Evidence that the notochord may be pivotal in the development of sacral and anorectal malformations

Background/Purpose: The notochord is known to organize normal development of central axial structures, such as the spinal cord, vertebral column, and anorectum, but its role in abnormal development of these organs has not been well documented. The current study has used Ethylenethiourea to induce an...

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Bibliographic Details
Published in:Journal of Pediatric Surgery 2003-09, Vol.38 (9), p.1310-1316
Main Authors: Qi, Bao Quan, Beasley, Spencer W, Frizelle, Francis A
Format: Article
Language:English
Subjects:
Anal Canal - abnormalities
Anal Canal - embryology
Animals
anorectal malformation
Biological and medical sciences
Digestive System Abnormalities - chemically induced
Digestive System Abnormalities - embryology
Disease Models, Animal
Embryogenesis
Ethylenethiourea
Gastroenterology. Liver. Pancreas. Abdomen
General aspects
Malformations
Medical sciences
neural tube
Neural Tube Defects - chemically induced
Neural Tube Defects - embryology
notochord
Notochord - embryology
Organogenesis
rat
Rats
Spinal Cord - abnormalities
Spinal Cord - embryology
Spine - abnormalities
Spine - embryology
Stomach. Duodenum. Small intestine. Colon. Rectum. Anus
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Summary:Background/Purpose: The notochord is known to organize normal development of central axial structures, such as the spinal cord, vertebral column, and anorectum, but its role in abnormal development of these organs has not been well documented. The current study has used Ethylenethiourea to induce anorectal malformations in fetal rats, allowing investigation of abnormalities of the notochord and their relationship to the axial structural abnormalities that occur. Methods: Timed-mated pregnant rats were fed Ethylenethiourea by gavage on gestational day 10. Their embryos were harvested on gestational days 13 to 16 and sectioned in either the transverse or sagittal plane. Sections were stained with H & E and examined serially. Results: Anorectal malformations were identified in 29 of 34 embryos and neural tube defects in 24, ranging from an accessory neural tube to lumbo-sacral rachischisis. There was no tail or only a rudimentary tail in the majority of embryos. Abnormalities of the notochord in the lumbo-sacral area included ventro-dorsal branching, ventral deviation, and ectopic notochordal tissue. Most abnormal notochord branches and ectopic notochordal tissue were abnormally close to or in contact with the wall of the cloaca or neural tube. Conclusions: Given the known role of the notochord in controlling normal development, this study would suggest that abnormal notochord development may be pivotal in producing neural tube defects and anorectal malformations, possibly by altering sonic hedgehog signalling.
ISSN:0022-3468
1531-5037
DOI:10.1016/S0022-3468(03)00387-7