responds to concerns about GMOs. The article describes and analyzes the Protocol
in five parts; goals of the Protocol’s regulations, potential benefits or harms
associated with GMOs, the role of the precautionary principles, labeling
requirements of the Protocol and issues of labeling GMOs, and lastly, the
possible effects of the Protocol and GMOs.
Germolec, Dori R., et al. “Key Issues for
the Assessment of the Allergenic Potential of Genetically Modified Foods:
Breakout Group Reports.” Environmental
Health Perspectives 111.8 (Jun 2003): 1131-1140. Academic Search Premier. Web. 3 Jun 2015.
This article follows the final day
of the “Assessments of the Allergenic Potential of Genetically Modified Foods”
workshop that was held in December of 2001 in North Carolina. The article briefly
summarizes the topics of each of the six discussion groups in the workshop. The
individual groups talked about questions of GMOs in the areas of clinical human
data, animal models that assessed food allergies, exposure and effect of biomarkers,
sensitive populations, dose-response assessment, and post market responses,
while also addressing general questions about allergenicity of GMOs and
discussing current knowledge of each field and what more information is needed.
Gibbons, Ann. “The Evolution of Diet.” National Geographic. National Geographic. Web. 25 May 2015.
This
article provides the basis for the argument about the Paleo diet, which follows
the diet of our hunter/gatherer ancestors. It then goes on to explain that this
craze is based on a few misconceptions and the story is a bit more complicated.
Following the path of human diet through history, the article describes some
important changes caused by each new development in the human diet, eating meat
caused smaller guts, agriculture lead to a population boom. It goes on to explain
what the “real” Paleo diet would have been comprised of and states there is no
one ideal human diet and explains that the revolution of our diets may not have
started with eating meat, but with the invention of cooking which breaks down
food to make it more digestible but lead to the shift to processed foods like
Twinkies.
Gil-Humanes, Javier, et al. “Reduced-Gliadin
Wheat Bread: An Alternative to the Gluten-Free Diet for Consumers Suffering
Gluten-Related Pathologies” PLOS One
9.3 (2014): 1-9. Academic Search Premier.
Web. 22 Apr. 2015.
This article describes a study done
to determine the quality of bread that has been made with reduced gliadin
proteins in comparison to wheat and rice based breads. The results of this
study indicated that there was no difference in terms of quality and that
consumers may find it preferable to rice bread. It goes on to state that the
value of this bread will depend on whether it can become commercially
available.
- - -. “The
Shutdown of Celiac Disease-Related Gliadin Epitopes in Bread Wheat by RNAi
Provides Flours with Increased Stability and Better Tolerance to Over-Mixing” PLOS One 9.3 (2014): 1-11. Academic Search Premier. Web. 22 Apr.
2015.
This article, much like the last,
attempts to determine the value of breads with lower gluten protein content. It
give more in depth explanations about gliadin proteins and celiac disease and
the classification of gluten proteins (glutenins and gliadins) as well as some
past studies done on reducing gluten properties in grain. The article goes on
to describe the process of making bread and the properties of the bread/dough
throughout the transformation. It then explains and compares the different
properties described before in the study. Finally, the article explains its
results, stating that the quality of the goods are similar to those of gluten
containing baked goods.
Guyenet, Stephan. “Grains and Human
Evolution.” Whole Health Source. N.p. 10 July 2008. Web. 21 Apr. 2015
In his blog entry, Guyenet follows
the evolution of human diet, stating that the evidence for how long humans have
been consuming grains varies widely, but that it may never have been a major
food source. He argues that there has not been sufficient adaptation to make
grains a healthy food option, and we have not yet become tolerant to wheat
which is the oldest grain.
Helme, Morgan A.
“Genetically Modified Food Fight: The FDA Should Step Up to the Regulatory
Plate so States Do Not Cross the Constitutional Line.” Minnesota Law Review 98.1 (2013): 356-384. Academic Search Premier. Web. 3 Jun 2015.
This article reviews arguments over
the labeling of GMOs. It is divided into three parts which provide an overview
of mandatory labeling, the constitutional authority of individual states in
labeling requirements, and potential solutions and recommendations of voluntary
regulations and binding standards to the FDA. The article does not talk about
the safety of GMOs and in its conclusion states that mandatory GMO labeling are
unconstitutional.
Hennessy, Maggie.
“Celiac Disease Foundation, Plant Geneticist, Challenge Report Linking GMOs to
Celiac Disease, Gluten Sensitivity.” William
Reed Business Media. William Reed Business Media, 3 Dec. 2013. Web. 5 Apr.
2015.
Much of this article focuses on
disproving a report on the Institute for Responsible Technology website because
of its speculative nature. The article provides quotes from several professionals
to discredit the idea made by Smith and the Institute for Responsible
Technology that the consumption of GMOs directly correlates to the development
of gluten intolerance.
Herrick, Clare B.
“’Cultures of GM’: Discourses of Risk and Labelling of GMOs in the UK and EU.” Area 37.3 (Sep 2005): 286-294. Academic Search Premier. Web. 3 Jun
2015.
This author discusses the public
naturalization of biotechnology into existing cultural systems, what she terms “cultures”
of genetic modification. The article describes these cultures as legitimized
through the cultural concepts of risks and food labeling policies.
Kam, Katherine.
“Going Gluten-Free.” WebMD. WebMD, 19
July 2013. Web. 20 Apr. 2015.
This particular article was very
brief with no specific message. The entire article focused on the description
on gluten sensitivity and celiac disease, as well as the benefits of a gluten
free diet. The benefits are mainly helping those with a sensitivity, there is
no proof that it helps with other issues, such as weight loss. This article may
come in handy for definition purposes, as the descriptions in many of the other
article can be difficult to comprehend. In contrast, this article was written
for the general public, not just specifically for the scientific community.
Katiraee, Layla.
“Do Genetically Modified Foods Cause Gluten Allergies?” Genetic Literacy Project. Genetic Literacy Project, 28 March 2014.
Web. 20 Apr. 2015.
This article, similarly to a one on
a previous website, also aims to disprove a press release issued by the
Institute for Responsible Technology, a one-person NGO founded by Jeffrey
Smith. Katiree explains that Smith had no background in the science field and
is statements were not given attention by the science community. She does go on
to explain the difference between gluten sensitivities and allergies as well as
where gluten data can be found, before delving into the essential question. In
the article, some arguments both for and against the arguments of anti-GMO
campaigners and the Celiac Disease Foundation (CDF) are explained, before
stating that “the greatest evidence that GMOs are not tied to gluten allergies
is that GMO wheat is not yet on the market.”
Lásztity,
Radomir, Tibor Abonyi. “Prediction of Wheat Quality—Past, Present, Future. A
Review.” Food Reviews International
25.2 (2009): 126-141. Academic Search
Premier. Web. 22 Apr. 2015.
In the introduction of this
article, there is a brief history of the discovery and preparation of gluten.
This is followed by an explanation of protein ratios and gluten properties.
Then, a description is given of gliadin composition of wheat and it effect on
grain quality. Each piece serves as a dissection of the gluten, gliadin,
glutenin, and other gluten-related proteins. The article ends with a prediction
of how quality will improve over the years to come.
Lauret, Eugenia,
Luis Rodrigo. “Celiac Disease and Autoimmune-Associated Conditions.” BioMed Research International (2013):
1-17. Academic Search Premier. Web. 3
Jun 2015.
This article discusses the basis of
Celiac disease (CD) and the resulting digestive problems. It reviews CD as a
member of a group of autoimmune diseases and its effects on the human body. The
article also discusses the health improvements brought by implementing a gluten
free diet.
Lu, Shan, et al.
“Structural Basis for Gluten Intolerance in Celiac Sprue.” Science 297.5590 (2002): 2275-2279. Academic Search Premier. Web. 5 Apr. 2015.
This study focused on describing
Gluten Intolerance as opposed to a sensitivity. It explains that the Celiac
Sprue, a widely prevalent autoimmune disease found in the small intestine, is
the primary factor in an inflammatory response to gluten in a patient with a
gluten sensitivity. This study was mostly informative and had little by way of
a direct thesis to prove, or disprove. It may be useful as a reference that
provides a more in depth explanation of the differences between an allergy and
a sensitivity.
Metcalfe, Dean D.
“Introduction: What Are the Issues in Addressing the Allergenic Potential of
Genetically Modified Foods?” Environmental
Health Perspectives 111.8 (2003): 1110-1113. Academic Search Premier. Web. 22 Apr. 2015.
This article sums up the basis of
the debate surrounding GMOs and food allergies. It provides an explanation of
food allergies on the whole, how a reaction to food is caused, as well as
potential results of a reaction. It also describes forms of testing for food
allergies and procedures to treat an allergic reaction, and the process of detection
of allergenic properties of certain genes and the process of avoiding
transferring these genes to GMOs. In the
end, the article determines that decisions made as to how to apply existing
knowledge and databases in the assessment of GMO foods for potential
allergenicity will be only successful if they are creditable to research
scientists, industry and to the public at large.
Oraby, Hanaa, et
al. “Biological Impact of Feeding Rats with a Genetically Modified-Based Diet.”
Turkish Journal of Biology 39.2
(2015): 265-275. Academic Search Premier.
Web. 22 Apr. 2015.
This article describes a study done
on rats to determine the development of genetically modified organisms and
their potential risk factor. It gives detailed explanation of the process of
the study from feeding the rats to investigations of their organs and blood
analysis. The last part of the article discusses the findings of the experiment
which showed various forms of abnormal changes in cell shape, and protein
formation, but no noticeably harmful impact on the health of the animals
tested.
Osella, Carlos, Maria de La Torre, Hugo “Safe Foods for Celiac People.” Food
and Nutrition Sciences 5.9 (Apr 2014): 787-800. ProQuest. Web. 3 Jun 2015.
This article also describes the
makeup of celiac disease and its effects, as well as its prevalence among
people. The article then goes on to discuss the makeup and importance of raw ingredients
that are suitable for gluten intolerant people to eat. Ingredients such as rice
flour, sorghum flour, starches, hydrocolloids, soy flour and dairy products are
described and analyzed for their possible manufacturing possibilities.
Parker, Laura.
“The GMO Labeling Battle Is Heating Up - Here’s Why.” National Geographic. National Geographic, 12 Jan. 2014. Web. 25 May
2015.
This article explains the concerns
of manufacturers about giving consumers the wrong idea about a product by
labeling GMO ingredients. It focuses the event of Cheerios are removing GMOs
from their ingredients, and points out other companies, like Ben and Jerry’s
and Chipotle Mexican Grill, or Trader Joes who have already or are working to
eliminate GMOs from their products. The article makes the argument that
Cheerios is just playing on the growing consumer mistrust of GMOs, and that the
Food and Drug Administration have determined it safe for humans to consume
GMOs, but still, 9 out of 10 Americans support labeling of modified foods.
“Pros and Cons of
Genetically Modified Foods.” HealthResearchFunding.org.
HealthResearchFunding.org, 4 Dec. 2013. Web. 20 Apr. 2015.
This brief article lists the three major
reasons both for and against GMOs, including increased allergic reactions. It follows
the list with a debate over whether the benefits outweigh the risks, to which it
states that the benefits depend on the specific issues of an individual area,
such as hunger.The article also shows a series of images that describes aspects
of GMOs, such as percent grown in the U.S., two reasons we may need them, and
who requires labels or bans on GMOs.
Sarich,
Christina. “18 Million Americans Suffer From GMO And Gluten Intolerance.” Natural Society. Natural Society, 8 July
2014. Web. 20 Apr. 2015.
This article is very clearly anti-GMO,
connecting GMOs to the rise of gluten intolerance, and stating the formation of
new, indigestible proteins in wheat. It makes no distinction between GMOS and
organism breeding, such as wheat breading, and it makes broad statements about
what genetically modified foods are doing to our bodies while little supporting
evidence, and no basis for where some information like statistics and un-named
studies come from. Over all, the article does not lend itself to reliability,
but does provide an example of the counter argument.
“Should You Worry
About GMOs?” Tufts University Health
&Nutrition Letter 31.9 (2013): 4-5. Academic
Search Premier. Web. 22 Apr. 2015.
The article starts with a
description and history of the debate over labeling GMO ingredients in stores
and restaurants and addresses the argument that there has been do discussion
about whether or not such products have any health risks. It explains where you
are most likely to find GM food, most being GM corn and soy beans are fed to
livestock and that much of the engineered genes are eliminated in processing
the foods, so few of those genes reach the grocery store. The article proceeds
to explain that any gene added that actually effects the kernel or seed
specifically is added for nutritional value. In weighing the arguments both for
and against, the article suggests that the only real reasons for avoiding GMOs
are ethics based, not based on human health. This gives a good view on both
sides of an argument that few other articles have considered, that being the
public/ethical debate, not just a health debate.
Smith, Jeffery M.
“Are Genetically Modified Foods a Gut-Wrenching Combination?” Institute for Responsible Technology.
Institute for Responsible Technology. Web. 21 Apr. 2015.
This particular article is highly
controversial as it is the focus of other article I have mentioned earlier. The
article itself does make the distinction between wheat hybridization and GMOs,
unlike some other articles with the same argument, but links components of GMOS
to gluten-related disorders. It goes on to explain how each is a result of
ingesting GMOs and how each leads to some form of gluten sensitivity or celiac.
The article ends with a warning to stay away from eating GMOs and saying that
many physicians prescribe non-GMO diets to patients with some form of gluten
sensitivity.
The National
Wheat Improvement Committee. “Wheat Improvement: The Truth Unveiled.”(2013):
1-5. Web. 20 Apr. 2015.
This article provides an easily
comprehendible explanation of the different types of wheat breading, both of
which are considered to be crossing of species, not genetic engineering. It provides
some background on the development and demand of wheat and mentions where and
why scientists in the United States are working on understanding the wheat
genome for future breeding purposes. Following these descriptions, the article
lists several myths about wheat and provides specific facts in response to each
misconception. Though some of the myths are easily disputed, wheat is either
genetically modified or it isn’t, others are not as deeply discussed to provide
sufficient counter arguments. Saying there is no evidence is not the same as
saying there is evidence against, and it does not discount potential
relationships. The article ends by stating all the positives about wheat and
the breeding process. I do feel that some of their arguments seem a bit thin,
but the facts they do provide speak to some of the questions I have had about
the aspects of wheat breading that I hope to apply in my paper when
differentiating between the process of breeding and genetically engineering.
Webb, Densie. “10
Whole Grain Myths Busted.” Environmental
Nutrition 38.2 (2015): 6-6. Academic
Search Premier. Web. 22 Apr. 2015.
Similarly to the last article, this
page of Environmental Nutrition states common ideas about whole grains and
follows each with a counter argument to disprove the basis of each argument.
The article talks about whole grains as a whole, but it does specify some
aspects as pertaining to wheat. The responses are straight forward and easily
comprehended, but not lacking in directness of a point. There is no assumption
that the evidence equals or outweighs any evidence against whole grains.
Wilk-Nielsen,
C.R., et al. “Quantification of Dietary DNA in Tissues of Atlantic Salmon (Salmo
salar L.) Fed Genetically Modified Feed Ingredients.” Aquaculture Nutrition 17.2 (2011): e668-e674. Academic Search Premier. Web. 22 Apr. 2015.
This article briefly describes the
demand for Atlantic salmon and the resulting farming and feeding of Atlantic
salmon. It then goes on to explain the basis of the study and feed ingredients,
maize, both non-GM and GM, and non-GM and GM soybean, and the feeding and
testing routine. The conclusion of the study showed that a large fraction of
the dietary DNA was taken up and distributed to various organs in the salmon. It
does state that it is yet to be determined if dietary DNA is also integrated
into the genome of tissue cells, but that no differences were observed to
specify a GM and non-GM origin of ingredients, and that no dietary DNA was
linked to specific health effects
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