Low Thyroid Function (or hypothyroidism as it is known), links to high cholesterol levels. Hypothyroidism is a common metabolic disorder in the general population. Surveys show a 4.6% prevalence of hypothyroidism (low thyroid function) in the general population (USA). 9.5% of the Colorado Prevalence Study participants had high levels of thyroid stimulating hormone (TSH). A naturopath looks at the optimal range being between 1-2 (TSH). Thyroid failure is more common in women with the prevalence rising with age. Hypothyroid patients have increased levels of triglycerides and low-density lipoproteins (LDL). Hypothyroidism is seen as a common cause of secondary dyslipidaemia (high cholesterol levels).
Research shows that hypothyroidism (low thyroid function) can put you at a greater risk for high blood cholesterol, which can lead to an increased risk of cardiovascular disease. Keeping your thyroid in balance helps to keep your cholesterol in check.
How Low Thyroid function impacts Cholesterol Increase
Decreased thyroid function is accompanied by reduced activity of the enzyme involved in making cholesterol, triglycerides (TG) and low density lipoprotein (LDL) levels which are increased in patients with hypothyroidism (due to lowered activity). Decreased LDL-receptor activity results in decreased clearance of LDL. This decrease in LPL activity is found in hypothyroidism, decreasing the clearance of triglyceride rich lipoproteins.
Why T3 is important?
Just remember thyroid hormones enhance the release of the enzyme involved in the first step of cholesterol synthesis and regulate cholesterol clearance. Too little thyroid hormones mean there is not enough cholesterol clearance and a build up of bad cholesterol (LDL) occurs. It is particularly important for T3, being the active thyroid hormone, as it upregulates and controls the LDL receptor gene activation. Low thyroid hormone may cause greater intestinal cholesterol absorption. The net effect is hyperlipidaemia (increased or high cholesterol levels).
A team of scientists at Erasmus University in Rotterdam, Netherlands, examined data of 9,420 patients enrolled in the in the Rotterdam Study for nearly 9 years, looking at their levels of TSH, free thyroxine (fT4) and risk of heart disease or cerebrovascular disease. What they discovered is that as fT4 increases, the risk of developing heart disease is doubled, and there is an 87% greater risk of suffering from an atherosclerosis-related event such as heart attack or stroke.
Abnormal Levels of Cholesterol
The higher abnormal cholesterol levels of both LDL and HDL have been linked with a higher risk of cardiovascular disease as cholesterol builds up on the arterial wall. Elevated levels of plasma cholesterol, particularly low-density lipoprotein (LDL) and triglyceride levels, are mainly responsible for hypercholesterolemia, which can also lead to other diseases such as obesity, diabetes, and cancer.
Basella alba, known as remayung, belongs to the family of Basellaceae and is a wild vegetable that was used for human health in ancient times. The leaves and stems of B. alba are used as an analgesic, antifungal, and antiulcer activities. This herb has been studied for its cholesterol lowering properties along with Bergamot. Further studies are still required.
Yes, this is all very complex, so what does it actually mean?
Your Thyroid Function
Maintaining proper thyroid function is crucial particularly in women as they age. Post-menopausal are particularly at high cardiovascular risk. This has been well documented however it is known your thyroid could definitely be playing a part.
How do you improve Low Thyroid Function links Lower Cholesterol levels?
- Maximise thyroid function through minimizing impacts from chemicals in the environment (chlorine and fluoride in particular) and reducing heavy metal exposure. You may need to be tested.
- Support your body and make sure you have the thyroid function co-factors – Selenium, Iodine (checked first) and B-Vitamins) for optimal daily thyroid function.
- If stressed, your thyroid will be affected. They come together! Fix your stress through gentle exercise and ensure good sleep.
- Check your hormone levels. It’s important to know what is occurring not stabbing in the dark.
- Fix your gut function. Optimal gut function is needed for proper absorption of all nutrients.
- If you want to check if you have the APOE gene risk factor. Ensure your MTHFR is optimal through a whole body approach.
- There are several phytochemicals (from plants) that have been studied over the years with promising effects.
See a qualified Naturopath Karen Green for your specific needs. Contact Karen on 0400836254 or email@example.com, twitter @greeninghealth, Facebook: https://www.facebook.com/GainingHealthNaturally Read more on thyroid health here
Baskaran, G., Salvamani, S., Ahmad, S.A., Shaharuddin, N.A., Pattiram, P.D. & Shukor, M.Y. (2015), HMG-CoA reductase inhibitory activity and phytocomponent investigation of Basella alba leaf extract as a treatment for hypercholesterolemia, Vol.9, Pages 509—517, DOI https://doi.org/10.2147/DDDT.S75056
Lutz, J., Bano, A., & Pearce, E. (2019). Hypothyroid and Cholesterol: Too Little Thyroid Hormone, Too Much Cholesterol, Endocrineweb, https://www.endocrineweb.com/news/thyroid-diseases/59757-hypothyroid-cholesterol-too-little-thyroid-hormone-too-much-cholesterol
Rizos, C., Elisaf, M., and Liberopoulos, E. (2011). Effects of Thyroid Dysfunction on Lipid Profile, The Open Cardiovascular Medicine Journal, Vol.5, p. 76-84,https://www.ncbi.nlm.nih.gov/pmc/articles/PMC3109527/pdf/TOCMJ-5-76.pdf
Copper Deficiency: Effects on Heart Disease
Copper is crucial for health, and its deficiency effects on heart disease are alarming. This story reminds the body needs balance! Interesting and crucial information adapted from David Watts, Ph.D., Director of Research Interclinical Laboratories).
Recently a popular news story warned that high, long term consumption of sweetened beverages such as soft drinks and soda may increase health risks. A study published in the journal Circulation (1) found that sugar sweetened beverages as well as artificially sweetened beverages were associated with mortality rates. The study consisted of over 37,000 men and over 80,000 women who were followed for over 20 years. Their conclusion found that consumption of the sugar sweetened beverage was associated primarily with cardiovascular mortality.
Heart Disease in Men and Women
Typically heart attacks occur more in men than women depending upon age. The average age for men having heart attacks is about 66 years compared to women whose average age is 70. Heart attacks can happen at any age and in either sex, but the rate is similar or equal in both men and women after 60 years of age. In fact, heart disease is the number one cause of death in both sexes. The study published in ‘Circulation’ also found that women fifty years and older, who consumed diet drinks had a 29% increased risk for heart attack and 23% increased risk for stroke.
High Fructose and Heart Disease
It seems that high fructose intake is the underlying factor in contributing to many of these statistics. The American Journal of Clinical Nutrition (2) reported that the consumption of beverages containing 10, 17.5 or 25% of fructose produced a linear dose response increase in factors contributing to cardiovascular mortality. Risk factors include, lipid and lipoprotein abnormalities, uric acid, triglycerides, cholesterol, and apolipoprotein.
The American Heart Association (AHA) published their recommendations for the reduction in the intake of added sugars found in soft drinks and processed foods.
They state in the journal Circulation that “High intakes of dietary sugars in the setting of a worldwide pandemic of obesity and cardiovascular disease has heightened concerns about the adverse effects of excessive consumption of sugars.” The mean intake for all persons was found to be over 22 teaspoons per day. However, it appears that in the age group between 14 to 18 years, consumption is about 34 teaspoons per day. High fructose corn syrup used in most sweetened beverages is playing a role in the epidemics of insulin resistance, obesity, dyslipidaemia and type 2 diabetes (3).
The Fructose Copper Connection
What is the connection between fructose and heart disease? The answer may lie in the fact that fructose is known to antagonize the mineral copper. It has been well documented that adding fructose to the diets of animals induces copper deficiency (4). Although the same has not been sufficiently studied in humans, the response of humans to a high fructose intake may be similar to response to copper deficiency caused by high intake of fructose in animals.
Copper and Heart Health
Copper is a constituent of many important enzymes. It is involved in oxidoreductase activity, electron transport, free radical scavenging, neurotransmission as well as immunity. When it comes to heart disease copper deficiency greatly affects the functioning of the heart. Detrimental health effects of copper deficiency include: high cholesterol, poor glucose tolerance, abnormal ECG activity, increased LDL, lowered HDL (happy lipids), and high triglycerides, increased susceptibility of lipoproteins and tissues to oxidative damage. Increased blood pressure, plasminogen activator inhibitor type I, early and advanced glycation end products, atherosclerosis, fatty liver degeneration, cardiac hypertrophy and cardiomyopathy, optic neuropathy, iron overload and connective tissue damage (5). High dietary fructose intake is associated with non-alcoholic fatty liver degeneration (NAFLD) in animal models and is thought to be due to poor copper status. Patients with NAFLD have been found to have low copper availability. Liver and serum copper levels are found inversely correlated with the severity of NAFLD (6).
Lee et al., (2018) reported their findings of low hair copper and its relationship to the risk of developing NAFLD. Individuals with lower hair copper concentrations were found to have higher blood pressure and increased body mass index and waist circumference and lower HDL. Those who had NAFLD were found to have significantly lower hair copper levels (7).
Factors Contributing to Copper Deficiency
Copper should be adequate and in proper balance with other nutritional minerals for normal copper related functions. However, an antagonistic relationship exists between copper and other nutrients that can lead to an imbalance or copper deficiency. Copper deficiency can also be caused by genetic predisposition and malabsorption conditions. Bariatric surgery can also be a major cause of acquired copper deficiency contributing to haematological and neurological symptoms (8).
Copper Deficiency and Cardiac Disease
A study by Kedzierska, et al, (2005), found that plasma copper concentration can significantly affect activity of the erythrocyte sodium transport system, and copper supplementation may have therapeutic benefits for hypertensive patients (9). In hair mineral testing analysis copper deficiency in patients with hypertension and metabolic syndrome can be found. Most patients with hypertension in fact show an elevated tissue of sodium and potassium concentration along with a low tissue calcium and magnesium. The benefits of copper supplementation results in an increase of copper activated free radical scavenging enzymes such as superoxide dismutase (S.O.D.) and increased availability of nitrogen oxide, along with calcium retention affects as well. An increase in tissue calcium would aid in the reduction of sodium retention and thereby reduce elevated blood pressure.
Heart Disease and Gender
The development of heart disease is known to differ between men and women. However, copper imbalance may be a key factor in both. The fact that men tend to have a greater incidence of heart attacks at an earlier age than women may rest in metabolic types. Men tend to naturally be more sympathetic dominant with lower tissue copper concentrations while women tend to be more parasympathetic dominant with higher tissue copper. However, after menopause women develop heart attacks at a similar rate as men. This is due to the reduction in estrogen which often corresponds to a reduction in copper retention. Often mineral patterns of women before and after menopause show a shift in their mineral patterns from parasympathetic toward sympathetic dominance along with a lowering of copper and elevation of their zinc to copper ratio.
Hair Zinc and Copper Levels and Predisposition to Heart Disease
Zinc and copper concentrations were measured in the hair and urine of patients who were hospitalized for myocardial infarction (MI). Mineral concentrations were also determined in the patient’s descendants and compared to a control group who had no family history of MI. Zinc was found to be higher and copper lower in the descendants of patients with MI suggesting a consistent rise in zinc and lowering of copper reserves in genetically predisposed individuals. The study suggests that in MI patients, a genetic disorder of mineral imbalance at a younger age can be used in predicting susceptibility to heart disease in individuals prior to onset and diagnosis in asymptomatic patients (10).
It should also be noted that excess tissue copper can result in decreased zinc activated S.O.D. activity and thereby, may contribute to hypertension and elevated cholesterol and triglycerides as well. This biphasic effect emphasizes the need to assess individual needs and treat the patient accordingly, instead of merely treating symptoms. HTMA can be used as a screening tool for the assessment of copper status and more importantly, copper’s relationship to other nutrients. If you would like to obtain your hair mineral analysis to check your levels contain Gaining Health Naturally today on 0400836254 or firstname.lastname@example.org http://www.gaininghealthnaturally.com
HTMA Newsletter – May-June 2019 Heart Disease, Soft Drinks and Copper
1. Ahajounrals.org/journal/cir. Malik, VS, et al. 2019
2. Stanhope, KL, et al, 101, 2015
3. Johnson, RK, et al. Dietary Sugars Intake and Cardiovascular Health. A scientific statement from the American Heart Association. Circulation. Circ. ahajournals.org. June 2010
4. Klevay, LM. Adding Fructose to diets of animals can induce copper deficiency. J. Biomed and Pharmacol. 2018
5. DiNicolantonio, JJ, et al. Copper deficiency may be a leading cause of ischemic heart disease. Open Heart, B.M.J, 2018
6. Song, M, et al. Copper Fructose Interactions: A Novel Mechanism in the Pathogenesis of NALFD. Nutrents, 10,11, 2018
7. Lee, S, et al. Low hair copper concentration is related to a high risk of nonalcoholic fatty liver disease in adults. J.Trace Elem. Med Biol 50, 2018
8. Yarandi, SS, et al. Optic neuropathy, myelopathy, anemia and neutropenia caused by acquired copper deficiency after gastric bypass surgery. J. Clin. Gastroent. 48, 2014
9. Kedzierska, K, et al. Copper Modifies the Activity of Sodium Transporting Systems in Erythrocyte Membrane in Patients with Essential Hypertension. Biol. Trace Elem.Res. 107, 2005
10. Taneja, SK, et al. Detection of Potentially Myocardial Infarction Susceptible Individuals in Indian Population: A Mathematical Model Based on Copper and Zinc Status. Biol. Trace Elem. Res. 75, 2000