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Acute Kidney Injury II: Pathophysiology01:29

Acute Kidney Injury II: Pathophysiology

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Acute kidney injury (AKI) causes are categorized into three primary categories based on the location of the injury: prerenal, intrarenal (or intrinsic), and postrenal causes. This classification guides clinical management and illustrates how different pathways can impair kidney function.Etiology and Pathophysiology of Acute Kidney Injury1. Prerenal causesEtiology: Prerenal Acute Kidney Injury, the most common type, occurs when reduced blood flow to the kidneys decreases filtration capacity...
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Renal Corpuscle01:20

Renal Corpuscle

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The glomerulus and Bowman's capsule are two essential components of the nephron, which is the functional unit of the kidney. These microscopic structures play a critical role in the process of blood filtration to produce urine.
Glomerulus: Structure and Function
The glomerulus is a tiny, intricate network of capillaries located at the beginning of the nephron. It's enveloped by the Bowman's capsule and receives its blood supply from an afferent arteriole, which divides into numerous...
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Drug Elimination by Renal Route: Tubular Secretion01:15

Drug Elimination by Renal Route: Tubular Secretion

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Once the process of glomerular filtration is completed, blood carrying unfiltered drug molecules traverses through efferent arterioles and makes its way into the peritubular capillaries in the proximal tubule. A variety of carriers play a pivotal role in actively secreting drugs from these peritubular capillaries into the tubular fluid. The organic anion transporter transfers acidic drugs, against an electrochemical gradient, from the peritubular capillaries into the renal tubule cells and...
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Nephrons01:10

Nephrons

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The kidneys are intricate organs with millions of working units known as nephrons. Each nephron features two major structures: the renal corpuscle, which facilitates blood plasma filtration, and the renal tubule, which handles the glomerular filtrate. Blood supply is directly linked to the nephrons. The renal corpuscle consists of the glomerulus, a capillary network, and the Bowman's capsule, a double-walled epithelial structure that encases the glomerulus. The filtering of blood plasma...
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Renal Drug Excretion: Glomerular Filtration01:02

Renal Drug Excretion: Glomerular Filtration

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The kidney serves as the primary organ responsible for eliminating drugs and their metabolites from the body. This process, known as renal elimination, starts with glomerular filtration and results in urine formation. Each kidney houses millions of functional units called nephrons, where urine production occurs. A nephron has two main components: a renal corpuscle and a renal tubule.
Drugs gain access to the kidney via the renal artery, which progressively branches off into afferent arterioles....
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Renal Drug Excretion: Tubular Secretion01:28

Renal Drug Excretion: Tubular Secretion

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Active tubular secretion is a robust, energy-demanding process that utilizes carrier systems to transport drugs into renal tubules. The active renal secretion systems include the organic anion transporter (OAT) for weak acids and the organic cation transporter (OCT) for weak bases. Structurally similar drugs can compete for the same transporter, potentially leading to drug accumulation and toxicity. However, this principle can be exploited therapeutically. One example is probenecid (Probalan),...
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Related Experiment Video

Updated: Mar 1, 2026

Analyses of Proteinuria, Renal Infiltration of Leukocytes, and Renal Deposition of Proteins in Lupus-prone MRL/lpr Mice
09:43

Analyses of Proteinuria, Renal Infiltration of Leukocytes, and Renal Deposition of Proteins in Lupus-prone MRL/lpr Mice

Published on: June 8, 2022

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Glomerulotubular relationships in glomerulonephritis.

D C Mazumdar, J T Crosson, H Lubowitz

    The Journal of Laboratory and Clinical Medicine
    |February 1, 1975
    PubMed
    Summary
    This summary is machine-generated.

    In rats with chronic glomerulonephritis, clearance techniques revealed intact glomerulotubular relationships and homogeneous nephron function, despite reduced filtration rates. Residual nephrons compensated after contralateral nephrectomy.

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    An Efficient Sieving Method to Isolate Intact Glomeruli from Adult Rat Kidney
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    An Efficient Sieving Method to Isolate Intact Glomeruli from Adult Rat Kidney

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    An Efficient Sieving Method to Isolate Intact Glomeruli from Adult Rat Kidney
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    An Efficient Sieving Method to Isolate Intact Glomeruli from Adult Rat Kidney

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    Area of Science:

    • Nephrology
    • Renal Physiology
    • Experimental Pathology

    Background:

    • Chronic glomerulonephritis can alter kidney function.
    • Understanding glomerulotubular relationships is crucial for assessing renal health.
    • Previous models often focused on non-glomerular lesions.

    Purpose of the Study:

    • To investigate glomerulotubular relationships in a rat model of chronic glomerulonephritis.
    • To assess nephron function homogeneity and filtration capacity.
    • To determine the kidney's adaptive response to nephron loss.

    Main Methods:

    • Utilized clearance techniques in rats with induced chronic glomerulonephritis.
    • Analyzed clearance ratios between kidneys to evaluate nephron homogeneity.
    • Performed glucose titration curves to assess glomerulotubular balance.
    • Monitored nephron filtration rate and response to contralateral nephrectomy.

    Main Results:

    • Clearance ratios were equal between kidneys, indicating homogeneous nephron function.
    • Normal glucose titration curves suggested intact glomerulotubular relationships.
    • Nephron filtration rate was reduced compared to controls.
    • Residual nephrons demonstrated an increased filtration rate post-nephrectomy.

    Conclusions:

    • Glomerulotubular relationships remain intact in this model of chronic glomerulonephritis.
    • Despite reduced filtration, the rat kidney retains adaptive capacity.
    • Homogeneous nephron function is maintained even with glomerular disease.