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1.
The Impact of Vitamin D Levels in Foot and Ankle Surgery.
Giakoumis, M
Clinics in podiatric medicine and surgery. 2020;(2):305-315
Abstract
Hypovitaminosis D has been established as a global health problem. As an important regulator of skeletal health homeostasis throughout one's life, optimal levels are presumed. Debate, however, still exists surrounding the definition of normal vitamin D levels and what affect hypovitaminosis D has on fracture prevention, fracture healing, and successful arthrodesis. A literature search failed to show any level 1 studies examining hypovitaminosis D and union rates in foot and/or ankle arthrodesis procedures. Several retrospective studies do point to some sort of association between nonunion and hypovitaminosis D. Because of lack of high-level studies, a potential study design is proposed.
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2.
Deep learning in fracture detection: a narrative review.
Kalmet, PHS, Sanduleanu, S, Primakov, S, Wu, G, Jochems, A, Refaee, T, Ibrahim, A, Hulst, LV, Lambin, P, Poeze, M
Acta orthopaedica. 2020;(2):215-220
Abstract
Artificial intelligence (AI) is a general term that implies the use of a computer to model intelligent behavior with minimal human intervention. AI, particularly deep learning, has recently made substantial strides in perception tasks allowing machines to better represent and interpret complex data. Deep learning is a subset of AI represented by the combination of artificial neuron layers. In the last years, deep learning has gained great momentum. In the field of orthopaedics and traumatology, some studies have been done using deep learning to detect fractures in radiographs. Deep learning studies to detect and classify fractures on computed tomography (CT) scans are even more limited. In this narrative review, we provide a brief overview of deep learning technology: we (1) describe the ways in which deep learning until now has been applied to fracture detection on radiographs and CT examinations; (2) discuss what value deep learning offers to this field; and finally (3) comment on future directions of this technology.
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3.
[Vitamin D in geriatric patients].
Bischoff-Ferrari, HA
Der Internist. 2020;(6):535-540
Abstract
Vitamin D deficiency is widespread in geriatric patients. While vitamin D deficiency is prevalent in about 50% of healthy older adults, the prevalence in geriatric patients with hip fracture increases to over 80%. This is partly due to the fact that sunlight is unreliable as the main source of vitamin D. In addition to insufficient sun intensity from November to April, skin aging plays an important role; it causes a 4-fold reduction in the skin's own vitamin D production during sunshine exposure in older adults compared with younger people. Immobility and institutionalization are additional risk factors for vitamin D deficiency in geriatric patients. At the same time, vitamin D deficiency (< 20 ng/ml) increases parathyroid hormone levels and thus promotes bone loss and the risk of fracture. Severe vitamin D deficiency (< 10 ng/ml) may also lead to reversible muscle weakness resulting in an increased risk of falling. Since falls affect at least every second geriatric patient and hip fractures increase exponentially after the age of 75, the correction of vitamin D deficiency is an important medical and public health effort in these patients. Several randomized intervention trials, comparing 800-1000 IU vitamin D/day versus placebo or calcium, showed a significant reduction in falls and hip fractures in adults ≥65 years of age who had an increased risk of vitamin D deficiency and of falls or fractures. In geriatric patients, implementing vitamin D supplementation at this dosage is currently preferred. A bolus dose of over 24,000 IU/month should be avoided due to the increased risk of falls and fractures. These recommendations remain relevant after a critical review of the four most recent meta-analyses.
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4.
Diabetes and Bone Fragility: SGLT2 Inhibitor Use in the Context of Renal and Cardiovascular Benefits.
Jackson, K, Moseley, KF
Current osteoporosis reports. 2020;(5):439-448
Abstract
PURPOSE OF REVIEW Type 2 diabetes mellitus (T2DM) has been shown to negatively impact bone quality and increase fracture risk. While the pathophysiology of bone fragility in T2DM is not clear and likely multifactorial, medications used to treat T2DM are increasingly scrutinized for their potential role in aberrant bone metabolism. Sodium-glucose co-transporter 2 (SGLT2) inhibitors are gaining popularity in patients with T2DM. In addition to lowering blood glucose, there is evidence that these drugs offer cardiac and renal benefit to individuals with T2DM, leading to FDA-approved indications for use in at-risk individuals. At the same time, there remain concerns that SGLT2 inhibitors, specifically canagliflozin, have adverse effects on bone metabolism and increase fracture risk in T2DM. This review seeks to further clarify the impact of these agents on the skeleton. RECENT FINDINGS SGLT2 inhibitors may indirectly disrupt calcium and phosphate homeostasis, contribute to weight loss, and cause hypotension, resulting in bone mineral density (BMD) losses and increased falls. The true long-term impact of SGLT2 inhibitors on the diabetic skeleton is still unclear; this review summarizes the results in studies investigating the impact of SGLT2 inhibitors on fracture risk in T2DM. Whereas studies performed with dapagliflozin and empagliflozin have not shown an increased risk of bone fractures compared with placebo, some studies have shown increased markers of bone turnover and reduced bone mineral density with canagliflozin treatment. While an increased fracture risk was observed with canagliflozin in the CANVAS trial (HR 1.26; 95% CI 1.04, 1.52), an increased risk was not seen in the CANVAS-R (HR 0.86) or CREDENCE (HR 0.98) trials. There is substantial evidence of the cardiac and renal protective benefits of SGLT2 inhibitors. There does not appear to be an increased fracture risk with the use of dapagliflozin or empagliflozin. Given the possible association between canagliflozin and adverse bone outcomes described in CANVAS, canagliflozin use should be pursued in individuals with T2DM only after careful consideration of the individual's skeletal risk.
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5.
Bone-Targeting Systems to Systemically Deliver Therapeutics to Bone Fractures for Accelerated Healing.
Nielsen, JJ, Low, SA
Current osteoporosis reports. 2020;(5):449-459
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Abstract
PURPOSE OF REVIEW Compared with the current standard of implanting bone anabolics for fracture repair, bone fracture-targeted anabolics would be more effective, less invasive, and less toxic and would allow for control over what phase of fracture healing is being affected. We therefore sought to identify the optimal bone-targeting molecule to allow for systemic administration of therapeutics to bone fractures. RECENT FINDINGS We found that many bone-targeting molecules exist, but most have been developed for the treatment of bone cancers, osteomyelitis, or osteoporosis. There are a few examples of bone-targeting ligands that have been developed for bone fractures that are selective for the bone fracture over the body and skeleton. Acidic oligopeptides have the ideal half-life, toxicity profile, and selectivity for a bone fracture-targeting ligand and are the most developed and promising of these bone fracture-targeting ligands. However, many other promising ligands have been developed that could be used for bone fractures.
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6.
Vitamin D for Improved Bone Health and Prevention of Stress Fractures: A Review of the Literature.
Lawley, R, Syrop, IP, Fredericson, M
Current sports medicine reports. 2020;(6):202-208
Abstract
Vitamin D is a vital nutrient and hormone needed for many essential functions in overall health. There is growing literature examining the role of vitamin D not only in the general population but also in athletes. The most predominantly studied area of vitamin D pertains to bone health. Recently, there has been increased investigation into the relationship of vitamin D and stress fractures, including genetic polymorphisms, levels of 25-hydroxyvitamin D, and bioavailable vitamin D. This review will address the most recent developments of vitamin D research and its important role in bone health in athletes.
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Diagnosis and management of pediatric metabolic bone diseases associated with skeletal fragility.
Charoenngam, N, Cevik, MB, Holick, MF
Current opinion in pediatrics. 2020;(4):560-573
Abstract
PURPOSE OF REVIEW The goal of this review is to give an overview of diagnosis and up-to-date management of major pediatric metabolic bone diseases that are associated with bone fragility, including nutritional rickets, hypophosphatemic rickets, osteogenesis imperfecta, Ehlers--Danlos syndrome, Marfan's syndrome, hypophosphatasia, osteopetrosis and skeletal fluorosis. RECENT FINDINGS During the past decade, a number of advanced treatment options have been introduced and shown to be an effective treatment in many metabolic bone disorders, such as burosumab for hypophosphatemic rickets and asfotase alfa for hypophosphatasia. On the other hand, other disorders, such as nutritional rickets and skeletal fluorosis continue to be underrecognized in many regions of the world. Genetic disorders of collagen-elastin, such as osteogenesis imperfecta, Ehlers--Danlos syndrome and Marfan's syndrome are also associated with skeletal fragility, which can be misdiagnosed as caused by non-accidental trauma/child abuse. SUMMARY It is essential to provide early and accurate diagnosis and treatment for pediatric patients with metabolic bone disorders in order to maintain growth and development as well as prevent fractures and metabolic complications.
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8.
The Latest Evidence from Vitamin D Intervention Trials for Skeletal and Non-skeletal Outcomes.
Sami, A, Abrahamsen, B
Calcified tissue international. 2020;(1):88-93
Abstract
Vitamin D has long been considered a central part of the treatment paradigm for osteoporosis. Initial studies in high-risk populations with widespread vitamin D deficiency found a reduction of both vertebral and non-vertebral fractures. Subsequent studies in the general population have yielded mixed but mostly disappointing results both for skeletal and especially non-skeletal outcomes. Recent sequential trial meta-analyses suggest that future studies are likely to be futile given the overall disappointing result. However, mega-trials are still in progress, and additional results have been released. This narrative review aims to evaluate new literature to determine if there has been any substantial change in the message. In conclusion, there is no longer a strong case for initiating vitamin D alone trials in the general adult population, irrespective of age and gender, for significant health outcomes such as fractures, cardiovascular disease and cancer. New studies should focus on risk groups and take directions from the Heaney criteria for evaluation of threshold nutrients. Indeed, real benefits may still be reaped by directing vitamin D supplementation to persons with proven or likely vitamin D deficiency. Further, the role of dietary calcium as a critical co-nutrient remains controversial and could contribute to the discrepancy between studies in terms of cancer outcomes and possibly falls and fractures.
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9.
Drug treatment strategies for osteoporosis in stroke patients.
Hsieh, CY, Sung, SF, Huang, HK
Expert opinion on pharmacotherapy. 2020;(7):811-821
Abstract
INTRODUCTION Osteoporosis and subsequent fractures are well-recognized complications of stroke. However, drug treatment strategies for osteoporosis after stroke have been rarely discussed in the current guidelines for the management of stroke or osteoporosis. AREAS COVERED The authors review the epidemiology, characteristics, pathophysiology, and risk prediction of post-stroke osteoporosis and fractures. Then they provide an overview of existing evidence regarding drug treatment strategies for osteoporosis in stroke patients. They also review the effects on bone mineral density (BMD) and fractures for those drugs commonly used in stroke patients. EXPERT OPINION Currently, there is scarce evidence. A small randomized control trial suggested that a single use of 4 mg of intravenous zoledronate within 5 weeks of stroke onset was beneficial for preserving BMD, while simultaneous use of calcium and vitamin D supplements may be effective in preventing hypocalcemia. Further studies are needed to address several important issues of post-stroke osteoporosis, including who (the eligibility for treatment), when (the best timing of treatment), what (which drug), and how long (the best duration of treatment). On the other hand, physicians should bear in mind that drugs commonly used for stroke, such as statins or warfarin, may have beneficial or adverse effects on BMD and fracture risks.
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10.
Is vitamin-D supplementation not useful in patients at risk of fractures and falls?
Aguilar Del Rey, J, Jódar Gimeno, E, Brañas Baztán, F, Gómez Alonso, C, González Lama, Y, Malouf Sierra, J, Borrego, RS, Segura de la Morena, J, Suárez Pérez, JA, Valdés Y Llorca, C
Gynecological endocrinology : the official journal of the International Society of Gynecological Endocrinology. 2020;(2):93-95
Abstract
To evaluate numerous publications that question the bone and extraosseous benefits of vitamin D diet supplementation based on results, which often transcend to public opinion, but are not well interpreted. This may have negative consequences on compliance of patients under vitamin D supplementation. Critical appraisal of several articles on vitamin D supplementation and its relationship with fractures, falls, cardiovascular diseases, and cancer incidence. Such publications have certain limitations (i.e. patients excluded because of a diagnosis of osteoporosis, or at a higher risk for fractures and falls, or because they have a vitamin D deficiency, etc.), and conclusions and/or subsequent recommendations should be approached with caution. Our research shows that patients with osteoporosis, vitamin D deficiency, and at high risk of fractures and falls should not discontinue vitamin D supplementation (often associated with calcium). It is becoming increasingly evident that patients with hypovitaminosis D are those that gain a maximal benefit from vitamin D supplementation.