Applications
Aurora Scientific’s muscle physiology products are designed to test the force-length-velocity characteristics of all types of muscle ranging from myocytes to dog hind limb muscle. Our muscle physiology instruments include Dual-Mode levers, length controllers, force transducers, stimulators, data acquisition hardware and software and experimental apparatus. All of our products are sold individually or in complete systems. With our complete systems, muscle physiologists can precisely measure force, length, sarcomere length and ratiometric calcium. Our systems allow all standard muscle physiology protocols to be run, such as twitch, tetanus, fatigue, force-frequency, force-velocity, stiffness and work loops. In addition, our systems have the flexibility that allows the researcher to customize experimental protocols to meet their needs.
Neuroscience
Aurora Scientific has developed innovative test systems used in olfactory research to validate odors presented to specimens and to track pheromone and plume dispersion. In addition, Aurora Scientific utilizes their Dual-Mode muscle levers as mechanical stimulators to provide a precise, controlled force output for use by researchers measuring neuronal response to touch, pain and stretch. Furthermore, many neurophysiologists study an interdisciplinary field of neuroscience and muscle physiology looking at neural activation and sensory feedback of muscle tissue. Aurora Scientific’s Dual-Mode levers aid in characterizing muscle mechanics in models of neural regeneration and disease.
Materials Science
Aurora Scientific’s unique Dual-Mode muscle lever aids a variety of researchers looking at materials such as MEMS, hydrogels, artificial muscle, nanowires and carbon fibers. Easily and accurately measure tensile strength, elasticity, detaching force, shear fracture and deformation of most materials with the control and measurement of both force and length. Other Aurora Scientific products useful in materials research include our line of high-speed length controllers and our ultra-low compliance, high-sensitivity force transducers.
Featured Content
Life at Aurora Scientific – A Year in Review
Coming close to the end of the year, we at Aurora Scientific start to reflect on the
Worth the Weight: Impacts of Microgravity on Muscle Health
In anticipation of the 2024 American Society for Gravitational and Space Research (ASGSR) conference, the following publication launches into the latest insights on microgravity and muscle health.
Forward Advances in Biomechanics
In the context of muscle, the field of biomechanics explores how muscles generate force, produce movement, and interact with the surrounding muscle architecture, such as bones and tendons. These assessments are critical to understanding how muscles function during movement and how injuries arise, as well as informing rehabilitative practices and therapeutic strategies. The following publication review features recent advances in this field – ranging from the mechanical properties of rotator cuff muscles to the impact of lengthening and force velocity on different muscle groups.
DEMO: Cardiac Trabeculae Dissection and Experiments with the Aurora Scientific 1500A
The Aurora Scientific team will provide a methodology focused virtual demonstration of the dissection, tissue preparation, and mounting of cardiac trabeculae with their 1500A small intact muscle system.
Quick Start Guide to 600A
This blog will provide a brief overview of how to start-up and utilize our Real-Time Muscle Data Acquisition and Analysis System (600A) software.
Going to Great Pains: Breakthroughs in Nociception Research
Gearing up for the much-anticipated Society for Neuroscience (SfN) meeting, known as the premier global neuroscience event, this month’s publication review centers around nociception. Here, we highlight how recent advances on the role of sensory neurons elucidate nociceptive pathways, and cover how a novel nociceptive methodology provides a promising technique for standardizing and assessing nocifensive behaviours.