*Not all foods listed here are certified gluten free, they are simply made without gluten containing ingredients. You'll need to decide for yourself what foods you are comfortable eating.

Tuesday, December 28, 2010

Dear Blog,

I'm very sorry for neglecting you this holiday season. I promised myself you would be "fun" and not a "job" so I didn't make you a priority over the holidays. I do miss you though and I even have some pictures and recipes to post on you soon. So don't give up on me blog, I do love you and will be back soon. 
xoxo
Val 

Tuesday, December 14, 2010

Bacon & Sage Wrapped Lemon Chicken

I found this recipe in All You magazine a few months back and finally got around to making it tonight. It was so tasty, the whole family loved it, including the kids! 

Ingredients: 
  • 4 chicken breasts
  • 12 sage leaves
  • 8 slices thick bacon (I use Hempler's all natural, it is labeled gluten free. You can buy it at Fred Meyer) 
  • 1 1/2 tbsp gluten free flour blend
  • 1/2 cup gluten free chicken broth
  • 1/4 cup lemon juice
Directions: 
  1. Preheat oven to 400 degrees. Spray 9x13 baking dish with cooking spray. 
  2. Place 3 sage leaves on the top of each chicken breast. 
  3. Wrap 2 slices of bacon around each chicken breast and lay flat in baking dish. 
  4. Bake until chicken is cooked all the way through, about 40 minutes. 
  5. When chicken is done, drain juices from the pan into a small saute pan. Cover chicken with foil and let rest for a few minutes. 
  6. In small saute pan heat juices from the chicken, broth, and lemon juice. Slowly whisk in gluten free flour until sauce has thickened ( I brought it to a quick boil while continuously stirring and it thickened in about 2 minutes). 
  7. Poor sauce over chicken and serve! I served it over rice and it was delicious. 
Hope you like it as much as my family did! 

Peppermint Bark

 This has to be the easiest gluten free dessert to make!
 My kids are addicted to it and I'm having a hard time turning it down as well. 
Here is what you need: 

Ingredients: 
  • 2 bags Nestle Semi Sweet Chocolate Chips
  • 2 bags Nestle White Chocolate Chips (both are gluten free, I linked their website in the side bar) 
  • candy canes (I used 6) 


Directions: 
  1. line baking sheet with wax paper
  2. melt 2 bags of semi sweet chocolate chips (you can do it in microwave or over the stove)
  3. spread semi sweet chocolate over the baking sheet and place in refrigerator to cool 
  4. while cooling put candy canes in a Ziploc bag (I double bag it) and smash candy canes into tiny pieces
  5. when semi sweet chocolate is hardened remove from fridge
  6. melt white chocolate and spread on top of semi sweet chocolate
  7. sprinkle crushed candy canes on top of white chocolate
  8. gently press candy canes down so that they are set into chocolate
  9. place in refrigerator again to cool
  10. once cool use a butter knife to break up into pieces
  11. Enjoy! 


Thursday, December 9, 2010

Sugar Cookies from a Box!

 I bought this cookie mix awhile ago and never got around to making it. The kids and I wanted to make Christmas cookies tonight but I didn't feel like all the work so I pulled out this little gem. They were SO easy to make and tasted great. The dough it a bit gooey to roll out for cookie cut outs (but maybe if you refrigerated it it'd work?) so we just made circles and decorated them. 
 Not bad for egg, dairy, & gluten free! 
Yum! 

** I bought the Cherry Brook's Kitchen mix at PCC, I think I've also seen it at Whole Foods. 

Monday, December 6, 2010

Coconut Curried Chicken & Chickpeas

I found this recipe in a magazine a few months ago and decided to give it a try the other night. I'm not a huge curry fan but I am trying to branch out a bit, plus it's a crock pot recipe and I love those. I changed the recipe a little to suite my taste more and I actually liked it! 

Ingredients:
  • 2 boneless chicken breasts
  • 1 tbsp olive oil
  • 1 tbsp curry powder
  • 1/2 tsp salt
  • 2 onions, thinly sliced
  • 4 cloves garlic, finely chopped 
  • 1- 28 oz can diced tomatoes with juice
  • 1 can coconut milk (I used the light kind to keep the fat content down)
  •  2- 15 oz cans chickpeas, rinsed & drained
Directions:
  1. Coat chicken with olive oil, curry powder, and salt. Put in crock pot. 
  2. sprinkle onions and garlic on top of chicken. 
  3. Pour tomatoes on top and cook on low for 6 to 8 hours. 
  4. During last hour of cooking add in chickpeas and coconut milk. 
  5. Shred chicken with forks before serving. 
  6. We served it over rice and it was delicious



Sunday, November 28, 2010

Gingerbread Cookies

Sorry I haven't been posting as much lately. Just super busy with the holidays, but I promise I'll get back on track soon! 
For now, here is a super yummy Gingerbread Cookie recipe we made last year that worked great for cutting out gingerbread men. Let the holidays begin!!!

Gingerbread Cookies (Gluten-Free)
1-¾ cups gluten-free flour mix
½ to ¾ teaspoon ginger
½ teaspoon cream of tartar
1/8 teaspoon salt
½ teaspoon baking soda
½ cup butter or margarine (cold)- we used Earth Balance
1-½ teaspoon xanthan gum
½ cup brown sugar
1/8 teaspoon cloves
1 egg (cold)
¼ to 3/8 teaspoon cinnamon
½ cup gluten-free molasses
Combine the gluten free flour mix, cream of tartar, baking soda, xanthan gum, cloves, cinnamon, ginger, and salt. Mix well. Cut in the butter or margarine until the mixture is in crumbs the size of peas.
In a small bowl beat the sugar, egg, and molasses together. Add this mixture to the dry ingredients and mix until the dough pulls away from the sides. Form the dough into a flat ball shape and refrigerate for one hour.
Dust some freezer paper (not wax paper) with gluten-free flour or confectioners sugar. Put the dough on the freezer paper and sprinkle with flour or confectioners sugar. Roll the dough to ¼ inch thick and cut out shapes as desired. Bake at 350 degrees F for 12 minutes. Cool on a wire rack. Makes about 20 cookies.

A few notes from me:
**Don't know what freezer paper is. I think we used plastic wrap last year but can't remember exactly. 
** I remember last year that the dough didn't taste good and we were really worried that these would be a bust but once they were cooked and decorated we all loved them! I think it's just that xantham gum is gross until it's cooked. 

Tuesday, November 23, 2010

Interesting Article

I found this article really interesting since I know gluten affects Lauren neurologically. It's nice to know there are people out there studying this. Makes me wonder how many kids are on ADD meds when really they shouldn't be eating gluten?

http://www.huffingtonpost.com/dr-david-perlmutter-md/gluten-impacts-the-brain_b_785901.html

David Perlmutter, M.D.

David Perlmutter, M.D.

Posted: November 21, 2010 11:40 AM

Several years ago, parents of a lovely nine-year-old girl, Karen, brought her to see me because she had poor memory. They indicated that she had difficulty in thinking and focusing, and because of these issues she was falling further and further behind in her school work. Interestingly, they stated that at times she was fine, while clearly at other times her brain function seemed to be different. They indicated that she had difficulty keeping her thoughts together and that she became profoundly frustrated when this would occur.
Because of her significant issues with academic performance, her parents elected to home school her. Her academic testing revealed that she was functioning at or below a third grade level in a variety of areas, including math skills, reading fluency, story recall and overall academic skills. Fortunately, she had no significant medical problems in her past and her overall physical, as well as neurological examinations were entirely normal. Routine, typical blood studies were unrevealing, so I was left to reconsider her history to see if there were any clues as to what might be causing this child's problems.
What caught my attention was the interesting fact that her problems were not constant, indicating that basically her brain was intact but something seemed to be detrimentally influencing her from time to time, causing her to have these significant issues with respect to how her brain functioned. In considering what factors change day to day in terms of someone's exposure, certainly diet is at the top of the list.
Recognizing that gluten sensitivity (a protein found in wheat, barley and rye) is extremely common, I decided to perform a simple blood test to determine if this child was gluten sensitive. When the laboratory studies were completed, we were surprised to learn that she was profoundly sensitive to gluten. So at that point I instructed her parents to put her on a gluten-free diet. While they considered this diet to be challenging, eliminating all wheat, barley and rye from her diet, nevertheless they complied. Over the next two weeks, her parents observed a remarkable change in her cognitive function. Karen suddenly was able to focus much more readily on her school work and indicated to her parents that she suddenly noticed she was thinking much more clearly. Her parents maintained her on a gluten-free diet and over the next several months continued to notice further improvements in her school work. At the end of the school year, she was tested and her grade level equivalent for math calculation skills was 5.1, reading fluency 5.6 and story recall 8.4, which is to say, functioning at a level considered "normal" midway through the year for an eighth grader.
A brief note from her parents reported:
"Karen is completing third grade this year. Prior to removing gluten from her diet, academics, especially math, were difficult. As you can see, she is now soaring in math. Based upon this test, entering the fourth grade next year, she would be at the top of her class. The teacher indicated that if she skipped fourth grade and went to fifth grade, she would be in the middle of her class. What an accomplishment!"
Louis Pasteur stated, "Chance favors the prepared mind." I am certainly grateful that chance favored us several years ago when Karen came to be evaluated. Because of this experience, I became deeply involved in research exploring the effects of gluten sensitivity on the brain. I learned that gluten sensitivity, known as celiac disease, is actually an extremely common human affliction. In fact, it has been described as "the most common human disease." Current studies indicate that about one percent of Americans are gluten sensitive. This is an astounding statistic when you consider that at the time of this writing, there are approximately 297,000,000 Americans. That means, about 3 million Americans are gluten sensitive. When you consider the population from birth to age five years is 23 million children, that means that approximately 230,000 of these children are gluten sensitive.
It seems astounding that a disease that is so common, is nevertheless, fairly obscure. Despite the fact that it was originally described in 1888, we still don't hear much about it. Standard medical text books typically describe celiac disease (gluten sensitivity) as being primarily a gastrointestinal problem. I recall in medical school being taught that celiac disease was characterized by abdominal pain, abdominal distention with bloating and gas, decreased appetite, diarrhea, nausea, unexplained weight loss and growth delay in children. Newer research indicates that celiac disease can have a profound effect on the nervous system.
Dr. Maios Hadjivassiliou of the United Kingdom, a recognized world authority on gluten sensitivity, has reported in the journal, The Lancet, that "gluten sensitivity can be primarily and at times, exclusively a neurological disease." That is, people can manifest gluten sensitivity by having issues with brain function without any gastrointestinal problems whatsoever. Dr. Hadjivassiliou indicates that the antibodies that a person has when they are gluten sensitive can be directly and uniquely toxic to the brain.
Since his original investigations in 1996, the recognition that gluten sensitivity can lead to disorders of brain function has led to a virtual explosion of scientific papers describing this relationship. Researchers in Israel have noted neurological problems in 51 percent of children with gluten sensitivity and further, describe a link between gluten sensitivity and attention deficit/hyperactivity disorder (ADHD). As authors in a recent issue of the journal, Pediatrics, stated in their research, "This study suggests that the variability of neurologic disorders that occur in celiac disease is broader than previously reported and includes softer and more common neurologic disorders including chronic headache, developmental delay, hypotonia and learning disorders or ADHD."
The link between gluten sensitivity and problems with brain function, including learning disabilities, difficulty staying on task and even memory dysfunction, is actually not that difficult to understand. Gluten sensitivity is caused by elevated levels of antibodies against a component of gluten, gliadin. This antibody (anti-gliadin antibody) combines with gliadin when a person is exposed to any gluten containing food like wheat, barley or rye. Testing for the antibody can be performed in any doctor's office. When the antibody combines with this protein, specific genes are turned on in a special type of immune cell in the body.
When these genes are turned on, inflammatory chemicals are created called cytokines, which are directly detrimental to brain function. In fact, elevated cytokines are seen in such devastating conditions as Alzheimer's disease, Parkinson's disease, multiple sclerosis and even autism. Basically, the brain does not like inflammation and responds quite negatively to the presence of cytokines. Another problem with anti-gliadin antibody is that it can directly combine with specific proteins found in the brain. Specific brain proteins can look like the gliadin protein found in gluten-containing foods and the anti-gliadin antibody just can't tell the difference. This direct role of anti-gliadin antibody in combining with specific proteins in the brain, has been described for decades and again leads to the formation of cytokines, the chemical mediators of inflammation. This is an example of turning on genes that ultimately function in a negative way in relation to brain health and function.