Biochemical markers of bone turnover: part I: biochemistry and variability

With the ageing population in most countries, disorders of bone and mineral metabolism are becoming increasingly relevant to every day clinical practice. Consequently, the interest in, and the need for effective measures to be used in the screening, diagnosis and follow-up of such pathologies has markedly grown. Together with clinical and imaging techniques, biochemical tests play an important role in the assessment and differential diagnosis of metabolic bone disease. In recent years, the isolation and characterisation of cellular and extracellular components of the skeletal matrix have resulted in the development of molecular markers that are considered to reflect either bone formation or bone resorption. These biochemical indices are non-invasive, comparatively inexpensive and, when applied and interpreted correctly, helpful tools in the diagnostic and therapeutic assessment of metabolic bone disease. Part I of this article provides an overview of the basic biochemistry of bone markers, and sources of non-specific variability. Part II (to be published in a subsequent issue of this journal) will review the current evidence regarding the clinical use of biochemical markers of bone remodelling in metabolic and metastatic bone disease.     

Usefulness of bone formation markers in breast cancer

The skeleton is the main site affected by metastases and breast cancer is the most frequent tumor to invade bone. The assessment of bone metastases is difficult and biochemical markers of bone formation (BFMs) could be a promising alternative. Although the essential role of osteoblasts in the metastatic process of bone destruction is now well established, little attention has been paid to BFMs. We conducted a Medline search for studies about BFMs in breast cancer. Our review allows us to conclude that BFMs have high specificity but low sensitivity for the diagnosis of bone metastases. The available biochemical markers cannot replace imaging techniques for the diagnosis of bone metastases. Several studies indicate that BFM serum levels reflect total tumor burden in the skeleton. BFM levels are higher in patients with blastic lesions compared to those with lytic lesions. Serial measurements of BFMs could be useful for the clinical assessment of response to antineoplastic treatment or to bisphosphonate therapy. Besides markers of bone resorption, biochemical markers of bone formation are a promising alternative for the assessment of metastatic bone disease, but large prospective studies are needed to address this important issue.     

Aspects des complications ostéoarticulaires de la drépanocytose en scintigraphie osseuse planaire (infection exclue). À propos de trois observations

Skeletal complications of sickle-cell anemia are multiple and can appear on the acute (osseous infarction, acute osteomyelitis) or chronic mode (osteonecrosis, chronic osteomyelitis). The radio-labelled diphosphonates bone scintigraphy remains an important tool in the early diagnosis and in the follow-up of these complications and must form part of the initial assessment of the disease. Through clinical observations, the authors undertake to sum up the bone scintigraphy aspects of these complications.     

Clinical applications of assessments of myocardial substrate utilization with positron emission tomography

Summary Positron emission tomography (PET) permits sequential, noninvasive assessment of myocardial perfusion and metabolism. Based on the pattern of substrate use, clinical studies have utilized PET to define the location and extent of myocardial infarction, to identify areas of jeopardized but viable myocardium, and to assess the metabolic response of the myocardium to pharmacological therapy as well as to interventions such as coronary thrombolysis and coronary artery bypass surgery. The ability to noninvasively assess specific metabolic pathways should facilitate our understanding of normal myocardial metabolism, its perturbations with cardiac disease, and thereby improve the diagnosis and treatment of the biochemical processes underlying cardiac dysfunction.     

A program package for quantitative analysis of histologic structure and remodeling dynamics of bone

Quantitative bone histology has become an increasingly valuable tool for the management and diagnosis of metabolic bone disease. A new computer-assisted method for quantitative analysis of bone histology which combines the advantages of discriminatory input by the investigator with a significant reduction of evaluation time is presented.These programs allow the analysis of a sufficient number of subjects from different populations for the establishment of normative data, and are useful in the diagnosis and documentation of the treatment of metabolic bone disease.     

Human bone disorders: Pathological role and diagnostic potential of matrix metalloproteinases

Bone undergoes continuous remodeling under physiological and pathological conditions. Failure of the regulation of this process leads to several disorders involving bone erosion. This series of events is mainly based on the action of proteinases, particularly matrix metalloproteinases (MMPs). MMPs have been recently suggested as potential bone resorption markers which could be added to the commonly used ones, in order to predict outcome of disease processes and healing, and to monitor disease response to treatment. As for classical biochemical bone markers, MMPs are far from being applied in primary clinical diagnosis, but they could be promising in some cases for disease prognosis. MMPs as bone remodeling biomarkers could provide information that boosts our understanding of the prognosis, disease activity and pathogenesis of bone disorders. Clarifying the MMPs’ role in bone remodeling and healing could potentially help predict disease progression and the effects of direct specific therapy.     

软骨寡聚基质蛋白在关节炎中的作用

研究表明在骨性关节炎和类风湿性关节炎患者血清中软骨寡聚基质蛋白(cartilage oligomeric matrix protein,COMP)可以在出现关节形态学改变以前就在生化代谢方面表现异常,为早期诊断提供了新思路,其可以作为反映早期关节软骨破坏和骨关节疾病急性活动程度的指标。从而能在病变不可逆发展之前及早防治,逆转或延缓病变进展。COMP是关节炎疾病的诊断与判断疾病进展和缓解潜在生物学标志物。本文就软骨寡聚基质蛋白及其在关节炎中的作用作一综述。     

Biochemical markers of ongoing joint damage in rheumatoid arthritis - current and future applications, limitations and opportunities

Rheumatoid arthritis (RA) is a chronic systemic autoimmune disease associated with potentially debilitating joint inflammation, as well as altered skeletal bone metabolism and co-morbid conditions. Early diagnosis and aggressive treatment to control disease activity offers the highest likelihood of preserving function and preventing disability. Joint inflammation is characterized by synovitis, osteitis, and/or peri-articular osteopenia, often accompanied by development of subchondral bone erosions, as well as progressive joint space narrowing. Biochemical markers of joint cartilage and bone degradation may enable timely detection and assessment of ongoing joint damage, and their use in facilitating treatment strategies is under investigation. Early detection of joint damage may be assisted by the characterization of biochemical markers that identify patients whose joint damage is progressing rapidly and who are thus most in need of aggressive treatment, and that, alone or in combination, identify those individuals who are likely to respond best to a potential treatment, both in terms of limiting joint damage and relieving symptoms. The aims of this review are to describe currently available biochemical markers of joint metabolism in relation to the pathobiology of joint damage and systemic bone loss in RA; to assess the limitations of, and need for additional, novel biochemical markers in RA and other rheumatic diseases, and the strategies used for assay development; and to examine the feasibility of advancement of personalized health care using biochemical markers to select therapeutic agents to which a patient is most likely to respond.     

Portable optical fiber probe-based spectroscopic scanner for rapid cancer diagnosis: a new tool for intraoperative margin assessment

There continues to be a significant clinical need for rapid and reliable intraoperative margin assessment during cancer surgery. Here we describe a portable, quantitative, optical fiber probe-based, spectroscopic tissue scanner designed for intraoperative diagnostic imaging of surgical margins, which we tested in a proof of concept study in human tissue for breast cancer diagnosis. The tissue scanner combines both diffuse reflectance spectroscopy (DRS) and intrinsic fluorescence spectroscopy (IFS), and has hyperspectral imaging capability, acquiring full DRS and IFS spectra for each scanned image pixel. Modeling of the DRS and IFS spectra yields quantitative parameters that reflect the metabolic, biochemical and morphological state of tissue, which are translated into disease diagnosis. The tissue scanner has high spatial resolution (0.25 mm) over a wide field of view (10 cm × 10 cm), and both high spectral resolution (2 nm) and high spectral contrast, readily distinguishing tissues with widely varying optical properties (bone, skeletal muscle, fat and connective tissue). Tissue-simulating phantom experiments confirm that the tissue scanner can quantitatively measure spectral parameters, such as hemoglobin concentration, in a physiologically relevant range with a high degree of accuracy (<5% error). Finally, studies using human breast tissues showed that the tissue scanner can detect small foci of breast cancer in a background of normal breast tissue. This tissue scanner is simpler in design, images a larger field of view at higher resolution and provides a more physically meaningful tissue diagnosis than other spectroscopic imaging systems currently reported in literatures. We believe this spectroscopic tissue scanner can provide real-time, comprehensive diagnostic imaging of surgical margins in excised tissues, overcoming the sampling limitation in current histopathology margin assessment. As such it is a significant step in the development of a platform technology for intraoperative management of cancer, a clinical problem that has been inadequately addressed to date.     

The calcium metabolism problem in space medical science

The currently frustrating problem of discrepancies between the non-significant calcium metabolic balance reports and the radiologic indications of bone loss in astronauts is discussed in reference to clinical data derived from human subjects with their musculoskeletal system immobilized by plaster casts.The pertinent literature is cited, the biochemical profile of environmentally induced osteoporosis is presented, the various concepts of calcium metabolism are reviewed, the clinical chemistry with radiologic findings on the Gemini astronauts are discussed, and the weightlessness syndrome is related to calcium utilization in the body.Hormones are assessed as relatively active in calcium absorption, in bone resorption, and in accelerating metabolic activity. Enzymes are portayed as behaving somewhat passive in calcium metabolism disorders.It is concluded that the results of research now in progress may clear up the problem of whether the densitometric results are in error or whether there occur intra-skeletal transfers of bone mineral not detected by balance investigations.     

The broadening spectrum of mitochondrial disease: Shifts in the diagnostic paradigm

Background

The diagnosis of mitochondrial disease requires a complex synthesis of clinical, biochemical, histological, and genetic investigations. An expanding number of mitochondrial diseases are being recognized, despite their phenotypic diversity, largely due to improvements in methods to detect mutations in affected individuals and the discovery of genes contributing to mitochondrial function. Improved understanding of the investigational pitfalls and the development of new laboratory methodologies that lead to a molecular diagnosis have necessitated the field to rapidly adopt changes to its diagnostic approach.

Scope of review

We review the clinical, investigational and genetic challenges that have resulted in shifts to the way we define and diagnose mitochondrial disease. Incorporation of changes, including the use of fibroblast growth factor 21 (FGF-21) and next generation sequencing techniques, may allow affected patients access to earlier molecular diagnosis and management.

Major conclusions

There have been important shifts in the diagnostic paradigm for mitochondrial disease. Diagnosis of mitochondrial disease is no longer reliant on muscle biopsy alone, but should include clinical assessment accompanied by the use of serological biomarkers and genetic analysis. Because affected patients will be defined on a molecular basis, oligosymptomatic mutation carriers should be included in the spectrum of mitochondrial disease. Use of new techniques such as the measurement of serum FGF-21 levels and next-generation-sequencing protocols should simplify the diagnosis of mitochondrial disease.

General significance

Improvements in the diagnostic pathway for mitochondrial disease will result in earlier, cheaper and more accurate methods to identify patients with mitochondrial disease. This article is part of a Special Issue entitled Frontiers of Mitochondrial Research.     

Predementia Alzheimer's disease. Benefits of early diagnosis

Given population aging and the rise in the number of persons with Alzheimer's disease, measures that aim not only to delay but also to prevent the development of this disease are increasingly required. Advances in the diagnosis of Alzheimer's disease support the need for a review of current clinical standards for mild cognitive impairment and provide new goals in the early treatment of this disease. The current diagnostic process should be refocussed toward the pathological substrate of this disease rather than symptoms in order to initiate therapeutic measures as soon as possible without waiting for clinical manifestations to appear. Such an approach is essential in patients with greater cognitive reserve, in whom the lesions are usually more severe at diagnosis and treatment is less effective. To identify disease-modifying therapies to delay the onset of the clinical symptoms of Alzheimer's disease in cognitively intact persons at high risk, biomarkers for this disease must be validated. A single biomarker is unlikely to provide the required diagnostic accuracy and therefore a multimodal approach, incorporating biochemical, neuropathological and anatomical and metabolic neuroimaging methods, should be employed. To optimize the results of drugs under investigation, a combination of biomarkers should be used to select appropriate participants in the earliest phases of the disease, and disease progression should be followed-up. Early diagnosis might clarify essential questions in the care of patients with Alzheimer's disease, such as the possibility of distinguishing among various subtypes, thus encouraging the development of optimal treatments for each. The ultimate goal is to develop disease-modifying treatments that could be initiated early, while patients are asymptomatic or only minimally symptomatic, to maintain their quality of life.     

The Role of PINP in Diagnosis and Management of Metabolic Bone Disease

Serum procollagen type I N-propeptide (PINP) is designated the reference marker of bone formation in osteoporosis; the reference marker for resorption is C-terminal telopeptide of type I collagen (CTX). PINP has very low circadian and biological variation, is not affected by food intake, and is very stable in serum after venepuncture. The two automated commercial assays for PINP provide similar results in subjects with normal renal function, allowing reference intervals to be used interchangeably. Bone turnover markers (BTM) are currently not recommended for fracture risk assessment and therefore not included in fracture risk calculators. In the management of osteoporosis, the main utility of BTM including PINP is for monitoring therapy, both antiresorptive as well as anabolic agents; monitoring is thought to help improve adherence. PINP as well as CTX may also be used in assessing offset of drug action following a pause in bisphosphonate therapy, to help decide when to re-instate therapy, or following cessation of denosumab therapy to assess efficacy of follow-on bisphosphonate therapy. PINP may also be used in the diagnosis of Paget’s disease of bone as well as in monitoring response to therapy and for recurrence. Although BTM other than bone alkaline phosphatase are currently not recommended for use in metabolic bone disease of chronic kidney disease, PINP measured by assays specific to the intact molecule has potential in this condition. Further studies are needed to examine this area, as well as in malignant bone disease.     

Clinical Guidelines for Management of Bone Health in Rett Syndrome Based on Expert Consensus and Available Evidence

Objectives

We developed clinical guidelines for the management of bone health in Rett syndrome through evidence review and the consensus of an expert panel of clinicians.

Methods

An initial guidelines draft was created which included statements based upon literature review and 11 open-ended questions where literature was lacking. The international expert panel reviewed the draft online using a 2-stage Delphi process to reach consensus agreement. Items describe the clinical assessment of bone health, bone mineral density assessment and technique, and pharmacological and non-pharmacological interventions.

Results

Agreement was reached on 39 statements which were formulated from 41 statements and 11 questions. When assessing bone health in Rett syndrome a comprehensive assessment of fracture history, mutation type, prescribed medication, pubertal development, mobility level, dietary intake and biochemical bone markers is recommended. A baseline densitometry assessment should be performed with accommodations made for size, with the frequency of surveillance determined according to individual risk. Lateral spine x-rays are also suggested. Increasing physical activity and initiating calcium and vitamin D supplementation when low are the first approaches to optimizing bone health in Rett syndrome. If individuals with Rett syndrome meet the ISCD criterion for osteoporosis in children, the use of bisphosphonates is recommended.

Conclusion

A clinically significant history of fracture in combination with low bone densitometry findings is necessary for a diagnosis of osteoporosis. These evidence and consensus-based guidelines have the potential to improve bone health in those with Rett syndrome, reduce the frequency of fractures, and stimulate further research that aims to ameliorate the impacts of this serious comorbidity.     

Osteomalacia with Bone Marrow Fibrosis Due to Severe Vitamin D Deficiency After a Gastrointestinal Bypass Operation for Severe Obesity

ObjectiveTo present 5 cases of bone biopsy-proven osteomalacia with marrow fibrosis (in 3 cases) after gastric bypass operation, review the relevant literature, and offer preventive strategies.MethodsWe summarize the clinical presentation, pertinent biochemical and radiologic data, and bone histomorphometric findings in 5 patients, encountered during a period of 17 years, in whom severe vitamin D deficiency developed after a gastrointestinal bypass surgical procedure for morbid obesity.ResultsFive patients (39 to 60 years of age) were seen for evaluation of metabolic bone disease not responding to “usual” therapy after a gastric bypass surgical procedure. All had generalized bone pain and tenderness, muscle weakness, stooping posture, difficulty walking, and waddling gait due to severe proximal muscle weakness for a period of 2 to 5 years. Diagnoses before the referral varied from arthritis and gout to vitamin D deficiency and osteoporosis despite highly suggestive biochemical or radiologic findings (or both) of osteomalacia in each patient, which was confirmed by bone biopsy. After therapy with pharmacologic doses of ergocalciferol (100,000 IU daily) and calcium carbonate (1 to 2.5 g daily), considerable improvements occurred in clinical symptoms and functional status, biochemical indices, bone mineral density, and bone histomorphometric features.ConclusionGastric bypass operations predispose patients to severe vitamin D deficiency and osteomalacia in the absence of pharmacologic doses of vitamin D therapy. In general, the current recommendations are grossly inadequate in this high-risk population, and the clinical presentation is both nonspecific and often misleading. Prospective long-term studies are needed to determine the appropriate vitamin D dose required to prevent osteomalacia in such patients. (Endocr Pract. 2009;15:528-533)     

骨关节炎相关生物标志物

骨关节炎（osteoarthritis）是关节软骨进展的退化性疾病,并累及周围组织结构的病变,是致老年人伤残主要原因之一。目前,以临床表现和影像学诊断为主,缺乏早期检测和预后评估的有效方法。生物标志物的检查是具有前景的研究方向,在关节软骨结构改变之前,各种生物标志物代谢发生变化,其能帮助诊断和预测骨关节炎的发生发展及其预后。然而,生物标志物在临床诊断和治疗相关的应用仍需加以证实。通过广泛查阅近年有关骨关节炎相关分子生物诊断的相关文献,有助于了解生物标志物对于骨关节炎的早期诊断意义和临床应用前景。本文就关节软骨、骨和滑膜等不同组织类型相关的生物标志物进行综述。     

Characterising neurological time series data using biologically motivated networks of coupled discrete maps

Artificial biochemical networks (ABNs) are a class of computational dynamical system whose architectures are motivated by the organisation of genetic and metabolic networks in biological cells. Using evolutionary algorithms to search for networks with diagnostic potential, we demonstrate how ABNs can be used to carry out classification when stimulated with time series data collected from human subjects with and without Parkinson's disease. Artificial metabolic networks, composed of coupled discrete maps, offer the best recognition of Parkinsonian behaviour, achieving accuracies in the region of 90%. This is comparable to the diagnostic accuracies found in clinical diagnosis, and is significantly higher than those found in primary and non-expert secondary care. We also illustrate how an evolved classifier is able to recognise diverse features of Parkinsonian behaviour and, using perturbation analysis, show that the evolved classifiers have interesting computational behaviours.     

La enfermedad de Alzheimer antes de la demencia. Beneficios del diagnóstico precoz

Given population aging and the rise in the number of persons with Alzheimer's disease, measures that aim not only to delay but also to prevent the development of this disease are increasingly required. Advances in the diagnosis of Alzheimer's disease support the need for a review of current clinical standards for mildcognitive impairment and provide new goals in the early treatment of this disease. The current diagnostic process should be refocussed toward the pathological substrate of this disease rather than symptoms in order to initiate therapeutic measures as soon as possible without waiting for clinical manifestations to appear. Such an approach is essential in patients with greater cognitive reserve, in whom the lesions are usually more severe at diagnosis and treatment is less effective.To identify disease-modifying therapies to delay the onset of the clinical symptoms of Alzheimer's disease in cognitively intact persons at high risk, biomarkers for this disease must be validated. A single biomarker is unlikely to provide the required diagnostic accuracy and therefore a multimodal approach, incorporating biochemical, neuropathological and anatomical and metabolic neuroimaging methods, should be employed. To optimize the results of drugs under investigation, a combination of biomarkers should be used to select appropriate participants in the earliest phases of the disease, and disease progression should be followedup.Early diagnosis might clarify essential questions in the care of patients with Alzheimer's disease, such as the possibility of distinguishing among various subtypes, thus encouraging the development of optimal treatments for each.The ultimate goal is to develop disease-modifying treatments that could be initiated early, while patients are asymptomatic or only minimally symptomatic, to maintain their quality of life.     

Simultaneous bilateral posteromedial tibial epiphysis stress fractures in a healthy young man: A case report

We present a compelling case of simultaneous, bilateral tibial stress fractures occurring in a unique epiphyseal and posterior location, with unclear aetiology. An overweight, Caucasian male in his late 20s developed synchronous bilateral medial knee pain following an intense 10-day training regimen. His radiographies were normal, but MRI revealed almost identical bilateral stress fracture lines in the posteromedial tibial epiphyses. Bone mineral densitometry and a full metabolic and hormonal panel were performed to further investigate potential underlying metabolic bone disease. He was found to have normal bone mineral densitometry and low Vitamin D serum values. Symptomatology greatly improved with activity modification. There were no further complaints and complications at 12 months’ follow-up. Diagnosis can be challenging and the treating physician should be acquainted with the basic science of stress fractures and main discriminating clinical, biochemical and radiological characteristics from insufficiency fractures, to avoid pitfalls in treatment decision.     

Evaluation of enzyme histochemical observations for metabolic studies. A combined histochemical and biochemical investigation of experimental induced muscle-changes

Summary The degree of conformity between enzyme histochemical (part I) and biochemical observations was studied in a variable model. Rabbit skeletal muscle altered by reinnervation was used. The most important feature of the biochemical part of this investigation is the constancy of the activity ratio of the enzymes phosphofructokinase (PFK), which is ratelimiting for the glycolysis and l-glycerol-3-phosphate: acceptor oxidoreductase (GPOX) in spite of the marked metabolic changes after cross-reinnervation. In consequence it is most likely that in case of pathologically altered tissue one may also rely on the histochemical GPOX-reaction as an indication of the PFK-activity, which cannot be demonstrated histochemically to any reliable degree.In order to evaluate the indicator significance of the GPOX-reaction, the histochemical estimations (part I) were compared with the biochemical results. This comparison disclosed a striking parallellism per type of muscle in discerning the presence or the absence of metabolic changes after cross-reinnervation or auto-reinnervation. Quantitatively though there were some variations especially for the m. soleus. Consequently the histochemical impressions of the investigated enzymes are applicable in predicting the biochemical results within this model, but cannot be used as a substitute. It was concluded that where only small amounts of tissue are available histochemical examination offers a reliable screening method for muscle diseases and can indicate a more appropriate biochemical investigation to confirm the diagnosis.This study was taken from the Ph. D. thesis of A. C. Jöbsis (1971).