Renal agenesis

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Renal agenesis

Renal system


Renal agenesis


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Renal agenesis

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A 24-year-old gravida 1 para 0 woman at 27 weeks of gestation comes to the office for evaluation of a low amniotic fluid index discovered on a biophysical profile. The pregnancy has been complicated by gestational diabetes mellitus. The patient is currently on an insulin regimen. Fetal ultrasonography shows bilateral absence of the kidneys. The doctor explains to the mother that this is most likely due to aberrant interaction between the ureteric bud and metanephric mesenchyme. Which of the following structures does the ureteric bud give rise to under normal conditions?  

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Bilateral renal agenesis

oligohydramnios and p. NaN

Potter sequence p. 602

pulmonary hypoplasia and p. 684

Renal agenesis

bilateral p. 602

unilateral p. 603

Unilateral renal agenesis p. 603

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Alright, so renal agenesis—genesis is the origin or formation of something, and the prefix a means not, and renal refers to the kidneys, so renal agenesis is when the kidneys don’t form. Since there are two kidneys, renal agenesis can refer to just one kidney not developing, called unilateral renal agenesis, or URA, or neither kidney developing, called bilateral renal agenesis, or BRA.

Alright so during fetal development, first off, you’ve got this structure called the mesonephric duct which is involved in development of urinary and reproductive organs, and during the 5th week of gestation, a little guy called the ureteric bud starts pushing its way into another structure called the metanephric blastema, and together, these two little embryologic structures go on to develop into a kidney. At about the 7th week, nephrogenesis, or formation of the kidneys, starts under the influence of that ureteric bud.

By about 20 weeks, the ureteric bud has formed the ureters, the renal calyces, collecting ducts, and collecting tubules, while the metanephric blastema develops into the nephron itself, which includes the epithelial cells and the podocytes of the Bowman’s capsule.

In the third trimester and throughout infancy, the kidneys continue to grow and mature.

With renal agenesis, the ureteric bud fails to induce development of the metanephric blastema, and so either one or both kidneys don’t develop. Although not completely known, it’s thought that this is a result of a combination of genetic as well as in utero environmental factors like toxins and infections.

Newborns with unilateral renal agenesis are usually asymptomatic if the other kidney’s otherwise healthy. Now that one kidney’s doing all the filtering, though, over time unilateral renal agenesis can lead to hypertrophy, or growth of the kidney, which later in life can increase the risk of hypertension as well as renal failure.


Renal agenesis is a medical condition in which fetal kidneys fail to develop, it may be either unilateral or bilateral. This results in the absence of one or both kidneys, which can lead to several complications. Bilateral renal agenesis is incompatible with life because prolonged absence of amniotic fluid results in pulmonary hypoplasia leading to severe respiratory insufficiency at birth.

People with unilateral renal agenesis may have no symptoms, while others may experience symptoms such as high blood pressure, swelling, and difficulty urinating. Diagnosis of renal agenesis can be done through imaging tests such as ultrasound, CT scan, or MRI. Treatment typically involves managing symptoms and complications, such as high blood pressure and kidney failure. In cases of bilateral renal agenesis, dialysis or a kidney transplant may be necessary.


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  2. "Harrison's Principles of Internal Medicine, Twentieth Edition (Vol.1 & Vol.2)" McGraw-Hill Education / Medical (2018)
  3. "Pathophysiology of Disease: An Introduction to Clinical Medicine 8E" McGraw-Hill Education / Medical (2018)
  4. "CURRENT Medical Diagnosis and Treatment 2020" McGraw-Hill Education / Medical (2019)
  5. "Control of Murine Kidney Development by Sonic Hedgehog and its GLI Effectors" Cell Cycle (2006)
  6. "A Gene Implicated in Activation of Retinoic Acid Receptor Targets Is a Novel Renal Agenesis Gene in Humans" Genetics (2017)
  7. "Special Imaging Casebook" Journal of Perinatology (2000)

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