Heart failure predicts
an increased bone fracture rate. Is vitamin D deficiency the
reason for the correlation?
A recent and interesting
medical paper says that researchers have "discovered" that
persons diagnosed with heart failure in hospital emergency
departments have a dramatically increased risk of bone
fractures. [1]
The researchers stated that after
one year, those diagnosed with heart failure (HF) had four
times the risk of any fracture and more than six times the
risk of hip fracture when compared to those who came to
emergency departments for non-HF reasons.
One of the authors stated that it is not known how heart
failure promotes bone fractures.
My answer, of course, is
that heart failure does not promote fractures; the risk of
each of these terrible diseases is profoundly increased by
vitamin D deficiency.
We know, for instance, that lack of
vitamin D in the blood can cause rickets, osteoporosis and osteomalacia.
The earliest known value of vitamin D was in
the prevention of rickets, the horrible, deforming bone
disease of D-deficient children.
Osteoporosis (brittle bones
that are susceptible to fractures) also develops if there is
insufficient vitamin D in the blood.
One of the most compelling studies on fracture risk was done
by Dr. Sato and his colleagues in Japan.[2]
They studied the
effects of sunlight or the lack thereof on the bone mass of
elderly women who were either exposed to sunlight or were
kept inside a care facility.
Over twelve months, 129 women
were exposed to sunlight every day, and another 129 received
no sunlight exposure.
The results were
startling: in these sedentary women, the sunlight group
increased bone mass by an average 3.1%; in the
non-sunlight-exposed group, it decreased by 3.3%, a
difference of 6.4%.
This is important, because
high bone mass prevents fractures.
The risk of fracture
increases two to three times for every 10 percent drop in
bone density.[3]
In Sato's study, however, the
women who stayed indoors out of the sunlight had six times
as many fractures as those who sunbathed outdoors.
Also interesting to note is that vitamin D levels in the
sunlight-exposed group increased by 400%.
An investigation in Spain concluded that women
who actively participated in sun exposure had one-eleventh
the chance of a hip fracture as those who did not! [4]
Another in Switzerland found that only 4% of
hip fracture patients had vitamin D blood levels of 30 ng/ml.[5]
In other words, 96% were vitamin D-deficient.
So what does this have to do with heart failure (HF)?
Much
more than you might imagine! Vitamin D deficiency appears to
dramatically increase the risk of HF, just as it increases
the risk of osteoporosis and fractures.
Inflammation is
common with HF, and is often caused by proteins called
cytokines that are either pro-inflammatory or
anti-inflammatory elements of the immune system.
Vitamin D
has an amazing ability to inhibit pro-inflammatory cytokine
production[6],[7]while stimulating the production of
anti-inflammatory cytokines[7]and is particularly useful in
improving the cytokine profiles in patients with congestive
heart failure.[7]
In France, deaths from HF are 20% higher than average in
January and 15% lower in August, a swing of 355 [8]
Similarly, in Spain HF hospital admissions are 25% higher
than average in January and 33% lower in August.[9]
That is
a 58% seasonal swing!
We know that vitamin D levels are much
higher in summer than winter, so it is highly likely that
the higher HF rate in January is due to lower vitamin D
levels.
Further corroborating the idea that vitamin D deficiency
leads to or exacerbates heart failure is the fact that the
incidence of heart failure in black Americans, compared to
white Americans, is 40% higher in men and 100% higher in
women.[10]
Remember that dark-skinned people living at high
latitudes have lower vitamin D levels an easily-remedied
situation.
Not surprisingly, heart failure is related to low
vitamin D in all races, and most sufferers have serum levels
below 20 ng/ml, which is quite deficient.
Adults with this
condition also show a history of sedentary, indoor
living.[11]
Tragically, newborns also suffer heart failure, and until
lately studies had not considered vitamin D deficiency as a
possible cause.
However, in a study conducted in southeast
England, sixteen infants were identified that had suffered HF between 2000 and 2006.[12]
Six were of Indian and ten of
African ethnicity.
Six of them suffered cardiac
arrest, three died, eight were placed on lung machines, and
two were referred for heart transplants.
The average serum
vitamin D level of these children was only 7.4 ng/ml, and
some of the infants had undetectable levels.
Obviously, a few dollars worth of vitamin D could have
prevented this catastrophe.
So there you have the answer.
Both heart failure and
fractures have a common underlying cause, and although there
may be other factors that lead to heart failure and
fractures, vitamin D deficiency is the certainly the most
easily remedied.
When will the world wake up to the crying
need to optimize vitamin D levels?
References:
[1] van Diepen, S et al. Heart failure is a risk factor for
orthopedic fracture. A population-based analysis of 16 294
patients. Circulation 2008; Available at: http://circ.ahajournals.org.
[2] Sato, Y. et al. Amelioration of osteoporosis and
hypovitaminosis D by sunlight exposure in stroke patients.
Neurology 2003;61:338-42.
[3] Nguyen, T. et al. Prediction of osteoporotic fractures
by postural instability and bone density. BMJ
1993;307:1111-15.
[4] Larrosa, M. Vitamin D deficiency and related factors in
patients with osteoporotic hip fracture. Med Clin (BARC)
2008;130:6-9.
[5] Bischoff-Ferrari, H. et al. Severe vitamin D deficiency
in Swiss hip-fracture patients. Bone 2007 Nov 28 [Epub
ahead of print]
[6] Muller, K. et al. 1,25-Dihydroxyvitamin D3 inhibits
cytokine production by human blood monocytes at the
post-transcriptional level. Cytokine 1992;4:506-12.
[7] Schleithoff, S. et al. Vitamin d supplementation
improves cytokine profiles in patients with congestive heart
failure: a double-blind, randomized, placebo-controlled
trial. Am J Clin Nutr 2006;83:731-2.
[8] Boulay, F. et al. Seasonal variation in chronic heart
failure hospitalizations and mortality in France.
Circulation. 1999;100:280-86.
[9] Martinez-Selles, M. et al. Annual rates of admission and
seasonal variations in hospitalizations for heart failure.
Eur J Heart Fail 2002;:779-86.
[10] American Heart Association. Heart and stroke statistics
2004 update.
[11] Zitterman, A. et al. Vitamin D insufficiency in
congestive heart failure: Why and what to do about it?
Heart Fail Rev 2006;11:25-33.
[12] Maiya, S. et al. Hypocalcaemia and vitamin D
deficiency: an important, but preventable cause of
life-threatening heart failure. Heart
2008;94:581-84
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