Inefficient Labor May Necessitate Ceasarian Section to Save the Baby. Courtesy Wikipedia.org
What Are Obstetrical Complications?
[dropcap]O[/dropcap]bstetrical complications are reproductive disorders during pregnancy, labor and delivery that endanger the mother and unborn infant.
Complications may result from prolonged constipation, malnutriton, hormonal imbalance, infection, systemic disease such as diabetes, obesity, tumors of the uterus, medication adverse effects, drug abuse, smoking, and alcohol abuse.
What Are Obstetrical Complications In Celiac Disease and/or Gluten Sensitivity?
The twin on the right is much small than his brother on the left who has normal growth.
What Is Intrauterine Growth Retardation?
[dropcap]I[/dropcap]ntrauterine growth retardation (IUGR) is a fetal development abnormality characterized by failure to grow normally for gestational period. Specifically, it means the developing baby weighs less than 90% of other babies at the same age.
Intrauterine growth retardation puts the baby at increased risk for complications such as premature birth or that the baby will die inside the womb before birth.1
Intrauterine growth restriction may be suspected if the size of the pregnant woman’s uterus is small. The condition is usually confirmed by ultrasound. Further tests may be needed to screen for infection or genetic problems if intrauterine growth retardation is suspected.
Q: Why would a baby not grow normally during pregnancy?A: An unborn baby cannot grow normally if it does not obtain adequate oxygen and nutrition delivered through the placenta from the mother. Factors that impede adequate delivery of nutrition include:
Poor placenta placement. Conditions that limit or interfere with space for nutrient and oxygen absorption between the placenta and the uterine wall include 1) low attachment of the placentanear or over the cervix where maternal blood supply is poor, 2) pulling away or bleeding between the placenta and uterine wall, 3) multiple placentas (from multiple babies) sharing the uterine wall may limit blood supply to one or more of the fetuses, and 4) the presence of an hydatid mole, (non-fertilized egg growing wildly), tumor or fibroids taking up space or growing under or into the placenta.
Chromosomal abnormalities in the fetus. Conditions such as trisomy 22 have early onset of intrauterine growth retardation in pregnancy.
Poor health of the mother. These factors include 1) anemia which impairs the ability of the mother’s blood to deliver adequate oxygen, 2) preeclampsia which interferes with placenta function, 3) diabetes which impairs proper supply of energy, 4) kidney disease, 5) poor diet, 6) malabsorption, 7) high blood pressure or heart disease, 8) clotting disorders, and 9) toxins and infections during pregnancy that may harm the developing baby such as rubella, cytomegalovirus, toxoplasmosis, and syphilis.
Risk factors in the mother. Any of the following may contribute to intrauterine growth retardation:1
Alcohol abuse.
Drug addiction.
Smoking.
What Is Intrauterine Growth Retardation In Celiac Disease and/or Gluten Sensitivity?
Close-up shows inflammation and infected patches on roof and back of the mouth caused by candidiasis. Uvula is swollen, hanging near the tongue. Courtesy: Wikimedia.
What Is Candida Albicans Infection?
[dropcap]C[/dropcap]andida albicans infection, called candidosis or candidiasis, is an opportunistic invasion of mucous membrane or skin by candida albicans, an endogenous yeast found in 40 to 80% of normal human beings. A former name for this small, budding fungus is monilia albicans.
Opportunistic means that yeast living on mucosal and skin surfaces does not invade (infect) unless these tissues become unhealthy and therefore cannot protect themselves.
Q: How does candida albicans cause infection?
A: Candida albicans lives on the mucosal surfaces and skin in most people without causing infection (colonizes) because of our normal defenses against invasion. In fact, candida albicans is a very effective colonizer of humans. For example, Russell and Lay found that 47% of 1-month-old infants were orally colonized with candida albicans, and 49% were colonized with other fungi.
During growth within the intestinal tract, the organism senses pH (acidity), oxygen, carbon sources, and the presence of surfaces allowing it to optimize gene expression for a particular environment. With these mechanisms for sensing, candida albicans is able to efficiently colonize humans in infancy.1
Candida Infection Of The Esophagus (White Area) On X-ray. Courtesy Radiology Assistant.nl
Lowered host defenses allow yeast already present on mucosal and skin surfaces to take advantage and can grow rapidly, becoming pathogenic (disease producing) so that infection results.
Infection is characterized by superficial, irregular white patches on mucosal surfaces and possible invasion of the bloodstream by a filamentous form (thread-like structures) that can rapidly develop.
Candida albicans is unique among oral pathogens in its ability to invade cornified layers of stratified squamous epithelium of the tongue, mouth surfaces, hard and soft palate, esophagus, and gut. Stratified squamous epithelium is the tough surface cells that ordinarily protect underlying tissues from damage or invasion by microbes.
Candida albicans is also capable of invading the lungs and causing pneumonia and septicemia, which is the spread of infection into the bloodstream.
Here is a time honored simple do-it-youself test for infection of the mouth or throat: First thing in the morning before brushing your teeth or eating, fill a small see through glass with water then gently spit onto the surface. If after an hour the spit remains on the water surface, it is unlikely you have candida in the mouth. If it grows legs downward, it indicates that yeast is growing. If the spit sinks to the bottom, you have this problem. Yeast in the mouth can quickly travel down the esophagus and into the gut.
Medical diagnosis. Difinitive diagnosis for the oral cavity is made by your clinician by swabbing the areas of your mouth and/or throat and viewing under a microscope for evidence of candida.
Infections of the esophagus and gut require inspection by gastroscopy or endoscopy procedure and the taking of samples to be examined under microscope. This examination also give the opportunity to rule out other problems. Barium swallow can show the extent of infection and any disfiguration of the esophagus that results.
What Is Candida Albicans Infection In Celiac Disease and/or Gluten Sensitivity?
Sources:
Rosenbach A, Dignard D, Pierce JV, Whiteway M, Kumamoto CA. Adaptations of Candida albicans for growth in the mammalian intestinal tract. Eukaryot Cell. 2010 Jul;9(7):1075-86. doi: 10.1128/EC.00034-10. Epub 2010 Apr 30. [↩]
[dropcap]D[/dropcap]ementia is the term used to describe a group of symptoms that show significant deterioration of an individual’s intellectual and social abilities.
The deterioration in intellectual function is progressive and is characterized by memory and cognitive impairment involving deficits in reasoning, judgment, abstract thought, comprehension, learning, use of language, and task execution.
Some types of dementia can be reversed, while most types of dementia are degenerative or nonreversible.
Q: What causes dementia?
A: There are many differing causes of dementia. Here are some causes according to nonreversible and reversible:
Nonreversible dementia may not be turned back due to these conditions:
Alzheimer’s disease is the most common type of degenerative dementia caused by abnormal protein structures in certain areas of the brain.
Lewy body disease is a leading cause of dementia in elderly adults.
Vascular dementia due to many small strokes.
Medical conditions: Huntington’s disease, multiple sclerosis, infections that can affect the brain, such as HIV/AIDS and Lyme disease, Parkinson’s disease, Pick’s disease, and progressive supranuclear palsy.
Reversible dementia may be stopped or reversed if these conditions are found soon enough:
Brain injury.
Brain tumors.
Chronic alcohol abuse.
Changes in blood sugar, sodium, and calcium levels.
Changes that can occur with celiac disease, diabetes, thyroid disease, and other metabolic disorders.
Nutritional deficiencies.
Use of certain medications, including cimetadine and some cholesterol-lowering medications.1
What Is Dementia In Celiac Disease and/or Gluten Sensitivity?
[dropcap]C[/dropcap]hronic fatigue or lassitude is a state of weariness not relieved by rest and the inability to do normal physical or mental work.
Q: What are causes of chronic fatigue?
A: Chronic fatigue can be a feature of many disorders including nutritional problems like poor diet or malabsorption, sleep problems, systemic conditions like anemia or heart disease, respiratory disorders like COPD or asthma, infectious disease like tuberculosis, endocrine disorders like diabetes, autoimmune disease like thyroid disease, and cancer.
Fatigue greatly reduces quality of life in all aspects including the desire and ability to socialize and find fullfillment in new and interesting ways.
What Is Chronic Fatigue In Celiac Disease and/or Gluten Sensitivity?
What Is Chronic Syndrome Fatigue? [dropcap]C[/dropcap]hronic fatigue syndrome is a debilitating illness characterized by persistent or relapsing overwhelming and incapacitating fatigue not relieved by rest, having a definite onset and often accompanied by numerous symptoms…
What Is Helicobacter Pylori (H. Pylori) Infection? [dropcap]H[/dropcap]elicobacter pylori infection is a potentially deadly stomach disease characterized by chronic superficial inflammation and ulcerations in 100% of infected patients. This infection disrupts normal defense and repair…
A small, shiny brown, edible and nutritious seed produced by the flax plant that is the most important food source of alpha linolenic acid, an omega-3 fatty acid. These seeds need to be ground because…
Photo by gastroscopy showing ulcer in the antrum area of the stomach (lower area).
What Is A Gastric Ulcer?
[dropcap]G[/dropcap]astric ulcer is a painful stomach disorder characterized by an open sore involving the mucosa lining and deeper muscle layer of the stomach.
Gastric ulcer is associated with lymphocytic gastritis which is inflammation of the mucosal lining of the stomach. The thick mucosal lining normally protects the stomach from the erosive action of stomach acid.
Q: How do ulcers develop?
A: Ulcers develop if hydrochloric acid secreted by the gastric glands of the stomach for the purpose of digesting food damages the normally resistant mucosal walls of the stomach. In the reverse, ulcers may be accompanied by achlorhydria (insufficient acid production).
Damage occurs when there is a predisposing factor that alters the health of the mucosal lining. The most common cause is infection with a bacteria called h. pylori bacter, stress and chronic use of the pain relievers aspirin and non-steroidal drugs like ibuprofen.
Smoking tocacco and consuming alcohol aggravate an ulcer but do not cause it to develop.
The most common location for ulcer formation is along the stomach antrum which is the area of the stomach before the pylorus, the lower region that empties liquid stomach contents into the small intestine.
What Is A Gastric Ulcer In Celiac Disease and/or Gluten Sensitivity?
[dropcap]I[/dropcap]ron deficiency anemia is a blood cell disorder that is characterized by formation of small, pale red blood cells, causing tissue hypoxia. Hypoxia is the inability to meet the demands of the body for oxygen.
Q: Why do small, pale red blood cells cause tissue hypoxia?
A: Small, pale red blood cells (erythrocytes) cause tissue hypoxia because they are not able, as do normal erythrocytes, to pick up adequate oxygen from the lungs and carry it to cells that use oxygen.
Red blood cell production and function are dependent on a sufficient level of iron in the body and also the ability to use available iron to make hemoglobin in red blood cells.
Hemoglobin is a protein that binds oxygen in red blood cells to be carried by the bloodstream to cells throughout the body. In iron deficiency anemia, hemoglobin in females is below 12.5g/dl (normal range is 12.5 to 16g/dl) and in males it is below 13.5g/dl (normal range is 13.5 to 17.5g/dl).
Iron must be obtained from the diet, since the body cannot make it, but there are various factors that can interfere with absorption and use in the body, causing anemia. Iron absorption from the gut first requires ionization, or gaining a positive electrical charge, in the strongly acidic environment of stomach juice. Ionized iron, only, can be absorbed in the duodenum, which receives the acidic contents of the stomach before it is neutralized further along.
Dietary iron can be heme or non-heme depending on the food source. Heme iron obtained only from animal food sources is absorbed into the bloodstream by active transport across the brush border (microvilli) which cover the multitudinous villi of the small intestinal lining.
Non-heme iron obtained from plants must bind with apoprotein after entering the enterocyte (surface cell of small intestinal lining) to be ferried to the underlying basolateral membrane and exited by active transport into the bloodstream.
Frequently, chronic anemia due to iron deficiency is accompanied by increased platelets, and this thrombocytosis resolves with iron repletion (normal iron level). Conversely, in severe iron deficiency anemia, patients may have thrombocytopenia (low platelets), which also resolves with iron therapy.1
What Is Iron Deficiency Anemia In Celiac Disease and/or Gluten Sensitivity?
Sources:
Koury M and Rhodes M. How to approach chronic anemia. Hematology Am Soc Hematol Educ Program. 2012;2012:183-90. doi: 10.1182/asheducation-2012.1.183. [↩]