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Niemann-Pick disease types A and B (NORD)
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Genetics

Genetics

Population genetics
Mendelian genetics and punnett squares
Hardy-Weinberg equilibrium
Inheritance patterns
Independent assortment of genes and linkage
Evolution and natural selection
Genetic disorders
Down syndrome (Trisomy 21)
Edwards syndrome (Trisomy 18)
Patau syndrome (Trisomy 13)
Fragile X syndrome
Huntington disease
Myotonic dystrophy
Friedreich ataxia
Turner syndrome
Klinefelter syndrome
Prader-Willi syndrome
Angelman syndrome
Beckwith-Wiedemann syndrome
Cri du chat syndrome
Williams syndrome
Alagille syndrome (NORD)
Achondroplasia
Polycystic kidney disease
Familial adenomatous polyposis
Familial hypercholesterolemia
Hereditary spherocytosis
Huntington disease
Li-Fraumeni syndrome
Marfan syndrome
Multiple endocrine neoplasia
Myotonic dystrophy
Neurofibromatosis
Treacher Collins syndrome
Tuberous sclerosis
von Hippel-Lindau disease
Albinism
Polycystic kidney disease
Cystic fibrosis
Friedreich ataxia
Gaucher disease (NORD)
Glycogen storage disease type I
Glycogen storage disease type II (NORD)
Glycogen storage disease type III
Glycogen storage disease type IV
Glycogen storage disease type V
Hemochromatosis
Mucopolysaccharide storage disease type 1 (Hurler syndrome) (NORD)
Krabbe disease
Leukodystrophy
Niemann-Pick disease types A and B (NORD)
Niemann-Pick disease type C
Primary ciliary dyskinesia
Phenylketonuria (NORD)
Sickle cell disease (NORD)
Tay-Sachs disease (NORD)
Alpha-thalassemia
Beta-thalassemia
Wilson disease
Fragile X syndrome
Alport syndrome
X-linked agammaglobulinemia
Fabry disease (NORD)
Glucose-6-phosphate dehydrogenase (G6PD) deficiency
Hemophilia
Mucopolysaccharide storage disease type 2 (Hunter syndrome) (NORD)
Lesch-Nyhan syndrome
Muscular dystrophy
Ornithine transcarbamylase deficiency
Wiskott-Aldrich syndrome
Mitochondrial myopathy
Autosomal trisomies: Pathology review
Muscular dystrophies and mitochondrial myopathies: Pathology review
Miscellaneous genetic disorders: Pathology review

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Niemann-Pick disease types A and B (NORD)

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6 pages
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Niemann-Pick disease types A and B (NORD)

12 flashcards
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USMLE® Step 1 style questions USMLE

2 questions
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A 5-month-old girl undergoes evaluation for failure to thrive. The parents are concerned that she is no longer able to sit or roll over on her own, despite being able to a few weeks ago. She was born at term with a birth weight of 2.5-kg (5.5-lb). Her current height and weight are below the 10th percentile, while at her previous visit 2 months ago, she was in the 40th percentile for both. Vitals are within normal limits. Physical examination reveals marked hypotonia throughout, with decreased deep tendon reflexes noted bilaterally in the upper and lower extremities. Abdominal examination is notable for hepatosplenomegaly. Fundoscopic examination is shown below:



By Achim Fieß, Ömer Cal, Stephan Kehrein, Sven Halstenberg, Inez Frisch, Ulrich Helmut Steinhorst
Reproduced from Wikimedia Commons" style="max-height: 25px; max-width: 25px;">Wikimedia Commons

If further testing is performed, which of the following enzymes is most likely to be deficient in this patient?  

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Transcript

Content Reviewers:

Rishi Desai, MD, MPH

Contributors:

Evan Debevec-McKenney

Niemann-Pick disease type A and type B, or NPD-A and NPD-B, which are subtypes of acid sphingomyelinase or ASM deficiency, are rare, genetically inherited conditions characterized by the inability to break down a fat called sphingomyelin due to a deficiency of the enzyme, acid sphingomyelinase.

There’s also Niemann-Pick disease type C, which is known to be caused by mutations in the genes NPC1 and NPC2, and is therefore considered to be distinct from types A and B.

Sphingomyelin is a fat that's included in the membrane of many different cells.

When cells become old or damaged, they are often phagocytized, or eaten, by macrophages, which are cells of the immune system.

They contain organelles called lysosomes that are said to function as recycling centers because they break down large, potentially harmful substances to be reused by the body.

They break down sphingomyelin by using an enzyme called acid sphingomyelinase, which is a product of the sphingomyelin phosphodiesterase 1, or SMPD1 gene.

In Niemann-Pick disease types A and B, there’s a mutation in the SMPD1 gene that causes a defect in the production of sphingomyelinase, leading to an inability to break down sphingomyelin.

In NPD-A there’s almost a complete absence of sphingomyelinase activity, while NPD-B has some residual sphingomyelinase activity remaining.

While the mechanism isn’t completely understood, sphingomyelin primarily accumulates in the lysosomes of macrophages, which travel throughout the body and cause damage in multiple organs and tissues.

The macrophages develop a characteristic lipid-laden appearance under microscopes and are called “foam cells.”

Sphingomyelin can also build up in other cell types in the body, reflecting impaired intracellular recycling of membranes and damaged organelles in lysosomes due to sphingomyelinase deficiency.

Signs and symptoms of NPD-A present early in life, and are usually life-threatening.

These include enlargement of the liver and/or spleen, jaundice, feeding difficulties, and progressive loss of reflexes and muscle tone.

Infants also often develop a “cherry red spot” in the eye that affects the macula, which corresponds with a decrease in central vision.

Summary

Niemann-Pick disease (NPD) type A and type B, are rare inherited conditions characterized by the inability to break down sphingomyelin, due to a deficiency of the enzyme acid sphingomyelinase. Niemann-Pick disease type A and type B result from SMPD1 gene mutation, which normally encodes to sphingomyelinase enzyme.

NPD-A symptoms present early in life and may include hepatosplenomegaly, jaundice, feeding difficulties, and progressive loss of reflexes and muscle tone. It is also often associated with a cherry red spot � in the eye, which affects the macula and impairs central vision. Usually, NPD-A becomes fatal by the age of 3 years old.

On the other hand, NPD-B represents a less severe condition that typically does not include neurologic involvement, and can develop at any time in life. Common NPD-B symptoms include progressive splenomegaly, which causes low serum platelet and white blood cell levels, high cholesterol, and declining lung function. There is no cure for NPA and NPB, and treatment is supportive and focuses on managing symptoms.