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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

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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.
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Pneumonia II: Pathophysiology01:29

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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

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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.
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Mouse Footpad Inoculation Model to Study Viral-Induced Neuroinflammatory Responses
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Ciencia básica y patogénesis

Wei Tsai1, Ozkan Is1,2, Stephanie R Oatman1

  • 1Mayo Clinic, Jacksonville, FL, USA.

Alzheimer's & dementia : the journal of the Alzheimer's Association
|December 25, 2025
PubMed
Resumen
Este resumen es generado por máquina.

La enfermedad de Alzheimer (EA) implica angiopatía amiloide cerebral (AAC) y fuga de la barrera hematoencefálica (BHE). Este estudio revela redes de comunicación de glía a pericitos alteradas por la AAC, ofreciendo nuevas dianas terapéuticas para la EA.

Palabras clave:
Enfermedad de AlzheimerAngiopatía amiloide cerebralBarrera hematoencefálicaPericitosNeuroinflamaciónGenómicaPatología

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Área de la Ciencia:

  • Neurociencia; Genómica; Patología

Sus antecedentes:

  • La angiopatía amiloide cerebral (AAC), prevalente en la enfermedad de Alzheimer (EA), implica la deposición de Aβ40 y la fuga de la barrera hematoencefálica (BHE).
  • La AAC se asocia con un mayor riesgo de accidente cerebrovascular, hemorragia y deterioro cognitivo.
  • Los mecanismos específicos de tipo celular que impulsan la AAC y la integridad de la BHE siguen sin estar claros.

Objetivo del estudio:

  • Investigar la expresión génica específica de tipo celular y la comunicación intercelular en cerebros de EA con diferente gravedad de angiopatía amiloide cerebral (AAC).
  • Identificar mecanismos moleculares subyacentes a la patología de la AAC y la integridad de la barrera hematoencefálica (BHE).

Principales métodos:

  • Secuenciación de ARN de núcleo único (snRNAseq) de corteza temporal de 79 donantes con EA.
  • Análisis de correlación de la expresión génica con niveles de Aβ40 y proteínas de unión estrecha (claudina-5, ocludina).
  • Análisis de comunicación intercelular y redes de regulación génica.

Principales resultados:

  • Se identificaron 25 clústeres celulares, incluidos tipos neuronales, gliales y vasculares.
  • Niveles más altos de AAC y Aβ40 se correlacionaron con proporciones celulares alteradas (reducción de neuronas, aumento de glía/vasculatura).
  • Se descubrieron vías de comunicación de glía a pericitos y redes genéticas pericíticas asociadas con la AAC y la integridad de la BHE.

Conclusiones:

  • Las interacciones de glía a pericitos y las redes genéticas pericíticas están implicadas en la disfunción de la AAC y la BHE en la EA.
  • Se identificaron posibles dianas terapéuticas dentro de estas redes regulatorias.
  • Se justifica una mayor validación utilizando conjuntos de datos externos y estudios funcionales.