Vitamin D More Essential for Bone Health Than Calcium
Vitamin D More Important Than Calcium For bone Health November 9, 2005 Consuming more than 800 mg of calcium per day may be unnecessary for bone health if the body has enough vitamin D, say Icelandic researchers.
Using food consumption records from more than 900 adults, the researchers determined that sufficient vitamin D levels can ensure an ideal level of parathyroid hormone (PTH) – a measure of calcium metabolism – even when calcium intake is less than 800 mg per day. But consuming more than 1200 mg of calcium daily is not enough to maintain ideal PTH if the vitamin D status is insufficient. The study is part of a growing body of work that points to the important role of vitamin D, and not just calcium alone, in bone health. Bone health is a growing concern as the numbers affected by osteoporosis continue to rise, and an increasing elderly population suggests that these will grow further in the future. In Europe, osteoporosis causes around 1.1 million fractures each year. In light of recent research, and predicting future health problems, some researchers have called for recommended intake of vitamin D to be raised but the adequate amounts needed in the diet are still not known. The new study, published in today
Science Begins to Add Weight to CLA
The flurry of activity in CLA applications is being backed by a growing body of research to support the ingredient, particularly for its effects on weight loss. A review published in this month’s Journal of Nutrition supports conjugated linoleic acid’s action on weight management, concluding that it is at least in part due to regulation of glucose and fatty acid uptake and metabolism.
Conjugated linoleic acid is the common name of a group of fatty acids found in dairy products and meat. CLA isomers have been studied for their action on an impressive range of diseases, including cancer, atherosclerosis, obesity, and immune function. However as scientists begin to reveal their effects on reduction of body fat, food makers are increasingly looking at the ingredient for the valuable slimming market.
In Canada, where many of the patents for CLA are held, the dairy industry has long been studying the production of high-CLA milk. In Europe, a research centre in Ireland is studying the compound which could add significant value to its dairy industry, while in Italy, Techno Foods introduced a strawberry flavoured yoghurt naturally rich in CLA (conjugated linoleic acid) and omega-3 fatty acids this summer.
Specific CLA isomers have been shown to prevent the development of obesity in certain rodent and pig models and this has been attributed mainly to trans-10, cis-12 CLA, both in vivo and in vitro, write the University of North Carolina researchers in the review. However, CLA’s ability to modulate human obesity remains controversial because data from clinical trials using mixed isomers are conflicting.
In vitro studies by the team demonstrated that while trans-10, cis-12 CLA prevents triglyceride accumulation in human cells, cis-9, trans-11 CLA increases triglyceride content. The team concluded that the isomers’ regulation of glucose and metabolism must partly explain its mechanism on human fat.
The news is also good for supplement marketers who recently learned of research carried out by Cognis backing the long-term safety of its Tonalin CLA.
Acetyl L-Carntine vs. L-Carnitine
The Essential Difference Between the Carnitines
Do you lack energy, or feel tired and physically or mentally unprepared to take on the tasks of the day? This is not unusual, especially as we age, and today’s topic may help explain some of the reasons for this energy deficit.
Two natural compounds produced by our tissues, L-carnitine and acetyl-L-carnitine (ALC), are similar in that both have identical chemical core structures. However, one (ALC) contains an extra component, an acetic acid bound to the core molecule (in what is known as an ester linkage). It turns out that this extra chemical piece makes a significant difference in how this molecule behaves in our body relative to its non-acetylated cousin, L-carnitine. These differences are described below, but first a brief summary of how these molecules normally function in our body.
L-carnitine functions as a vehicle to ferry fat constituents (fatty acids) across a membrane barrier into the cell’s energy-producing machine, the mitochondria, where the fat is converted to energy. Equally important, L-carnitine works in the reverse direction, too. It ferries toxic products produced during fat metabolism out of the mitochondria. This latter step helps maintain the mitochondria as clean-burning, energy-efficient machines.
We are all aware of the fact that as we age, our energy level diminishes. This decrease in energy parallels a decrease in the plasma level of L-carnitine. L-carnitine also decreases under conditions of stress, both psychological and physical. Consequently, it is described as a conditionally essential nutrient. This simply means that when our bodies cannot produce enough of it to meet demand, we need to increase the intake of this nutrient.
Acetyl-L-carnitine is just as active as L-carnitine in transporting fatty acids into the mitochondria. However, as described below, that extra acetyl group confers additional properties to this form of L-carnitine, which make it superior to its non-acetylated cousin. Both compounds increase energy Acetyl L-Carnitine or ALC Physical Energy Fat Metabolism Brain Protection Neurotransmission
Experiments with rats show a dramatic decrease (between 50-70%) in the activity level of old rats as compared to the young animal. Old rats, too, get tired with age! This decrease, as mentioned above, parallels a decrease in the amount of L-carnitine present in the animal’s tissues and blood.
This observation led researchers to investigate whether the old energy-deficient animals could be transformed into more energetic, youthful animals by feeding them a diet enriched with L-carnitine. Supplying L-carnitine to the diet increased the ambulatory activity of the old rats almost two-fold. The experiment was repeated with ALC, and it too increased the animals’ activity level to about an equal degree. So both compounds worked equally well in improving the old rats’ energy levels. ALC protects the brain
One of the two cousins, ALC, stands out with respect to its effects on the brain and nervous system. First, ALC is more effectively transported into the central nervous system. It more readily traverses the blood-brain barrier