Updating technology of shunt valves

Oliveira, Matheus Fernandes de; Pereira, Renan Muralho; Pinto, Fernando

doi:10.5935/medicalexpress.2014.04.01

Cited by 4 publications

(3 citation statements)

References 32 publications

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“…157 The most common type used in current clinical practice is the ventriculoperitoneal (VP) shunt, which is designed to drain excessive fluid to the abdominal cavity, 158 thus reducing the ICP when it becomes too high. While standard shunts are based on mechanical resistance to pressure, such that when the pressure increases, a valve opens and reduces the ICP, 159 in recent years, a new class of shunts have emerged in different stages of development, which integrate implantable sensors. These utilize electronic components 60,160 such as flow and pressure sensors to maintain ICP at physiological levels 160 and detect shunt failure.…”

Section: Types and Applications Of Implantable Sensors: An Overviewmentioning

confidence: 99%

Current state of the art and future directions for implantable sensors in medical technology: Clinical needs and engineering challenges

Yogev,

Goldberg,

Arami

et al. 2023

APL Bioengineering

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Implantable sensors have revolutionized the way we monitor biophysical and biochemical parameters by enabling real-time closed-loop intervention or therapy. These technologies align with the new era of healthcare known as healthcare 5.0, which encompasses smart disease control and detection, virtual care, intelligent health management, smart monitoring, and decision-making. This review explores the diverse biomedical applications of implantable temperature, mechanical, electrophysiological, optical, and electrochemical sensors. We delve into the engineering principles that serve as the foundation for their development. We also address the challenges faced by researchers and designers in bridging the gap between implantable sensor research and their clinical adoption by emphasizing the importance of careful consideration of clinical requirements and engineering challenges. We highlight the need for future research to explore issues such as long-term performance, biocompatibility, and power sources, as well as the potential for implantable sensors to transform healthcare across multiple disciplines. It is evident that implantable sensors have immense potential in the field of medical technology. However, the gap between research and clinical adoption remains wide, and there are still major obstacles to overcome before they can become a widely adopted part of medical practice.

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Section: Types and Applications Of Implantable Sensors: An Overviewmentioning

confidence: 99%

Current state of the art and future directions for implantable sensors in medical technology: Clinical needs and engineering challenges

Yogev,

Goldberg,

Arami

et al. 2023

APL Bioengineering

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show abstract

“…Initial valves belonged to the group of first-generation differential pressure shunts and consisted of following working mechanisms: ball and cone, diaphragm, proximal slit and distal slit. Interestingly, the four technical principles for the construction of the first-generation valves were already established even before 1960 (2,11,12). The second generation of shunts aimed to decrease the incidence of overdrainage.…”

Section: Technological Developmentsmentioning

confidence: 99%

Shunt Technology in Pediatric Neurosurgery: Current options and Scientific Evidence

2020

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Introduction: Hydrocephalus is the most common neurosurgical condition among children worldwide and shunt diversion of the cerebral-spinal fluid (CSF) has been widely available. The aim of the present study was to perform a systematic review on types and models of shunt devices available and critically evaluate scientific evidence in favor of the usage of specific technologies. Methods: Searches of the PubMed database were performed for relevant articles published from until March 2020. Appropriate keywords were used to identify all studies, including: “shunt”, “technology”, “hydrocephalus”, “children”, “pediatric”. The indications and scientific evidence in favor of the usage of specific shunt technology for the treatment of hydrocephalus according to age, underlying pathology and other features of specific patients were discussed under the light of the current literature. Results: A total of 178 peer-reviewed papers were found. Out of them, only 21 matched our inclusion criteria and were finally selected. The papers were reviewed and described technology discussed below. A summary of the main types of shunts commercially available worldwide, including their respective working mechanism and construction was also included. Conclusion:Shunt technology has evolved during the last decades and continues to be intensively developed. Despite of the huge arsenal of different types of shunt systems currently available on the market, the treatment of hydrocephalus remains challenging. Investment in research, education and training, as well as prospective randomized multicentric controlled trials evaluating the role of specific valves in the treatment of individual group of hydrocephalic pediatric patients are urgently needed.

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“…Portanto, a hidrocefalia relacionada com Chiari Tipo I é chamada de "Hidrocefalia Obstrutiva", a qual está relacionada então com a obstrução dos forames de Magendie e Luscka, impedindo o fluxo liquórico para o espaço subaracnóideo e elevando a quantidade de LCR nas cavidades intracranianas, gerando então uma hipertensão intracraniana e dilatação dos ventrículos cerebrais. A prevalência conhecida da anomalia é 1 a cada 1.000 a 5.000 pessoas 4,[9][10][11][12] .…”

Section: Introductionunclassified

Malformação de Chiari: relato de experiência

Paulino,

Mascarenhas,

Anselmo

et al. 2023

GANJ

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Objetivou-se produzir um relato de experiência sobre uma paciente com vários acometimentos referentes a síndrome de Chiari tipo I, sendo abordado também outros achados encontrados na mesma. A paciente descrita no caso foi previamente diagnosticada com a Malformação de Arnold-Chiari tipo I, a qual se caracteriza pela existência de uma ectopia das amígdalas cerebelares, que se situam por debaixo do forame magno. Tal paciente tem todos os critérios clínicos, laboratoriais e de imagem para esta patologia. A Malformação de Chiari tipo I é a projeção das amígdalas cerebelares, em direção ao forame magno. Essa projeção comprime o tronco encefálico e a medula espinhal; portanto há o acometimento dos nervos cranianos. Vale ressaltar, que há obstrução parcial ou total do aqueduto cerebral. Conclui-se, que o Chiari I, por acometer o cerebelo e estruturas adjacentes, traz sintomas generalistas o que dificulta diagnóstico. Os esforços devem se destinar ao aperfeiçoamento de técnicas cirúrgicas eficazes que diminua as complicações e sequelas ao paciente.

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Updating technology of shunt valves

Cited by 4 publications

References 32 publications

Current state of the art and future directions for implantable sensors in medical technology: Clinical needs and engineering challenges

Current state of the art and future directions for implantable sensors in medical technology: Clinical needs and engineering challenges

Shunt Technology in Pediatric Neurosurgery: Current options and Scientific Evidence

Malformação de Chiari: relato de experiência

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