Use of FTIR Spectroscopic Imaging to Identify Parameters Associated With Fragility Fracture

Gourion-Arsiquaud, Samuel; Faibish, Dan; Myers, Elizabeth; Spevak, Lyudmila; Compston, Juliet; Hodsman, Anthony B.; Shane, Elizabeth; Recker, Robert R.; Boskey, Elizabeth R.; Boskey, Adele L.

doi:10.1359/jbmr.090414

Cited by 174 publications

(206 citation statements)

References 40 publications

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“…Cortical bone from patients with atypical fractures had greater tissue mineral content as assessed by Raman and FTIR imaging and greater collagen maturity as assessed by FTIR imaging, as well as greater hardness, relative to that from patients without fractures, all of which are expected to diminish the ductility and hence decrease intrinsic toughness in bone (28). Consistent with these results, increased FTIR mineralization and collagen maturity are associated with increased fracture risk (29).…”

Section: Loss Of Intrinsic Toughening With Long-term Bisphosphonate Tsupporting

confidence: 58%

Atypical fracture with long-term bisphosphonate therapy is associated with altered cortical composition and reduced fracture resistance

Lloyd

Gludovatz

Riedel

et al. 2017

Proc. Natl. Acad. Sci. U.S.A.

127

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Bisphosphonates are the most widely prescribed pharmacologic treatment for osteoporosis and reduce fracture risk in postmenopausal women by up to 50%. However, in the past decade these drugs have been associated with atypical femoral fractures (AFFs), rare fractures with a transverse, brittle morphology. The unusual fracture morphology suggests that bisphosphonate treatment may impair toughening mechanisms in cortical bone. The objective of this study was to compare the compositional and mechanical properties of bone biopsies from bisphosphonate-treated patients with AFFs to those from patients with typical osteoporotic fractures with and without bisphosphonate treatment. Biopsies of proximal femoral cortical bone adjacent to the fracture site were obtained from postmenopausal women during fracture repair surgery (fracture groups, n = 33) or total hip arthroplasty (nonfracture groups, n = 17). Patients were allocated to five groups based on fracture morphology and history of bisphosphonate treatment [+BIS Atypical: n = 12, BIS duration: 8.2 (3.0) y; +BIS Typical: n = 10, 7.7 (5.0) y; +BIS Nonfx: n = 5, 6.4 (3.5) y; −BIS Typical: n = 11; −BIS Nonfx: n = 12]. Vibrational spectroscopy and nanoindentation showed that tissue from bisphosphonate-treated women with atypical fractures was harder and more mineralized than that from bisphosphonatetreated women with typical osteoporotic fractures. In addition, fracture mechanics measurements showed that tissue from patients treated with bisphosphonates had deficits in fracture toughness, with lower crack-initiation toughness and less crack deflection at osteonal boundaries than that of bisphosphonate-naïve patients. Together, these results suggest a deficit in intrinsic and extrinsic toughening mechanisms, which contribute to AFFs in patients treated with long-term bisphosphonates.atypical fracture | bisphosphonates | subtrochanteric fracture | fracture toughness | FTIR imaging

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Section: Loss Of Intrinsic Toughening With Long-term Bisphosphonate Tsupporting

confidence: 58%

Atypical fracture with long-term bisphosphonate therapy is associated with altered cortical composition and reduced fracture resistance

Lloyd

Gludovatz

Riedel

et al. 2017

Proc. Natl. Acad. Sci. U.S.A.

127

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“…There is clear evidence of significant differences in the physicochemical characteristics of bone mineral from different sample sites. For example, Gourion-Arsiquaud et al reported greater cortical mineral/organic and trabecular crystallinity values associated with increased fracture risk when iliac crest specimens were analysed [32]. However, more recently, when investigating material properties of femoral neck specimens, a decrease in the mineral: organic ratio for both cortical and trabecular fractured bone was observed whilst no change in crystallinity was reported [33] by the same research group.…”

Section: Discussionmentioning

confidence: 98%

Towards new material biomarkers for fracture risk

Greenwood

Clement

Dicken

et al. 2016

Bone

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Osteoporosis is a prevalent bone condition, characterised by low bone mass and increased fracture risk. Currently, the gold standard for identifying osteoporosis and increased fracture risk is through quantification of bone mineral density (BMD) using dual energy X-ray absorption (DEXA). However, the risk of osteoporotic fracture is determined collectively by bone mass, architecture and physicochemistry of the mineral composite building blocks. Thus DEXA scans alone inevitably fail to fully discriminate individuals who will suffer a fragility fracture. This study examines trabecular bone at both ultrastructure and microarchitectural levels to provide a detailed material view of bone, and therefore provides a more comprehensive explanation of osteoporotic fracture risk. Physicochemical characterisation obtained through X-ray diffraction and infrared analysis indicated significant differences in apatite crystal chemistry and nanostructure between fracture and non-fracture groups.Further, this study, through considering the potential correlations between the chemical biomarkers and microarchitectural properties of trabecular bone, has investigated the relationship between bone mechanical properties (e.g. fragility) and physicochemical material features.

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“…Previously, FTIRI has been employed to study osteoporotic bone (17,19,27) or bone from patients with fragility fractures, (15) as well as bone from patients with ostemalacia. (18) However, to our knowledge, no previous studies have employed FTIRI to investigate bone from patients with ROD.…”

Section: Discussionmentioning

confidence: 99%

“…Recent studies have indicated that the increased fracture risk in other metabolic bone diseases such as osteoporosis not only may follow from the low bone mass and distorted bone structure but also may be due to altered composition of the bone tissue. (14)(15)(16)(17) The ability of Fourier transform infrared spectroscopic imaging (FTIRI) to characterize changes in the mineral or collagen phase (17)(18)(19)(20) The advantage of the technique is its ability to image and measure the spatial composition of the tissue. FTIRI can be used to identify samples, to characterize unknown materials, and also to determine the quality or consistency of a sample.…”

mentioning

confidence: 99%

Infrared spectroscopy indicates altered bone turnover and remodeling activity in renal osteodystrophy

Isaksson

Turunen

Rieppo

et al. 2010

Journal of Bone and Mineral Research

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Renal osteodystrophy alters metabolic activity and remodeling rate of bone and also may lead to different bone composition. The objective of this study was to characterize the composition of bone in high-turnover renal osteodystrophy patients by means of Fourier transform infrared spectroscopic imaging (FTIRI). Iliac crest biopsies from healthy bone (n ¼ 11) and patients with renal osteodystrophy (ROD, n ¼ 11) were used in this study. The ROD samples were from patients with hyperparathyroid disease. By using FTIRI, phosphate-toamide I ratio (mineral-to-matrix ratio), carbonate-to-phosphate ratio, and carbonate-to-amide I ratio (turnover rate/remodeling activity), as well as the collagen cross-link ratio (collagen maturity), were quantified. Histomorphometric analyses were conducted for comparison. The ROD samples showed significantly lower carbonate-to-phosphate ( p < .01) and carbonate-to-amide I ( p < .001) ratios. The spatial variation across the trabeculae highlighted a significantly lower degree of mineralization ( p < .05) at the edges of the trabeculae in the ROD samples than in normal bone. Statistically significant linear correlations were found between histomorphometric parameters related to bone-remodeling activity and number of bone cells and FTIRI-calculated parameters based on carbonate-to-phosphate and carbonate-to-amide I ratios. Hence the results suggested that FTIRI parameters related to carbonate may be indicative of turnover and remodeling rate of bone. ß 2010 American Society for Bone and Mineral Research.KEY WORDS: BONE COMPOSITION; HISTOMORPHOMETRY; FOURIER TRANSFORM; INFRARED; RENAL OSTEODYSTROPHY; CARBONATE B one is a composite material consisting of a mineral phase (hydroxyapatite), an organic phase (collagen), noncollagenous proteins, lipids, and water. (1,2) Metabolic bone disease is a common term referring to a number of abnormalities caused by a broad spectrum of disorders. Most disorders lead to weakening of the bone or impaired bone function and are followed most often by altered bone mechanical properties. Renal osteodystrophy (ROD) is a chronic kidney disease that can be accompanied by different types of bone pathologies. ROD can lead to defective mineralization, altered bone morphology, and/or bone turnover. (3,4) Commonly, it is accompanied by hyperparathyroid disease, which is characterized by increased bone turnover. Patients with renal osteodystrophy may exhibit bone and joint pain, bone deformation, and spontaneous bone fractures. Bone biopsies followed by quantitative histomorphometry prevail as the ''gold standard'' for the diagnosis of renal osteodystrophy. (5)(6)(7) Histomorphometric analysis emphasizes increased amounts of osteoid and erosion surface and a larger amount of bone cells than what is present in normal bone. (8) However, the invasive nature of obtaining the biopsies, the required experience of the pathologists to identify the abnormalities, as well as the lack of standardized normal limits remain problematic.ROD also commonly results in lower bone ...

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Use of FTIR Spectroscopic Imaging to Identify Parameters Associated With Fragility Fracture

Cited by 174 publications

References 40 publications

Atypical fracture with long-term bisphosphonate therapy is associated with altered cortical composition and reduced fracture resistance

Atypical fracture with long-term bisphosphonate therapy is associated with altered cortical composition and reduced fracture resistance

Towards new material biomarkers for fracture risk

Infrared spectroscopy indicates altered bone turnover and remodeling activity in renal osteodystrophy

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