logo
搜索
菜单

The Mouse Stroke Unit Protocol with Standardized Neurological Scoring for Translational Mouse Stroke Studies

作者: Michail Georgopoulos1, Angelos Pavlopoulos1, Nefeli Zerva1, Asterios Kokkonakis1, Iordanis Mourouzis1, Nikolaus Plesnila2, Constantinos Pantos1, Athanasios Lourbopoulos1,2,3 1Department of Pharmacology Medical School of Athens,National and Kapodistrian University of Athens, 2Institute for Stroke and Dementia Research (ISD),University of Munich Medical Center, 3Department of Neurointensive Care,Schoen Clinic Bad Aibling
简介:

Overview

This article presents a protocol for implementing the mouse Stroke Unit (mSU) concept in large-stroke mice, alongside a standardized protocol for assessing focal experimental stroke scales. The study outlines methods to evaluate stroke focal deficits in mice, even in the long term.

Key Study Components

Area of Science

  • Neuroscience
  • Stroke Research
  • Animal Models

Background

  • Focus on translating clinical stroke treatment methodologies to animal models.
  • Introduction of a mouse stroke unit protocol to improve assessment methods.
  • Standardization of the Experimental Stroke Scale for consistent results.

Purpose of Study

  • To evaluate the efficacy of the mSU concept in a mouse model of stroke.
  • To establish a reliable method for assessing neurological deficits post-stroke.
  • To provide a scalable protocol for ongoing stroke research.

Methods Used

  • Utilization of a mouse stroke model with intravascular occlusion.
  • Assessment of various neurological deficits through a series of scoring tests.
  • Daily clinical evaluations of the animal's status and tailored support based on risk certification scores.
  • Standardized experimental protocols for focal assessments and post-stroke recovery.

Main Results

  • Developed a structured approach to evaluate forelimb and hindlimb paresis, trunk symmetry, and overall behavioral responses.
  • Insight into how specific deficits can guide rehabilitation and support strategies post-stroke.
  • Emphasis on regular monitoring and adaptive care as integral to recovery.

Conclusions

  • The study establishes the mSU framework as a potent model for stroke research.
  • Provides a robust platform for evaluating intervention efficacy, which can inform future clinical applications.
  • Enhances understanding of acute and long-term neurological deficits in stroke recovery.

Frequently Asked Questions

What advantages does the mouse Stroke Unit model offer?
The mSU model allows for consistent assessment of stroke interventions, providing meaningful data that can be translated to clinical settings.
How are neurological deficits assessed in the study?
Deficits are assessed through a structured scoring scale that evaluates forelimb and hindlimb movement, body symmetry, and other behavioral responses over time.
What types of data are obtained from this protocol?
The protocol yields data on motor function, feeding behaviors, and overall recovery trajectories in response to stroke, critical for understanding treatment efficacy.
Can this method be adapted for other types of neurological studies?
Yes, the mSU model can be adapted for various neurological studies, offering flexibility in assessing different types of injuries or interventions.
What are key considerations when implementing this protocol?
Important considerations include ensuring proper animal handling during assessments and adapting support strategies based on individual animal recovery patterns.

This article presents a protocol for executing the highly translational and independently proven mouse Stroke Unit (mSU) concept in large-stroke mice. It also provides a standardized protocol for executing the focal experimental stroke scale in mice, which evaluates stroke focal deficits detected even long-term.

标签: Mouse Stroke Unit,    Standardized Neurological Scoring,    Translational Stroke Studies,    Thrombectomy,    Reperfusion Treatments,    Clinical Status Assessment,    Risk Certification Score,    Nutritional Support,    Forelimb Paresis,    Hindlimb Paresis,    Trunk Symmetry Assessment,    Circling Behavior,    Experimental Stroke Scale,   
Exploring the Neural Correlates of Cognitive Reappraisal in Obsessive-Compulsive Disorder Using Task-based Functional Magnetic Resonance Imaging 10.3791/67217-v
Exploring the Neural Correlates of Cognitive Reappraisal in Obsessive-Compulsive Disorder Using Task-based Functional Magnetic Resonance Imaging
Acute Single-Unit Multi-Electrode Recordings from the Brainstem of Head-Fixed Mice 10.3791/67205-v 06:37 min
Acute Single-Unit Multi-Electrode Recordings from the Brainstem of Head-Fixed Mice
Functional Near-Infrared Spectroscopy Hyperscanning Study in Psychological Counseling 10.3791/67183-v 06:04 min
Functional Near-Infrared Spectroscopy Hyperscanning Study in Psychological Counseling
Transcranial Pulse Stimulation for Alzheimer’s Patients 10.3791/67176-v
Transcranial Pulse Stimulation for Alzheimer’s Patients
Standardization of a Novel Semi-Automatic Software for Neurite Outgrowth Measurement 10.3791/67163-v
Standardization of a Novel Semi-Automatic Software for Neurite Outgrowth Measurement
Identification of EcoHIV-Infected Cells in Microglia-Manipulated Transgenic Mice 10.3791/67150-v
Identification of EcoHIV-Infected Cells in Microglia-Manipulated Transgenic Mice
Lumbar Intrathecal Injection of Gene Therapy Vectors for Central Nervous System Targeting in Mice and Rats 10.3791/67138-v
Lumbar Intrathecal Injection of Gene Therapy Vectors for Central Nervous System Targeting in Mice and Rats
A Do-it-yourself System for Scheduled Feeding of Laboratory Rodents in Their Home Cage 10.3791/67119-v 04:49 min
A Do-it-yourself System for Scheduled Feeding of Laboratory Rodents in Their Home Cage
返回顶部