VANDA JORGETTI
Projetos de Pesquisa
Unidades Organizacionais
Instituto Central, Hospital das Clínicas, Faculdade de Medicina - Médico
LIM/16 - Laboratório de Fisiopatologia Renal, Hospital das Clínicas, Faculdade de Medicina - Líder
LIM/16 - Laboratório de Fisiopatologia Renal, Hospital das Clínicas, Faculdade de Medicina - Líder
6 resultados
Resultados de Busca
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- Mixed uremic osteodystrophy: an ill-described common bone pathology in patients with chronic kidney disease(2023) ELKHOULI, Ekbal; NAGY, Eman; SANTOS, Cassia Gomes S.; BARRETO, Fellype Carvalho; CHAER, Juliana; JORGETTI, Vanda; EL-HUSSEINI, AmrRenal osteodystrophy (ROD) starts early and progresses with further loss of kidney function in patients with chronic kidney disease (CKD). There are four distinct types of ROD based on undecalcified bone biopsy results. Adynamic bone disease and osteomalacia are the predominant forms of low bone turnover, while hyperparathyroid bone disease and mixed uremic osteodystrophy (MUO) are typically associated with high bone turnover. MUO is a prevalent but poorly described pathology that demonstrates evidence of osteomalacia on top of the high bone formation/resorption. The prevalence of MUO ranges from 5 to 63% among different studies. The pathogenesis of MUO is multi-factorial. Altered phosphate homeostasis, hypocalcemia, vitamin D deficiency, increased FGF-23, interleukins 1 and 6, TNF-& alpha;, amyloid, and heavy metal accumulation are the main inducers of MUO. The clinical findings of MUO are usually non-specific. The use of non-invasive testing such as bone turnover markers and imaging techniques might help to suspect MUO. However, it is usually impossible to precisely diagnose this condition without performing bone biopsy. The principal management of MUO is to control the maladaptive hyperparathyroidism along with correcting any nutritional mineral deficiencies that may induce mineralization defect. MUO is a common but still poorly understood bone pathology category; it demonstrates the complexity and difficulty in understanding ROD. A large prospective bone biopsy-based studies are needed for better identification as proper diagnosis and management would improve the outcome of patients with MUO.
- Ethnic differences in bone and mineral metabolism in healthy people and patients with CKD(2014) JORGETTI, Vanda; REIS, Luciene M. dos; OTT, Susan M.Several studies have shown racial differences in the regulation of mineral metabolism, in the acquisition of bone mass and structure of individuals. In this review, we examine ethnic differences in bone and mineral metabolism in normal individuals and in patients with chronic kidney disease. Black individuals have lower urinary excretion and increased intestinal calcium absorption, reduced levels of 25(OH)D, and high levels of 1.25(OH)(2)D and parathyroid hormone (PTH). Body phosphorus concentration is higher and the levels of FGF-23 are lower than in whites. Mineral density and bone architecture are better in black individuals. These differences translate into advantages for blacks who have stronger bones, less risk of fractures, and less cardiovascular calcification. In the United States of America, the prevalence of kidney disease is similar in different ethnic groups. However, black individuals progress more quickly to advanced stages of kidney disease than whites. This faster progression does not translate into increased mortality, higher in whites, especially in the first year of dialysis. Some ethnicity-related variations in mineral metabolism persist when individuals develop CKD. Therefore, black patients have lower serum calcium concentrations, less hyperphosphatemia, low levels of 25(OH)D, higher levels of PTH, and low levels of FGF-23 compared with white patients. Bone biopsy studies show that blacks have greater bone volume. The rate of fractures and cardiovascular diseases are also less frequent. Further studies are required to better understand the cellular and molecular bases of these racial differences in bone mineral metabolism and thus better treat patients.
- Pharmacotherapy of chronic kidney disease and mineral bone disorder(2011) BARRETO, Fellype Carvalho; OLIVEIRA, Rodrigo Azevedo de; OLIVEIRA, Rodrigo Bueno; JORGETTI, VandaIntroduction: Disturbances of the bone and mineral metabolism are a common complication of chronic kidney disease (CKD); these disturbances are known as CKD-mineral bone disorder (CKD-MBD). A better understanding of the pathophysiological mechanisms of CKD-MBD, along with its negative impact on other organs and systems, as well as on survival, has led to a shift in the treatment paradigm of this disorder. The use of phosphate binders changed dramatically over the last decade when noncalcium-containing phosphate binders, such as sevelamer and lanthanum carbonate, became possible alternative treatments to avoid calcium overload. Vitamin D receptor activators, such as paricalcitol and doxercalciferol, with fewer calcemic and phosphatemic effects, have also been introduced to control parathormone production and the interest in native vitamin D supplementation has grown. Furthermore, a new drug class, the calcimimetics, has recently been introduced into the therapeutic arsenal for treating secondary hyperparathyroidism. Areas covered: This review discusses the advantages and disadvantages of the above pharmacological options to treat CKD-MBD. Expert opinion: The individual-based use of phosphate binders, vitamin D and calcimimetics, separately or in combination, constitute a reasonable approach to treat CKD-MBD. These treatments aim to achieve a rigorous control of phosphorus and parathormone levels, while avoiding calcium overload.
- Time to rethink the use of bone biopsy to prevent fractures in patients with chronic kidney disease(2018) MARTINS, Carolina Steller Wagner; JORGETTI, Vanda; MOYSES, Rosa Maria AffonsoPurpose of reviewThe purpose of this review is to provide evidence to justify the use of bone biopsy data to guide decisions regarding fracture prevention in patients with chronic kidney disease (CKD). To date, no data can support the use of bone biopsy for this purpose. However, we believe that bone turnover, mineralization and volume (TMV) data might help decide, which therapy to use.Recent findingsPrevious bone biopsy-based prospective and intervention studies have used bone turnover as an outcome measure. Recent data have shown that bone volume (trabecular and cortical) and mineralization should also be evaluated. Moreover, crystal quality and osteocytic protein expression can be analyzed using bone fragments. Noninvasive analysis of bone volume and bone turnover markers can be performed during patient follow-up.SummaryOnly bone biopsy can provide information on the TMV parameters. Case reports and retrospective studies suggest that bone histomorphometric analysis can guide better therapeutic decisions to prevent fractures in patients with CKD. However, prospective data are still lacking.
- Calcificação vascular em doença renal crônica: uma revisão(2013) OLIVEIRA, Rodrigo Bueno de; OKAZAKI, Hirokazu; STINGHEN, Andrea E. Marques; DRüEKE, Tilman B.; MASSY, Ziad A.; JORGETTI, VandaVascular calcification (VC), an independent and strong predictor of cardiovascular risk, is often found in CKD patients. The degree of VC is providing incremental prognostic value over traditional risk markers. There is interest in improving our understanding of mechanisms, establishing diagnostic methods and effective prevention and treatment modalities. The abnormal mineral metabolism of CKD is known to facilitate the progression of VC, in concert with altered activities of VC inhibitors. Possible measures to prevent VC include the control of serum calcium and phosphate as well as other factors involved in its progression, including vitamin D sterols, parathyroid hormone, fibroblast growth factor-23, klotho, and VC inhibitors. In addition, we discuss new possible therapeutic approaches to halt VC or reverse its progression. The principal aim of this review is to provide an updated overview of VC in patients with CKD, with particular focus on pathophysiology, diagnosis, prevention and treatment.
- Vitamin K plasma levels determination in human health(2017) FUSARO, Maria; GALLIENI, Maurizio; RIZZO, Maria Antonietta; STUCCHI, Andrea; DELANAYE, Pierre; CAVALIER, Etienne; MOYSES, Rosa M. A.; JORGETTI, Vanda; IERVASI, Giorgio; GIANNINI, Sandro; FABRIS, Fabrizio; AGHI, Andrea; SELLA, Stefania; GALLI, Francesco; VIOLA, Valentina; PLEBANI, MarioVitamin K (phylloquinone or vitamin K 1 and menaquinones or vitamin K 2) plays an important role as a cofactor in the synthesis of hepatic blood coagulation proteins, but recently has also aroused an increasing interest for its action in extra-hepatic tissues, in particular in the regulation of bone and vascular metabolism. The accurate measurement of vitamin K status in humans is still a critical issue. Along with indirect assays, such as the undercarboxylated fractions of vitamin K-dependent proteins [prothrombin, osteocalcin (OC), and matrix gla protein], the direct analysis of blood levels of phylloquinone and menaquinones forms might be considered a more informative and direct method for assessing vitamin K status. Different methods for direct quantification of vitamin K serum levels are available. High-performance liquid chromatography (HPLC) methods coupled with post-column reduction procedures and fluorimetric or electrochemical detection are commonly used for food and blood analysis of phylloquinone, but they show some limitations when applied to the analysis of serum menaquinones because of interferences from triglycerides. Recent advancements include liquid chromatography tandem mass spectrometry (LCMS/MS) detection, which assures higher specificity. The optimization and standardization of these methods requires specialized laboratories. The variability of results observed in the available studies suggests the need for further investigations to obtain more accurate analytical results.