bookmark_borderIs Kale Bad For You?

In an article for The New York Times, Jennifer Berman reports on the problems with kale:

“Imagine my shock, then, at my last physical, when my doctor told me I had hypothyroidism, common in women over 40. When I got home I looked up the condition on the Internet and found a list of foods to avoid. Kale, which I juiced every morning, tops the list, followed by broccoli, cauliflower, cabbage, Brussels sprouts and collard greens — the cruciferous vegetables I consumed in large quantities because they are thought to prevent cancer, which runs in my family. And flax — as in the seeds — high in omega 3’s, that I sprinkled on cereal and blended in strawberry almond milk smoothies. Also forbidden: almonds and strawberries, not to mention soy, peaches, peanuts, corn, radishes, rutabaga and spinach.”

This is based on a study by Oregon State:

“Very high intakes of cruciferous vegetables…have been found to cause hypothyroidism (insufficient thyroid hormone) in animals (68). There has been one case report of an 88-year-old woman developing severe hypothyroidism and coma following consumption of an estimated 1.0 to 1.5 kg/day of raw bok choy for several months. Two mechanisms have been identified to explain this effect. The hydrolysis of some glucosinolates found in cruciferous vegetables (e.g., progoitrin) may yield a compound known as goitrin, which has been found to interfere with thyroid hormone synthesis. The hydrolysis of another class of glucosinolates, known as indole glucosinolates, results in the release of thiocyanate ions, which can compete with iodine for uptake by the thyroid gland. Increased exposure to thiocyanate ions from cruciferous vegetable consumption or, more commonly, from cigarette smoking, does not appear to increase the risk of hypothyroidism unless accompanied by iodine deficiency. One study in humans found that the consumption of 150 g/day (5 oz/day) of cooked Brussels sprouts for four weeks had no adverse effects on thyroid function.”

Q:What should you do?
A: Avoid juicing with kale and most importantly cook kale.

NPR advises:
“The goitergenics properties of kale become dramatically lessened when kale — or any other cruciferous vegetable — is cooked. (Other veggies in this category include: broccoli, brussel sprouts, cabbage, cauliflower, collard greens, kohlrabi, mustard, rutabaga, turnips, bok choy, and Chinese cabbage. Arugula, horse radish, radish, wasabi and watercress are also cruciferous vegetables.)”

More On Edible Plants

bookmark_borderTurkey Seasoning with Healthy Herbs

Growing some herbs on a window sill is a good way to keep eating healthy all year round. When it comes to Thanksgiving and Christmas, you can increase the health benefits of your food by adding herbs to just about everything you serve.

Rosemary, thyme and sage make an excellent combination when preparing your turkey. Finely dice the herbs for inclusion in the stuffing mix. Then, create a rub for application prior to cooking. Throughout the cooking process, sprinkle herbs over the top.

You can also add fresh herbs to your other dishes. Add some parsley to mashed potatoes. Add some basil to your vegetable dishes. Keep some aloe on-hand in case of kitchen burns.

VIDEO: Turkey Seasoning Healthy Herbs — Rosemary, Thyme, Sage.mp4

 

Herbs for Turkey Seasoning -- Rosemary, Thyme, Sage
Herbs for Turkey Seasoning — Rosemary, Thyme, Sage

More on Foraging for Food in the Winter

bookmark_borderHealthy Eating Tips

U.S. Department of Health and Human Services suggests:

A healthy diet can help protect you from heart disease, type 2 diabetes, and some types of cancer. Get tips on how to eat healthy on a budget, plan ahead to save time, and eat healthy away from home.

bookmark_borderCopper Connected to Alzheimer’s Disease

Proceedings of the National Academy of Sciences of the United States of America has conducted a study linking the consumption of copper to Alzheimer’s:

Significance
The causes of the sporadic form of Alzheimer’s disease (AD) are unknown. In this study we show that copper (Cu) critically regulates low-density lipoprotein receptor-related protein 1–mediated Aβ clearance across the blood–brain barrier (BBB) in normal mice. Faulty Aβ clearance across the BBB due to increased Cu levels in the aging brain vessels may lead to accumulation of neurotoxic Aβ in brains. In a mouse model of AD low levels of Cu also influences Aβ production and neuroinflammation. Our study suggests that Cu may also increase the severity of AD.

Abstract
Whereas amyloid-β (Aβ) accumulates in the brain of normal animals dosed with low levels of copper (Cu), the mechanism is not completely known. Cu could contribute to Aβ accumulation by altering its clearance and/or its production. Because Cu homeostasis is altered in transgenic mice overexpressing Aβ precursor protein (APP), the objective of this study was to elucidate the mechanism of Cu-induced Aβ accumulation in brains of normal mice and then to explore Cu’s effects in a mouse model of Alzheimer’s disease. In aging mice, accumulation of Cu in brain capillaries was associated with its reduction in low-density lipoprotein receptor-related protein 1 (LRP1), an Aβ transporter, and higher brain Aβ levels. These effects were reproduced by chronic dosing with low levels of Cu via drinking water without changes in Aβ synthesis or degradation. In human brain endothelial cells, Cu, at its normal labile levels, caused LRP1-specific down-regulation by inducing its nitrotyrosination and subsequent proteosomal-dependent degradation due in part to Cu/cellular prion protein/LRP1 interaction. In APPsw/0 mice, Cu not only down-regulated LRP1 in brain capillaries but also increased Aβ production and neuroinflammation because Cu accumulated in brain capillaries and, unlike in control mice, in the parenchyma. Thus, we have demonstrated that Cu’s effect on brain Aβ homeostasis depends on whether it is accumulated in the capillaries or in the parenchyma. These findings should provide unique insights into preventative and/or therapeutic approaches to control neurotoxic Aβ levels in the aging brain.

In a separate study, playing a musical instrument was found to and years to the life of the brain.

bookmark_borderHealth And Climate Change

Learn more about global warming.

by MedlinePlus Trusted Health — Information for You A service of the U.S. National Library of Medicine from the National Institutes of HealthNational Institutes of Health

Weather can be hot or cold, dry or wet, calm or stormy, clear or cloudy. Climate is the average weather in a place over a long period of time. Changes in climate may be due to natural forces or from human activities. Today climate changes are happening at an increasingly rapid rate.

Climate change is altering weather and climate patterns that previously have been relatively stable. Climate experts think that climate change will bring increasingly frequent and severe heat waves and extreme weather events, as well as a rise in sea levels. These changes have the potential to affect human health in direct and indirect ways.

* Climate change affects the social and environmental determinants of health – clean air, safe drinking water, sufficient food and secure shelter.
* Global warming that has occurred since the 1970s caused over 140 000 excess deaths annually by the year 2004.
* The direct damage costs to health (i.e. excluding costs in health-determining sectors such as agriculture and water and sanitation), is estimated to be between US$ 2-4 billion/year by 2030.
* Many of the major killers such as diarrhoeal diseases, malnutrition, malaria and dengue are highly climate-sensitive and are expected to worsen as the climate changes.
* Areas with weak health infrastructure – mostly in developing countries – will be the least able to cope without assistance to prepare and respond.
* Reducing emissions of greenhouse gases through better transport, food and energy-use choices can result in improved health.