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Infection01:20

Infection

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When a pathogen enters the body and reproduces, it can cause an infection, damage body cells, and cause illness symptoms that eventually lead to disease. Therefore, its prevention requires breaking the chain of infection.
The chain begins with pathogens: bacteria, viruses, fungi, prions, or parasites such as protozoa helminths. These can be present on the skin as transient or resident flora, or they can be acquired from the environment. Identifying and treating the type of infection and...
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Urinary Tract Infection II: Pathophysiology01:25

Urinary Tract Infection II: Pathophysiology

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The pathophysiology of urinary tract infections (UTIs) encompasses several progressive stages, beginning with bacterial colonization and culminating in potential systemic complications if untreated. UTIs are primarily initiated by bacteria, such as Escherichia coli, which often originate from the gastrointestinal tract and migrate to the urinary system through the periurethral area. This migration can occur via several routes, including improper hygiene practices, sexual activity, or...
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Cystic Fibrosis: Pathogenesis01:23

Cystic Fibrosis: Pathogenesis

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Cystic fibrosis (CF), an autosomal recessive disorder, significantly affects the function of exocrine glands. This genetically inherited disease is characterized by the production of thick and sticky mucus, which can severely affect various organs and systems in the body.
CF is primarily caused by a genetic mutation in a chromosome 7 gene coding for the cystic fibrosis transmembrane conductance regulator (CFTR) protein. The most common gene mutation leading to CF is the ΔF508 mutation,...
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Pneumonia II: Pathophysiology01:29

Pneumonia II: Pathophysiology

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The pathophysiology of pneumonia involves the following steps:
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Stages of Infection01:26

Stages of Infection

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Stages of infection describe what happens to a susceptible host once a pathogen invades the human body. The stages of infection are incubation, prodromal, illness, stage of decline, and convalescence. The incubation stage is the period from exposure to a pathogen until symptoms start. The infected person is unaware of impending illness as the pathogens grow and multiply within the body. The duration may vary depending on the type of infection. The incubation period of measles averages ten to...
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Defense Against Bacterial Pathogens01:31

Defense Against Bacterial Pathogens

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The human immune system is a complex network of cells, tissues, and organs that work together to defend the body against bacterial infections. It consists of various immune cells, each playing a specific role in the defense mechanism.
Phagocytes
Phagocytes are the frontline soldiers of the immune system. They include neutrophils and macrophages. Neutrophils are the most abundant type of white blood cell and are quickly mobilized to the site of infection. Macrophages are larger cells that patrol...
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Video Experimental Relacionado

Updated: Jan 7, 2026

Mouse Footpad Inoculation Model to Study Viral-Induced Neuroinflammatory Responses
09:07

Mouse Footpad Inoculation Model to Study Viral-Induced Neuroinflammatory Responses

Published on: June 14, 2020

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Ciencia básica y patogénesis

Laurent Potvin-Trottier1, Robin Guay-Lord1, Lionel Breuillaud1

  • 1Biospective Inc, Montreal, QC, Canada.

Alzheimer's & dementia : the journal of the Alzheimer's Association
|December 27, 2025
PubMed
Resumen
Este resumen es generado por máquina.

La dinámica reactiva de astrocitos y microglía en modelos de enfermedad de Alzheimer (EA) revela patrones espaciales distintos alrededor de las placas amiloides. La evaluación morfológica ofrece medidas sensibles para evaluar posibles terapéuticas para la EA.

Palabras clave:
astrocitosmicroglíaenfermedad de Alzheimerplacas amiloidesaprendizaje profundoneuroinflamaciónmodelos de ratónterapéuticaspatogénesisneurodegeneración

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Área de la Ciencia:

  • Neurociencia; Inmunología; Biología Computacional

Sus antecedentes:

  • Los astrocitos y la microglía son actores clave en enfermedades neurodegenerativas como la enfermedad de Alzheimer (EA).
  • Comprender sus subtipos, roles e interacciones es crucial para dilucidar los mecanismos de la enfermedad e identificar dianas terapéuticas.
  • Este estudio investiga la dinámica espaciotemporal de la astrogliosis y la microgliosis dentro del microambiente de la placa beta-amiloide (Aβ) en un modelo de ratón transgénico APP/PS1 de EA.

Objetivo del estudio:

  • Evaluar la dinámica espaciotemporal de la astrogliosis y la microgliosis en el microambiente de la placa Aβ.
  • Caracterizar la morfología de los astrocitos y la microglía reactivos utilizando métodos computacionales avanzados.
  • Diferenciar entre placas vasculares y no vasculares y su impacto en la neuroinflamación.

Principales métodos:

  • Se desarrolló un enfoque automatizado basado en aprendizaje profundo para identificar, contar y localizar astrocitos.
  • Se utilizó un modelo de aprendizaje automático explicable (ML) para evaluar la morfología de los astrocitos e identificar la reactividad (hipertrofia).
  • Se implementaron modelos de ML para distinguir las placas vasculares de las no vasculares y se analizaron los cambios celulares en ratones de 6, 9 y 12 meses de edad.

Principales resultados:

  • Una nueva puntuación de hipertrofia de astrocitos, basada en características morfológicas, resultó más sensible a la progresión de la enfermedad que la densidad de tinción de GFAP.
  • La microglía se acumula progresivamente alrededor de las placas, mientras que los astrocitos hipertróficos se encuentran más distantes y excluidos de las placas más grandes.
  • Las placas vasculares exhibieron significativamente menos neuroinflamación en comparación con las placas no vasculares.

Conclusiones:

  • Las características morfológicas de los astrocitos proporcionan información valiosa sobre su fenotipo y reactividad.
  • Estas características morfológicas pueden servir como medidas preclínicas sensibles para evaluar agentes terapéuticos modificadores de la enfermedad en modelos de enfermedades neurodegenerativas.
  • La distinta dinámica espacio-temporal de los astrocitos y la microglía destaca sus complejos roles en la patogénesis de la EA.