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    Doctors Recommend Celiac Screening for Kids with Mental Disorders, Low Cholesterol


    Jefferson Adams

    Celiac.com 07/13/2009 - Doctors are recommending that kids with mental and behavioral disorders, and with low cholesterol be tested for celiac disease.


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    This, after findings from a recent study suggest that low plasma cholesterol levels might have a role in the development and pathogenesis of certain behavioral disorders such as schizophrenia, depression, and obsessional neurosis in people with celiac disease.

    It is well documented that children with celiac disease face higher rates of certain behavioral disorders such as schizophrenia, depression, and obsessional neurosis. Still, not much is known about the development and pathogenesis of celiac-related mental and behavioral disorders.

    A team of researchers made up of Italians Luca Mascitelli, M.D., Francesca Pezzetta, M.D., and American Mark R. Goldstein, M.D. set out to investigate the matter.

    A large scale study of patients aged 6–16 years showed that most people with celiac disease harbored illness of low-grade intensity that was often associated with "decreased psychophysical well-being."

    Furthermore, a recent study found that adolescents with celiac disease face higher rates of depressive and disruptive behavioral disorders, especially before adopting a gluten-free diet. 2 For some, psychiatric symptoms appear to improve after the patients started a gluten-free diet.

    Interestingly, children with malabsorption and steatorrhea due to celiac disease often have lower concentrations of blood cholesterol. Moreover, people with celiac disease, but who show no signs of overt cholesterol malabsorption, often show low levels of blood cholesterol, while normal to high cholesterol levels have been shown effective in ruling out celiac disease.

    Add to that the fact that low cholesterol has been tied to other mental disorders. In particular, a national sample of non-institutionalized, non-African American children of school-age found a statistically significant association between low cholesterol and aggressive behavior.

    Low cholesterol has also been tied to the onset of conduct disorder during childhood among male criminals. Therefore, they recommend that screening for celiac disease be considered in children and adolescents with mental disorders and low cholesterol.

    Psychosomatics 50:300-301, May-June

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  • Related Articles

    Scott Adams
    The following was written by Dr. Kalle Reichelt who is a leading celiac disease researcher at the Pediatric Research Institute in Oslo, Norway. Please direct any questions regarding this article to him at: K.L.Reichelt@rh.uio.no
    What most people ignore is that both peptides and trace (biologically significant amounts) amounts of proteins are taken up across the gut mucosa (1,2). Because one molecule of gluten contains at least 15 opioid sequences it is quite clear that this could cause a problem. Increased peptide excretion is found in the urine of celiacs before treatment (3) (Reichelt et al in prep). This is confirmed by a series of papers that demonstrate intact food proteins in mothers milk (4-7). A Canadian group has confirmed that gluten does change a brain enzyme and monoamine levels in cats (8). Their findings a significant even though cats are not gluten eating animals. There is increasing evidence that components from food can indeed cause serious psychiatric (9-12) and neurological (13-16) diseases. Even rheumatoid arthritis may have a link to food proteins (17), and it well established that stress increases gut permeability. Nobody denies the possibility of reactive depression, but there is little reason why this could not be made worse by dietary factors. Because antibodies are indeed induced by peptides it may even be so that dietary peptides by mimicry to endogenous cell surface peptide sequences, may be responsible for many autoimmune diseases (18).
    References:
    Gardner MLG (1994) Physiology of the gastrointestinal tract. Edit: LR Johnson. Raven press 3rd edit. pp 1795-1820. Husby S et al (1985) Scand J Immunol 22:83-92. Klosse JA et al (1972) Clin Chim Acta 42:409-422. Kilshaw PJ and Cant AJ (1984) Inter. Arch Allergy Appl Immunol 75:8-15. Axelsson I et al (1986) Acta paed Scand 75:702-707. Stuart CA et al (1984) Clin Allergy 14:533-535. Troncone R et al (1987) Acta paed Scand 76:453-456. Thibault L et al (1988) J Clin Biochem Nutr. 4:209-221. Hallert C et al (1982) Psychic disturbances in adult celiac disease III.Reduced central monoamine metabolism and signs of depression. Scand J Gastroenterol 17:25-28. Singh MM and Kay SR (1976) Wheat gluten as a pthogenic factor in schizophrenia. Science 191:401-402. Dohan FC and Grasberger JC (1973) relapsed schizophrenics: earlier discharge from the hospital after cereal-free, milk-free diet. Amer J Psychiat 130:685-686. Reichelt KL et al (1990) The effect of gluten free diet on glycoprotein attached urinary peptidee excretion and behaviour in schizophrenics. J Orthomol Med 5:223-239. Gobbi G et al (1992) Celiac disease, epilepsy and cerebral calcifications. The Lancet 340:439-443. Paul K-D et al (1985) EEG-Befunde Zoeliakikranken Kindern in Abh{ngigkkeit von der Ern{hrung. Z Klin Med 40:707-709. Kahn A et al (1987) Difficulty of initiating sleep associated with cows milk allergy in infants. Sleep 10:116-121. Hadjivassiliou M et al (1996) Does cryptic gluten sensitivity play a part in neurological illness? The Lancet 347:369-371. Kjeldsen-Kragh J et al (1991) Controlled trial of fasting and one-year vegetarian diet in rheumatoid arthritis. The Lancet 338:899-902. Karjalainen J et al (1992) Bovine albumin peptide as a possible trigger of insulin-dependent diabetes mellitus. New Eng J Med 327:302-307.

    Scott Adams
    Eur Psychiatry. 2004 Aug;19(5):311-4. Celiac.com 09/12/2004 - Israeli researchers conducted a study designed to determine whether or not an association exists between celiac disease and schizophrenia. Past studies have indicated that such a connection may exist. The researchers screened 50 consecutive patients over 18 years old who were diagnosed with schizophrenia and their matched controls for celiac-specific anti-endomysial IgA antibodies. All patients also completed a detailed questionnaire. There were no significant differences between the groups in gender, Body Mass Index (BMI) or country of birth, and the mean age of the study group was significantly higher than the controls. All tests for anti-endomysial antibodies in both groups were negative, and the researchers concluded that "In contrast to previous reports, we found no evidence for celiac disease in patients with chronic schizophrenia as manifested by the presence of serum IgA anti-endomysial antibodies. It is unlikely that there is an association between gluten sensitivity and schizophrenia"
    Celiac.com Comments on this Study:
    This was a relatively small study that did not include other celiac disease screening methods, such as IgG (antigliadin antibody), tTG (tissue Transglutaminase), or intestinal biopsies. A recent study has shown that only 77% of those with total and 33% of those with partial villous atrophy actually have positive blood tests for celiac disease, so many cases of celiac disease may be missed by using only blood tests to screen for it. Further, about 4% of celiacs are anti-endomysial IgA deficient, so anyone in this subclass would have been missed in the study. Given such a small number of people in the study--50--if even one celiac were missed it would greatly affect the outcome of the study. Both groups should have been given much more comprehensive celiac disease screening to ensure that no cases of celiac disease were missed.
    In the article by Dr. Hadjivassiliou titled Gluten Sensitivity as a Neurological Illness he says:

    The introduction of more celiac disease specific serological markers such as anti-endomysium and more recently transglutaminase antibodies may have helped in diagnosing celiac disease but their sensitivity as markers of other manifestations of gluten sensitivity (where the bowel is not affected) is low. This certainly reflects our experience with patients with gluten sensitivity who present with neurological dysfunction. Endomysium and transglutaminase antibodies are only positive in the majority but not in all patients who have an enteropathy. Patients with an enteropathy represent only a third of patients with neurological manifestations and gluten sensitivity. Antigliadin antibodies unlike endomysium and transglutaminase antibodies are not autoantibodies. They are antibodies against the protein responsible for gluten sensitivity.
    Only one third of the patients with neurological disorders associated with gluten sensitivity have villous atrophy on duodenal biopsy. Even some with biochemical markers of malabsorption such as low serum vitamin B12, low red cell folate, or vitamin D concentrations had normal conventional duodenal histology. These cases may illustrate the patchy nature of bowel involvement in coeliac disease and the inaccurate interpretation of duodenal biopsies by inexperienced histopathologists. Preliminary data based on staining of the subpopulation of T cells in the small bowel epithelium suggests that these patients have potential celiac disease. There are, however, patients where the immunological disorder is primarily directed at the nervous system with little or no damage to the gut. Our practice is to offer a gluten-free diet to these patients unless the HLA genotype is not consistent with susceptibility to gluten intolerance (that is, other than HLA DQ2, DQ8, or DQ1). All patients are followed up and any clinical response is documented.

    Scott Adams
    American Journal of Psychiatry 163:521-528, March 2006
    Celiac.com 03/14/2006 – Danish researchers have found yet another link between celiac disease and schizophrenia. In a large epidemiologic study the researchers looked at 7,704 Danish people who were diagnosed with schizophrenia between 1981 and 1998, including their parents, and matched them to comparison control subjects. The data linkage required that the autoimmune disease be diagnosed before the diagnosis of schizophrenia. The researchers found that patients with a history of an autoimmune disease had a 45% increased risk for schizophrenia, and nine autoimmune disorders were indicators of a higher prevalence for schizophrenia when compared to the controls. The researchers conclude: “Schizophrenia is associated with a larger range of autoimmune diseases than heretofore suspected. Future research on co-morbidity has the potential to advance understanding of pathogenesis of both psychiatric and autoimmune disorders.”

    Jefferson Adams
    Celiac.com 01/23/2013 - Can going gluten-free bring about a major improvement in mental health for some children?
    This question is addressed in recent article by Mary Lochner. In the article, Lochner talks about the challenges she faced in trying to raise her daughter who, for the first couple of years, seemed to become more and more emotionally volatile and unstable, even while her daughter's twin brother seemed just fine.
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    While she was investigating that possibility, s came across an article from the March 2012 Huffington Post called “Is Sensory Processing Disorder the New Black?” The article described the case of a child whose extreme behavioral symptoms disappeared after her mother put her on a gluten-free diet after consulting a nutritionist.
    For Lochman, the article hit close to home, and led her to read Kelly Dorfman’s book concerning nutritional origins of childhood illnesses: What’s Eating Your Child? Initially, Lochman says she was skeptical of claims of major behavioral improvement in children who had gone gluten-free, and regarded much of what she'd heard about gluten-free diets with some doubt.
    However, she did bring up the book with her pediatrician, and, rather than dismissing her, the doctor confirmed that gluten can cause behavioral problems in some gluten-sensitive children. He suggested that her daughter go gluten-free for a month, then back on gluten for a month, then gluten-free a second month, and that she keep a journal of her daughter's behavior.
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    For her part, Kelly Dorfman notes that non-celiac gluten-sensitivity has only recently been identified as a distinct medical condition, one that resists conventional tests for diagnosing celiac disease. She says that she commonly sees patients in her practice for whom behavior and mood issues are the only symptoms of gluten intolerance.
    Dorman's new book is due to be re-released in April under a new title, Cure Your Child With Food, and includes a new chapter with more on information on 'bizarre' gluten-related effects on behavior and more.
    Read Mary Lochner's full article in the Anchorage Press.

  • Recent Articles

    Jefferson Adams
    Celiac.com 06/19/2018 - Could baking soda help reduce the inflammation and damage caused by autoimmune diseases like rheumatoid arthritis, and celiac disease? Scientists at the Medical College of Georgia at Augusta University say that a daily dose of baking soda may in fact help reduce inflammation and damage caused by autoimmune diseases like rheumatoid arthritis, and celiac disease.
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    Read more at: Sciencedaily.com

    Jefferson Adams
    Celiac.com 06/18/2018 - Celiac disease has been mainly associated with Caucasian populations in Northern Europe, and their descendants in other countries, but new scientific evidence is beginning to challenge that view. Still, the exact global prevalence of celiac disease remains unknown.  To get better data on that issue, a team of researchers recently conducted a comprehensive review and meta-analysis to get a reasonably accurate estimate the global prevalence of celiac disease. 
    The research team included P Singh, A Arora, TA Strand, DA Leffler, C Catassi, PH Green, CP Kelly, V Ahuja, and GK Makharia. They are variously affiliated with the Division of Gastroenterology and Hepatology, Beth Israel Deaconess Medical Center, Boston, Massachusetts; Lady Hardinge Medical College, New Delhi, India; Innlandet Hospital Trust, Lillehammer, Norway; Centre for International Health, University of Bergen, Bergen, Norway; Division of Gastroenterology and Hepatology, Beth Israel Deaconess Medical Center, Boston, Massachusetts; Gastroenterology Research and Development, Takeda Pharmaceuticals Inc, Cambridge, MA; Department of Pediatrics, Università Politecnica delle Marche, Ancona, Italy; Department of Medicine, Columbia University Medical Center, New York, New York; USA Celiac Disease Center, Columbia University Medical Center, New York, New York; and the Department of Gastroenterology and Human Nutrition, All India Institute of Medical Sciences, New Delhi, India.
    For their review, the team searched Medline, PubMed, and EMBASE for the keywords ‘celiac disease,’ ‘celiac,’ ‘tissue transglutaminase antibody,’ ‘anti-endomysium antibody,’ ‘endomysial antibody,’ and ‘prevalence’ for studies published from January 1991 through March 2016. 
    The team cross-referenced each article with the words ‘Asia,’ ‘Europe,’ ‘Africa,’ ‘South America,’ ‘North America,’ and ‘Australia.’ They defined celiac diagnosis based on European Society of Pediatric Gastroenterology, Hepatology, and Nutrition guidelines. The team used 96 articles of 3,843 articles in their final analysis.
    Overall global prevalence of celiac disease was 1.4% in 275,818 individuals, based on positive blood tests for anti-tissue transglutaminase and/or anti-endomysial antibodies. The pooled global prevalence of biopsy-confirmed celiac disease was 0.7% in 138,792 individuals. That means that numerous people with celiac disease potentially remain undiagnosed.
    Rates of celiac disease were 0.4% in South America, 0.5% in Africa and North America, 0.6% in Asia, and 0.8% in Europe and Oceania; the prevalence was 0.6% in female vs 0.4% males. Celiac disease was significantly more common in children than adults.
    This systematic review and meta-analysis showed celiac disease to be reported worldwide. Blood test data shows celiac disease rate of 1.4%, while biopsy data shows 0.7%. The prevalence of celiac disease varies with sex, age, and location. 
    This review demonstrates a need for more comprehensive population-based studies of celiac disease in numerous countries.  The 1.4% rate indicates that there are 91.2 million people worldwide with celiac disease, and 3.9 million are in the U.S.A.
    Source:
    Clin Gastroenterol Hepatol. 2018 Jun;16(6):823-836.e2. doi: 10.1016/j.cgh.2017.06.037.

    Jefferson Adams
    Celiac.com 06/16/2018 - Summer is the time for chips and salsa. This fresh salsa recipe relies on cabbage, yes, cabbage, as a secret ingredient. The cabbage brings a delicious flavor and helps the salsa hold together nicely for scooping with your favorite chips. The result is a fresh, tasty salsa that goes great with guacamole.
    Ingredients:
    3 cups ripe fresh tomatoes, diced 1 cup shredded green cabbage ½ cup diced yellow onion ¼ cup chopped fresh cilantro 1 jalapeno, seeded 1 Serrano pepper, seeded 2 tablespoons lemon juice 2 tablespoons red wine vinegar 2 garlic cloves, minced salt to taste black pepper, to taste Directions:
    Purée all ingredients together in a blender.
    Cover and refrigerate for at least 1 hour. 
    Adjust seasoning with salt and pepper, as desired. 
    Serve is a bowl with tortilla chips and guacamole.

    Dr. Ron Hoggan, Ed.D.
    Celiac.com 06/15/2018 - There seems to be widespread agreement in the published medical research reports that stuttering is driven by abnormalities in the brain. Sometimes these are the result of brain injuries resulting from a stroke. Other types of brain injuries can also result in stuttering. Patients with Parkinson’s disease who were treated with stimulation of the subthalamic nucleus, an area of the brain that regulates some motor functions, experienced a return or worsening of stuttering that improved when the stimulation was turned off (1). Similarly, stroke has also been reported in association with acquired stuttering (2). While there are some reports of psychological mechanisms underlying stuttering, a majority of reports seem to favor altered brain morphology and/or function as the root of stuttering (3). Reports of structural differences between the brain hemispheres that are absent in those who do not stutter are also common (4). About 5% of children stutter, beginning sometime around age 3, during the phase of speech acquisition. However, about 75% of these cases resolve without intervention, before reaching their teens (5). Some cases of aphasia, a loss of speech production or understanding, have been reported in association with damage or changes to one or more of the language centers of the brain (6). Stuttering may sometimes arise from changes or damage to these same language centers (7). Thus, many stutterers have abnormalities in the same regions of the brain similar to those seen in aphasia.
    So how, you may ask, is all this related to gluten? As a starting point, one report from the medical literature identifies a patient who developed aphasia after admission for severe diarrhea. By the time celiac disease was diagnosed, he had completely lost his faculty of speech. However, his speech and normal bowel function gradually returned after beginning a gluten free diet (8). This finding was so controversial at the time of publication (1988) that the authors chose to remain anonymous. Nonetheless, it is a valuable clue that suggests gluten as a factor in compromised speech production. At about the same time (late 1980’s) reports of connections between untreated celiac disease and seizures/epilepsy were emerging in the medical literature (9).
    With the advent of the Internet a whole new field of anecdotal information was emerging, connecting a variety of neurological symptoms to celiac disease. While many medical practitioners and researchers were casting aspersions on these assertions, a select few chose to explore such claims using scientific research designs and methods. While connections between stuttering and gluten consumption seem to have been overlooked by the medical research community, there is a rich literature on the Internet that cries out for more structured investigation of this connection. Conversely, perhaps a publication bias of the peer review process excludes work that explores this connection.
    Whatever the reason that stuttering has not been reported in the medical literature in association with gluten ingestion, a number of personal disclosures and comments suggesting a connection between gluten and stuttering can be found on the Internet. Abid Hussain, in an article about food allergy and stuttering said: “The most common food allergy prevalent in stutterers is that of gluten which has been found to aggravate the stutter” (10). Similarly, Craig Forsythe posted an article that includes five cases of self-reporting individuals who believe that their stuttering is or was connected to gluten, one of whom also experiences stuttering from foods containing yeast (11). The same site contains one report of a stutterer who has had no relief despite following a gluten free diet for 20 years (11). Another stutterer, Jay88, reports the complete disappearance of her/his stammer on a gluten free diet (12). Doubtless there are many more such anecdotes to be found on the Internet* but we have to question them, exercising more skepticism than we might when reading similar claims in a peer reviewed scientific or medical journal.
    There are many reports in such journals connecting brain and neurological ailments with gluten, so it is not much of a stretch, on that basis alone, to suspect that stuttering may be a symptom of the gluten syndrome. Rodney Ford has even characterized celiac disease as an ailment that may begin through gluten-induced neurological damage (13) and Marios Hadjivassiliou and his group of neurologists and neurological investigators have devoted considerable time and effort to research that reveals gluten as an important factor in a majority of neurological diseases of unknown origin (14) which, as I have pointed out previously, includes most neurological ailments.
    My own experience with stuttering is limited. I stuttered as a child when I became nervous, upset, or self-conscious. Although I have been gluten free for many years, I haven’t noticed any impact on my inclination to stutter when upset. I don’t know if they are related, but I have also had challenges with speaking when distressed and I have noticed a substantial improvement in this area since removing gluten from my diet. Nonetheless, I have long wondered if there is a connection between gluten consumption and stuttering. Having done the research for this article, I would now encourage stutterers to try a gluten free diet for six months to see if it will reduce or eliminate their stutter. Meanwhile, I hope that some investigator out there will research this matter, publish her findings, and start the ball rolling toward getting some definitive answers to this question.
    Sources:
    1. Toft M, Dietrichs E. Aggravated stuttering following subthalamic deep brain stimulation in Parkinson’s disease--two cases. BMC Neurol. 2011 Apr 8;11:44.
    2. Tani T, Sakai Y. Stuttering after right cerebellar infarction: a case study. J Fluency Disord. 2010 Jun;35(2):141-5. Epub 2010 Mar 15.
    3. Lundgren K, Helm-Estabrooks N, Klein R. Stuttering Following Acquired Brain Damage: A Review of the Literature. J Neurolinguistics. 2010 Sep 1;23(5):447-454.
    4. Jäncke L, Hänggi J, Steinmetz H. Morphological brain differences between adult stutterers and non-stutterers. BMC Neurol. 2004 Dec 10;4(1):23.
    5. Kell CA, Neumann K, von Kriegstein K, Posenenske C, von Gudenberg AW, Euler H, Giraud AL. How the brain repairs stuttering. Brain. 2009 Oct;132(Pt 10):2747-60. Epub 2009 Aug 26.
    6. Galantucci S, Tartaglia MC, Wilson SM, Henry ML, Filippi M, Agosta F, Dronkers NF, Henry RG, Ogar JM, Miller BL, Gorno-Tempini ML. White matter damage in primary progressive aphasias: a diffusion tensor tractography study. Brain. 2011 Jun 11.
    7. Lundgren K, Helm-Estabrooks N, Klein R. Stuttering Following Acquired Brain Damage: A Review of the Literature. J Neurolinguistics. 2010 Sep 1;23(5):447-454.
    8. [No authors listed] Case records of the Massachusetts General Hospital. Weekly clinicopathological exercises. Case 43-1988. A 52-year-old man with persistent watery diarrhea and aphasia. N Engl J Med. 1988 Oct 27;319(17):1139-48
    9. Molteni N, Bardella MT, Baldassarri AR, Bianchi PA. Celiac disease associated with epilepsy and intracranial calcifications: report of two patients. Am J Gastroenterol. 1988 Sep;83(9):992-4.
    10. http://ezinearticles.com/?Food-Allergy-and-Stuttering-Link&id=1235725 
    11. http://www.craig.copperleife.com/health/stuttering_allergies.htm 
    12. https://www.celiac.com/forums/topic/73362-any-help-is-appreciated/
    13. Ford RP. The gluten syndrome: a neurological disease. Med Hypotheses. 2009 Sep;73(3):438-40. Epub 2009 Apr 29.
    14. Hadjivassiliou M, Gibson A, Davies-Jones GA, Lobo AJ, Stephenson TJ, Milford-Ward A. Does cryptic gluten sensitivity play a part in neurological illness? Lancet. 1996 Feb 10;347(8998):369-71.

    Jefferson Adams
    Celiac.com 06/14/2018 - Refractory celiac disease type II (RCDII) is a rare complication of celiac disease that has high death rates. To diagnose RCDII, doctors identify a clonal population of phenotypically aberrant intraepithelial lymphocytes (IELs). 
    However, researchers really don’t have much data regarding the frequency and significance of clonal T cell receptor (TCR) gene rearrangements (TCR-GRs) in small bowel (SB) biopsies of patients without RCDII. Such data could provide useful comparison information for patients with RCDII, among other things.
    To that end, a research team recently set out to try to get some information about the frequency and importance of clonal T cell receptor (TCR) gene rearrangements (TCR-GRs) in small bowel (SB) biopsies of patients without RCDII. The research team included Shafinaz Hussein, Tatyana Gindin, Stephen M Lagana, Carolina Arguelles-Grande, Suneeta Krishnareddy, Bachir Alobeid, Suzanne K Lewis, Mahesh M Mansukhani, Peter H R Green, and Govind Bhagat.
    They are variously affiliated with the Department of Pathology and Cell Biology, and the Department of Medicine at the Celiac Disease Center, New York Presbyterian Hospital/Columbia University Medical Center, New York, USA. Their team analyzed results of TCR-GR analyses performed on SB biopsies at our institution over a 3-year period, which were obtained from eight active celiac disease, 172 celiac disease on gluten-free diet, 33 RCDI, and three RCDII patients and 14 patients without celiac disease. 
    Clonal TCR-GRs are not infrequent in cases lacking features of RCDII, while PCPs are frequent in all disease phases. TCR-GR results should be assessed in conjunction with immunophenotypic, histological and clinical findings for appropriate diagnosis and classification of RCD.
    The team divided the TCR-GR patterns into clonal, polyclonal and prominent clonal peaks (PCPs), and correlated these patterns with clinical and pathological features. In all, they detected clonal TCR-GR products in biopsies from 67% of patients with RCDII, 17% of patients with RCDI and 6% of patients with gluten-free diet. They found PCPs in all disease phases, but saw no significant difference in the TCR-GR patterns between the non-RCDII disease categories (p=0.39). 
    They also noted a higher frequency of surface CD3(−) IELs in cases with clonal TCR-GR, but the PCP pattern showed no associations with any clinical or pathological feature. 
    Repeat biopsy showed that the clonal or PCP pattern persisted for up to 2 years with no evidence of RCDII. The study indicates that better understanding of clonal T cell receptor gene rearrangements may help researchers improve refractory celiac diagnosis. 
    Source:
    Journal of Clinical Pathologyhttp://dx.doi.org/10.1136/jclinpath-2018-205023