Modified Single-Loop Reconstruction for Pancreaticoduodenectomy

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

10.3791/59701-v

Continuous Blood Sampling in Small Animal Positron Emission Tomography/Computed Tomography Enables the Measurement of the Arterial Input Function

10.3791/59616-v 08:04 min

A Mouse Model of Vascularized Heterotopic Spleen Transplantation for Studying Spleen Cell Biology and Transplant Immunity

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

10.3791/57508-v 07:30 min

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

10.3791/57276-v 05:07 min

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

10.3791/57231-v 13:58 min

A Rabbit Model of Durable Transgene Expression in Jugular Vein to Common Carotid Artery Interposition Grafts

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

A Modified Two Kidney One Clip Mouse Model of Renin Regulation in Renal Artery Stenosis

作者： Mohammad Saleem1, Pierina Barturen-Larrea1, Luz Saavedra1, Jose A. Gomez1 1Department of Medicine/Clinical Pharmacology Division,Vanderbilt University Medical Center

简介：

Overview

The 2K1C mouse model is a reliable method to induce renal artery stenosis, facilitating the study of renin expression and renal vascular hypertension. This protocol is crucial for understanding the molecular mechanisms involved in these conditions.

Key Study Components

Area of Science

Neuroscience
Renal Physiology
Hypertension Research

Background

The 2K1C model mimics unilateral renal artery stenosis in humans.
It is used to explore therapeutic targets for renal vascular hypertension.
Understanding renin expression is vital for hypertension research.
The model's reliability and reproducibility are significant advantages.

Purpose of Study

To elucidate molecular mechanisms of renin expression control.
To provide a consistent model for studying renal vascular hypertension.
To identify new therapeutic targets for treatment.

Methods Used

Preparation of polyurethane tubing for renal artery cuff.
Placement of the cuff to induce stenosis.
Monitoring of renal function and renin expression.
Utilization of surgical techniques in mice.

Main Results

The model successfully induces renal artery stenosis.
Increased renin expression was observed post-surgery.
Consistent results across multiple trials confirm model reliability.
Insights gained into potential therapeutic interventions.

Conclusions

The 2K1C mouse model is effective for studying renal hypertension.
It provides a platform for exploring new treatments.
Further research can build on findings related to renin expression.

Frequently Asked Questions

What is the 2K1C mouse model?

The 2K1C mouse model is used to induce renal artery stenosis for studying hypertension.

Why is renin expression important?

Renin expression plays a key role in regulating blood pressure and fluid balance.

What are the critical steps in the procedure?

Critical steps include tubing preparation and placement of the cuff on the renal artery.

How does this model mimic human conditions?

It simulates unilateral renal artery stenosis, a condition found in humans.

What are the advantages of this model?

The model is reliable, reproducible, and provides insights into therapeutic targets.

What background knowledge is required?

A basic understanding of surgical techniques in mice is necessary.

A modified 2 kidney 1 clip (2K1C) Goldblatt mouse model was developed using polyurethane tubing to initiate renal artery stenosis, inducing an increase in renin expression and kidney injury. Here, we describe a detailed procedure of preparing and placing the cuff onto the renal artery to generate a reproducible and consistent 2K1C mouse model.

标签: 2K1C Mouse Model, Renal Artery Stenosis, Renin Regulation, Renal Vascular Hypertension, Surgical Technique, Polyurethane Tubing, Tubing Preparation, Vascular Surgery, Animal Model, Therapeutic Targets, Mouse Anesthesia, Surgical Incision, Kidney Isolation, Renal Artery Constriction, Surgical Equipment,