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Cross-reactivity00:42

Cross-reactivity

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Overview
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Transmission-based Precautions II: Airborne and Protective Environment01:25

Transmission-based Precautions II: Airborne and Protective Environment

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Transmission-based precautions are for patients infected or suspected to be infected (or colonized) with organisms posing a significant risk to others. The transmission precautions include airborne and protective environment precautions.
Airborne precautions:
Use airborne precautions when treating patients known or suspected to have diseases that spread through the air—for example, tuberculosis or measles. These organisms are present in smaller droplets expelled by an infected person and...
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Standard Precaution01:26

Standard Precaution

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Standard precautions are the minimum infection control safeguards used while caring for all patients, irrespective of their disease condition. They help prevent the spread of common infectious microorganisms to healthcare workers, patients, and visitors in all healthcare settings.
Hand hygiene is the most crucial means to prevent the transmission of disease. Employers are legally required to provide their workers with personal protective equipment (PPE) to minimize exposure or contact with...
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Transmission-based Precautions I: Contact, Enteric, and Droplets01:17

Transmission-based Precautions I: Contact, Enteric, and Droplets

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Transmission-based precautions are for patients known to be infected or suspected to be infected or colonized with organisms that pose a significant risk to others. Some transmission-based precautions include contact, enteric, and droplet.
Contact Precautions:
Contact precautions are the measures taken to prevent the transmission of infectious agents, especially epidemiologically important microorganisms such as MRSA or influenza, primarily transmitted through direct or indirect contact with an...
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Assessing Blood pressure in the Leg01:11

Assessing Blood pressure in the Leg

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Proper measurement of leg blood pressure is a critical skill for healthcare providers, ensuring precise and reliable readings. When performed correctly, this procedure informs patient care and enhances the efficacy of interventions. The following text outlines step-by-step guidelines to measure blood pressure in the leg, providing clarity and ease of understanding for practitioners.
Preparation:
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SBAR I: Understanding the Concept01:29

SBAR I: Understanding the Concept

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Effective communication among healthcare professionals during hand-off reporting is essential to delivering safe and continuous patient care. Common professional interactions include reports to healthcare team members, hand-off, and transfer reports. Nurses routinely report information to other healthcare team members and also urgently contact healthcare providers to report changes in patient status.
Standardized methods of communication have been developed to ensure that information is...
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Updated: May 1, 2026

Modeling The Lifecycle Of Ebola Virus Under Biosafety Level 2 Conditions With Virus-like Particles Containing Tetracistronic Minigenomes
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Modeling The Lifecycle Of Ebola Virus Under Biosafety Level 2 Conditions With Virus-like Particles Containing Tetracistronic Minigenomes

Published on: September 27, 2014

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エボラはベッドサイドからベンチへ

Jonatan Ersching1, Gabriel D Victora1

  • 1Laboratory of Lymphocyte Dynamics, The Rockefeller University, New York, NY, USA.

Cell
|June 1, 2019
PubMed
まとめ
この要約は機械生成です。

エボラを生き延びた患者の抗体反応は 回復後も長く追跡された. この研究は,重要な中和抗体の発達を明らかにし,2014年のエボラ出血熱の流行後の長期的な免疫に関する洞察を提供します.

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Rapid, Safe, and Simple Manual Bedside Nucleic Acid Extraction for the Detection of Virus in Whole Blood Samples
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A Bedside, Single Burr Hole Approach to Multimodality Monitoring in Severe Brain Injury
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関連する実験動画

Last Updated: May 1, 2026

Modeling The Lifecycle Of Ebola Virus Under Biosafety Level 2 Conditions With Virus-like Particles Containing Tetracistronic Minigenomes
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Modeling The Lifecycle Of Ebola Virus Under Biosafety Level 2 Conditions With Virus-like Particles Containing Tetracistronic Minigenomes

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Rapid, Safe, and Simple Manual Bedside Nucleic Acid Extraction for the Detection of Virus in Whole Blood Samples
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A Bedside, Single Burr Hole Approach to Multimodality Monitoring in Severe Brain Injury
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科学分野:

  • 免疫学
  • ウイルス学
  • 感染症

背景:

  • 2014年のエボラ出血熱の流行は 世界的に重大な健康上の脅威となりました
  • 生存者の長期的な免疫反応を理解することは 公衆衛生の準備に不可欠です

研究 の 目的:

  • エボラの生存者の抗体反応の進化を調査する
  • 回復後の中和抗体の出現を調査する.

主な方法:

  • 縦断的な研究デザインが採用された.
  • 4人のエボラ生存者の抗体レベルと中和能力が監視されました.

主要な成果:

  • 抗体反応は,生存者において,時間の経過とともに有意な進化を示した.
  • 中和抗体は,感染の急性期の後,長期間出現または増加した.

結論:

  • エボラの生存者における長期の抗体ダイナミクスは複雑です
  • 中和抗体の持続的な出現は,持続的な免疫の可能性を示唆しています.