By Jeanne Yacoubou, MS
VRG Research Director

The VRG noticed “gellan gum” listed on the ingredient statements of several popular non-dairy beverages including Tree of Life®, Silk® and Pacific® products.

We asked KeHE® the parent company of Tree of Life® about its Vanilla Almond Beverage. We received a call back from a KeHE® customer service representative (KeHE® is the parent company) in August 2013 that the gellan gum in their almond beverage “…is not made of animal products…gellan gum is made from a bacterial culture [and] used as a thickening agent…It is a non-GMO product.” The ingredient statement can be seen here: http://www.iherb.com/Tree-of-Life-Unsweetened-Vanilla-Almond-Beverage-32-fl-oz-946-ml/42622

Silk® lists gellan gum as an ingredient in its almondmilks. A Silk® customer service representative told us on the phone in August 2013 that their almondmilk products are often described as “vegan.” The website states that their almondmilks are “free of dairy, soy, lactose, gluten, casein, egg and MSG.” http://silk.com/products/vanilla-almondmilk#

Pacific® states on its website FAQ page that “Gellan gum is an all-natural ingredient approved for use in organic products. It is obtained through a natural fermentation process. It acts as a thickening agent and will bind water. We add it to our beverages to keep water from separating out and forming a layer on top of the beverage.” Pacific® offers several non-dairy beverages containing gellan gum: http://www.pacificfoods.com/food/non-dairy-beverages/nut-grain-beverages/all-natural-hazelnut-original.aspx. The United States Department of Agriculture’s National Organic Program under the recommendation of the National Organic Standards Board added gellan gum (high-acyl form only) in 2010 to its National List of Allowed and Prohibited Substances approved for use in organic foods and beverages: http://www.gpo.gov/fdsys/pkg/FR-2010-12-13/pdf/2010-31196.pdf. This means that gellan gum can be an ingredient in a USDA Organic- or USDA Made with Organic Ingredients-labeled food or beverage product even if the gellan gum is not USDA-certified organic. Its listing is located in section § 205.605 Nonagricultural (nonorganic) substances allowed as ingredients in or on processed products labeled as “organic” or “made with organic (specified ingredients or food group(s))” of the following document: http://www.ecfr.gov/cgi-bin/text-idx?c=ecfr&sid=6f623e1de5457587ccdfec12bc34ed1c&rgn=div5&view=text&node=7:3.1.1.9.32&idno=7.

The VRG contacted CP Kelco the leading manufacturer of gellan gum for more information about its manufacturing process. We were told on the phone by a customer service specialist that gellan gum “…is produced by bacterial fermentation…on corn syrup…it is a non-GMO product.” A statement provided to us by CP Kelco reads in part:

CP Kelco’s…gellan gum…[is] not considered “bioengineered food” as defined by the United States Food and Drug Administration’s proposed rule governing such foods.

CP Kelco’s…gellan gum [is] produced by fermentation. CP Kelco’s products offermentation are produced using bacteria that have not been genetically modified as defined in EU Directive 2001/18. No raw materials produced from or by GMO have been used for standardizing the ready-to sell product.

A product information sheet provided to The VRG by CP Kelco describes gellan gum as “suitable” for those on vegetarian or vegan diets. Food grade and personal care gellan gum products manufactured by this company are certified kosher and halal.

Here is more on gellan gum from the CP Kelco website: http://www.cpkelco.com/products-gellan-gum.html

Source: Biofermentation using a sugar source
Function: Gelling, texturizing, stabilizing, suspending, film-forming
and structuring
Description: Gellan gum is a polysaccharide produced by fermentation of
a pure culture of Sphingomonas elodea. The composition and structure of
native gellan gum produced by commercial fermentation is identical to
the naturally occurring polysaccharide formed by Sphingomonas elodea on
plants of Lily pad varieties.

The contents of this article, our website, and our other publications, including the Vegetarian Journal, are not intended to provide personal medical advice. Medical advice should be obtained from a qualified health professional. We often depend on product and ingredient information from company employees or company statements. Information does change and mistakes are always possible. Please use your own best judgement about whether a product is suitable for you. Further research or confirmation may be warranted.

Vegetarian Journal Issue 2, 2013 is now online!

Articles included in this issue are: Cooking with Fresh Herbs; Vegan Backpacking; Starting a Vegan Food Manufacturing company. Ed Coffin, RD, shares his experience using a co-packer.; Living Among Coconuts; A Vegan in China, Part 2; Which Ingredients are Acceptable to Vegans?; Dietary advice for hot flashes during menopause.; Vegan Cooking Tips ; Quick Breakfast in a Mug or Travel Cup, by Chef Nancy Berkoff; Jim Dunn’s Work with Neglected Youth, by Whitney Blomquist; Which Sugars Aren’t Processed with Bone Char?

For more back issues, visit: http://www.vrg.org/journal

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By Jeanne Yacoubou, MS
VRG Research Director

An online reader commented on our website that a P.F. Chang’s chef in Pennsylvania had told her “‘We can’t guarantee that any of our dishes are vegan because we use egg wash in our sauces.’” Since this was contradictory to what P.F. Chang’s had told us in the past, we contacted the restaurant chain to see if there had been a change in menu ingredients or preparation methods.

The Marketing Coordinator at P.F. Chang’s told us that he had consulted with the nutritional team who responded in May 2013:

I am guessing the chef mixed his line of thought as all the proteins contain egg in the marinades and the majority of the sauces contain chicken broth and ‘whey” protein (milk). Also, regarding “vegan” due to the use of sugar, and depending on the level of “vegan” the customer is…it would be the sugar that would limit the rest of the menu items after we sort out all of the chicken broth and dairy.” Our Guest Service is another avenue for these types of inquires. They can be reached at [email protected].

The VRG asked P.F. Chang’s to clarify whether this response applies to their vegetarian-labeled dishes. We received this reply:

The only dishes that do not contain animal products (animal protein, eggs & dairy) are the menu items noted on the menu as vegetarian: Coconut Curry Vegetables, Buddha’s Feast, Ma Po Tofu, Stir Fried Eggplant and Vegetarian Fried Rice…[The sauces in these entrées] would still contain sugar and thus we would not refer to them as “vegan” …[but] only “vegetarian” due to the way in which sugar is processed. Each dish is made to order with clean equipment and while the possibility of cross contamination in all restaurants is possible due to the presence of all ingredients/allergens our vegetarian recipes would not be altered and thus would not contain animal proteins/broths, egg- or dairy-based ingredients.

On P.F. Chang’s menu, viewed online in June 2013, several appetizers and side dishes as well as the entrées listed above were labeled “vegetarian” with a special icon:

Vegetarian Appetizers at P.F. Chang’s:

• Chang’s Vegetarian Lettuce Wraps
• Spring Rolls
• Edamame

Vegetarian Side Dishes at P.F. Chang’s:

• Spicy Green Beans
• Shanghai Cucumbers
• Spinach Stir-Fried with Garlic
• Garlic Snap Peas
• Sichuan-Style Asparagus
• Asian Tomato-Cucumber Salad

P.F. Chang’s provides nutritional information on its website: http://www.pfchangs.com/images/Nutritional%20Info/ChangsNutritional.pdf.
The vegetarian icon appears in the nutrition chart next to all vegetarian item listings making it very easy for nutrition-conscious vegetarians to use.

Other recent VRG articles about P.F. Chang’s:

• “No Ghee” Says P.F. Chang’s
• P.F. Chang’s Vegetarian-Labeled Dishes: Oyster Sauce is All-Vegetable; No Honey, Egg or Dairy Present
• P.F. Chang’s ‘Vegetarian’ Entrées Contain No Animal Ingredients
• Who’s the Veggie-Friendliest of Them All?

The contents of this article, our website, and our other publications, including the Vegetarian Journal, are not intended to provide personal medical advice. Medical advice should be obtained from a qualified health professional. We often depend on product and ingredient information from company employees or company statements. Information does change and mistakes are always possible. Please use your own best judgment about whether a product is suitable for you. Further research or confirmation may be warranted.

For the latest news on fast food and quick service chains, visit http://www.vrg.org/fastfoodinfo.php

To support our research, donate at http://www.vrg.org/donate

By Jeanne Yacoubou, MS
VRG Research Director

The VRG received an inquiry from a food company in January 2013 about vegan sugar defined as sugar that had not been processed through cow bone char. As we reported in a 2007 update, most United States cane sugar continues to be decolorized through cow bone char.

We spoke with two employees at C&H® Sugar in January 2013 who told us that most of their sugar not certified USDA Organic is processed through “natural charcoal” (i.e., cow bone char). Their Washed Raw Sugar has not been decolorized using bone char but it is only produced at its Hawaii plant and not available for widespread distribution especially in large quantities. However, the company is looking into purchasing cane sugar from other nations in order to expand production of the Washed Raw Sugar.

C&H® directed us to its sister companies: Florida Crystals® and Domino® Sugar. Florida Crystals sugar, both conventional and USDA Organic varieties, has not been processed through cow bone char. It is widely available in both large and small quantities.

Comparatively speaking, Florida Crystals® is more expensive than other sugar brands. For example, in January 2013 The VRG noticed several online stores selling their own store brand conventional sugar for approximately $3/4 lbs. while Florida Crystals® sugar sells for approximately $6/4 lbs. http://shop.floridacrystals.com/Natural-Sugar

Similarly, large quantities of sugar differ significantly in price. Conventional cane sugar at several online stores sells for approximately $23/50 lbs. while Florida Crystals® cane sugar sells for approximately $36/25 lbs. Florida Crystals® Demerara Sugar costs approximately $58/50 lbs.

The VRG spoke with Shannon, a customer service representative at Domino® Sugar. She explained that although most Domino® Sugar has been processed through cow bone char, it is possible to tell from the sugar bag label whether is came from one of two of its nine North American plants in which processing does not involve cow bone char. One of the plants is located in Yonkers, NY and the other is in Orlando, FL.

The first number/letter on the package code reveals the plant in which the sugar was processed. The number “1” identifies the Yonkers plant as the processing location. The letter “X” means that the sugar was processed at the Orlando plant.

The second number refers to the year in which the sugar was packaged (“2” for 2012). The third refers to the week in that year when the sugar was processed (“8” means the eighth week). The following number refers to the day of the week on which the sugar was processed (“2” refers to Tuesday). The following “A, B, or C” indicates the shift (morning, afternoon, or night) when the sugar underwent processing. The last number identifies the machine on which the sugar was processed.

Shannon could not specify whether sugar is only sold close to its plant of origin or whether it may travel long distances before being sold. Therefore, we cannot say that only stores close to Yonkers or Orlando carry Domino® Sugar that has not been processed through cow bone char.

In December 2012, The VRG reported that Australia has not used cow bone char to decolorize its sugar since 1990. Instead, Australians use non-animal activated carbon filters. The major Australian sugar company told us that they do not distribute to North or South America. http://www.vrg.org/blog/2012/12/19/non-animal-coal-filters-used-to-process-cane-sugar-in-australia/

The contents of this article, our website, and our other publications, including The Vegetarian Journal, are not intended to provide personal medical advice. Medical advice should be obtained from a qualified health professional. We often depend on product and ingredient information from company employees or company statements. Information does change and mistakes are always possible. Please use your own best judgment about whether a product is suitable for you. Further research or confirmation may be warranted.

To purchase our Guide to Food Ingredients, please visit our website: http://www.vrg.org/catalog/index.php?main_page=product_info&cPath=1&products_id=8

For information on food ingredients, fast food, and for other information of interest to vegetarians and vegans, please subscribe to our enewsletter at http://www.vrg.org/vrgnews/

To support VRG research, you can donate at http://www.vrg.org/donate

There are many ways to stay connected to The Vegetarian Resource Group!
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By Jeanne Yacoubou, MS
VRG Research Director

An online reader asked us if a cow bone char filter is used in the manufacture of SPLENDA® Brand Sweetener (a brand name for sucralose), an artificial sweetener found in a wide variety of foods and beverages.

According to http://www.splenda.com/faq/no-calorie-sweetener#3, SPLENDA® Brand Sweetener is made “…through a patented, multi-step process that starts with sugar and converts it to a no-calorie, non-carbohydrate sweetener. The process selectively replaces three hydrogen-oxygen groups on the sugar molecule with three chlorine atoms.” http://www.splenda.com/faq/no-calorie-sweetener#19 also indicates that SPLENDA® contains small amounts of dextrose and/or maltodextrin (VRG note: both usually corn-derived).

Tate & Lyle, the British creator and current major manufacturer of SPLENDA® Brand Sweetener, describes its production methods on its website. http://www.tateandlyle.com/aboutus/ourindustry/pages/sucralose.aspx
This page specifies that the company “…uses ordinary granulated sugar, similar to that used in the home, as the starting material.”

A specialist in the technical resource division for bulk ingredients at Tate & Lyle in August, 2012 when talking about SPLENDA® told us that “no animal-sourced carbon is used in the processing of the sugar or the manufacturing process of our sucralose.”

The Tate & Lyle resource specialist told us by phone in October 2012 that he had contacted his supplier and was told that “…no bone char is used. The cane sugar comes from Australia and is further processed in Singapore.”

In November 2012 The VRG contacted CSR/Sugar Australia, http://www.sugaraustralia.com.au/, a company which described itself to us by email as “…the leading supplier of quality refined sugar products. We service the industrial and consumer sugar market and market the CSR Sugar brand. Sugar Australia produces over 700,000 tons of refined sugar a year, from our two refineries in Melbourne and Mackay.

Refined sugar is produced from raw sugar and the Australian raw sugar industry is one of the largest in the world. The Australian industry produces 4.6 million [metric] tons (10.1 billion pounds) of raw sugar annually and over 70 percent of this is exported. Sugar Australia is the largest domestic customer of Australian raw sugar, and the largest exporter of Australian refined sugar.” (By comparison according to the United States Department of Agriculture (USDA), http://www.ers.usda.gov/topics/crops/sugar-sweeteners/background.aspx, the United States produces approximately 3.6 million short tons (7.2 billion pounds) of raw sugarcane annually.)

Sugar Australia also told us that they “…export to many different countries; however, we do not export to South or North America.”
When asked about their decolorization methods, Sugar Australia told us that “[O]ur CSR/Sugar Australia refined white sugar is made at our Sugar Australia refineries in Melbourne, Victoria, and Mackay, Queensland. Both sites use a number of purification steps towards converting the bulk non-food grade raw sugar into the food grade white refined sugar product. The major decolourising step uses granular activated carbon that is derived from coal. This replaced the bone charcoal decolourisation step (which used to use roasted cow bones) that was used until about 1990.

I assume your concern is in relation to the use of animal products. I can state that no animal products at all are used in the sugar refining process by us.

We also have Halal certification and Kosher certifications for our range of sugar products.”

The VRG contacted the Australian Vegetarian Society to see if they could confirm our findings. The AVS president received a reply from Sugar Australia to his inquiry: “I would like to know if you use cow bone char as a refining process, or indeed if you use any animal products at any stage of processing.”

Narelle in the Customer Service Department at Sugar Australia in November 2012 replied to AVS: “I can confirm that we do not use any animal products in our refining process. We use carbon in our processes however this is not sourced from any animal products or byproducts.”

We also asked JK Sucralose, Inc., http://www.jksucralose.com/, the second major sucralose company based in China. An employee at the New Jersey office of JK Sucralose told The VRG by phone in July 2012 that “cane sugar is always used.” No further information was available on how the cane sugar used to make sucralose was processed.

Interested readers may find our 2007 sugar article of interest: http://www.vrg.org/journal/vj2007issue4/2007_issue4_sugar.php. In this article, The VRG reported that leading sugar companies in the United States process most cane sugar through cow bone char filters in order to decolorize it.

The contents of this article, our website, and our other publications, including The Vegetarian Journal, are not intended to provide personal medical advice. Medical advice should be obtained from a qualified health professional. We often depend on product and ingredient information from company employees or company statements. Information does change and mistakes are always possible. Please use your own best judgment about whether a product is suitable for you. Further research or confirmation may be warranted.

To purchase our Guide to Food Ingredients, please visit our website: http://www.vrg.org/catalog/index.php?main_page=product_info&cPath=1&products_id=8

For information on food ingredients, fast food, and for other information of interest to vegetarians and vegans, please subscribe to our enewsletter at http://www.vrg.org/vrgnews/

To support VRG research, you can donate at http://www.vrg.org/donate

There are many ways to stay connected to The Vegetarian Resource Group!
Get our blog delivered right to your inbox: http://feeds.feedburner.com/TheVRGBlog
Like us on Facebook: http://www.facebook.com/thevegetarianresourcegroup
Follow us on Twitter: http://twitter.com/VegResourceGrp

By Jeanne Yacoubou, MS
VRG Research Director

In August 2012, The VRG received a question from a Canadian reader about butter oil. She saw it listed as an ingredient in several chocolate bar brands that appeared otherwise dairy-free. The reader was concerned that dairy-derived butter oil would make some of her favorite dark chocolate bars non-vegan and thus unsuitable for her.

The VRG contacted several chocolate companies in both the USA and Canada in September and October 2012 about butter oil. Based on what we’ve been told by phone and email correspondence, butter oil used in chocolate bars is dairy-derived. (Note: The VRG discovered one blog on the Internet which claimed that butter oil is derived from canola oil. No chocolate company using butter oil today whom we contacted substantiated this claim during research for this report.)

One of the chocolate bars in question was Godiva’s 72% Extra Dark Chocolate Bar. We learned that the butter oil in their 72% Extra Dark Chocolate Bar is “derived from dairy butter.” There are no other dairy-derived ingredients in this bar. The word “milk” does not appear in parentheses after “butter oil” as it does on the labels of some other brands.

Godiva does not state that any of their chocolate is vegan since the same equipment is used to make all of their products, most of which contain milk or milk products. As an example, the Godiva Santo Domingo Bar, available only in a few select boutiques, where there are …no direct milk ingredients…and is 85% cocoa, is not called vegan…It’s made on the same equipment as their milk chocolate bars. (Butter oil is not listed as an ingredient in this bar either.)

Barkleys Natural Confectionery based in British Columbia sells several flavors of Kayer Dark Chocolate Truffle Bars containing butter oil. Barkleys’ Director told us that “…our butter oil is derived from milk.” There are no other dairy-derived ingredients in this bar.

Barkley’s also stated that they will be “…launching three new flavors in the brand that will be vegan – using no butter oil.” The Kayer bars contain “organic coconut palm sugar” which is, according to their website, “a 100% organic, minimally processed, unfiltered, unbleached natural sweetener and contains no preservatives…no cane sugar added…just pure, unadulterated palm sugar made from 100% coconut nectar from Coco Nucifera.” For more information: http://www.barkleys.ca/page/1smyg/Kayer_Organic_Chocolate_Bars.html

Trader Joe’s carries several chocolate products listed on their Vegan Products page including 70% Dark Chocolate Bars and 72% Dark Chocolate: http://www.traderjoes.com/lists/vegan.asp. The VRG emailed Trader Joe’s about these bars’ ingredients asking specifically if butter oil was an ingredient. Nicki in Customer Relations emailed us a response: “There is no dairy used in our Trader Joe’s 70% Dark Chocolate Bars. Please know that we fully disclose all ingredients used in our TJ’S products.”

The VRG also asked a few other chocolate companies identified by our Canadian reader as those listing butter oil as an ingredient in their chocolate bars. We called Seattle Chocolates, Marich, and Maisie Jane’s. All three told us by phone that the butter oil used in their chocolate bars is derived from dairy butter.

VRG readers may like to know that Seattle Chocolates sells an Extreme Dark Truffle Bar which does not list butter oil or any other dairy ingredient in its ingredients statement: http://shop.seattlechocolates.com/scc/shop-chocolate/truffle-bars/extreme-dark-truffle-bar.html

Kristen of the Marich Confectionery Company told us by phone that their quality assurance manager confirmed that “the butter oil [in our chocolate products] is from dairy butter.” Kristen emailed The VRG with this information: “A few of our hand-packed products are vegan: Jelly Beans, Licorice Pastels, Celestial Sours, Black Heart Black & Black Cherry Licorice.” Ingredients are listed on their website: https://www.marich.com/

Della the office manager at Maisie Jane’s California Sunshine Products told us by phone and email that “No, we do not have any chocolate products that are vegan.” She stated that the “butter oil [in our chocolate products] is from dairy butter.” Della also said “Several of Maisie Jane’s items are vegan…: Almond Butter, Natural Almonds, Natural Organic Pistachios, Natural Organic Cashews, and our Tamari Almonds.” Ingredient information on Maisie Jane’s products can be found here: http://www.maisiejanes.com/

For more information about butter oil, readers may find the website of the Canadian Dairy Commission helpful. There it states that one advantage of using butter oil is the “control of fat bloom in chocolate candy:” http://www.milkingredients.ca/index-eng.php?id=173

The contents of this article, our website, and our other publications, including the Vegetarian Journal, are not intended to provide personal medical advice. Medical advice should be obtained from a qualified health professional. We often depend on product and ingredient information from company employees or company statements.Information does change and mistakes are always possible. Please use your own best judgment about whether a product is suitable for you. Further research or confirmation may be warranted.

To learn more about the commercial sources of food ingredients or to purchase our Guide to Food Ingredients, please visit our website:
http://www.vrg.org/catalog/index.php?main_page=product_info&cPath=1&products_id=8

For information on food ingredients, fast food, and for other information of interest to vegetarians and vegans, please subscribe to our enewsletter at http://www.vrg.org/vrgnews/

There are many ways to stay connected to The Vegetarian Resource Group!
Get our blog delivered right to your inbox: http://feeds.feedburner.com/TheVRGBlog
Like us on Facebook: http://www.facebook.com/thevegetarianresourcegroup
Follow us on Twitter: http://twitter.com/VegResourceGrp

To support VRG research, please donate at http://www.vrg.org/donate

By Jeanne Yacoubou, MS
VRG Research Director

Introduction

In 2007, The VRG learned from an employee at Danisco, a major enzyme manufacturer, that fermentation produced chymosin (FPC) responsible for curdling milk used in making cheese, originated from a calf gene. (Chymosin is the primary enzyme in rennet responsible for curdling.) He told us: “Ultimately, maybe twenty-five years ago, the gene used to make microbial chymosin is from calf rennet. It has been genetically modified so it is a GMO product [strictly speaking].” In 2007, The VRG was told by several cheese companies and enzyme makers that approximately 70% of all cheese in the United States was produced with FPC.

In this update, The VRG more closely examines FPC, which is often referred to on labels as “microbial rennet.” In the process, we will discuss the role of bioengineering, such as recombinant DNA technology, in enzyme production commercially practiced today. Labeling issues arise and a comparison with the European Union will be discussed.

History

As we wrote in a 2008 article on rennet, there are four major types of rennet: calf rennet, microbial rennet, FPC, and vegetable rennet. In 2012, best estimates from enzyme companies and dairy groups attribute 90% of all commercial cheese production in the United States to FPC.

Before we get too far ahead, it’s helpful to keep in mind the role of chymosin/rennet in cheese manufacture. Enzymes used to coagulate milk in cheese production (disregarding other enzymes known as lipases which may be added to some cheeses for flavor and which are usually derived from animals even today although this is changing), whether a single type (chymosin) or a mixture, are used in very small quantities (e.g., approximately one ounce per one hundred gallons of milk), and later largely removed from the final cheese product. Approximately 90-95% of the small quantity remains in the whey produced during cheese manufacture. This whey, considered a byproduct of cheese production, is often added to many other food products today, especially packaged foods.

When calf rennet became scarce and unreliably available in the 1960s and 70s as the veal industry was declining due to the animal rights movement but demand for cheese increased, calf rennet became very expensive. Companies looked for a “rennet substitute.” Recombinant DNA technologies involving microbes were becoming popular and companies turned to it in the 1980s.

Companies were encouraged to do so when the U.S. Supreme Court by a 5-4 vote in 1980 ruled that new life forms can be patented.
http://scholar.google.com/scholar_case?case=3095713882675765791&q=Diamond+v.+Chakrabarty%29&hl=en&as_sdt=2,21&as_vis=1
This landmark case overturned a Patents and Trademark Office denial of the patent for a genetically engineered microbe.

In 1990, in another precedent-setting decision by a U.S. government office, the Food and Drug Administration (FDA) approved the use of FPC in food. It was the first time a bioengineered product was permitted in food in the U.S. Insulin, manufactured in a similar fashion, was approved by FDA eight years earlier as a drug. Read about it here: http://www.fda.gov/AboutFDA/WhatWeDo/History/ProductRegulation/SelectionsFromFDLIUpdateSeriesonFDAHistory/ucm081964.htm.

Pfizer is credited with perfecting the technique in which genetic material (ribonucleic acid, or RNA) coding for chymosin is removed from an animal source and inserted via plasmids into microbial DNA (bacteria E. coli K-12) in a process known as gene splicing (a type of recombinant DNA technology). Through fermentation the microbes possessing the bovine genetic material produce bovine chymosin which is later isolated and purified in quantities much greater than those in calf rennet or in non-animal recombinant DNA microbial rennets. Since the original Federal Register article announcing bioengineered chymosin’s approval is no longer available online because it is so dated, (but may be purchased by calling or ordering offline), those interested may read about the FDA approval here:
http://www.nytimes.com/1990/03/25/us/gene-altered-item-approved-by-fda.html
http://articles.latimes.com/1990-03-24/news/mn-681_1_genetically-engineered-product-for-food

What is significant about the FDA approval is that bioengineered chymosin was granted Generally Regarded as Safe (GRAS) status. This meant that Pfizer was exempt from the preapproval requirements that apply to new food additives. Pfizer demonstrated what is often referred to as “substantial equivalence.” FDA concluded that bioengineered chymosin was substantially equivalent to calf rennet and needed neither special labeling nor indication of its source or method of production.

As J. H. Maryanski, Strategic Manager for Biotechnology, Center for Food Safety and Applied Nutrition, FDA, explained in an article titled “FDA’s Policy for Foods Developed by Biotechnology,” Pfizer showed “…the introduced chymosin gene encoded a protein that had the same structure and function as animal-derived chymosin; the manufacturing process removes most impurities; the production microorganisms are destroyed or removed during processing and are non-toxigenic and non-pathogenic; and any antibiotic-resistance marker genes (e.g., ampicillin) are destroyed in the manufacturing process.” In effect, the FDA extended calf rennet’s GRAS status to the bioengineered chymosin product. A few years later, FDA extended GRAS status to two other forms of bioengineered chymosin: that produced from Kluyveromyces marxianus var. lactis and Aspergillus niger var. awamori. In none of these approvals was FDA concerned with the process used to generate the chymosin.

View Pfizer’s patent application here: http://www.freepatentsonline.com/4935370.html Scrolling midway down the page, under the paragraph headed “Preparation of RNA and Cloning of cDNA,” readers may note the first line which reads in part: “Total RNA from animal pituitaries was obtained from a local slaughterhouse…”

The writer points out this sentence because in an email exchange in 2012, an industry group described this first production of chymosin from E. coli as “synthetic.” The Pfizer application description for bioengineered chymosin begins with a natural (i.e., animal organ) source.

This interpretation and use of “synthetic” in how the recombinant process began in chymosin production also occurs in other places. For example, a 1993 International Dairy Journal article titled “Enzymes in Cheese Technology,” by P.F. Fox and L. Stepaniak article states:

“There would appear to be no reason why the rennet substitute saga should not be closed – an unlimited supply of high-quality rennet is now available. However, there is opposition from certain quarters to the use of chymosins from genetically engineered microorganisms. Microbial chymosin should be acceptable for the manufacture of ‘vegetarian’ cheese. However, the gene cloned in K. Lactis was isolated from calf gastric tissue and is, apparently, not acceptable to some vegetarians. As the gene cloned in E. coli was synthesized, this chymosin should be acceptable to vegetarians.”

Today, Chr. Hansen, the makers of bioengineered FPC Chy-Max®, uses the fungus Aspergillus niger. An employee of the company told The VRG in 2012 that “a calf gene was used” initially.

According to product data sheets, DSM makes its bioengineered FPC, Maxiren®, using the yeast Kluyveromyces lactis. DSM did not reply to our inquiries about use of a calf gene. According to the International Dairy Journal article cited above, it appears that a calf gene was also used initially to produce Maxiren®.

FPC, often labeled as “microbial rennet” or “vegetable rennet,” and described in product literature as “vegetarian,” is believed by those in the cheese industry to yield high-quality and good-tasting cheese indistinguishable from that produced through the use of calf rennet.

FPC does not, according to many in the cheese industry, yield sometimes bitter-tasting cheese which non-animal “microbial rennet” may yield especially if the cheese is aged for too long of a time. For these microbial rennets, in which a fermentation process is involved like the case of FPC production, the chymosin-like enzymes called acid proteinases are native to the microbes (fungi Rhizomucor miehei, R. pusillus and Endothia parasitica). According to an article published in 1996 in the journal Antonie van Leeuwenhoek titled “Acceleration of Cheese Ripening” by P.F. Fox et. al.: “The gene for the acid proteinase of R. miehei has also been cloned and expressed in A. oryzae, and the product is commercially available (Marzyme®…).” (A. oryzae is a fungus.)

Marzyme® manufactured by Danisco-DuPont is a non-animal microbial rennet that is commercially available today. A senior level employee at Danisco/DuPont told The VRG that “In consultation with our business unit leader, I can report the following: Animal genes were not ever used in the production of Marzyme®. It is a protease of microbial origin. No bovine genes or enzymes were used to develop Marzyme® or to produce Marzyme®.” (Specific details on the process, specifically if any non-animal genetic recombination of any type was done, are not available. A product data sheet on Marzyme™ Supreme specifies R. Miehei only.) A cheese supply company told The VRG that Marzyme® is less expensive that FPC. For example, in 2011, a five-gallon container of Marzyme® sells for approximately $312 while the same quantity of a FPC costs approximately one hundred dollars more.

Other microbial rennets which do not appear to have been produced through recombinant animal gene technology include Hannilase® by Chr. Hansen. R. miehei is used to produce Hannilase®. DSM produces Fromase® from R. miehei which is listed both as non-GMO and vegetarian. DSM also produces Suparen/Surecurd® derived from the fungus Cryphonectria parasitica and described as vegetarian in product literature.

More on FPC Terminology

The writer observed while working on this update that companies manufacturing bioengineered FPC produced originally through animal gene splicing use the phrase “microbial rennet” to describe their product. They refer to them as “acceptable to vegetarians.” They also use “non-GMO” or “GMO-free” to describe their products.

Likewise, companies producing microbial rennet that had not involved animal gene splicing use the same terms to describe their products. Some vegetarians may wish to know more information about the source of the “microbial” or “non-GMO” rennet in the cheese they wish to consume.

As of June 2012, FDA has not established a legal definition for what is “GMO” or “non-GMO.” Nor are there any mandatory rules for labeling products manufactured by genetic techniques or containing genetically modified organisms (GMOs) or their products. In the United States, there are voluntary guideline documents intended to assist companies with manufacturing and labeling issues involving GMOs. See the most recent one here:
http://www.fda.gov/food/guidancecomplianceregulatoryinformation/guidancedocuments/foodlabelingnutrition/ucm059098.htm

In this document, FDA acknowledges concerns that people may have about bioengineered foods. However, except for a few cases listed in the document, (and bioengineered products such as FPC considered GRAS are notably not included), FDA does not see the need at this time to require labeling because, in most cases, the agency sees no threat to human health or public safety. Here is an excerpt:

“Most of the comments [to us] that addressed labeling requested mandatory disclosure of the fact that the food or its ingredients was bioengineered or was produced from bioengineered food. However, these comments did not provide data or other information regarding consequences to consumers from eating the foods or any other basis for FDA to find under section 201(n) of the act that such a disclosure was a material fact. Many of the comments expressed concern about possible long term consequences from consuming bioengineered foods, but they did not contend that any of the bioengineered foods already on the market have adverse health effects…The agency is still not aware of any data or other information that would form a basis for concluding that the fact that a food or its ingredients was produced using bioengineering is a material fact that must be disclosed under sections 403(a) and 201(n) of the act. FDA is therefore reaffirming its decision to not require special labeling of all bioengineered foods.”

By contrast, explicit definition and regulation about GMOs and products derived from them (such as FPC) have existed in the European Union (EU) since the 1990s. The regulations are very detailed and very extensive. GMOs that fall under the EU regulations include:

• GMOs by themselves;
• food and feed containing GMOs;
• food and feed produced from or containing ingredients produced from GMOs.

The most recent EU document can be viewed here: http://eur-lex.europa.eu/LexUriServ/LexUriServ.do?uri=OJ:L:2003:268:0001:0023:EN:PDF

In our review of FPC produced by European companies who adhere to these guidelines and refer to their FPC products as “non-GMO,” it appears that FPC is exempt from labeling requirements. The process by which FPC is produced is included in the EU’s regulations as a GMO technique, so it may initially appear to some that FPC is a GMO product and subject to labeling.

(A partial list of those techniques in Annex IA is reprinted here and accessed http://eur-lex.europa.eu/LexUriServ/LexUriServ.do?uri=CONSLEG:2001L0018:20080321:EN:PDF:

“Recombinant nucleic acid techniques involving the formation of new combinations
of genetic material by the insertion of nucleic acid molecules produced by whatever means outside an organism, into any virus, bacterial plasmid or other vector system and their incorporation into a host organism in which they do not naturally occur but in which they are capable of continued propagation…”)

FPC, it appears, is not considered “GMO” and subject to labeling requirements because it appears in foods as “a trace” below the 0.9% threshold which requires labeling and may be “technically unavoidable” to remove as demonstrated by the manufacturers requesting exemption. Companies manufacturing FPC label it “non-GMO.” Article 4 Part C on exemptions to labeling appears in this document: http://eur-lex.europa.eu/LexUriServ/LexUriServ.do?uri=OJ:L:2003:268:0024:0028:EN:PDF

However, a European group known as GMO Compass refers to chymosin produced through gene technology as “GM” (genetically modified) and contrasts it with “microbial rennet substitutes which are derived from non-GM microorganisms.” http://www.gmo-compass.org/eng/database/enzymes/83.chymosin.html. GMO Compass states that chymosin produced through genetic technology is used to make European cheese (except in France and Austria). Presently, it does not have to be labeled at all.

The VRG wrote to the Association of Manufacturers and Formulators of Enzyme Products (AMFEP) based in Belgium in April 2012 about chymosin. Here is their response to our question: Is there a microbial rennet which has not been originally developed from a calf gene?

“‘Microbial rennet’ is the term commonly used for all milk coagulating enzymes from microorganisms, especially enzymes which are native to certain microorganisms, not a result of genetic modification. Protease from Rhizomucor miehei or Cryphonectria parasitica are examples and they are suitable, for example, for vegetarian cheese.

Chymosin, the classical animal-derived milk coagulant found in rennet, is also produced by means of microorganisms, e.g., genetically modified strains of Aspergillus niger. The chymosin gene inserted in the organism is in fact synthesized, not extracted from the animal…”

Wondering if AMFEP knew of a “synthetic” chymosin derived from non-living substances with no animal gene splicing ever involved, The VRG asked this group for further clarification in April 2012. As of this writing in June 2012, no response from AMFEP has been received. Given the organism cited by AMFEP to produce a “synthetic” chymosin, the writer wonders if the bioengineered Chy-Max® manufactured from A. niger is here described as “synthetic” by AMFEP. (The VRG was told by a Chr. Hansen employee that their FPC Chy-Max® was based on a calf gene initially.)

In recent telephone conversations and email exchanges with several enzyme companies, cheese companies, dairy groups, nonprofits, and FDA, the writer observed that there is no standard use of the terms “GMO product” or “non-GMO product.” An FDA employee wrote to us in July 2011: “It is not true that enzyme-modified cheeses…contain GMOs… Microbial rennet is chemically identical to that derived from calf stomach. The organisms modified to produce microbial rennet would be considered GMOs, but that’s where the GMO issue begins and ends.” The FDA employee declined to give further clarification on her statement when we asked.

Similarly, an employee of a major enzyme manufacturer, after he said that calf genetic material was removed and added to microbial genetic material, told The VRG in March of 2012 that “the resulting enzyme is non-GMO.”

The assertion that chymosin is non-GMO is not accurate according to some as we’ve seen (GMO Compass). The Non-GMO Project based in the United States, a nonprofit that certifies food products as non-GMO, maintains this position as well. The group told The VRG that chymosin is a “high-risk ingredient.” Listed in their Standards in Appendix A, Variance 4a, chymosin is “…one of the things we specifically wanted to make sure was NOT allowed through” [in a product that we declare to be non-GMO.] (emphasis added by the Non-GMO Project)
http://www.nongmoproject.org/product-verification/non-gmo-project-standard/

The Non-GMO Project told us that “If a cheese has our seal on it, the consumer can be assured that it does not have [bioengineered] chymosin.” The Introduction to their standards contains this group’s definitions of “GM” (1.3.3), “GMO” (1.3.4), and “non-GMO” (1.3.7) and are reprinted here:

GM: Genetically Modified or Genetic Modification—A term referring to products or processes employing gene splicing, gene modification, recombinant DNA technology, or transgenic technology, and referring to products of the gene-splicing process, either as inputs or as process elements.

GMO: A plant, animal, microorganism, or other organism whose genetic makeup has been modified using recombinant DNA methods, also called gene splicing, gene modification, or transgenic technology…

Non-GMO: A plant, animal, or other organism or derivative of such an organism whose genetic structure has not been altered by gene splicing. A process or product that does not employ GM processes or inputs…”

Current FPC Use and Labeling in the United States

The VRG looked again in May 2012 at FPC used in the United States and learned from cheese companies, enzyme makers, and dairy groups who agreed that today approximately “90%” of all cheese made in the United States is made with FPC. Product data sheets or product literature on two major FPC products, Chy-Max® (manufactured by Chr. Hansen) and Maxiren® (manufactured by DSM), state that FPC is “vegetarian” and “non-GMO.”

Chy-Max®
These are several different types of Chy-Max®: Chy-Max® Plus, Extra, Ultra, and Special. The first three in the list are 100% chymosin. Chy-Max® Special is 80% chymosin and 20% bovine pepsin (another type of enzyme). According to the product data sheet on Chy-Max® Extra, it is “acceptable for the production of vegetarian cheeses.”

The newest addition to the Chy-Max® line of product is Chy-Max M®, developed using a camel gene. It is considered a second generation FPC, described by the company as coagulating milk five times faster than first generation FPCs and 25 times faster than microbial rennets developed from R. Miehei. The company calls this FPC “suitable for vegetarians.” As reported in FoodNavigator, Chy-Max M® increases cheese yield per quantity of milk and produces a better-tasting cheese with a prolonged shelf-life. http://www.foodnavigator.com/Financial-Industry/Chr-Hansen-to-launch-next-generation-cheese-coagulant

An announcement in the Journal of Dairy Science, Vol. 92 stated that “…chymosin from Camelus dromedarius (CC) has been obtained through heterologous expression in Aspergillus niger and is now commercially available as Chy-Max M® from Chr. Hansen.” It has GRAS status in the US. Information on the precise method by which the camel gene was obtained is not available although a patent application states that “extracts of camel abomasum (camel rennet comprising chymosin and pepsin) have been used to coagulate cow’s milk.” (“Abomasum” refers to the fourth stomach of a ruminant.) http://www.patentstorm.us/applications/20110008492/description.html

Chr. Hansen sent us a non-GMO statement for its Chy-Max®. The company uses European Union regulations (see above) regarding genetic modification. According to Chr. Hansen, “Legislation in the European Union states that a final food product must be labeled if it is a GMO itself, if it contains GMOs, or if it contains ingredients derived from GMOs.”

The company concludes that “Chy-Max® Extra does not contain GMOs and does not contain GM labeled raw materials…The use of Chy-Max® Extra does not trigger a GM labeling of the final food product.” Chr. Hansen’s position on GMO can be found on:
www.chr-hansen.com/About us/Policies and positions/Quality and product safety.

Chy-Max cannot be used in USDA Organic Cheese. According to a company statement, Chr. Hansen states:

“The Organic Foods Production Act (OFPA) of 1990 required the USDA to develop the National Organic Program (NOP). The NOP sets national standards for organically produced products. The NOP assures consumers that agricultural products labeled as organic meet consistent standards. The NOP regulation 7CFR205.105 lists allowed
and prohibited methods, substances and ingredients for use in organic production and handling.

As such, the Chr-Hansen, Inc. product, Chy-Max®, does not meet these requirements and cannot be used as an ingredient in or on processed products to be labeled as ‘100% Organic,’ ‘Organic,’ or ‘Made with Organic (specified ingredients).’”

Maxiren®
DSM produces a FPC called Maxiren®. DSM has not responded to our inquiries as of this writing. A German company which carries DSM products told The VRG in writing that “DSM confirms that Maxiren®®is a non-GMO product.” Maxiren® 600 KPO is made from Kluyveromyces lactis. Maxiren® Premium is made from “Kluyveromyces lactis mixed with a carboxypeptidase derived from a selected strain of Aspergillus niger. DSM product brochures describe Maxiren® as “vegetarian friendly.”

What Does FPC Mean for Cheese-Eating Vegetarians?

To the best of our knowledge and according to our observations, ingredient labels do not distinguish between FPC “microbial rennet” and the “microbial rennet” composed of an enzyme/enzyme mix produced without any gene technology or with non-animal recombinant gene technology. Likewise, “vegetable rennet” and “vegetarian rennet” may also mean that either FPC or a “naturally” derived microbial enzyme/mix was used. Any type of “microbial rennet” could be called “natural,” too. (Recall that FDA has not, as of June 2012, legally defined use of the term “natural.”)

When we asked cheese companies and restaurants about their “microbial rennet” we were told in all cases that the source of the “microbial rennet” was non-animal. Given that 90% of all US cheese is made with FPC according to several industry sources, the writer must conclude that most companies and restaurants are not aware of the animal gene splicing involved in FPC manufacture and/or consider FPC “vegetarian acceptable” as FPC product data sheets from the manufacturers state it is. Some vegetarians may agree that FPC is vegetarian while others may not.

We’ve also learned from doing this update that it must not be assumed that “non-GMO” chymosin implies “vegetarian.” Vegetarians should note that, according to several industry sources, 90% of all US cheese is made with FPC, a product of animal gene splicing, and it as well as the cheese produced by it are considered “non-GMO” by the companies that manufacture it. Some vegetarians may agree that “non-GMO” FPC is vegetarian while others may not.

According to the writer’s knowledge, FPC is not permitted in USDA Organic Cheese. There was a petition to allow the “bio-engineered form” of chymosin to be added to the National List of Allowed and Prohibited Substances (in products certified under the USDA Organic Program by the National Organic Standards Board (NOSB)). The petition was denied because FPC was considered “bio-engineered” and thus unsuitable for inclusion in the USDA Organic Program which disallows the presence of such substances in USDA Organic products. As a panel member for the petition review said, “The NOSB has recommended that all organisms that have been genetically modified by [recombinant DNA] techniques be considered synthetic.” FPC was determined to be “synthetic.”

Furthermore, the panel members pointed out, “non-synthetic” cheese making enzymes (i.e., calf rennet, non-engineered microbial rennets) are available. (Rennet is an example of a non-agricultural substance that is allowed in organic food products when it is derived from calves or non-genetically altered microorganisms.) Technical Advisory Panel Reports concerning the petition to include FPC as an allowed substance in USDA Organic-certified foods can be accessed here: http://www.ams.usda.gov/AMSv1.0/getfile?dDocName=STELPRDC5066977&acct=nopgeninfo

Another USDA document pointed out that GMOs are not permitted at all in USDA Organic foods and beverages. The USDA Deputy Director gives some indication of what the USDA means by “GMO” in describing the “excluded methods” in USDA Organic production:

“A variety of methods used to genetically modify organisms or influence their growth and development by means that are not possible under natural conditions or processes and are not considered compatible with organic production. Such methods include…recombinant DNA technology (including gene deletion, gene doubling, introducing a foreign gene, and changing the positions of genes when achieved by recombinant DNA technology).”
http://www.ams.usda.gov/AMSv1.0/getfile?dDocName=STELPRDC5096493

The contents of this article, our website, and our other publications, including The Vegetarian Journal, are not intended to provide personal medical advice. Medical advice should be obtained from a qualified health professional. We often depend on product and ingredient information from company employees or company statements. Information does change and mistakes are always possible. Please use your own best judgment about whether a product is suitable for you. Further research or confirmation may be warranted.

Readers may be interested in a blog post on cheeses used by Pizza Hut:
http://www.vrg.org/journal/vj2011issue1/2011_issue1_chymax.php

For more information on food processing methods and food ingredients and to purchase our Guide to Food Ingredients, please visit our website at http://www.vrg.org/ingredients/index.php

For updates on ingredients and other information of interest to vegetarians and vegans, please subscribe to our e-newsletter at http://www.vrg.org/vrgnews/

There are many ways to stay connected to The Vegetarian Resource Group! Get our blog delivered right to your inbox: http://feeds.feedburner.com/TheVRGBlog
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And like us on Facebook: http://www.facebook.com/thevegetarianresourcegroup

To support Vegetarian Resource Group research, please donate at http://www.vrg.org/donate

Most people in the United States eat more salt than is recommended. The 2010 Dietary Guidelines call for less than 2300 milligrams of sodium daily, and less than 1500 milligrams for at-risk groups (non-Hispanic blacks, persons aged ≥ 51 years, and persons with hypertension, diabetes, and chronic kidney disease). Close to 9 out of 10 Americans who should be consuming less than 2300 milligrams of sodium and a whopping 99% of those who should consume less than 1500 milligrams of sodium exceed these recommendations. That’s a problem because excessive sodium increases the risk for high blood pressure and for heart disease and stroke.

If we could identify foods that are the main sources of sodium on a day-to-day basis, we could start taking steps to cut the salt. A new study identifies the top 10 categories – foods that contribute the most sodium to the average American’s diet on a daily basis. Here they are, ranked from highest to lowest contributor of sodium:

1. Breads and rolls
2. Cold cuts/cured meats
3. Pizza
4. Poultry
5. Soups
6. Sandwiches
7. Cheese
8. Pasta Dishes
9. Meat Mixed Dishes (like meat loaf)
10. Savory snacks (chips, popcorn, pretzels)

While many categories on the list are not vegan, there are still a couple of messages here for vegans. First of all, some foods that may be eaten by vegans, including bread and rolls, soups, and salted snacks can supply more salt than we need. It’s a good idea to check labels for sodium and choose lower sodium foods. Secondly, notice what’s not on the list. That would be fruits, vegetables, grains, beans, among others. Cutting down on sodium on an individual basis means eating fewer processed foods. That’s where people who are already used to eating whole plant foods have the advantage. For a week’s worth of low sodium menus see http://www.vrg.org/journal/vj2005issue4/2005_issue4_lowsodium.php.

The study's authors say, “Reducing the sodium content of the 10 leading sources by one fourth would reduce total dietary sodium by more than 10%. This could prevent an estimated 28,000 deaths and $7 billion in health-care expenditures annually.” We have to wonder what the effect would be of eliminating categories 2, 3, 7, and 9 completely.

This study was published in Morbidity and Mortality Weekly Report.

by Jeanne Yacoubou, MS

VRG Research Director

In September 2011 a VRG member asked us if the CarbonFree® Domino® Granulated Sugar, and sister brands, Florida Crystals® Organic Sugar and Florida Crystals® Natural Cane Sugar, meant that these brands had not
been filtered through cow bone char. She wondered if “CarbonFree®” implied that cow bone char, which is composed of carbon, had not been used during the sugar refining process to whiten the product.

Domino® Sugar has a FAQ page on its website, http://www.dominosugar.com/carbonfree/faq.html, which explains that its use of the CarbonFree® label relates to the products’ “carbon neutral footprint.” Domino® Sugar asked CarbonFund.org, a non-profit organization that certifies qualifying products as CarbonFree®, to perform a life cycle assessment (LCA) to determine “the products’ carbon footprint and greenhouse gas reductions” that existed because of company practices.

CarbonFund.org determined through a field-to-store analysis performed by The Edinburgh Centre for Carbon Management, that Domino® Sugar’s production and supply of renewable energy from “leftover sugar cane fiber and recycled urban wood waste” to power their sugar operations as well as some residential communities offset the carbon footprints of some of their products. Consequently, Domino® Granulated Sugar, and sister brands, Florida Crystals® Organic Sugar and Florida Crystals® Natural Cane Sugar became certified as CarbonFree®.

On its FAQ page, Domino® Sugar stated that the CarbonFree® label does not mean their products are “carbon free.” In fact, sugar itself, because it is a biomolecule, contains carbon. In terms of processing, only certified USDA organic sugar and sugar derived exclusively from sugar beets have not been processed through decolorizing filters, which, in most cases today, are composed of cow bone char.

For more information about sugar processing, interested readers may view our articles at
http://www.vrg.org/journal/vj2007issue4/2007_issue4_sugar.php and
http://www.vrg.org/journal/vj97mar/973sugar.htm

The contents of this article, our website, and our other publications, including The Vegetarian Journal, are not intended to provide personal medical advice. Medical advice should be obtained from a qualified health professional. We often depend on product and ingredient information from company employees or company statements. Information does change and mistakes are always possible. Please use your own best judgment about whether a product is suitable for you. Further research or confirmation may be warranted.

For more information on food processing methods and food ingredients and to purchase our Guide to Food Ingredients, please visit our website at
http://www.vrg.org/ingredients/index.php

For updates on ingredients and other information of interest to vegetarians and vegans, please subscribe to our free enewsletter at
http://www.vrg.org/vrgnews/

There are many ways to stay connected to The Vegetarian Resource Group!
Get our blog delivered right to your inbox:
http://feeds.feedburner.com/TheVRGBlog Visit us on Twitter:
http://twitter.com/#!/VegResourceGrp and friend us on Facebook:
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To support Vegetarian Resource Group research, donate at
https://www.givedirect.org/give/givefrm.asp?CID=1565

The Vegetarian Resource Group
PO Box 1463
Baltimore, MD 21203

Carole Davis
Co-Executive Secretary of the Dietary Guidelines Advisory Committee
Center for Nutrition Policy and Promotion
U.S. Department of Agriculture
3101 Park Center Drive, Room 1034
Alexandria, VA 22302

July 13, 2010

Comments submitted electronically at www.dietaryguidelines.gov

Dear Ms. Davis:

The Vegetarian Resource Group is a nonprofit educational organization that works with individuals, consumer groups, food companies, professional associations, government agencies, academic institutions, and other relevant constituencies to disseminate accurate information and sound advice to the public concerning vegetarian diets.

We were extremely impressed with the thoroughness of the recent Report of the Dietary Guidelines Advisory Committee on the Dietary Guidelines for Americans, 2010. The report makes a clear and compelling case for a rapid shift in the American diet to one that is more plant-based. The evidence-based approach used throughout the report allows readers to understand the basis for the recommendations that are made. This is an impressive report and we commend and thank the committee members for their diligence.

In an earlier letter we stated, “As advocates for people who choose to follow a vegetarian diet, we believe that the Dietary Guidelines should include information about vegetarian diets. This has been done somewhat in the past with suggestions for alternatives to meat products but information is limited. “We were quite pleased to see that this report contains a much more extensive discussion of vegetarian diets than previous reports.

We hope the following suggestions will be considered when finalizing the report.

1. Decrease or eliminate emphasis on combining plant proteins.

The need to combine plant proteins is repeatedly stressed throughout the report. For example, the Executive Summary states, “Plant proteins can be combined to form complete proteins if combinations of legumes and grains are consumed. Plant-based diets are able to meet protein requirements for essential amino acids through planning and offer other potential benefits, such as sources of fiber and nutrients important in a health-promoting diet.” Part D, Section 4, Protein states, “Individuals who restrict their diet to plant foods may be at risk of not getting adequate amounts of certain indispensable amino acids because the concentration of lysine, sulfur amino acids, and threonine are sometimes lower in plant than in animal food proteins. … Vegetarian diets that include complementary mixtures of plant proteins can provide the same quality of protein as that from animal protein. Education is needed for those designing diets containing complementary proteins for consumers switching to a more plant-based diet.”

While protein combining may be necessary in situations of extremely limited food choices, there is no evidence of protein or amino acid deficiencies in those eating plant-based, vegetarian, or vegan diets in countries where a variety of foods are readily available. A classic review of plant proteins supports the lack of evidence for combining proteins, even on a daily basis and says, “Although protein and amino acid requirements are conventionally expressed as daily rates (of intake) there is no implication that these amounts must be consumed each and every day. Therefore, it is not essential, at least in adults, that daily intakes of protein, or presumably of each indispensable amino acid, must equal or exceed the physiological requirement; it is apparently sufficient for the average intake over a number of days to achieve this level.” Our concern is that over-emphasis of this concept or of the need to carefully plan a plant-based diet will lead people to avoid potentially health-promoting plant-based, lacto-ovo vegetarian, and vegan diets. Even without stressing the concept of protein combination, the food patterns that accompany this report ensure that a variety of protein sources will be eaten. For example, the vegan food pattern includes grains, beans and peas, soy products, nuts and seeds, and (non-dairy) milk.

Additionally, there is no evidence of deficiencies of lysine, sulfur amino acids, and threonine in those who restrict their diet to plant foods.

2. Clarify information on plant-calcium sources and on the risk of fractures associated with vegan diets.

The report describes vegetable sources of calcium as being of limited bioavailability. For example, Part D, Section 2, Nutrient Adequacy states, “In addition, many vegetables contain calcium, another nutrient of concern; although the bioavailability of calcium in these foods is limited.” and “Some plant foods contribute calcium that is well absorbed, but the large quantity of these plant foods that would be needed to provide the equivalent amount of calcium found in 8 ounces of fluid milk may be unachievable for many.”

A number of dark green leafy vegetables contain significant amounts of bioavailable calcium. The research on this topic has been summarized in a review article by Weaver and Plawecki. Along with calcium that is better absorbed than calcium from dairy products, vegetables such as kale, turnip greens, broccoli, and Brussels sprouts also supply vitamin C, iron, potassium, vitamin A, and other key nutrients. As the report states, “calcium naturally occurring in foods is the recommended source.” Consideration should be given to increasing recommendations for these vegetables, especially as a source of calcium. Weaver and Plawecki’s review indicates that approximately 1 cup of turnip greens or 1.5 cups of Chinese cabbage or mustard greens would provide calcium equivalent to that found in 8 ounces of fluid milk. This certainly sounds possible for many to achieve, as a replacement for 1 or 2 cups of milk or milk equivalents.

The report states, “Vegan diets may increase risk of osteoporotic fractures.” Evidence is limited to support this statement. The EPIC study in the U.K. did find a higher rate of fractures in vegans but the difference in rates disappeared when the analysis was restricted to subjects who consumed at least 525 mg/day of calcium. This suggests it is total calcium intake rather than a vegan diet that affects fracture risk.

3. Provide specific information about foods to avoid/eat less.

We find recommendations such as the following to clearly indicate which foods should be emphasized: “2. Shift food intake patterns to a more plant-based diet that emphasizes vegetables, cooked dry beans and peas, fruits, whole grains, nuts, and seeds.” In contrast, the following type of statement does not provide specific guidance as to which foods should be avoided or limited: “Significantly reduce intake of foods containing added sugars and solid fats because these dietary components contribute excess calories and few, if any, nutrients”. Major sources of solid fats have been identified as cakes, cookies, pies, doughnuts, granola bars, regular cheese, sausage, franks, bacon, ribs, pizza, fried white potatoes, and dairy-based desserts, such as ice cream. A clear statement that these foods should be modified (for example cheeseless and meatless pizza, baked fries, sorbet) or limited would add clarity to the recommendations. We are surprised that a marked reduction in processed meat intake is not strongly and specifically recommended based on the reported findings of a 42% higher risk of CHD and 19% higher risk of type 2 diabetes associated with processed meat as well as the possible relation between processed meat and colorectal and prostate cancers (as discussed in Part D, Section 4, Protein).

4. Reconsider the use of 3 cups milk-equivalents per day.

Although Appendix E-3.6 compares meal plans containing 3 cups of milk-equivalents to those containing 0 cups of milk-equivalents, we do not, see a comparison of meal plans with 1 or 2 cups of milk-equivalents and with appropriate increases in servings of alternative sources of key nutrients (e.g. calcium, vitamin D, potassium) such as dark green leafy vegetables, fortified foods, dried beans, and soy products. Many Americans do not use 3 cups of milk-equivalents daily; it seems more realistic to promote alternative sources of key nutrients. Additionally, no consideration has been given to the environmental impact of the substantial increase in dairy product production that would be needed to meet these recommendations.

5. Recommend expanded vegetarian and vegan choices in the School Meals Program.

The report clearly identifies a need to “Improve foods sold and served in schools, including school breakfast, lunch, and after-school meals and competitive foods so that they meet the recommendations of the IOM report on school meals (IOM, 2009) and the key findings of the 2010 DGAC. This includes all age groups of children, from preschool through high school.” The sections of this report supporting the health benefits and nutrient adequacy of vegetarian diets clearly indicate the need for increased provision of vegetarian and vegan options in school meals. We suggest that a recommendation be included in this report supporting expanded vegetarian and vegan choices in school meals.

We applaud the Committee’s decision to include specific recommendations for future research and are hopeful that funding will be available for studies on plant compared to marine n-3 fatty acids; the development of better methods of conducting cohort studies of populations consuming plant-based diets compared to animal based diets, including defined classifications of vegetarian and “near vegetarian” eating patterns and more specific impacts of dried beans and peas on health; key nutrients in plant-based diets including calcium, iron, vitamin B12, and protein quality, especially in children and the elderly; and development of better assessment tools to classify vegetarian patterns in epidemiologic studies. Research in these areas would be of significant benefit to those consuming plant-based, vegetarian, and vegan diets. We especially support the allocation of funds for studies of food intakes of vegetarians and vegans so that separate patterns can be developed based on actual proportionate consumption of plant foods in all groups.

We appreciate the committee’s work on Dietary Guidelines 2010 and its solicitation of these public comments.

Sincerely,

Reed Mangels, PhD, RD, LD, FADA
Nutrition Advisor, The Vegetarian Resource Group

Charles Stahler
Co-Director, The Vegetarian Resource Group

Debra Wasserman
Co-Director, The Vegetarian Resource Group

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