Harshad Chaudhari scite author profile

Acute oxalate nephropathy (AON) induced by high dietary intake of oxalate-rich food is a rare cause of acute kidney injury and end-stage renal disease (ESRD). We describe a 68-year-old man with adequate baseline renal function who developed severe AON and ESRD. Six months earlier, he started a daily oxalate-rich fruit and vegetable juice diet high in spinach, with a calculated daily oxalate dietary intake of 1500 mg, about 10 times a typical diet. Renal biopsy showed extensive tubular oxalate deposits and acute tubular damage; the renal tissue was relatively free of chronic changes such as glomerulosclerosis, tubular atrophy, and interstitial fibrosis. A year later, he remains dialysis dependent.

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Contrast-Induced Acute Kidney Injury: Evidence in Support of Its Existence and a Review of Its Pathogenesis and Management

Chaudhari¹,

Mahendrakar²,

Baskin³

et al. 2022

IJNRD

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The role of contrast-induced nephropathy (CIN) remains controversial. Many experts contend that CIN does not exist or is extremely rare. The diagnosis was previously made too frequently and inappropriately in the presence of coexisting and confounding comorbidities and risk factors making it difficult to singularly isolate the etiologic role of intravenous contrast media in acute kidney injury (AKI). It is probable that many patients were denied important diagnostic information from radiocontrast studies for fear of CIN. Recently, a new terminology for CIN was introduced, and the term CIN was replaced by two interrelated new terms: one is contrast-associated acute kidney injury (CA-AKI), and the second one is contrast-induced acute kidney injury (CI-AKI). CA-AKI occurs in association with risk factors or comorbidities, therefore, it is a correlative diagnosis. On the other hand, CI-AKI is a subtype of CA-AKI that results directly from iodinated contrast media. In this review, we present evidence from various studies that argue against CI-AKI and also those that suggest its existence but with much lower frequency. We will also provide the current status of the pathophysiology and management of CA-AKI/CI-AKI.

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Human Umbilical Cord Blood Therapy for Diabetes Mellitus : A Review

Chaudhari

Mahendrakar

Reddi

2022

MRAJ

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Stem cell therapy for patients with diabetes mellitus is receiving great attention among scientists and clinicians. Although bone marrow is considered one of the rich sources of stem cells, its limited availability of donors precludes its use for all the suitable patients. Human umbilical cord blood mononuclear cells or its-derived mesenchymal cells are being increasingly used as an alternative source of stem cells for cell-based therapy for malignant and nonmalignant diseases. Human umbilical cord blood cells have low potential for graft-versus-host disease and tumorigenicity. Also, no immunosuppression is required. Experimental evidence has shown that human umbilical cord blood -derived stem cells can differentiate into insulin-secreting β-cells. Transplantation of Human umbilical cord blood cells has been shown to improve blood glucose levels, and ameliorate kidney as well as neuropathic complications in diabetic animal models. Although the first use of autologous Human umbilical cord blood transfusion in type 1 diabetic children had a short-term beneficial effect in reducing the daily requirement of insulin dose and the maintenance of near normoglycemia, subsequent studies have failed to show this beneficial effect. In this review, we will provide both experimental and clinical evidence in favor and against the beneficial effect of human umbilical cord blood cells and cord blood-derived mesenchymal cells in the management of diabetes mellitus.

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Moderate hyperosmolar hyponatremia caused by excessive off-label use of icodextrin during peritoneal dialysis

Chaudhari¹,

Mahendrakar²,

Akporotu³

et al. 2023

CNCS

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Icodextrin use during the long dwell of a peritoneal dialysis (PD) regimen is commonly used to increase ultrafiltration. Its use may cause a mild and clinically insignificant degree of hyponatremia. We describe a patient who was admitted twice to our medical center on an atypical continuous ambulatory peritoneal dialysis (CAPD) regimen utilizing solely icodextrin with 2 exchanges (12-hour dwells). On both admissions, he had hyperosmolar hyponatremia in the 120-mmol/L range with a large osmolal gap. After icodextrin was stopped and his PD prescription was switched to dextrose solutions, both hyponatremia corrected and the osmolal gap quickly disappeared. The accumulation of osmotically active solute in extracellular fluids results in efflux of water from the cellular compartment and produces both hyponatremia and hypertonicity [ 1 ]. This tonic effect occurs most frequently with hyperglycemia, but other substances can also cause this, including mannitol, sorbitol, glycine, and maltose [ 1 , 2 ]. In this report, we present a patient with end-stage renal disease (ERSD) on an atypical off-label PD regimen utilizing solely icodextrin solutions who developed hyperosmolar hyponatremia in the 120-mmol/L range, with a large osmolal gap. This appeared to be due to absorbed metabolites of icodextrin, mainly maltose.

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