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RevisióN Osteoporosis
- 1. Alternative Medicine Review Volume 12, Number 2 2007
Review Article
Osteoporosis: Integrating
Biomarkers and Other Diagnostic
Correlates into the Management of Bone
Fragility
R. Keith McCormick, DC, CCSP
Introduction
Over 50 percent of women and 13 percent of
Abstract men over age 50 will sustain an osteoporotic-related
Bone health, characterized by its mass, density, and micro- fracture1 and over 10 million Americans have been di-
architectural qualities, is maintained by a balanced system of agnosed with osteoporosis,2 at a direct medical cost of
remodeling. The lack of these qualities, caused by an uncoupling 17 billion dollars.3,4 In addition to improving awareness
of the remodeling process, leads to bone fragility and an of bone health and achieving peak bone mass, it is im-
increased risk for fracture.The prime regulator of bone remodeling portant to use targeted nutrition. Although it has been
is the RANK/RANKL/OPG system. The common origin of both shown that calcium supplementation slows postmeno-
bone and immune stem cells is the key to understanding this pausal bone loss5 and may prevent fragility fractures,6,7
findings from the Women’s Health Initiative clinical
system and its relationship to the transcription factor nuclear
trial demonstrate the shortcomings of a limited nutri-
factor kappaB (NFkB) in bone loss and inflammation. Via this
tional approach to bone health. This study shows that
coupled osteo-immune relationship, a catabolic environment
giving calcium and vitamin D supplements did not re-
from heightened proinflammatory cytokine expression and/or duce hip fractures and only minimally increased bone
a chronic antigen-induced activation of the immune system mineral density (BMD) in postmenopausal women.8,9
can initiate a “switch-like” diversion of osteoprogenitor- At the same time, pharmacological intervention has not
cell differentiation away from monocyte-macrophage and proven particularly successful in treating bone loss.10
osteoblast cell formation and toward osteoclast and adipocyte Osteoporosis prevention should begin long
formation. This disruption in bone homeostasis leads to before menopause. Failure to achieve optimal nutri-
increased fragility. Dietary and specific nutrient interventions tion from birth (or before) and through the years of
can reduce inflammation and limit this diversion. Common adolescence and early adulthood when peak bone mass
laboratory biomarkers can be used to assess changes in is attained can result in increased fracture risk later in
body metabolism that affect bone health. This literature review life.10 Bone fragility may already have been determined
at conception11 and been modulated in utero via genet-
offers practical information for applying effective strategic
ics and the negative influences of excessive oxidative
nutrition to fracture-risk individuals while monitoring metabolic
stress,12 low levels of maternal 25-hydroxyvitamin D,13
change through serial testing of biomarkers. As examples,
or other contributing factors.
the clinician may recommend vitamin K and potassium to
reduce hypercalciuria, a-lipoic acid and N-acetylcysteine to
reduce the bone resorption marker N-telopeptide (N-Tx), and R. Keith McCormick, DC, CCSP – Stanford University, BA in Human Biology,
dehydroepiandrosterone (DHEA), whey, and milk basic protein 1978; National College of Chiropractic, DC and BS in Human Biology, 1982;
Logan College of Chiropractic, Certified Chiropractic Sports Physician (CCSP),
(the basic protein fraction of whey) to increase insulin-like 1987; Private Practice, 1982-present.
Correspondence address: 145 Old Amherst Road, Belchertown, MA 01007
growth factor-1 (IGF-1) and create a more anabolic profile. Email: Keith@mccormickdc.com
(Altern Med Rev 2007;12(2):113-145)
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- 2. Alternative Medicine Review Volume 12, Number 2 2007
Osteoporosis Biomarkers
Bone density often begins to decline prior to Bone Fragility: A Term for Defining
mid-adulthood,14 before a woman’s estrogen levels be- Increased Fracture Risk Based on the
gin to recede.15,16 A decline in skeletal integrity may
stem from adverse environmental conditions such as Quantity and Quality Components of
smoking, inactivity, or gastrointestinal inflammation Bone
and malabsorption; however, for a patient at risk for In 1994, a World Health Organization
fragility fracture, strategic nutritional therapy can have (WHO) study group defined osteoporosis as “a syste-
a major impact in improving bone health.17 Although mic skeletal disease characterized by low bone mass and
estimates suggest 50 percent of the variance in peak micro-architectural deterioration of bone tissue, with a
bone mass is due to genetics,18 it is also estimated that consequent increase in bone fragility and susceptibility
30-50 percent of the genetic factors that influence bone to fractures.”19 This definition was further characterized
strength can be affected by the environment in which as having a BMD T score of at least 2.5 standard devia-
bone is immersed. The use of biomarkers (laboratory tions below a healthy, young, white female. Table 1 out-
measures of biological processes) facilitates targeted lines WHO T-score classifications. The measurement
nutritional intervention and is a valuable, underutilized of BMD (the amount of mineralized tissue in a scanned
clinical tool. For example, serial testing of urine organic area) is most commonly attained through dual-energy
acids can assess the efficacy of carnitine supplementa- x-ray absorptiometry (DXA) and is an areal assessment
tion for improving fatty acid metabolism, while efficacy of bone density designated in g/cm2. Instead of using
of a-lipoic acid can be assessed by observing reduction BMD for evaluating a patient’s bone loss, a T score is
of bone resorption markers. used to convert g/cm2 from different scanners to a com-
To be effective, analysis of bone health and mon scale and also to assess the prevalence of osteopo-
treatment of bone fragility must be sufficiently sophis- rosis within a population. “This value captured 30% of
ticated to take all these factors into account. Other than the postmenopausal population with a T score of -2.5
histological examination of trans-ilial bone biopsy spec- or below at the hip (femoral neck), anterior-posterior
imens, there is no direct way to assess bone quality in lumbar spine, or forearm that matched the lifetime risk
the clinic. Physicians therefore rely mainly on BMD for for fracture at any of these three skeletal sites in these
diagnosis and treatment efficacy and fail to recognize populations.”20 “Osteopenia” refers only to a loss of bone
the benefits of using common biomarkers in the man- mass (T score -1.0 to -2.4) and, unlike the term “osteo-
agement of patients with bone fragility. porosis,” does not refer to any aspects of bone quality.
The current emphasis on BMD in the diag-
nosis and treatment of osteoporosis limits awareness
of the importance of bone quality. Although collagen
matrix mineralization contributes substantially to bone
Table 1. World Health Organization Classification of T Score
Normal BMD ≥ -1.0
Low bone mass (osteopenia) BMD > -2.5 and < -1.0
Osteoporosis BMD ≤ - 2.5
Severe (established) osteoporosis BMD ≤ - 2.5 with history of fragility fracture
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- 3. Alternative Medicine Review Volume 12, Number 2 2007
Review Article
strength (stiffness and resistance to structural failure) Secondary findings from the Improving Mea-
and low bone mass is associated with increased risk for surements of Persistence of Actonel Treatment (IM-
fracture,21,22 BMD by itself is not an accurate predic- PACT) trial showed 38 percent of subjects, ages 65-80,
tor of strength,23 and the terms cannot be used inter- with a diagnosis of osteoporosis had no risk factors.32
changeably. Quality aspects of bone, such as size, shape, This statistic is important to consider when evaluating
integrity of collagen fibers, thickness and connectedness the individual patient. Optimal fracture-risk assessment
of trabeculae, and the rate of bone turnover also affect in the individual patient can be achieved by using diag-
the overall strength of bone.24 For this reason, the term nostic correlates from DXA and currently available bio-
“bone fragility” is used in this article to emphasize the technology in a translational medical approach. Using
importance of both the quantity and quality aspects of bone-related biomarkers and other laboratory tests not
bone in the determination of fracture risk. The health traditionally associated with bone health can improve
of bone, and therefore its strength and fracture risk, is therapeutic management and identify individuals with
determined by both density and quality components. elevated fracture risk independent of reduced BMD.
It has become evident that the increase in Once identified, these patients will benefit from diet
BMD seen with bisphosphonate therapy for osteoporo- and nutritional intervention to improve bone health
sis is only weakly associated to overall fracture-risk re- and reduce fracture risk.
duction25-27 and only slightly improves bone strength.28
Early reduction in fracture risk by bisphosphonates is Pathophysiology of Osteoporosis and
achieved through stabilization of only one bone quality
Bone Fragility
component – a reduced number of resorption sites.29 De-
Bone health is maintained by a balanced remod-
spite these findings, physicians have been slow to grasp
eling process that ensures the continual replacement of
the importance of bone quality. A lack of non-invasive
old bone, weakened by microfractures, with new bone.
tools for assessing the compositional quality of bone in
This is a coupled process involving bone resorption by
the clinical setting is the root of this failure. In addition,
osteoclasts and new bone formation by osteoblasts.
because bisphosphonates improve BMD, practitioners
Failure to reach peak bone mass or the uncoupling of
believe the problem has been addressed and other fac-
remodeling can result in bone fragility.
tors contributing to bone fragility are ignored.
Practitioners, as well as the general public, have
adopted the erroneous belief that the numbers seen on The Role of RANK/RANKL/OPG and
DXA reports equate to an assessment of bone strength T Cells in Bone Remodeling
and overall bone health. Over-emphasis on BMD is Although estrogen is the key sex hormone gov-
further complicated by questions concerning potential erning bone homeostasis, the primary regulator of bone
sources of error in serial DXA interpretation30 and, remodeling is now being recognized as the RANK/
therefore, in the ability of DXA to help assess efficacy RANKL/OPG system (defined below).33 This osteo-
of therapy.31 Despite concerns of accuracy and inabil- immunological system determines the success or failure
ity to assess bone quality, DXA technology remains the of bone homeostasis. The common origin of bone and
primary diagnostic tool in osteoporosis management immune stem cell is the key to understanding this sys-
because it is inexpensive and readily accessible. tem and the physiology of bone loss. It is also the key to
Currently the WHO is designing an absolute applying effective nutritional therapy for the inflamma-
fracture-risk model that will help clinicians determine tory, catabolic-based increase in bone fragility.
who is at risk and when drug therapy should be initi- Bone-resorbing cells (osteoclasts) and cells of
ated. Although this may be an improvement to current the immune system both originate in the bone marrow
fracture risk assessment, it is essential to keep in mind from hematopoietic cells. Osteoclasts develop from pre-
the pitfalls of predicting bone loss in a particular patient cursors of the mononuclear monocyte-macrophage cell
on the basis of overt characteristics such as sex, age, and line after stimulation by macrophage colony-stimulat-
lifestyle. ing factor (M-CSF) and receptor for activated nuclear-
factor kappa B (RANK) ligand (RANKL) (Figure 1).34
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- 4. Alternative Medicine Review Volume 12, Number 2 2007
Osteoporosis Biomarkers
Bone-forming cells (osteoblasts) are of mes-
enchymal origin and share a common precur- Figure 1. Osteoclasts, Immune Cells, and RBCs are Derived
sor cell with adipocytes. During normal bone from Marrow Hematopoietic Stem Cells
remodeling, marrow stromal cells and osteo-
blasts produce RANKL, which binds to the
transmembrane receptor RANK on osteoclast Bone Marrow
precursors and induces differentiation and ac-
tivation (Figure 2).35 This occurs through the
transcription factor, nuclear-factor kappa B
Hematopoietic
Erythroid
(NFkB), which is responsible not only for ac- Stem Cell Progenitor
tivating osteoclastogenesis but also the body’s M-CSF
inflammatory response. Both osteoclast differ-
entiation and the inflammatory process occur RANKL
via regulation of interleukin-6 (IL-6). Myeloid
Progenitor Lymphoid RBC
The major role cytokines play in bone Progenitor
remodeling is demonstrated by the fact that Osteoclast
receptors for the proinflammatory cytokines
interleukin-1 (IL-1), IL-6, and tumor necrosis Dendritic
factor-alpha (TNF-a) are present on both os- Cell T Cell
Macrophage
teoclast precursor cells and mature osteoclasts.
Estrogen exhibits its nuclear regulatory effects
by inhibiting IL-6 activation of NFkB during The pluripotent hematopoietic stem cell di erentiates into myeloid, lymphoid,
bone remodeling.36 Osteoblasts also produce and erythroid progenitor cells. The commonality of origin and the factors that
osteoprotegerin (OPG), a soluble decoy recep- govern their di erentiation are keys to understanding the relationship between
immune regulation and accelerated osteoclastic bone resorption.
tor that blocks RANKL and maintains control
of the remodeling process. OPG is vital to the
success of the RANK/RANKL/OPG system of
bone homeostasis.
Figure 2. Osteoblasts, Cartilage, and Adipocytes are
Derived from Marrow Mesenchymal Stem Cells
Chronic Immune Activation and the
Uncoupling of Remodeling Osteoblasts
RANKL is also produced by activated T
cells. With reduced estrogen levels and/or chronic
or recurrent immune activation from either sys- Mesenchymal
temic or gastrointestinal origin, there may be a Stem Cell
PPAR
reduction in the body’s natural ability to limit the
production of RANKL.37 This results in increased
osteoclast activation through a “switch-like” diver-
sion of osteoprogenitor-cell differentiation away Adipocyte Osteoblast
from monocyte-macrophage-cell development and Cartilage
Cells
toward osteoclastogenesis. Osteoclastic activity, in-
duced by proinflammatory cytokines and activated
T cell-induced RANKL, is thought to be modu- Cytokines for
Remodeling
lated by the action of interferon gamma (IFN-γ)
on tumor necrosis factor receptor-associated factor Dysregulation of common precursor-cell di erentiation is the link
between obesity and low bone density, the two most common
6 (TRAF-6).38 TRAF-6 is a RANK adaptor pro- disorders in the United States.
tein that mediates NFkB activation (Figure 3).39,40
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- 5. Alternative Medicine Review Volume 12, Number 2 2007
Review Article
This uncoupling of the remodeling process results in
bone loss. In studies using mice, chronic antigenic load
Figure 3. RANK/RANKL/OPG Osteo- with T-cell activation and production of reactive oxygen
immunological System of Bone Homeostasis species (ROS) must be present for low estrogen levels
to cause bone loss.44 It appears that reducing antigenic
load and oxidative stress may be equally as important as
estrogen in maintaining bone health.
Osteoblast
Stromal Cell Oral Tolerance and Bone Health
Oral tolerance, the muted immunological
response to harmless gut antigens, depends on the
M-CSF RANKL presence of commensal microorganisms and an intact
Osteoclast healthy gut wall. Epithelial cell integrity is maintained
OPG
by the presence of beneficial organisms such as Lactoba-
RANK cillus and Bifidobacteria that do not elicit an inflamma-
TRAF6 tory response. When normal gastrointestinal flora are
NF B
maintained, immunological self-tolerance through the
Progenitor
activation of T-regulatory cells (Tregs) favors a non-in-
flammatory T-helper 2 (Th2) dominant response to gut
microbes.45 Pathogenic bacterial or fungal overgrowth
causes inflammation and increased gut permeability
Macrophage that reduces oral tolerance. Focus on the traditional os-
or teo-endocrine explanation for bone homeostasis fails to
Dendritic Cell
acknowledge the important role of the immune system
in remodeling and the possible role of oral tolerance in
maintaining bone health. It is now understood that a
high systemic antigen load of bacterial or viral origin
This modulating capacity of IFNγ over RANKL is in-
and/or a loss of oral tolerance due to pathogenic micro-
fluenced by both vitamin D and estrogen.
bial overgrowth (long suspected as major contributing
Aging leads not only to a reduction in sex-hor-
factors in other chronic degenerative diseases) may also
mone production, but also to an increase in the general
contribute to the pathogenesis of bone loss.
level of proinflammatory cytokines and diminution of
Estrogen normally helps preserve bone by
immune system function. In vivo, free radicals have been
enhancing macrophage production of transforming
shown to increase bone resorption,41 and oxidative stress
growth factor β (TGF-β) and limiting CD4+ T-cell ac-
reduces BMD in humans.42 These environmental and/
tivation. Reduced levels of estrogen result in an increase
or age-related catabolic stressors contribute to normal
in antigen-presenting cells and a reduction in TGF-β
bone loss. But when there is chronic, elevated antigenic
and Tregs. This leads to T-cell activation and produc-
load or excessive oxidative stress, which increases pro-
tion of proinflammatory cytokines and RANKL, which
inflammatory cytokine-induced RANKL, the activation
stimulates osteoclastogenesis (Figure 4). By improving
of this “switch” in osteoprogenitor-cell differentiation
gut health and oral tolerance, antigen presentation to T
may, independent of age, adversely affect the balance of
cells is reduced, TGF-β production is maintained, Tregs
bone remodeling. It is in this abnormal state that chronic
are enhanced, and RANKL-induced osteoclastogenesis
immune activation may alter IFN-γ modulating capac-
is limited, even with reduced levels of estrogen.
ity. When estrogen is deficient, causing RANKL levels
to increase, the body’s natural ability to limit the tran-
scription factors TRAF-6 and NFkB may be reduced
and IFN-γ may exert a pro-osteoclastogenic effect.43
Page 117
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- 6. Alternative Medicine Review Volume 12, Number 2 2007
Osteoporosis Biomarkers
Figure 4. Chronic Immune Activation Leads to Bone Loss
TGF- Osteoblast
or
Preosteoblast
TNF-
RANKL OPG
(Inhibits)
TNF-
Osteoclast IFN-
RANKL
RANK T Cell
TRAF6
NF B
Progenitor
(Inhibits)
IL-1, IL-6, TNF- (Inhibits) Treg
Macrophage
or
Dendritic Cell
Activation of T cells is necessary for osteoclast di erentiation. RANKL activation of NF B through the RANK
adaptor protein, TRAF6, increases osteoclastogenesis from progenitor cells. IFN- can either increase or limit
bone resorption through modulation of this cascade. This "fail safe" mechanism, under normal circumstances,
limits bone resorption. But with chronic T-cell activation and a predominate Th1 response, IFN- no longer limits
osteoclast activation and bone resorption increases.
Estrogen increases vitamin D receptor activation and calcitonin release. It also increases osteoblast release of
TGF- , IGF-1 and OPG, which limits M-CSF and RANKL and increases osteoclast apoptosis. With reduced
estrogen levels, TGF- decreases and antigen presentation to T cells increases the release of RANKL and TNF- ,
diverting progenitor cell di erentiation toward osteoclastogenesis. Vitamin D and normal gut ora help
preserve tolerogenic dendritic cells and reduce activation of RANKL-induced osteoclastogenesis.
T-Helper 1 (Th1) Dominance osteoclastogenesis, more research is needed to deter-
Imbalance in the Th1/Th2 adaptive immune mine whether early maturational and/or chronic immu-
response initiated by antigenic stress may play a part in nological stressors contribute to excessive bone loss in
specific cases of osteoporosis.43 With T-cell activation later years. In addition to nutrient malabsorption, high
now known to have a major role in RANKL-induced antigen load from food allergies or intestinal microbial
overgrowth may contribute to bone loss.
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- 7. Alternative Medicine Review Volume 12, Number 2 2007
Review Article
Mature osteoclasts gain access to bone surfaces cause (e.g., insulin/glucose imbalance, toxicity, or gut
only after mononucleated preosteoclasts have trav- pathogenic microflora), could reduce proinflammatory
eled from the circulatory system to the bone, possibly cytokine-induced chronic inflammation and T-cell ac-
through mechanisms involving transendothelial migra- tivation.
tion.46 The gut-associated lymphoid tissue normally
provides an immunological barrier against disease. Involution of Thymus Gland and the Beginning
When this barrier becomes compromised by endothe- of Bone Loss
lial hyperpermeability secondary to food allergy or bac- Reduced oral tolerance may be a factor in the
terial overgrowth, nutrient absorption is reduced, and a apparent coincidence between thymus gland involution
loss of oral tolerance can initiate a gastrointestinal-im- (and subsequent reduction of naive T-cells) and the on-
munological stressor of the bone remodeling process. set of bone loss that begins in humans in their mid-30s.
RANKL regulates not only the function of Although BMD does not usually decrease significantly
osteoclasts but also that of dendritic cells (profession- until menopause, accelerated bone loss can commence
al antigen-presenting cells). In chronic inflammation, at an earlier age for some individuals. Reduced numbers
RANKL promotes dendritic cell survival and the ex- of naive T cells from chronic systemic inflammation or
pression of proinflammatory cytokines.47 As the gut is antigen overload from the gut leads to oligoclonal T-cell
overrun by pathogens, professional antigen-presenting expansion and increased T-cell senescence.51 Senescence
cells, through the activation of toll-like receptors and reduces a T cell’s ability to produce IFN-γ33 and is a sign
C-type lectin receptors, are no longer able to silence of immune aging.
immune activation48 and release proinflammatory cyto- The primordial thymus developed as a bud on
kines that activate T cells and reduce Tregs. This an- the immature digestive tract, providing embryological
tigenic stress leads to a Th1-dominant, cell-mediated evidence of the uniquely co-dependent and interrela-
immune system49,50 with increased RANKL, reduced ted functions of the thymus gland and gastrointestinal
IFN-γ, and a possible uncoupling of bone remodeling. tract.52 As an infant grows, the function of the thymus
is to relieve the gut of its primordial function of lym-
Toll-like Receptors phopoiesis.52 With involution of the thymus, the adult
The production of gut-related proinflammato- gastrointestinal tract remains the source of at least 75
ry cytokines is reduced by the maintenance of a healthy percent of the body’s immune cells;53 therefore, it is in
gut flora. Toll-like receptors are transmembrane recep- the gut that an adult’s immune health is maintained or
tors found on macrophages, dendritic cells, and some lost. As an individual ages, antigen load often increases
epithelial cells, and play an integral role in maintaining and oral tolerance decreases, leading to reduced levels of
oral tolerance. These receptors recognize the molecular IL-2 (necessary for T-cell proliferation and differentia-
patterns of bacteria and elicit an inflammatory, destruc- tion into activated [effector] cells) and IFN-γ, and ulti-
tive response to pathogenic microbes and a tolerogenic mately to a greater cache of RANKL-expressing (and
response to commensal bacteria. thus osteoclast-activating) memory cells harbored in
An example of how a disease-related genetic the bone marrow.
polymorphism can be influenced through the reduction
of metabolic stressors can be seen in the case of toll-like Patient Evaluation
and IL-1 receptors. Because the cytoplasmic portion of Osteoporosis is a polygenic, multifaceted, met-
the toll-like receptor is similar to that of the IL-1 recep- abolic disorder necessitating a complete understanding
tor, an individual suffering from chronic dysbiosis and of its etiopathology. Even after the initial thorough con-
also carrying the polymorphism for the IL-1 receptor sultation, physical examination, DXA scan, vertebral
antagonist gene could, in theory, be susceptible to an fracture assessment (VFA) or other spinal imaging
increased diversion or “switch” of cells from the mono- (if appropriate), and laboratory evaluation, therapeu-
cyte-macrophage cell line to form osteoclasts. A reduc- tic intervention for a patient with increased fracture
tion of antigen load and oxidative stress, no matter the risk should entail follow-up serial testing and ongo-
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- 8. Alternative Medicine Review Volume 12, Number 2 2007
Osteoporosis Biomarkers
Consultation and Physical Examination
Table 2. Risk Factors for Fragility Fracture Bone fragility is associated with multiple risk
factors (Table 2), among the most important being ad-
vancing age, female gender, low body weight, low BMD,
Advanced age prior fragility fracture, early menopause, eating disor-
ders, and maternal history of osteoporosis.54 Patient
Personal history of fracture related to history should include assessment of these risk factors
mild-to-moderate trauma as an adult as well as looking for secondary factors that could po-
tentially contribute to bone loss, such as malabsorption
Family history of hip fracture syndromes (Table 3), disease processes, or the previous
or current use of certain medications. Celiac disease and
Low body weight lactose intolerance are common conditions causing re-
duced calcium absorption and increased bone loss.55 In-
flammatory diseases, endocrinopathies, primary biliary
Weight loss
Loss of height Table 3. Biomarkers for
Malabsorption
Late onset of sexual development
Cholesterol —— low
Poor health
Total protein —— low
Gonadal hormone deficiency
Albumin —— low
Poor nutrition
Calcium —— low
Use of certain medications
Vitamin D —— low
Smoking
Anemia (hypochromic/microcytic
Alcoholism or macrocytic)
Inadequate physical activity
Frequent falls cirrhosis, eating disorders, environmental toxicity,56,57
cancer, and the loss of estrogen are all implicated in the
development of osteoporosis.
ing decision making to fine-tune treatment. Given the Many common medications can increase bone
complexity of the disease, relying solely on biannual loss. Glucocorticosteroids (e.g., prednisone), even in dos-
DXA exams to monitor treatment efficacy may not be es as low as 2.5 mg/day, are known to increase fracture
sufficient. risk.58 As observed in A Diabetes Outcome Progression
Trial (ADOPT), thiazolidinediones (e.g., Avandia® and
Actos®) for type 2 diabetes, in addition to their poten-
tial for liver toxicity, can suppress osteoblast cell dif-
ferentiation in favor of adipocytes from mesenchymal
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- 9. Alternative Medicine Review Volume 12, Number 2 2007
Review Article
precursor cells, and were linked to increased fracture laboratory based or point-of-care tests, which could be
risk in women.59 Aromatase inhibitors for breast can- linked to drug therapy. The N-telopeptide (N-Tx) test
cer (e.g., Arimidex®) and luteinizing-hormone releasing for assessing bone resorption activity is a good example
hormone agonist therapy for prostate cancer (e.g., Lu- of a theranostic development for bisphosphonate use
pron®) increase bone loss. Depot medroxyprogesterone in the treatment of osteoporosis. Common laboratory
acetate for birth control60 and heparin therapy during biomarkers such as urine calcium or salivary cortisol
pregnancy61 both reduce bone density. The CaMos can also be used as theranostic indicators for nutritional
study found daily use of cyclooxygenase-2 (COX-2) intervention and its therapeutic efficacy. The 2004 Bone
inhibitors decreased load-induced bone formation in Health and Osteoporosis: A Report of the Surgeon General
men. On the other hand, women in the study gained supports the use of laboratory bone-turnover markers
bone density with COX-2 inhibitor use; however, the to assess treatment effectiveness.65 The use of these and
bone protective effect was lost when COX-2 inhibi- other biomarkers as foundational tools in caring for
tors were combined with exogenous estrogen therapy.62 fracture-risk patients has potential for optimizing bone
Proton-pump inhibitors have recently been shown to health and reducing fracture morbidity.
increase hip fractures.63 Anticonvulsants such as pheno- Minimal laboratory screening for patients with
barbitone, phenytoin, and carbamazepine are known to either low bone density (T score < -1.0) or risk fac-
interfere with vitamin D metabolism leading to hypo- tors that arouse concern would include complete blood
calcemia, low 25-hydroxyvitamin D (25(OH)D), and count (CBC), chemistry profile, functional metabolic
bone loss.64 profile of urine organic acids, urine pH, urine calcium/
In addition to gaining important information creatinine ratio, serum 25-hydroxyvitamin D, serum
on risk factors and a subjective account of nutritional calcium and phosphorus, tissue transglutaminase anti-
history from the patient, a comprehensive physical body, N-Tx, thyroid-stimulating hormone (TSH), es-
examination may reveal clues directly relevant to the trogen, testosterone, and sex hormone-binding globulin
patient’s bone health status. A patient may complain of (SHBG). An extended assessment may include immu-
muscle pain or they may have sensitive shins and ster- noelectrophoresis, insulin-like growth factor-1 (IGF-
num seen with osteomalacia – both associated with a 1), homocysteine, dehydroepiandrosterone (DHEA),
vitamin D deficiency. Magnesium deficiency can cause follicle-stimulating hormone (FSH), parathyroid hor-
muscle cramping, constipation, or depression. Steat- mone (PTH), vitamin B12, cortisol, food-allergy test-
orrhea may indicate intestinal microbial overgrowth ing, stool analysis, salivary secretory IgA, and others.
or liver dysfunction and a reduction in vitamin D and The following summary of laboratory tests is
calcium absorption. Fingernail changes may indicate a intended only as a brief guide to the use of theranostics
mineral deficiency. Examination of the oral cavity may in the management of patients with low bone density
reveal a white coated tongue indicative of Candida in- or high fracture risk. It is not intended as a diagnostic
fection, angular cheilitis or tooth discoloration of celiac outline but as a way to introduce how biomarkers can
disease, increased caries from low oral pH and poor be used to assess the need for, and efficacy of, nutritional
dental mineralization, or the receding, red, swollen, and care in patients with bone fragility. Other than the bone
boggy gums of periodontal disease that can be associ- resorption and formation tests, the biomarkers discussed
ated with osteoporosis. here are not specific to bone and can be used effectively
in managing bone fragility only when employed in the
Laboratory Evaluation broader context of obtaining overall health. There are
Theranostics, the use of serial laboratory stud- many conditions that lead to bone loss, some extremely
ies for diagnosing and tailoring individual treatment, serious and life threatening such as multiple myeloma.
can help define the etiology of bone loss and also guide If the physician has any reason to suspect the diagnosis
a clinician’s specific nutritional intervention program. of osteoporosis is secondary to another disease process,
The term theranostics was first used by the pharmaceu- the patient should be referred to an endocrinologist for
tical industry to describe specific diagnostic tests, either further evaluation.
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- 10. Alternative Medicine Review Volume 12, Number 2 2007
Osteoporosis Biomarkers
Specific Laboratory Tests Dpd levels are influenced by muscle-collagen
CBC and Chemistry Profile breakdown.10 Because N-Tx is more sensitive to change
A complete blood count (CBC) and chemis- in bone metabolism than is Dpd,78 using serial testing
try profile provide the clinician with a general survey of Dpd to evaluate for therapeutic efficacy may not pro-
of multiple organ systems. These tests often contain a vide as useful an indicator as N-Tx. The resorption test
wealth of clues that may be overlooked as borderline- C-telopeptide (C-Tx) is a serum marker for C-terminal
low or -high results. For example, a mild decrease in al- telopeptide of type-1 collagen used predominately in
bumin coupled with hypocalciuria may indicate malab- Europe.
sorption;66 mild hypocalcemia can indicate magnesium
deficiency;67 anemia may be related to celiac disease and Formation Markers
resulting malabsorption of bone-building nutrients;68 Currently, osteoblastic bone formation can be
and a low red blood cell (RBC) count may be secondary measured clinically using three different tests – serum
to the effects of elevated proinflammatory cytokines69 osteocalcin, serum bone-specific ALP, and serum intact
or the reduced hematopoietic capability of the osteopo- N-terminal propeptide of type-1 procollagen (P1NP).
rotic patient’s fat-infiltrated bone marrow.70,71 Elevated levels of osteocalcin, bone ALP,79,80 and P1NP
Alkaline phosphatase (ALP) is an enzyme are seen with increased bone remodeling and bone loss.
found in bone, liver, intestine, kidneys, and placenta. Al- Bone ALP and P1NP are considered early markers of
though it is an indicator of osteoblastic activity, ALP is formation, while osteocalcin, which is greatly influenced
not specific to bone tissue and is therefore not typically by genetics,81 is a later marker of osteoblastic activity;
used in the management of osteoporosis. ALP may be osteocalcin, although related to fracture risk,82 is a less
normal or increased in postmenopausal women72 and responsive indicator. Although bone ALP is influenced
may be reduced in celiac disease, hypothyroidism, per- by genetics, it remains an excellent formation marker
nicious anemia, or zinc deficiency.73 Elevated ALP levels for determining osteoclastic over-suppression in pa-
may also be an indication of cancer metastasis to the tients using bisphosphonate therapy.83 Osteocalcin and
liver or bone. bone ALP have been shown to increase with vitamin K
supplementation.84
Serum concentration of P1NP is directly pro-
Bone-Turnover Biomarkers portional to the amount of new collagen produced by
Resorption Markers osteoblasts.85 P1NP is useful for assessing bone turn-
Bone resorption markers (e.g., urinary N-Tx over in postmenopausal women86 and is the best marker
and deoxypyridinoline [Dpd]) reflect the level of os- for monitoring patients on teriparatide (recombinant
teoclastic activity in the bone-remodeling process. Ac- human PTH) therapy.87
celerated osteoclastic activity increases bone turnover
and is associated with low bone mass in both pre- and
postmenopausal women.74 Elevated levels of resorption Metabolic Functional Assessment
markers indicate increased osteoclastic activity and a Metabolic function assessment, through the
higher risk for osteoporotic hip fracture, independent of use of urine organic acids, can help identify nutrient-
BMD.75,76 Even when BMD is not in the osteoporotic related inadequacies in the metabolism of fats, carbo-
range, increases in urine N-Tx (cross-links of N-termi- hydrates, and amino acids, and can be useful for the nu-
nal telopeptide of type-1 collagen) and/or Dpd indicate tritional management of degenerative catabolic diseases
increased osteoclastic-bone resorption and risk for frac- such as osteoporosis. Biomarkers for oxidative damage
ture.66 A decrease in N-Tx, especially when monitored and intestinal dysbiosis can also illuminate potential
serially, can be used as an early predictor of reduced underlying causes of osteoporosis.
bone resorption with stabilization or increase of bone
mass in response to treatment.77
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- 11. Alternative Medicine Review Volume 12, Number 2 2007
Review Article
Urine Organic Acids Organic acid testing can also help identify re-
Osteoporosis is not just a disease of deficiency; duced oxidative phosphorylation of mitochondrial bio-
it is a catabolic disease with high correlation to diabe- energetics, which is “the unifying concept” of chronic
tes, Alzheimer’s disease, and cardiovascular disease. age-related disease.91 Uncoupling of mitochondrial
Similarities among these degenerative diseases include function leads to decreased energy for daily activity and
chronic low-level inflammation and reduced mitochon- reduced muscle protein synthesis17 of sarcopenia often
drial bioenergetics. Testing with urine organic acids can seen in patients with osteoporosis. The loss of muscle
signal the presence of an inflammatory catabolic physi- mass and strength due to reduced mitochondrial func-
ology. For example, elevated levels of urine lactate or the tion is not only intimately correlated to bone loss but
ketone body, β-hydroxybutyrate, may indicate the cata- also contributes to an increased risk of falling, the major
bolic profile of chronic metabolic acidosis from poor risk factor for fragility fractures.21
glucose utilization.88 In the borderline-anemic osteoporotic patient,
Another indication of chronic inflammation reduced oxygen supply (hypoxia) secondary to poorly
and immune system activation is demonstrated by al- vascularized fatty bone marrow leads to hypoxia, local
tered levels of organic acid intermediates from the acidosis,92 and may stress mitochondrial energy produc-
kynurenine pathway of tryptophan metabolism. The tion. Hypoxia not only reduces an individual’s strength
intermediate, xanthurenic acid (XA), is used to iden- and energy level (leading to incoordination and falls),
tify pyridoxine deficiency (vitamin B6 is a cofactor for but it has also been shown to increase osteoclastic bone
several enzymes in the kynurenine pathway and a defi- resorption in vitro.93
ciency raises XA levels).88 Recently, other intermediates Testing for cellular energy function can iden-
have been identified as contributors to various disease tify inefficiencies in the processing of food for the pro-
processes, including osteoporosis.89 Stone and Darling- duction of adenosine triphosphate (ATP). The urine
ton review the involvement of pathway intermediates markers citrate, cis-aconitate, isocitrate, a-ketogluta-
– kynurenine, kynurenic acid (KynA), anthranilic acid rate, succinate, fumarate, and malate are intermediates
(AA), 3-hydroxyanthranilic acid (3HAA), XA, and of the oxygen-requiring, mitochondrial citric acid cycle.
quinolinic acid (QUIN) – in modulating glutamate re- Abnormal levels of these intermediates may indicate
ceptors, activating NFkB, regulating cell proliferation, energy production inefficiencies as a result of polymor-
and controlling microbial invasion and modulation of phism-related enzymatic dysfunction or deficiencies in
the T-cell response by professional antigen-presenting B-complex vitamins, coenzyme Q10, or a-lipoic acid
cells. When macrophages are stimulated by IFNγ, the – cofactors necessary for metabolism.88 In either case,
initiating enzyme indoleamine-2,3-dioxygenase (IDO) urine organic acid testing can identify the need for spe-
for the kynurenine pathway is activated. IDO reduces cific nutritional supplementation and help improve en-
T-cell activation and is modulated by estrogen, TGF-β, ergy production.
and proinflammatory cytokines.89 Forrest et al observed
reduced blood levels of 3HAA and increased AA in pa- Markers of Oxidative Damage
tients with osteoporosis. Because both XA and 3HAA Oxidative damage from free radicals is a major
are metabolites of AA, the levels of these two biomark- contributing cause of degenerative diseases and, spe-
ers correspond. Patients with osteoporosis demonstrate cific to osteoporosis, to the increase in osteoclastogen-
a shift from 3HAA and XA toward AA. Reduced levels esis and subsequent bone loss. ROS, among the most
of 3HAA and XA lead to reduced QUIN and, there- damaging free radicals, are constantly produced during
fore, a reduced QUIN/KynA ratio. Bone cells have glu- mitochondrial respiration. Grassi et al demonstrated in
tamate receptors sensitive to kinurenines, and altered vivo that ROS are necessary for bone loss to occur in
levels appear to have direct effects on bone homeosta- estrogen-deficient mice.44 Thus, the use of biomarkers
sis.90 The urine organic acids KynA, XA, and QUIN to identify patients with oxidative stress may be helpful
are readily observable biomarkers. in managing osteoporosis. Urine or serum lipid perox-
ides and urine 8-hydroxy-2-deoxyguanosine (a product
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- 12. Alternative Medicine Review Volume 12, Number 2 2007
Osteoporosis Biomarkers
of oxidative damage to DNA) are biomarkers that indi- are tapped to maintain normal pH.96 When NEAP be-
cate increased oxidative stress.88 By reducing their levels comes chronically higher than the dietary base load, ion
in the low bone-mass patient, the physician may also be exchange at the bone membrane becomes insufficient
limiting mechanisms that lead to RANKL-induced os- and calcium salts from bone matrix are tapped.
teoclastogenesis and Peroxisome Proliferator-Activated Acidosis is caused by poor diet, excessive pro-
Receptor-gamma- (PPARγ-) induced reduction of os- tein intake, prolonged intense exercise, aging, airway
teoblastogenesis. When the bone resorption marker disease, and menopause (from reduced hormone-in-
N-Tx is elevated along with these oxidative stress bio- duced respiratory acidosis that causes an increase in se-
markers, antioxidants such as vitamin C, a-lipoic acid, rum bicarbonate).97 The phosphate-rich Western diet,
and N-acetylcysteine could theoretically reduce all three. high in sulfur-containing animal and grain protein and
Vitamin C has been shown to be markedly decreased in low in alkaline fruits and vegetables, results over time in
aged osteoporotic women.94 Tobacco smoking, a pro- low-grade metabolic acidosis.98 Metabolic acidosis can
oxidant stressor, has been linked to osteoporosis.95 be reduced by promoting renal calcium retention. In a
study using oral potassium bicarbonate (60 mEq/day),
Additional Metabolic Function Biomarkers Frassetto et al demonstrated a complete neutralization
Metabolic function testing can provide a wealth of net acid excretion in healthy older men and women
of information relative to detoxification efficiency, ad- by reducing urine calcium losses by just 28 mg/day.99
renal stress, and the presence of intestinal pathogenic It has been known for over 80 years that meta-
microbial compounds. Intestinal dysbiosis biomark- bolic acidosis leads to bone loss100 and in vitro research
ers are indirect evidence of microbial overgrowth and has illuminated the exact mechanisms for this loss.
increased toxic load. Microbial overgrowth can cause Long-term acidosis increases osteoclastic activity,101 re-
steatorrhea, a sign of reduced vitamins D and K and duces osteoblastic function,102 increases urine calcium
calcium absorption. Overgrowth may also cause gen- loss, reduces IGF-1,103 and increases prostaglandin E2
eralized nutritional deficiency and increases in specific (PGE2), RANKL, and M-CSF104 – all of which in-
microbial biomarkers may offer evidence of specific de- crease protein catabolism, muscle wasting,105 and bone
ficiencies. For example, elevated levels of the biomarker resorption.106 Mild acidosis also increases activity of ca-
tricarballylate, a byproduct of a certain strain of aero- thepsin K, a metallo-protease secreted by osteoclasts for
bic bacteria, can lead to reduced magnesium, calcium, bone-matrix resorption.102 Even very small pH changes
and zinc levels.88 In this author’s experience, correcting (as little as 0.05) result in a doubling or halving of re-
major dysfunctions identified by these tests can lead to sorption-pit formation in cultured osteoclasts.92 PTH
parallel improvements in bone-formation markers or release is also affected by acidosis. It has been demon-
the reduction in resorption marker N-Tx. strated in dogs that acute metabolic acidosis stimulates
PTH secretion and prolongs its half-life, thereby in-
Acid-Base Balance: Metabolic Acidosis creasing calcium resorption.107 In a study using growing
Bone has three general functions – structural rats, a high phosphate diet, even with adequate calcium
support, vital organ protection, and storage for mineral intake, was shown to increase PTH and reduce BMD
reserves. This last function is intimately connected to and bone strength.108
the pathophysiology of osteoporosis and, in particular, Hypoxia from increased anaerobic metabolism
to the maintenance of blood pH. reduces energy production and contributes to metabolic
Arterial blood pH must be maintained at ap- acidosis. The source of hypoxia does not matter; its det-
proximately 7.4; even small changes can be life threaten- rimental effects will be the same whether it is produced
ing. Acidic hydrogen ions, continuously produced dur- from oxygen debt in the body of a high-intensity, well-
ing biological activity, are buffered by the dietary intake trained, endurance athlete or from reduced hematopoi-
of alkaline minerals. When the net endogenous pro- etic and oxygen-carrying capability of the fat-infiltrated
duction of acid (NEAP) is higher than the dietary base marrow of an 80-year-old patient’s severely osteoporotic
load during brief periods, sodium and potassium from bones.93
the metabolically active membrane surrounding bone
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- 13. Alternative Medicine Review Volume 12, Number 2 2007
Review Article
Although it is generally agreed that diets high response, increasing Tregs, and reducing interleukin-12
in fruits and vegetables reduce acid load and protect (IL-12) and Th1 dominance, all of which result in a
against bone loss,109 it appears more than alkalinity is moderating effect on osteoclastic bone resorption.33
responsible for their protective effects. Muhlbauer et al To maintain normal bone cell function, se-
found reduced bone resorption in rats from a diet high rum 25(OH)D level should be considered the func-
in alkaline fruits and vegetables may be a reflection of tional indicator for vitamin D status114 and serum levels
pharmacologically active compounds rather than the al- maintained between 30 and 80 ng/mL. Vitamin D de-
kalinity of the diet and concluded that the acid hypothe- ficiency (<15 ng/mL)113 leads to secondary hyperpara-
sis of bone loss may only be applicable to older adults.110 thyroidism and, when severe, can present as severe bone
Patients with mild metabolic acidosis often pain, muscle weakness, and increased body sway that
have low urine pH (<6.0). Although normal kidneys can lead to falls and hip fractures.115 Improved levels of
produce urine with a wide range of pH, serial pH as- vitamin D increase muscle strength and balance and can
sessment of first-morning urine averaging <6.0 is a good reduce fracture risk independent of BMD.116,117 1,25-
indicator of mild metabolic acidosis and can provide a dihydroxyvitamin D (1,25(OH)2D) is the biologically
useful tool for improving patient compliance. In a study active form of vitamin D and is considered a hormone.
of the catabolic effects of chronic metabolic acidosis Although reduced serum levels are seen with impaired
on muscle protein in postmenopausal women, 60-120 renal function,118 1,25(OH)2D is usually normal even
mmol/day potassium bicarbonate resulted in a reduc- when 25(OH)D levels are extremely low.
tion in pretreatment levels of metabolic acidosis and the
rate of muscle proteolysis.111 In a similar study of post- Vitamin K Status
menopausal women, 60-120 mmol/day potassium bi- While vitamin D is important for calcium ab-
carbonate resulted in reduced urinary calcium excretion sorption from the gut, vitamin K is needed to reduce
and bone resorption and increased bone formation.98 renal calcium loss,119 and a deficiency is associated with
In addition to low urine pH, hypercalciuria, reduced BMD and increased fracture risk.120,121 Vitamin
low-normal blood bicarbonate, elevated 1,25(OH)2D, K acts as a cofactor in the gamma-carboxylation of glu-
low IGF-1, mild hypothyroidism, and mild hypophos- tamic acid residues of many calcium-binding proteins.
phatemia may be indicators of low-grade metabolic This post-translational carboxylation is important for
acidosis.112 When assessing a patient for mild metabolic normal blood coagulation and bone formation.
acidosis, a more global view of the patient is preferable There are three known bone-matrix vitamin
to relying solely on urine pH. As a cautionary note, el- K-dependent proteins important for bone formation:
evated urine alkalinity of pH >8.0 can be a sign of uri- osteocalcin, matrix Gla protein (MGP), and protein
nary tract infection or renal disease. S. Osteocalcin production by osteoblasts is induced by
1,25(OH)2D,122 and vitamin K is responsible for the
Vitamin D Status carboxylation activation of osteocalcin that appears to
Receptors for vitamin D have been found on be necessary for nucleation of the hydroxyapatite crys-
cells in many organ systems throughout the body. In tal. Vitamin K deficiency leads to the under-carboxyl-
addition to its role in mineral metabolism and mainte- ation of osteocalcin.123 Oral anticoagulants, which are
nance of intracellular calcium levels, it is important for antagonists to vitamin K, have been shown to cause an
cell differentiation and proliferation, muscle growth, and under-carboxylation of both MGP and osteocalcin.124
strength. Vitamin D deficiency not only causes bone Low levels of carboxylated osteocalcin or high levels of
fragility but has also been linked to increased cancer under-carboxylated osteocalcin (ucOC) carry an in-
risk, type 1 diabetes, and heart disease.113 Vitamin D is creased risk for femoral neck fracture.124 MGP is both
essential for normal insulin secretion and is thought to a bone-matrix protein and a chondrocyte protein that
act as an immunomodulator since vitamin D receptors inhibits calcification. Vitamin K deficiency can reduce
(VDRs) are seen on macrophages, dendritic cells, and MGP and lead to excess soft-tissue calcification. Kiel et
activated T cells. In the presence of vitamin D, dendritic al identified a correlation between arterial calcification
cells mature as more tolerogenic, thus modulating T-cell and osteoporosis.125
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- 14. Alternative Medicine Review Volume 12, Number 2 2007
Osteoporosis Biomarkers
Estrogen is thought to play a part in vitamin case of a ratio >0.2, 24-hour urine calcium should be
K metabolism. Serum phylloquinone levels are not lin- obtained (upper limits of 250 mg/day for females and
early related to the levels of carboxylated osteocalcin 300 mg/day for males). A high urine volume is often
and estrogen may be an influencing factor in this dis- seen in hypercalciuric patients because urine calcium
crepancy.126 Yasui et al demonstrated serum ucOC has stimulates calcium receptors in the renal collecting ducts
a negative correlation with estradiol and a positive cor- and inhibits antidiuretic hormone. These patients tend
relation with FSH levels in perimenopausal women.127 to have frequent clear urination of a pH< 6.0. If the
Therefore, even with adequate serum phylloquinone, uCa/Cr is <0.1, ensure that the patient has adequate
reduced levels of estrogen may impair carboxylation of calcium intake and if the ratio remains <0.1, malabsorp-
osteocalcin and limit bone mineralization. tion should be ruled out. The uCa/Cr ratio should only
The body stores minimal vitamin K and, al- be used as a screening test for hypercalciuria and not
though severe deficiency leading to impaired blood as a diagnostic screen for osteoporosis.136 Hypocalciuria
clotting time is uncommon, mild levels of vitamin K is seen in celiac patients and can be confirmed with a
deficiency are common. Although prothrombin time serum anti-tissue transglutaminase assay.
(PT) is a test for deficiencies in vitamin K-dependent Hypercalciuria is a common contributing fac-
clotting factors, it is not a sensitive biomarker for mild tor in osteoporosis and therefore, in addition to bisphos-
vitamin K deficiencies. Although ucOC is a very sen- phonate therapy, thiazide diuretics are often prescribed.
sitive marker for vitamin K, especially when used as a Although thiazides reduce urine calcium excretion and
ratio in proportion to osteocalcin levels, it has not been lower serum PTH levels, they do not affect gastroin-
approved for clinical use. testinal calcium absorption. Studies are mixed as to the
Although serum phylloquinone is a clinically effectiveness of thiazide diuretics for the treatment of
available test for vitamin K status, it is of limited use osteoporosis. Although some studies show an increase
because it is influenced by estrogen, triglycerides,128 in BMD with thiazide use,137,138 others fail to show a
and recent dietary vitamin K intake. In addition, serum statistically significant difference in reduced fracture
phylloquinone levels do not determine the status of vi- rate between thiazide users and nonusers.139,140
tamin K-dependent bone-matrix protein carboxylation. Because thiazide diuretics have been linked to
Therefore, currently there are no clinically available and reduced glucose tolerance, the possibility for increased
reliable tests for assessing vitamin K or ucOC status. falls,141 and a reduced hypocalciuric effect over time, it
Martini et al showed a significant reduction of makes therapeutic sense to approach hypercalciuria nu-
serum N-Tx (an indicator of bone resorption) in post- tritionally with a trial of supplemental vitamin K and
menopausal women treated with 450 mcg phylloqui- potassium. Vitamin K is not only important for car-
none daily.129 Very high doses (45 mg/day) of vitamin boxylation of osteocalcin but also for calcium reabsorp-
K2 have been used to treat postmenopausal osteoporo- tion.142 Potassium (citrate and bicarbonate) has been
sis in Japan with no reported adverse effects.130-132 shown to reduce urine calcium loss98,143 and improve
BMD.144,145 Counseling the patient to increase dietary
Urine Calcium Loss intake of fruits and vegetables, while restricting acidic
Excess urine calcium loss is a common find- foods and high-phosphoric-acid cola drinks (shown to
ing in osteoporosis (and kidney stones). Hypercalciuria reduce BMD),146 will also reduce urine calcium losses.
causes renal-magnesium wasting133 and may be caused
by excess calcium intake, increased intestinal calcium
absorption, hyperparathyroidism, or a benign renal cal-
cium leak. Although influenced by sodium intake and
urine volume,134 urine calcium/creatinine ratio (uCa/
Cr) can be used as a general screening tool for calcium
levels in the urine135 – normal ratio is 0.1-0.2. In the
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- 15. Alternative Medicine Review Volume 12, Number 2 2007
Review Article
Serum Calcium, Phosphorus, and Hypophosphatemia
Parathyroid Hormone 1,25(OH)2D increases intestinal absorption
Hypercalcemia of phosphorus and, in vitamin D deficiency, serum
Hypercalcemia is the hallmark of hyperpara- and urine phosphorus levels may be reduced,112 which
thyroidism (malignancy is the cause of hypercalcemia can lead to osteomalacia. If serum phosphorus is low
in approximately 50 percent of hospitalized patients),147 from a nutrient-deficient diet or intestinal malabsorp-
and when calcium levels are >10.5 mg/dL, serum PTH tion, 1,25(OH)2D production increases and improves
will confirm the diagnosis. In this hypercalcemic con- intestinal absorption, and PTH will decrease thereby
dition, PTH stimulates 1-alpha hydroxylase in the reducing renal losses of phosphorus. Because PTH in-
kidney, elevating 1,25(OH)2D and increasing urine creases renal clearance of phosphorus, hypophosphate-
calcium losses. mia may be seen in hyperparathyroidism. Hypophos-
phatemia can therefore be seen with either reduced
1,25(OH)2D production in the hypocalcemic patient
Hypocalcemia
with renal disease or in the hypercalcemic primary hy-
Hypocalcemia may be from malabsorption,
perparathyroid patient.149 Hypophosphatemia is also
magnesium deficiency,148 or reduced levels of PTH.
present in other disease processes and several genetic
Even borderline-low serum calcium signals a possible
disorders.
magnesium deficiency. Commonly deficient, magne-
sium is often low due to diabetes, alcoholism, malab-
sorption, steatorrhea, poor diet, or genetically-based re- Hypoparathyroidism
duced intestinal uptake. Magnesium is an intracellular Functional hypoparathyroidism is character-
cation, and its depletion reduces renal conservation of ized by low 1,25(OH)2D, hypocalcemia, and low-to-
potassium vital for cellular water balance and pH ho- normal PTH, and appears to be associated with mag-
meostasis. Because only one percent of magnesium is nesium deficiency.150 Typically, low vitamin D levels lead
found in the extracellular fluid, serum magnesium test- to an elevation of PTH to maintain calcium homeo-
ing does not accurately reflect overall levels.133 stasis; however, a failure of PTH to increase is termed
functional hypoparathyroidism. Although PTH pro-
duction depends on at least one magnesium-dependent
Hyperphosphatemia
enzyme,151 magnesium’s full role in PTH production is
Phosphorus is one of the most abundant min-
still unclear. PTH secretion may be dependent on the
erals in the body and along with calcium constitutes
magnesium-dependent enzymes adenylate cyclase or
a major portion of the hydroxyapatite crystal in bone
guanine nucleotide.152 In functional hypoparathyroid-
mineralization. Phosphorus is found in most foods and
ism, magnesium supplementation will increase PTH
therefore dietary intake is usually sufficient for bone
levels to normal, even in the face of vitamin D defi-
health, if not excessive in the Western culture. Phospho-
ciency, underscoring the importance of checking both
rus and calcium levels are maintained through PTH,
1,25(OH)2D and 25(OH)D.
vitamin D, and changes in renal tubular reabsorption
rates.
High dietary intake of phosphorus inhibits re- Hyperparathyroidism
nal reabsorption, thus maintaining normal serum levels. Serum IL-6 levels, known to increase with
But in severe renal failure or in the osteoporotic patient estrogen deficiency, are elevated with both symptom-
with chronic metabolic acidosis, high dietary intake of atic and mild asymptomatic primary hyperparathyroid-
phosphorus can lead to hyperphosphatemia. In these ism.153 With IL-6 testing not easily available, elevated
situations the elevation in serum phosphorus leads to PTH can be reduced with vitamin D and calcium
reduced 1,25(OH)2D production, limiting intestinal supplementation, but also by reducing IL-6-related
calcium absorption and resulting in hypocalcemia and chronic inflammation and improving acid/base balance.
secondary hyperparathyroidism.149 Hyperphosphate- Depending on estrogen levels, the use of exogenous es-
mia is also observed in several genetic disorders and trogen replacement may also be considered.
may be present in patients using bisphosphonates.149
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- 16. Alternative Medicine Review Volume 12, Number 2 2007
Osteoporosis Biomarkers
Secondary hyperparathyroidism is seen with risk.157 In a study of 959 healthy postmenopausal wom-
aging and the loss of the calcitrophic effects of estrogen. en, those with low-normal TSH levels (0.5-1.1 µU/
Mild increases in PTH are often observed in vitamin mL) had lower BMD of the lumbar spine and femoral
D deficiency, hypercalciuria, or insufficient intake or re- neck than those with high-normal levels (2.8-5.0 µU/
duced absorption of calcium. mL).158
Anti-Tissue Transglutaminase and Celiac Hypothyroidism
Disease Reduced thyroid function has been linked to
Celiac disease (CD) is caused by an autoim- low femoral neck BMD,159 decreased IGF-1 produc-
mune reaction to the protein gluten that results in in- tion,160,161 and increased fracture risk.162 Suboptimal
flammation and villous atrophy of the small-intestinal zinc levels in patients with hypothyroidism may also
mucosa. Common symptoms include diarrhea, flatu- contribute to bone loss. Zinc is important for energy
lence, steatorrhea, musculoskeletal complaints, abdomi- metabolism and also for bone growth and production of
nal distention, and dermatitis herpetiformis;154 however, thyroid hormones. Zinc deficiency retards bone growth
in its atypical form there may be no overt symptoms. As- and can be a contributing factor in the development of
sociated malabsorption of iron, folic acid, calcium, zinc, osteoporosis.163 The enzyme 1,5′-deiodinase that con-
and the fat-soluble vitamins A, D, E, and K can lead to verts thyroxine (T4) to T3 is zinc dependent. Baltaci
anemia and bone loss, often present in celiac patients. et al demonstrated in rats that T4, T3, and TSH levels
Serological tests aid in the diagnosis of gluten decrease with zinc deficiency.164 Zinc deficiency165 and
sensitivity and should be considered in a patient with reduced thyroid function are common in high-inten-
reduced BMD, gastrointestinal symptoms, unidentified sity athletes. Chronic metabolic acidosis has also been
neuro-musculoskeletal complaints, or if the patient has linked to reduced thyroid function.166
a first-degree relative with CD. Serum tissue transglu-
taminase antibody (tTGA) is a highly sensitive test for Homocysteine
identifying both classical and atypical CD.155 Further Homocysteine (HCY), a metabolite of the
testing for CD includes anti-gliadin antibodies and anti- amino acid L-methionine, interferes with collagen
endomysial antibodies. If necessary, histological confir- cross-linking and is related to increased hip-fracture
mation of CD is made through small bowel biopsy or rate,167 independent of BMD.168 Osteoporosis is a com-
a gliadin rectal challenge. Treatment of CD is through mon symptom of homocysteinuria, a rare autosomal
strict avoidance of gluten protein found in wheat, barley, recessive disease caused by mutation of the gene for
rye, and oats. methylenetetrahydrofolate reductase (MTHFR). The
enzyme MTHFR is necessary for HCY metabolism.
Thyroid Effects on Bone Milder elevations of HCY occur with a T homozygous
polymorphism for MTHFR and may be linked to an
Hyperthyroidism
increase in fracture risk. This common polymorphism
Thyrotoxicosis can cause hypercalcemia with
creates a less-active enzyme, causing serum HCY to in-
secondary suppression of PTH and increased urine cal-
crease and was shown in a study with postmenopausal
cium losses, leading to bone loss. Elevated thyroid hor-
Japanese women to be associated with lower BMD.169
mone increases bone remodeling by directly stimulating
Serum HCY levels >15 µmol/L are associated
both osteoblast and osteoclast activity and increasing
with increased bone turnover markers (osteocalcin and
production of IGF-1. While triiodothyronine (T3) in-
Dpd) and increased fracture risk.170 Gjesdal et al ob-
creases bone resorption, thyroid-stimulating hormone
served a statistically significant 2.5-fold increase in frac-
(TSH) from the anterior pituitary gland directly sup-
ture risk with HCY levels >15 µmol/L. The study dem-
presses osteoclastic resorption.156 Serum TSH of <0.5
onstrated a positive linear relationship between HCY
µU/mL appears to inhibit the formation, function,
levels and fracture risk (p for trend).171 In a review, Saito
and survival of osteoblasts, independent of T3 and T4,
and is associated with bone loss and increased fracture
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