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Related Concept Videos

Shunt Admittances01:26

Shunt Admittances

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Shunt admittances play a crucial role in the analysis of transmission lines, particularly for three-phase systems with neutral conductors. When a uniformly charged conductor is positioned above the Earth, it induces an equal but opposite charge on its surface. This interaction creates electric field lines between the conductor and the Earth.
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Lumber defects, which can affect both the appearance and structural integrity of wood, include a variety of growth and manufacturing flaws. Growth defects such as knots and knotholes occur where branches were once attached to the tree trunk, with knotholes forming when these knots fall out. Other natural defects include decay and insect damage, which compromise the wood's strength and durability.
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The uterine or fallopian tubes function as the conduit through which oocytes travel from the ovaries to the uterus. Each fallopian tube measures approximately 10 to 13 cm long and is anatomically divided into the infundibulum, ampulla, isthmus, and interstitial part (or intramural segment). The infundibulum is characterized by its funnel shape and features extensions called fimbriae which reach towards the peritoneal cavity. These fimbriae play a critical role during ovulation as they extend...
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Endotracheal tube extubation is a critical procedure in weaning patients from mechanical ventilation. It involves physically removing the oral or nasal endotracheal (ET) tube, marking the final step in liberating a patient from ventilatory support.
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Isolation and Culture of Neural Crest Cells from Embryonic Murine Neural Tube
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Isolated Post-Shunt Metopic Synostosis and Neural Tube Defects.

William Abouhassan1, John Kuang Chao2, Ananth S Murthy3

  • 1Department of Plastic Surgery, The Ohio State University, Columbus.

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Ventricular shunting for hydrocephalus can rarely cause craniosynostosis, particularly in infants with neural tube defects (NTDs). Early shunt placement increases this risk, necessitating close monitoring for complications like overdrainage and cranial deformity.

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Area of Science:

  • Neurosurgery
  • Pediatric Neurology
  • Craniofacial Surgery

Background:

  • Craniosynostosis is a rare complication following cerebrospinal fluid (CSF) shunting for congenital hydrocephalus.
  • This study examines the relationship between shunting procedures and the development of secondary craniosynostosis, particularly in infants with neural tube defects (NTDs).

Observation:

  • A case of a neonate with myelomeningocele who developed trigonocephaly and slit ventricle syndrome after ventricular shunting for hydrocephalus is presented.
  • Literature review identified 78 patients with secondary craniosynostosis post-shunting, with 30.5% having an associated NTD.

Findings:

  • Patients with NTDs and secondary craniosynostosis experienced earlier shunt placement compared to those without NTDs.
  • The study highlights a statistically significant earlier age of shunt placement in patients with NTDs (P=.001).

Implications:

  • Early ventricular shunting in infants with NTDs poses a significant risk for developing craniosynostosis and cranial deformities.
  • Close clinical and radiological follow-up is crucial after shunting to detect and manage potential complications such as overdrainage and synostosis.