A New Data Analysis System to Quantify Associations between Biochemical Parameters of Chronic Kidney Disease-Mineral Bone Disease

Rodriguez, Mariano; Salmeron, Marcello; Martín‐Malo, Alejandro; Barbieri, C.; Mari, Flavio; Molina, Rafael I.; Costa, Pedro; Aljama, Pedro

doi:10.1371/journal.pone.0146801

Cited by 26 publications

(10 citation statements)

References 35 publications

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“…NNs were used to predict HD patients who need more frequent vitamin D dosage, using only simple clinical parameters [38]. However, analysis of the complex interactions between mineral metabolism parameters in ESRD may demand a more advanced data analysis system such as random forest (RF) [39].…”

Section: Biomed Research Internationalmentioning

confidence: 99%

Using Artificial Intelligence Resources in Dialysis and Kidney Transplant Patients: A Literature Review

Burlacu

Iftene

Jugrin

et al. 2020

BioMed Research International

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Background. The purpose of this review is to depict current research and impact of artificial intelligence/machine learning (AI/ML) algorithms on dialysis and kidney transplantation. Published studies were presented from two points of view: What medical aspects were covered? What AI/ML algorithms have been used? Methods. We searched four electronic databases or studies that used AI/ML in hemodialysis (HD), peritoneal dialysis (PD), and kidney transplantation (KT). Sixty-nine studies were split into three categories: AI/ML and HD, PD, and KT, respectively. We identified 43 trials in the first group, 8 in the second, and 18 in the third. Then, studies were classified according to the type of algorithm. Results. AI and HD trials covered: (a) dialysis service management, (b) dialysis procedure, (c) anemia management, (d) hormonal/dietary issues, and (e) arteriovenous fistula assessment. PD studies were divided into (a) peritoneal technique issues, (b) infections, and (c) cardiovascular event prediction. AI in transplantation studies were allocated into (a) management systems (ML used as pretransplant organ-matching tools), (b) predicting graft rejection, (c) tacrolimus therapy modulation, and (d) dietary issues. Conclusions. Although guidelines are reluctant to recommend AI implementation in daily practice, there is plenty of evidence that AI/ML algorithms can predict better than nephrologists: volumes, Kt/V, and hypotension or cardiovascular events during dialysis. Altogether, these trials report a robust impact of AI/ML on quality of life and survival in G5D/T patients. In the coming years, one would probably witness the emergence of AI/ML devices that facilitate the management of dialysis patients, thus increasing the quality of life and survival.

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Section: Biomed Research Internationalmentioning

confidence: 99%

Using Artificial Intelligence Resources in Dialysis and Kidney Transplant Patients: A Literature Review

Burlacu

Iftene

Jugrin

et al. 2020

BioMed Research International

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“…To quantify the degree of association between the three parameters, Mariano et al developed a data analysis system by RF from 1,758 HD patients. Comparing with Classical statistical methods, the power of prediction of the new model was markedly increased [80]. In 2018, Kleiman et al [81] used RF algorithms to build model predicting risks for development of calciphylaxis in CKD patients.With an AUC value of 0.872, the model could successfully predict calciphylaxis, provide an opportunity for clinical translation of the predictive models.…”

Section: Chronic Kidney Disease Mineral and Bone Metabolism Disordersmentioning

confidence: 99%

Role of Artificial Intelligence in Kidney Disease

Yuan¹,

Zhang²,

Deng³

et al. 2020

Int. J. Med. Sci.

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Artificial intelligence (AI), as an advanced science technology, has been widely used in medical fields to promote medical development, mainly applied to early detections, disease diagnoses, and management. Owing to the huge number of patients, kidney disease remains a global health problem. Challenges remain in its diagnosis and treatment. AI could take individual conditions into account, produce suitable decisions and promise to make great strides in kidney disease management. Here, we review the current studies of AI applications in kidney disease in alerting systems, diagnostic assistance, guiding treatment and evaluating prognosis. Although the number of studies related to AI applications in kidney disease is small, the potential of AI in the management of kidney disease is well recognized by clinicians; AI will greatly enhance clinicians' capacity in their clinical practice in the future.

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“…During the early stages of CKD, both serum calcium (Ca) and P levels are maintained due to the elevation in FGF23 and PTH but these compensatory mechanisms fail with progressive deterioration of renal function. Then, serum Ca decreases and serum P increases, and both are responsible for the further development of SHPT . The low 1,25D 3 increases parathyroid function by acting on the parathyroid cell vitamin D receptor (VDR).…”

Section: Introductionmentioning

confidence: 99%

“…These failures have been ascribed to intrinsic factors associated with large hyperplasic parathyroid glands with decreased expression of VDR and Ca‐sensing receptors (CaSR). The inadequate response to 1,25D 3 is also attributed to a poor control of serum P . The abnormal parathyroid response to 1,25D 3 in uremic patients with severe parathyroid hyperplasia may be due, to a large extent, to the development of nodular hyperplasia as a result of the clonal transformation from diffuse hyperplasia .…”

Section: Introductionmentioning

confidence: 99%

Parathyroidectomy in dialysis patients: Indications, methods, and consequences

Rodríguez‐Ortiz

Mier

Rodríguez

2019

Seminars in Dialysis

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Secondary hyperparathyroidism, characterized by increased PTH synthesis and secretion, is often seen in advanced stages of chronic kidney disease. Excessive proliferation of parathyroid cells leads to the development of diffuse hyperplasia that subsequently progresses to nodular histology. Refractory hyperparathyroidism occurs when parathyroid glands fail to respond to medical therapy. Parathyroidectomy (PTX), surgical resection of parathyroid glands, is usually performed in cases of persistent serum levels of PTH above 1000 pg/mL associated with hypercalcemia or when hyperparathyroidism is refractory to conservative therapy. Parathyroidectomy can be carried out using different procedures: subtotal PTX or total PTX with or without parathyroid autotransplantation. Parathyroid surgery may have undesirable consequences due to PTH oversuppression, such as the development of adynamic bone disease; hungry bone syndrome is quite common after this surgery. However, PTX improves survival and parameters of mineral metabolism. Parathyroidectomy needs to be considered in those patients with severe hyperparathyroidism with a poor response to pharmacological treatment and with distinct undesirable effects of PTH on bone and mineral metabolism parameters. K E Y W O R D S chronic kidney disease, parathyroidectomy, secondary hyperparathyroidism wileyonlinelibrary.com/journal/sdi Seminars in Dialysis. 2019;32:444-451.

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A New Data Analysis System to Quantify Associations between Biochemical Parameters of Chronic Kidney Disease-Mineral Bone Disease

Cited by 26 publications

References 35 publications

Using Artificial Intelligence Resources in Dialysis and Kidney Transplant Patients: A Literature Review

Using Artificial Intelligence Resources in Dialysis and Kidney Transplant Patients: A Literature Review

Role of Artificial Intelligence in Kidney Disease

Parathyroidectomy in dialysis patients: Indications, methods, and consequences

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