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Related Concept Videos

Patterns of Fever01:26

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Before understanding the types and patterns of fever, it is essential to know its phases.
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Symbiotic relationships are long-term, close interactions between individuals of different species that affect the distribution and abundance of those species. When a relationship is beneficial to both species, this is called mutualism. When the relationship is beneficial to one species but neither beneficial nor harmful to the other species, this is called commensalism. When one organism is harmed to benefit another, the relationship is known as parasitism. These types of relationships often...
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Types of Fever01:25

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Fever can be triggered by several factors, including infections, nervous system disorders, certain cancers, blood diseases like leukemia, embolism, thrombosis, heatstroke, dehydration, surgical trauma, crushing injuries, and allergic reactions.
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Related Experiment Video

Updated: Jul 4, 2025

A Murine Model of Dengue Virus-induced Acute Viral Encephalitis-like Disease
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A Murine Model of Dengue Virus-induced Acute Viral Encephalitis-like Disease

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Dengue.

Gabriela Paz-Bailey1, Laura E Adams1, Jacqueline Deen2

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|January 27, 2024
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Summary
This summary is machine-generated.

Dengue fever, a mosquito-borne viral illness, is a significant global health threat. Recent advances in understanding the virus and developing new control strategies offer hope for better prevention and management.

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Area of Science:

  • * Virology and Epidemiology
  • * Global Health Security
  • * Vector-Borne Diseases

Background:

  • * Dengue virus poses a growing global public health challenge, endemic in over 100 countries.
  • * Climate change is expanding the range of the mosquito vector, increasing risk in new regions.
  • * Silent epidemics are emerging in Africa, highlighting the widespread nature of the threat.

Purpose of the Study:

  • * To review recent advances in understanding dengue virus, immune responses, and disease progression.
  • * To highlight novel interventions for dengue prevention and control.
  • * To address the challenge of identifying reliable correlates of protection for vaccine assessment.

Main Methods:

  • * Comprehensive literature review of recent scientific publications on dengue.
  • * Analysis of epidemiological data on dengue distribution and trends.
  • * Evaluation of emerging vaccine candidates and mosquito control strategies.

Main Results:

  • * Significant progress in understanding dengue pathogenesis and host immune responses.
  • * Development of partially effective dengue vaccines and innovative vector control methods.
  • * Identification of challenges in assessing vaccine efficacy due to lack of immune correlates.

Conclusions:

  • * Recent scientific advancements herald a new era in dengue prevention and control.
  • * Novel interventions show promise in mitigating the impact of dengue outbreaks.
  • * Continued research is crucial for developing more effective dengue vaccines and control strategies.