Modified Single-Loop Reconstruction for Pancreaticoduodenectomy

Muscle Imbalances: Testing and Training Functional Eccentric Hamstring Strength in Athletic Populations

Reduction of Iatrogenic Atrial Septal Defects with an Anterior and Inferior Transseptal Puncture Site when Operating the Cryoballoon Ablation Catheter

10.3791/4331-v

Portable Intermodal Preferential Looking (IPL): Investigating Language Comprehension in Typically Developing Toddlers and Young Children with Autism

10.3791/59332-v 07:51 min

Standardized Hemorrhagic Shock Induction Guided by Cerebral Oximetry and Extended Hemodynamic Monitoring in Pigs

10.3791/58962-v 08:13 min

Development and Implementation of a Multi-Disciplinary Technology Enhanced Care Pathway for Youth and Adults with Concussion

10.3791/57276-v 05:07 min

Sampling Strategies and Processing of Biobank Tissue Samples from Porcine Biomedical Models

10.3791/57154-v 20:33 min

A Case Series of Successful Abdominal Closure Utilizing a Novel Technique Combining a Mechanical Closure System with a Biologic Xenograft that Accelerates Wound Healing

10.3791/56905-v

Individualized Stem-positioning in Calcar-guided Short-stem Total Hip Arthroplasty

10.3791/56807-v 07:43 min

Cavernous Nerve Stimulation and Recording of Intracavernous Pressure in a Rat

10.3791/56705-v 07:10 min

Taste Exam: A Brief and Validated Test

10.3791/56531-v 06:29 min

Electrophysiological Measurement of Noxious-evoked Brain Activity in Neonates Using a Flat-tip Probe Coupled to Electroencephalography

Scratch Migration Assay and Dorsal Skinfold Chamber for In Vitro and In Vivo Analysis of Wound Healing

作者： Anouar Belkacemi1, Matthias W. Laschke2, Michael D. Menger2, Veit Flockerzi1 1Institute of Experimental and Clinical Pharmacology and Toxicology, Center for Molecular Signaling (PZMS),Saarland University, 2Institute for Clinical and Experimental Surgery,Saarland University

简介：

Overview

This article presents protocols for conducting in vitro scratch assays using primary fibroblasts and in vivo skin wound healing assays in mice. These methods are designed to assess wound healing effectively in both laboratory and animal models.

Key Study Components

Area of Science

Wound healing
Cell migration
In vitro and in vivo assays

Background

Skin wounds require effective treatment strategies.
Identifying target molecules for drug treatments is essential.
In vitro and in vivo test systems are necessary for research.
Common methods include scratch assays and dorsal skin fold chambers.

Purpose of Study

To provide straightforward protocols for assessing wound healing.
To facilitate the monitoring of cell migration.
To enable researchers to evaluate pharmacological effects on wound healing.

Methods Used

In vitro scratch assay with primary fibroblasts.
In vivo skin wound healing assay in mice.
Monitoring of cell migration in both assays.
Assessment of pharmacologically active compounds.

Main Results

Both assays are effective for studying wound healing.
Reliable and reproducible results can be obtained with practice.
Both techniques allow for the evaluation of drug treatments.
They provide insights into the mechanisms of skin wound healing.

Conclusions

The protocols are straightforward and accessible for researchers.
They can be utilized to advance understanding of wound healing.
These methods support the development of new therapeutic strategies.

Frequently Asked Questions

What is the in vitro scratch assay?

It is a method used to assess cell migration and wound healing in a controlled laboratory environment.

How is the in vivo skin wound healing assay conducted?

This assay involves creating a wound on the skin of mice to study the healing process in a living organism.

What are the key components of the dorsal skin fold chamber?

It is a device used to create a stable environment for observing wound healing in vivo.

Why is it important to practice these techniques?

Practicing ensures reliable and reproducible results in wound healing studies.

What types of compounds can be tested using these assays?

Pharmacologically active compounds that may influence wound healing can be evaluated.

What insights can be gained from these assays?

They provide valuable information on the mechanisms underlying skin wound healing and potential treatments.

Here, we present a protocol for an in vitro scratch assay using primary fibroblasts and for an in vivo skin wound healing assay in mice. Both assays are straightforward methods to assess in vitro and in vivo wound healing.

标签: Scratch Migration Assay, Dorsal Skinfold Chamber, Wound Healing Analysis, In Vitro Testing, In Vivo Testing, Cell Migration, Pharmacologically Active Compounds, Primary Fibroblasts, Transfection Reagent, SiRNA Transfection, Culture Medium, Confluency Monitoring, Dr. Matthias Laschke,