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Related Concept Videos

Shunt Admittances01:26

Shunt Admittances

193
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.
To model this effect, the method of images is employed. This method involves replacing the Earth with an image conductor that mirrors the original...
193

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Bioelectric Analyses of an Osseointegrated Intelligent Implant Design System for Amputees
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Shunt Implants - Past, Present and Future.

Dwarakanath Srinivas1, Gaurav Tyagi1, Gyani J Singh1

  • 1Department of Neurosurgery, NIMHANS, Bengaluru, Karnataka, India.

Neurology India
|February 1, 2022
PubMed
Summary
This summary is machine-generated.

Hydrocephalus treatment has advanced significantly with shunt technology, evolving from ancient methods to modern, AI-driven systems. Future innovations promise more individualized care for complex hydrocephalus cases.

Keywords:
History of neurosurgeryhydrocephalusmedical-grade siliconeshunt hardwareshunt historyshunt valvesventricular catheterventriculoperitoneal shunt

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Area of Science:

  • Neurosurgery
  • Biomedical Engineering
  • Medical History

Background:

  • Hydrocephalus management has progressed from historical enigmas to advanced bioprosthetics.
  • Recent decades show major advancements in shunt hardware and technology, including flow-regulating valves and silicone biomaterials.

Purpose of the Study:

  • To trace the historical evolution of shunts used in hydrocephalus treatment.
  • To explore future directions in shunt technology and hydrocephalus management.

Main Methods:

  • Reviewing the history and development of shunt technology and hardware.
  • Examining the prehistoric, pre-shunt, and modern eras of shunt development.
  • Discussing shunt system components and pioneering figures.

Main Results:

  • Shunt development spans from ancient practices to sophisticated modern systems.
  • Technological progress includes advanced flow regulators and biomaterials like medical-grade silicone.

Conclusions:

  • Shunts have evolved from early concepts to incorporate in vivo biosensors, AI, and computational fluid dynamics.
  • These advancements enable highly individualized and effective management for complex hydrocephalus.