Hemoglobin Archivi

Impatto del fosforo sierico sull’emoglobina: revisione della letteratura

Pubblicato il 1 agosto 2024Scarica PDF

Fortunata Zirino

DOI: 10.69097/41-04-2024-03

Fortunata Zirino¹, Antonella Lipari¹, Alessia Tigano¹, Alfio Edoardo Giuffrida¹, Concetto Sessa¹, Dario Galeano¹, Ivana Alessandrello¹, Roberta Maria Messina¹, Roberta Pilato², Walter Morale¹, Vincenzo Calabrese³

1 Unit of Nephrology and Dialysis, P.O. Maggiore “Nino Baglieri”, University of Messina, Messina, Italy
2 Department of General Surgery and Medical-Surgical Specialty, University of Catania, Catania, Italy
3 Unit of Nephrology and Dialysis, Department of Clinical and Experimental Medicine, A.O.U. 'G. Martino', University of Messina, Messina, Italy

Corrispondenza a:
Vincenzo Calabrese
v.calabrese@outlook.it
telephone number: +39 3208736905

Abstract

Il fosforo è un macroelemento presente nel nostro organismo principalmente sotto forma di cristalli di idrossiapatite. Un’alta concentrazione di fosforo sierico è riscontrata in pazienti affetti con insufficienza renale cronica. L’escrezione di fosforo tende a ridursi sin dai primi stadi di malattia renale cronica, ma l’aumento di PTH e FGF23 fanno sì che il suo livello sierico rimanga entro il range di normalità. Nell’ultima decade il ruolo dell’FGF23 nell’eritropoiesi è stato oggetto di studio, mostrando il suo impatto nella patogenesi dell’anemia nei pazienti affetti da CKD in terapia conservativa. Sia l’iperfosfatemia sia l’anemia sono complicanze della CKD, ma molti studi hanno posto l’ipotesi di un’associazione indipendente tra queste due complicanze. Infatti, il fosforo potrebbe essere considerato come un punto in comune di più vie eziopatogenetiche, indipendenti dalla malattia renale cronica: l’overproduzione di FGF23, l’invecchiamento vascolare e la compromissione dell’eritropoiesi.

Parole chiave: fosforo, emoglobina, anemia, malattia renale cronica, FGF23

Ci spiace, ma questo articolo è disponibile soltanto in inglese.

Introduction

Phosphorus is a macroelement found in the body; 85% of it is deposited in the bone as crystals of hydroxyapatite, 14% in the intracellular compartment as a component of nucleic acids, plasma membranes and involved in all cellular energetic processes, and only 1% is extracellular [1].

Of the latter, 70% is organic phosphorous and 30% is inorganic phosphorous. Inorganic phosphorous can be protein-bound, complexed with sodium, calcium, and magnesium, or circulating as mono- or di-hydrogen forms. About 800 mg of phosphorous is introduced with the food, and the kidneys filter across the glomerulus about 90% of the daily phosphate load. The residual 10% is excreted by the gastrointestinal system.

Chronic Kidney disease (CKD) impairs phosphorus excretion due to the reduction of the skillful nephron mass. As a consequence of this, parathyroid hormone (PTH) and fibroblast growth factor 23 (FGF-23) are over-secreted from the early stages of CKD, to prevent an increase in serum phosphorous concentration [2].

Both PTH and FGF23 increase phosphorus urinary excretion but, conversely to FGF23, PTH is related to serum calcium due to the relative activation of calcium-sensing receptor (CaSR). Indeed, PTH limits calcium gastrointestinal absorption because it reduces 1,25-dihydroxy vitamin D levels. This negative feedback tray maintains serum calcium and phosphorus within normal ranges in individuals with normal kidney function. The progression of renal disease causes the failure of this equilibrium and hypocalcemia, hyperphosphatemia, and tertiary hyperparathyroidism may occur.

Comparison between Creatinine Clearance and eGFRcyst-crea: a real-life experience

Pubblicato il 26 luglio 2022Scarica PDF

Vincenzo Calabrese

Vincenzo Calabrese ¹, Vincenzo Labbozzetta¹, Antonella Lipari¹, Valeria Labbozzetta¹, Guido Gembillo¹, Valeria Cernaro¹, Giovanni Luigi Tripepi², Domenico Santoro¹

1 Unit of Nephrology and Dialysis, Department of Clinical and Experimental Medicine, A.O.U. “G. Martino”, University of Messina, Messina, Italy
2 CNR-IBIM, Clinical Epidemiology and Physiopathology of Renal Diseases and Hypertension of Reggio Calabria, Reggio Calabria, Italy

Corresponding author
Vincenzo Calabrese,
Unit of Nephrology and Dialysis, Department of Clinical and Experimental Medicine, A.O.U. “G. Martino”, University of Messina, Messina, Italy
v.calabrese@outlook.it
Tel: +39 3208736905

Abstract

Introduction: The evaluation of renal function is computed using the estimated glomerular filtration rate methods or the measured glomerular filtration rate. Cystatin C has been well studied as marker of renal function compared to serum creatinine, but only few studies compare Glomerular Filtration Rates estimated including both creatinine and cystatin (eGFRcyst-crea) to creatinine clearance (CrCl). This cross-sectional study compares CrCl and eGFRcyst-crea with eGFRcrea and searches for correlation with comorbidities.
Methods: This cross-sectional study consists of 78 patients hospitalized for acute and/or chronic renal disease. We performed the concordance correlation coefficient analysis between the eGFRcrea and the CrCl and eGFRcyst-crea in the whole sample and in the various subgroups.
Results: Steiger’s comparison of correlations from dependent samples showed a correlation coefficient between C-reactive protein and eGFRcyst-crea stronger than between C-reactive protein and CrCl (Z: 2.51, p=0.012). Similar results were showed with the association with procalcitonin (Z: 5.24, p<0.001), serum potassium (Z: -3.13, p=0.002), and severe CKD (Z: -2.54, p=0.011). The concordance correlation coefficient test showed major differences between diagnostic methods compared to eGFR-crea in diabetic subgroup, severe CKD, and in procalcitonin higher than 0.5ng/ml. Discussion: The demonstration of a strong concordance between the eGFRcrea and the eGFRcyst-crea allows us to diagnose and to stage CKD better than creatinine clearance in patients with high inflammatory status. Furthermore, this information opens new research scenarios, and further, larger studies are needed to confirm these hypotheses.
Keywords: Phosphorus, Hemoglobin, Anemia, Chronic Kidney Disease, FGF23, Generalized estimating equation

Ci spiace, ma questo articolo è disponibile soltanto in inglese.

Introduction

The association of cystatin C with renal function has been studied for more than 25 years. Cystatin C has been described to have better diagnostic performance than creatinine for assessing renal function, particularly in detecting small reductions in glomerular filtration rate (GFR).

Since cystatin C is a low-molecular-weight protein produced by all nucleated cells, it is less influenced by variables such as age, body weight or diet and it has been proposed as a more reliable marker of kidney function than serum creatinine.