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1.
Muscle and Bone Impairment in Infantile Nephropathic Cystinosis: New Concepts.
Haffner, D, Leifheit-Nestler, M, Alioli, C, Bacchetta, J
Cells. 2022;(1)
Abstract
Cystinosis Metabolic Bone Disease (CMBD) has emerged during the last decade as a well-recognized, long-term complication in patients suffering from infantile nephropathic cystinosis (INC), resulting in significant morbidity and impaired quality of life in teenagers and adults with INC. Its underlying pathophysiology is complex and multifactorial, associating complementary, albeit distinct entities, in addition to ordinary mineral and bone disorders observed in other types of chronic kidney disease. Amongst these long-term consequences are renal Fanconi syndrome, hypophosphatemic rickets, malnutrition, hormonal abnormalities, muscular impairment, and intrinsic cellular bone defects in bone cells, due to CTNS mutations. Recent research data in the field have demonstrated abnormal mineral regulation, intrinsic bone defects, cysteamine toxicity, muscle wasting and, likely interleukin-1-driven inflammation in the setting of CMBD. Here we summarize these new pathophysiological deregulations and discuss the crucial interplay between bone and muscle in INC. In future, vitamin D and/or biotherapies targeting the IL1β pathway may improve muscle wasting and subsequently CMBD, but this remains to be proven.
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2.
Osseous Metaplasia in a Bladder Diverticulum in a Patient with Mosaic Menkes Disease.
Canalichio, KL, Chisholm, KM, Lendvay, TS
Urology. 2020;:238-240
Abstract
Menkes disease, or Kinky Hair Syndrome, is a rare disorder of copper metabolism that causes fatal neurodegenerative disease in infancy. This X-linked disorder results from mutations in the ATP7A gene. Along with neurological decline, characteristic coarse appearance of the hair is seen. Urological issues are prevalent in this patient population, with bladder diverticula being the most common. Herein, we describe a unique male patient with genetic mosaicism and osseous metaplasia found in a ruptured bladder diverticulum.
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3.
Bone Metabolism and Vitamin D Implication in Gastroenteropancreatic Neuroendocrine Tumors.
Altieri, B, Di Dato, C, Modica, R, Bottiglieri, F, Di Sarno, A, Pittaway, JFH, Martini, C, Faggiano, A, Colao, A
Nutrients. 2020;(4)
Abstract
Patients affected by gastroenteropancreatic-neuroendocrine tumors (GEP-NETs) have an increased risk of developing osteopenia and osteoporosis, as several factors impact on bone metabolism in these patients. In fact, besides the direct effect of bone metastasis, bone health can be affected by hormone hypersecretion (including serotonin, cortisol, and parathyroid hormone-related protein), specific microRNAs, nutritional status (which in turn could be affected by medical and surgical treatments), and vitamin D deficiency. In patients with multiple endocrine neoplasia type 1 (MEN1), a hereditary syndrome associated with NET occurrence, bone damage may carry other consequences. Osteoporosis may negatively impact on the quality of life of these patients and can increment the cost of medical care since these patients usually live with their disease for a long time. However, recommendations suggesting screening to assess bone health in GEP-NET patients are missing. The aim of this review is to critically analyze evidence on the mechanisms that could have a potential impact on bone health in patients affected by GEP-NET, focusing on vitamin D and its role in GEP-NET, as well as on factors associated with MEN1 that could have an impact on bone homeostasis.
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4.
Δ1 -Pyrroline-5-carboxylate synthetase deficiency: An emergent multifaceted urea cycle-related disorder.
Marco-Marín, C, Escamilla-Honrubia, JM, Llácer, JL, Seri, M, Panza, E, Rubio, V
Journal of inherited metabolic disease. 2020;(4):657-670
Abstract
The bifunctional homooligomeric enzyme Δ1 -pyrroline-5-carboxylate synthetase (P5CS) and its encoding gene ALDH18A1 were associated with disease in 1998. Two siblings who presented paradoxical hyperammonemia (alleviated by protein), mental disability, short stature, cataracts, cutis laxa, and joint laxity, were found to carry biallelic ALDH18A1 mutations. They showed biochemical indications of decreased ornithine/proline synthesis, agreeing with the role of P5CS in the biosynthesis of these amino acids. Of 32 patients reported with this neurocutaneous syndrome, 21 familial ones hosted homozygous or compound heterozygous ALDH18A1 mutations, while 11 sporadic ones carried de novo heterozygous ALDH18A1 mutations. In 2015 to 2016, an upper motor neuron syndrome (spastic paraparesis/paraplegia SPG9) complicated with some traits of the neurocutaneous syndrome, although without report of cutis laxa, joint laxity, or herniae, was associated with monoallelic or biallelic ALDH18A1 mutations with, respectively, dominant and recessive inheritance. Of 50 SPG9 patients reported, 14 and 36 (34/2 familial/sporadic) carried, respectively, biallelic and monoallelic mutations. Thus, two neurocutaneous syndromes (recessive and dominant cutis laxa 3, abbreviated ARCL3A and ADCL3, respectively) and two SPG9 syndromes (recessive SPG9B and dominant SPG9A) are caused by essentially different spectra of ALDH18A1 mutations. On the bases of the clinical data (including our own prior patients' reports), the ALDH18A1 mutations spectra, and our knowledge on the P5CS protein, we conclude that the four syndromes share the same pathogenic mechanisms based on decreased P5CS function. Thus, these syndromes represent a continuum of increasing severity (SPG9A < SPG9B < ADCL3 ≤ ARCL3A) of the same disease, P5CS deficiency, in which the dominant mutations cause loss-of-function by dominant-negative mechanisms.
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5.
Adverse effects of androgen deprivation therapy in patients with prostate cancer: Focus on muscle and bone health.
Bargiota, A, Oeconomou, A, Zachos, I, Samarinas, M, L Pisters, L, Tzortzis, V
Journal of B.U.ON. : official journal of the Balkan Union of Oncology. 2020;(3):1286-1294
Abstract
Androgen deprivation therapy (ADT) is the most effective systemic treatment for prostate cancer and can be succeeded either surgically or pharmaceutically. Both approaches lead to hypogonadism with a large variety of adverse events, including obesity, metabolic syndrome, osteoporosis, sarcopenia, diabetes mellitus, cardiovascular disease, gynecomastia and sexual dysfunction. In addition, undesirable effects on muscle and bone health may have a significant impact not only on the quality of life but also on life expectancy. Currently, supervised exercise seems to be the only intervention that could prevent the adverse effects of the ADT and improve quality of life. Lifestyle modification, supplementation of calcium, vitamin D and when indicated antiosteoporotic treatments improve bone health. However, patients receiving ADT must be well informed about the potential benefits as well as the risks of the treatment.
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6.
Bacteria, Bones, and Stones: Managing Complications of Short Bowel Syndrome.
Johnson, E, Vu, L, Matarese, LE
Nutrition in clinical practice : official publication of the American Society for Parenteral and Enteral Nutrition. 2018;(4):454-466
Abstract
Short bowel syndrome (SBS) occurs in patients who have had extensive resection. The primary physiologic consequence is malabsorption, resulting in fluid and electrolyte abnormalities and malnutrition. Nutrient digestion, absorption, and assimilation may also be diminished by disturbances in the production of bile acids and digestive enzymes. Small bowel dilation, dysmotility, loss of ileocecal valve, and anatomical changes combined with acid suppression and antimotility drugs increase the risk of small intestinal bacterial overgrowth, further contributing to malabsorption. Metabolic changes that occur in SBS due to loss of colonic regulation of gastric and small bowel function can also lead to depletion of calcium, magnesium, and vitamin D, resulting in demineralization of bone and the eventual development of bone disease. Persistent inflammation, steroid use, parenteral nutrition, chronic metabolic acidosis, and renal insufficiency may exacerbate the problem and contribute to the development of osteoporosis. Multiple factors increase the risk of nephrolithiasis in SBS. In the setting of fat malabsorption, increased free fatty acids are available to bind to calcium, resulting in an increased concentration of unbound oxalate, which is readily absorbed across the colonic mucosa where it travels to the kidney. In addition, there is an increase in colonic permeability to oxalate stemming from the effects of unabsorbed bile salts. The risk of nephrolithiasis is compounded by volume depletion, metabolic acidosis, and hypomagnesemia, resulting in a decrease in renal perfusion, urine output, pH, and citrate excretion. This review examines the causes and treatments of small intestinal bacterial overgrowth, bone demineralization, and nephrolithiasis in SBS.
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7.
[Obstructive sleep apnea syndrome(OSAS)and bone.].
Inoue, D
Clinical calcium. 2016;(10):1399-1406
Abstract
Obstructive sleep apnea syndrome(OSAS)is a sleep disorder characterized by repetitive upper airway collapse during sleep, causing frequent hypoxia and sleep disturbance. Known risk factors of OSAS include obesity, male sex and smoking. OSAS has been linked to various comorbidities such as hypertension, cardiovascular diseases and diabetes. Recent evidence also indicates that OSAS is associated with vitamin D insufficiency, increased bone resorption and bone loss. Thus, although increased fracture rate has not been demonstrated, OSAS is now recognized as a risk factor of osteoporosis. This review will summarize the recent reports about bone metabolic abnormalities in OSAS.
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8.
Lower bone turnover and relative bone deficits in men with metabolic syndrome: a matter of insulin sensitivity? The European Male Ageing Study.
Laurent, MR, Cook, MJ, Gielen, E, Ward, KA, Antonio, L, Adams, JE, Decallonne, B, Bartfai, G, Casanueva, FF, Forti, G, et al
Osteoporosis international : a journal established as result of cooperation between the European Foundation for Osteoporosis and the National Osteoporosis Foundation of the USA. 2016;(11):3227-3237
Abstract
UNLABELLED We examined cross-sectional associations of metabolic syndrome and its components with male bone turnover, density and structure. Greater bone mass in men with metabolic syndrome was related to their greater body mass, whereas hyperglycaemia, hypertriglyceridaemia or impaired insulin sensitivity were associated with lower bone turnover and relative bone mass deficits. INTRODUCTION Metabolic syndrome (MetS) has been associated with lower bone turnover and relative bone mass or strength deficits (i.e. not proportionate to body mass index, BMI), but the relative contributions of MetS components related to insulin sensitivity or obesity to male bone health remain unclear. METHODS We determined cross-sectional associations of MetS, its components and insulin sensitivity (by homeostatic model assessment-insulin sensitivity (HOMA-S)) using linear regression models adjusted for age, centre, smoking, alcohol, and BMI. Bone turnover markers and heel broadband ultrasound attenuation (BUA) were measured in 3129 men aged 40-79. Two centres measured total hip, femoral neck, and lumbar spine areal bone mineral density (aBMD, n = 527) and performed radius peripheral quantitative computed tomography (pQCT, n = 595). RESULTS MetS was present in 975 men (31.2 %). Men with MetS had lower β C-terminal cross-linked telopeptide (β-CTX), N-terminal propeptide of type I procollagen (PINP) and osteocalcin (P < 0.0001) and higher total hip, femoral neck, and lumbar spine aBMD (P ≤ 0.03). Among MetS components, only hypertriglyceridaemia and hyperglycaemia were independently associated with PINP and β-CTX. Hyperglycaemia was negatively associated with BUA, hypertriglyceridaemia with hip aBMD and radius cross-sectional area (CSA) and stress-strain index. HOMA-S was similarly associated with PINP and β-CTX, BUA, and radius CSA in BMI-adjusted models. CONCLUSIONS Men with MetS have higher aBMD in association with their greater body mass, while their lower bone turnover and relative deficits in heel BUA and radius CSA are mainly related to correlates of insulin sensitivity. Our findings support the hypothesis that underlying metabolic complications may be involved in the bone's failure to adapt to increasing bodily loads in men with MetS.
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9.
[Updates on Lifestyle-Related Diseases and Bone Metabolism. The metabolic syndrome and bone metabolism].
Yamaguchi, T
Clinical calcium. 2014;(11):1599-604
Abstract
The metabolic syndrome is featured by the combination of obesity induced by visceral fat accumulation, dyslipidemia, hyperglycemia, and hypertension. It is well documented that obesity and body weight increase are positively linked to increased bone mineral density (BMD) and reduced fracture risk of weight-bearing bones through mechanical stress. On the other hand, inflammatory cytokines secreted from visceral fat and advanced glycation products induced by hyperglycemia tend to reduce BMD and to increase fracture risk in contrast to obesity. Thus, BMD and fracture risk in patients with the metabolic syndrome may be determined by the balance between the beneficial effect of obesity and detrimental ones of inflammatory cytokines and hyperglycemia on bone.
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10.
Calcidiol [25(OH)D3]: from diagnostic marker to therapeutical agent.
Brandi, ML, Minisola, S
Current medical research and opinion. 2013;(11):1565-72
Abstract
OBJECTIVE Osteoporosis is a skeletal disorder characterized by diminished bone strength, which results in an increased risk of fracture. Currently, osteoporosis is a public health priority due to the large number of individuals affected and the detrimental effect on quality of life. Primary osteoporosis, the most common form, usually results from age-related reduction in bone mineral strength. Over time, the individual's capacity to build bone is impaired, as the synthesis of vitamin D, the hormone responsible for calcium absorption, tends to decline. As serum calcium levels decrease, metabolic control serves to increase the removal of calcium from the skeleton to make up for the deficit. The synthesis of the 'hormone' vitamin D and its control therefore become central to intervention in involutional osteoporosis syndromes. In humans, plain vitamin D (cholecalciferol), also called parental or native vitamin D, is photosynthesized in the skin and then hydroxylated in the liver into the vitamin D analog calcidiol [25(OH)D3], which is hydroxylated again in the kidney into the vitamin D analog calcitriol [1,25(OH)2D3]. The advantage of administering vitamin D analogs is that the pro-drug calcidiol avoids the effect of declines in hepatic function, while calcitriol avoids the effect of declines in hepatic and kidney function. A strategy to enhance [25(OH)D3] levels to the optimal threshold of vitamin D is supplementation with the calcidiol metabolite itself. The goal of this paper is to review published studies on the efficacy of the calcidiol metabolite in increasing 25(OH)D3 serum levels and improving skeletal health parameters in humans. METHODS A library search of published papers in the area of use of calcidiol in humans from 1967 to 2013 was performed (key words: calcidiol, 25-hydroxy-vitamin D3, vitamin D supplementation, vitamin D metabolism, osteomalacia). RESULTS AND CONCLUSION The results of the survey made it possible to conclude that calcidiol is characterized by a number of features that make the compound ideal in conditions that require supplementation with a 25-hydroxylated metabolite.