骨質(zhì)疏松管理進展

1、Advances in osteoporosis,-New findings regarding the pathophysiology of osteoporosis.-Identifying who needs to be treated.-Current treatment guidelines.-Monitoring therapy.-Areas of future development.,Objectives:,

2、Impact of osteoporosis,,In 2002 NOF(National Osteoporosis Foundation)published the projected prevalence of those aged 50 and older based on yr 2000 census3: 2002 2010 2020Women

3、 with osteoporosis: 7.8 9.1 10.5Women with low bone mass: 21.8 26 30.4Men with osteoporosis: 2.3 2.8 3.3Men with low bone mass: 11.8 14.4

4、 17.1 (number in millions),Epidemiology:,,Osteoporosis fracture incidence,Incidence and Economic Burden of Osteoporosis-Related Fractures in the United States, 2

5、005–2025.Russel Burge,, Bess Dawson Hughes, Daniel H Solomon, John B Wong, Alison King,Anna Tosteson.,Projected annual direct costs of osteoporosis $25.3billion by 2

6、02541Osteoporotic fractures accounted for:~17 billion in direct medical costs. 41>400,000 hospital admissions.42~2.5million physician visits. 42>180,000 nursing home admissions42,Cost of osteoporosis,Pathogene

7、sis of osteoporosis,,Bone is comprised of 2 components:40% organic collagenous 60% inorganic (mineral)matrix providing tensile mostly in the form ofstrength.

8、 Calcium hydroxyapetite providing compressive strength.,Bone Architecture,Metabolic bone disea

9、se categorized by histology :Osteoporosis OsteomalaciaDecrease in matrix Bone matrix intactand mineral. reduced mineral.Osteoporosis defi

10、ntion by NIH Consensus Conference, 2000: Skeletal disorder characterized by compromised bone strength predisposing to an increased risk of fracture. Bone strength= Bone density + Bone quality1,Definition:,Regulat

11、ion of bone remodeling.,Canalis E et al. N Engl J Med 2007;357:905-916,Signals that determine the differentiation, function, and death of these cells and their progenitors determine how many units are activated over time

12、, how active and well-balanced the basic multicellular unit is, and whether, at the end of the cycle, bone mass will be gained, lost, or stable4,Local growth factors that regulate bone formation,Canalis E et al. N Engl J

13、 Med 2007;357:905-916,,Bone morphogenetic proteins : members of TGF beta superfamily of polypeptides, which includes activins and inhibins.5 These proteins bind to and activate specific receptors to initiate signal tra

14、nsduction and influence intracellular events leading to osteoblastogenesis 6, 7,Wnt :uses a Wnt– beta-catenin signaling pathway.8 Wnt binds to specific receptors, and to low-density lipoprotein receptor–related proteins

15、5 and 6 (LRP5 and LRP6). This stabilizes the beta-catenin which translocates into the nucleus and regulates gene expression.,IGF-I: made in the liver and other tissues, including the skeleton, mediates the effects of

16、growth hormone on longitudinal bone growth.9 IGF-I exerts direct actions in bone and is necessary for skeletal development and the maintenance of bone mass.9 It acts both as a circulating growth hormone–dependent hormone

17、 and as a local skeletal growth factor influenced by PTH.10,11,12 IGF-I primarily influences the differentiated function of the osteoblast and prevents osteoblast apoptosis,PTH-related protein: produced by bone and carti

18、lage cells has developmental and local regulatory function.13,14 Its secretion by lactating mammary glands may play a role in the increased rate of bone resorption and rapid bone loss that occurs in lactating women.15F

19、ibroblast growth factor: produced by bone and connective tissue. Regulated by PTH, prostaglandin E2, TGF-beta. It decreases collagen synthesis in vitro but can stimulate bone formation in vivo. 16,17,Local growth factor

20、s continued:,Local cytokines and prostaglandins,Uptodate: Pathogenesis of osteoporosis 18,,Whyte M. N Engl J Med 2006;354:860-863,RANKL: a member of the TNF superfamily of ligands and receptors, is essential for the diff

21、erentiation, activation, and survival of bone-resorbing osteoclasts.19 It is expressed on the surface of marrow stromal cells, activated T cells, and precursors of bone-forming osteoblasts . 19 RANKL accelerates osteocla

22、stogenesis when it binds to its receptor, RANK, on osteoclast precursor cells to enhance nuclear factor- B and other signaling pathways.19 Osteoprotegerin that is produced by osteoblasts, the key modulator of RANKL, act

23、s as a soluble decoy receptor for RANKL and blocks its effects,Parathyroid hormone - is the most important regulator of calcium homeostasis. It maintains serum calcium concentrations by: Stimulating bone resor

24、ption Increasing renal tubular calcium reabsorption Increasing renal calcitriol production. PTH stimulates bone formation when given intermittently, but inhibits collagen synthesis at high concentrations 26,27. It sti

25、mulates osteoclast mediated bone resorption when given (or secreted) continuously. It also stimulates gene expression and increases the production of several local factors, including IL-6, IGF-1 and an IGF-binding prot

26、ein, IGF-BP-5, and prostaglandins. 28,37.,Systemic hormones involved:,Canalis E et al. N Engl J Med 2007;357:905-916,Calcitriol : increases intestinal calcium and phosphorus absorption, thereby promoting bone minera

27、lization. At high concentrations, under conditions of calcium and phosphate deficiency, it also stimulates bone resorption, thereby helping to maintain the supply of these ions to other tissues. Calcitonin : 

28、;inhibits osteoclasts and therefore bone resorption in pharmacologic doses. However, its physiologic role is minimal in the adult skeleton. Its effects are transient, probably because of receptor downregulation.Growt

29、h hormone and IGFs : The GH/IGF-1 system and IGF-2 are important for skeletal growth, especially growth at the cartilaginous end plates and endochondral bone formation.,,Glucocorticoids : Have both s

30、timulatory and inhibitory effects on bone cells. Essential for differentiation of osteoblasts and sensitize bone cells to regulators of bone remodeling. Inhibition of bone formation is the major cause of glucocorticoi

31、d-induced osteoporosis and may be due to accelerated apoptosis of osteoblasts and osteocytes 38Thyroid hormones: stimulate both bone resorption and formation. Thus, bone turnover is increased in hyperthyroidism,

32、 and bone loss can occur. 39Estrogen and Androgen: reduces rate of bone loss by many local effects like:Reducing the number and depth of resorption cavities.44Promoting osteoclast apoptosis.40Increasing TGF-beta r

33、elease from osteoblastsInhibiting release of TNF-alpha,,Osteoporotic bone showing loss of bone with larger spaces decreasing its strength .2,Diagnosis and evaluation,,Is based onClinical risk factorsBMD measurement.

34、Using the above data a FRAX score can be calculated.,Fracture risk assessment:,Clinical risk factors:,Ebeling P. N Engl J Med 2008;358:1474-1482,Identifying who needs imaging:,Raisz L. N Engl J Med 2005;353:164-171,Raisz

35、 L. N Engl J Med 2005;353:164-171,BMD measurement:,Dual-Energy X-Ray Absorptiometry:Results expressed as T-SCORE is the number of SD the measurement is above or below the YOUNG-NORMAL MEAN BMD. Z-SCORE is the number

36、 of SD the measurement is above or below the AGE-MATCHED MEAN BMD. Sites used for measurement per WHO criteria:Total proximal femurFemoral neckLumbar spine33percent(1/3rd)radius if e/o OA or surgery at other 3 site

37、s.Peripheral skeletal sites predict global # risk, however not used in WHO/FRAX criteria therefore limited value. Changes to therapy at these sites are slow.,WHO diagnostic categories of BMD,Ebeling P. N Engl J Med 200

38、8;358:1474-1482,Quantitative ultrasonography (QUS) —  does not measure BMD, but instead measures the transmission of ultrasound through accessible limb bones or the reflectance of the ultrasound waves from the

39、bone surface. Quantitative computed tomography  (QCT): measures volumetric BMD (vBMD) in mg/cm3, most often at the spine. Unlike DXA, QCT can isolate trabecular bone from its envelope of cortical bone. The studies

40、 are split regarding its superiority to DXA.Emerging technologies :High resolution microCT and microMRI allow noninvasive three-dimensional evaluation of bone microarchitecture. These techniques are used primaril

41、y in research settings.,Other imaging techniques:,In 2008, a WHO task force introduced a Fracture Risk Assessment Tool (FRAX), which estimates the 10-year probability of hip fracture or major osteoporotic fractures combi

42、ned (hip, spine, shoulder, or wrist) for an untreated patient using femoral neck T-score or Z-score and easily obtainable clinical risk factors for fracture 50.FRAX is based upon data collected from large prospective o

43、bservational studies of men and women of different ethnicities and from different world regions in which clinical risk factors, BMD, and fractures were evaluated 51,52 . FRAX has been validated in 11 independent cohorts,

44、 mainly comprised of women 53. The statistical power of this large dataset allows estimation of fracture probability from an individual's set of risk factors.The country-specific FRAX prediction algorithm is availa

45、ble online at (http://www.shef.ac.uk/FRAX/). 54In the United States, cost-effectiveness modeling suggests that the 10-year hip fracture probability at which treatment becomes cost-effective (intervention threshold) ran

46、ges from 2.5 to 4.7 percent for women and from 2.4 to 4.9 percent in men, depending upon age and assuming annual treatment costs of $600 and a willingness-to-pay threshold of $60,000 . 55,FRAX score,Uses: They can give

47、some indication about the future risk for bone loss and fractures. Useful in monitoring the efficacy of antiresorptive therapy in patients with osteoporosisMarkers indicating rate of bone formation:Serum bone-speci

48、fic ALP reflects the cellular activity of osteoblasts 56,57,58Serum osteocalcin reflects its rate of synthesis by osteoblasts. Serum concentration of the carboxy-terminal and amino terminal propeptides of type I co

49、llagen (PICP and PINP, respectively) reflects changes in synthesis of new collagen. 59 Markers indicating rate of bone resorption:Serum skeletal acid phosphatase .Urinary excretion of collagen crosslinks {deoxypyridi

50、noline (DPD) and the peptide-bound alpha-1 to alpha-2 N-telopeptide crosslinks (NTX), and the c-telopeptide crosslink (CTX)} reflects bone resorption and not dietary intake. 60,Markers of Bone turnover,Initial laboratory

51、 tests :Complete chemistry profile (including alkaline phosphatase) CBCCalcium, phosphorus 25 hydroxyvitamin D Urinary calcium excretion Additional laboratory tests if indicated(clinical features/ low Z-score) 24

52、 hour urine for free cortisol Estradiol, FSH, LH, Prolactin , TSHMagnesium 1,25 dihydroxyvitamin D ,Intact PTH Celiac screen SPEP/UPEPESR, Rheumatoid FactorSerum tryptase and histamine levels Homocysteine Skin b

53、iopsy for connective tissue disorders COL1A genetic testing for osteogenesis imperfecta Serum and urine markers of bone turnover,Other lab tests:,Management of osteoporosis,,National Osteoporosis Foundation guidelines

54、for pharmacologic intervention in postmenopausal women and men 50 years of age,Guidelines by other organizations:,Rosen C. N Engl J Med 2005;353:595-603,Non-pharmacological therapy,Ebeling P. N Engl J Med 2008;358:1474-1

55、482,Approved pharmacological therapies,Rosen C. N Engl J Med 2005;353:595-603,Antiresorptive agents: Zoledronic acid 5 mg administered intravenously once yearly.Calcitriol: effective in preventing glucocorticoid-induc

56、ed and posttransplant-related bone loss.Strontium ranelate :is an orally active drug consisting of two atoms of stable strontium and an organic moiety (ranelic acid). In animal studies, strontium appears to inhibi

57、t bone resorption and increase bone formation . Its mechanism of action in humans is less certain. Approved for use in Europe only.Anabolic agentsDenosumab — investigational humanized monoclonal antibody aga

58、inst RANKL . Encouraging Phase 2 trial results.Tibolone — a synthetic steroid whose metabolites have estrogenic, androgenic, and progestagenic properties used in some countries.,Other therapies:,ISCD :&#

59、160; recommends follow-up BMD testing (DXA spine and hip) when the expected change in BMD equals or exceeds the least significant change (LSC), which is typically one year after initiation or change of therapy, with long

60、er intervals once therapeutic effect is established. In conditions associated with rapid bone loss, such as glucocorticoid therapy, testing more frequently is appropriate 43AACE : recommends annual DXA of the

61、 LS and proximal femur until stability is achieved, and every two years thereafter. 44NAMS : recommends DXA of the total hip every two years. 45Others:Conservative approach - takes the position that monito

62、ring for efficacy of antiresorptive therapy is unnecessary, as only a minority of patients continue to lose bone on therapy. 46,47,48Bone turnover markers- if DXA cannot be performed at one year then measure fasting uri

63、nary NTX or serum CTX before and three to six months after starting antiresorptive therapy. 48,49 If the marker has fallen significantly (by 50 percent), the patient can be reassured that the next BMD measurement will li

64、kely be stable or improved . Repeat DXA can be done in 2 yrs.,Monitoring therapy:,12/15-lipoxygenase inhibitors: coded by the Alox15 gene which is up regulated in IL4 mediated bone resorption.20Oral calcium sensing rec

65、eptor antagonists : Administration leads to a transient rise in endogenous parathyroid hormone, similar to intermittently administered exogenous parathyroid hormone 21 Sclerostin inhibitors :Sclerostin is produced by o

66、steocytes and inhibits bone formation 22. Antagonism of sclerostin might be associated with anabolic effects on bone. Monoclonal antibodies against sclerostin, for example, prevent its binding to Wnt coreceptors, enhanci

67、ng Wnt signaling and increasing bone mass in rodents and nonhuman primates.23Integrin antagonists : Integrins mediate the adhesion of osteoclasts to the bone surface, an important initial step for bone resorption 24

68、Cathepsin-K inhibitors — Cathepsin K is a protease that may play a role in osteoclast-mediated bone resorption .25,Emerging Therapies:,Antagonists of Dkk-1 : Mutations of LRP5 and LRP6 (wnt coreceptor) that lead to impa

69、ired binding of Dkk-1 are associated with increased bone mass.29 . Dkk-1 antibodies increased BMD, trabecular bone volume, and bone formation in rodents, suggesting that Dkk-1 inhibitors targeted specifically to bone m

70、ight have potential as an anabolic approach in the treatment of osteoporosis.30Soluble Activin Receptors : Activin enhances osteoclastogenesis, and its effects on bone formation are controversial.31,32 A soluble acti

71、vin receptor II, which binds activin and possibly bone morphogenetic protein 3, decreases bone resorption and enhances bone formation in rodents.33,34The Osteoblast Proteasome and Its Inhibitors : Inhibitors of prote

72、olytic processing systems might unmask or enhance anabolic pathways.35,36 The use of proteasome inhibitors will depend on their skeletal specificity and their safety profile, since such inhibitors can induce cellular tox