x
[quotes_form]
SKU ME-4151/4152 Category

FTIR Walkway

See more by: MazeEngineers

$2,300.00$2,400.00

10% off with your subscription Membership
Sku: ME-4151/4152 Category
 / Availability: In Stock / Delivery Info ⓘ

Description

The fTIR Walkway, developed by Mendes and colleagues (Mendes et al., 2015), offers a method for assessing the kinematic features of motor systems in freely moving animals. This device utilizes a cost-effective and straightforward frustrated total internal reflection (fTIR) setup.

Various assays are available to examine different aspects of motor systems. For example, the Open-Field test is widely used to assess ambulatory and exploratory behaviors in animals. Conversely, the Rotarod test evaluates a subject’s ability to maintain balance on a rotating rod, targeting a distinct facet of motor function. Additionally, the Gait Test analyzes gait by observing the animal’s footprints. While these tests (more motor tests can be found here and here) contribute valuable insights into motor function and the impact of treatments, they do not offer direct quantification of motor and locomotor parameters, nor do they always provide dynamic measurements of motor activity.

Included are 6 key components:

  • 1) fTIR walkway
  • 2) Support Post
  • 3) Walkway wall
  • 4) 45 degree mirror
  • 5) Background backlight
  • 6) Walkway wall/post clamp

Meet the producer

Producer: MazeEngineers

Frequently bought together

More from this Producer

Description

Mouse Walkway:

Length: 80cm

Wall height: 15cm

Base 5cm

Mirror base length: 78cm

Rat Walkway:

Length: 104cm

Wall height: 19cm

Base 6.5cm

Mirror base length: 100cm

Introduction

Hamers, Lankhorst, van Laar, Veldhuis, and Gispen, W.H. (2001) introduced an automated gait analysis system as an alternative to traditional methods. However, their apparatus had limitations in terms of the flexibility for observing and recording various parameters. Additionally, many automated systems are not only rigid in their parameter flexibility but also tend to be costly. In contrast, the fTIR Walkway offers a more affordable solution while providing both qualitative and quantitative assessments of motor performance.

Training Protocol

To ensure accurate results and high-quality video recordings, it’s important to clean the apparatus before and after each use to eliminate any residual stimuli that could impact the subject’s performance. The device is user-friendly and does not require any pretraining. Simply place the subject on the walkway to start the test and begin recording their performance.

Gait Analysis of Freely Moving Mice

Motor functions of wild-type C57BL/6J mice were assessed using the fTIR Walkway. Observations revealed that during initial contact, the entire paw touched the surface almost simultaneously, with significant pressure applied by the metatarsal and metacarpal pads of the hind and forelegs, respectively. This pressure gradually shifted toward the toes before lift-off during the stance phase. Notably, up to one-third of the stance phase was spent supporting weight with the toes, a finding consistent regardless of walking speed. Additionally, toe spreading was observed 20 to 30 milliseconds before ground contact at the end of the swing phase, suggesting active neuronal control. Faster mice exhibited step strides that were approximately 20% longer and had a shorter stance phase by about 50 milliseconds compared to their slower counterparts (Mendes et al., 2015).

Data Analysis

The fTIR Walkway allows automated recording of motor and locomotion parameter including step patterns, footprint positioning, inter-leg coordination, and footprint contact parameters. The following set of kinematic parameters can be recorded in the fTIR Walkway device:

  • Speed: instantaneous and average (cm/s)
  • Frequency (cycles/s)
  • Period (ms)
  • Swing speed: average and for individual steps (m/s)
  • Step length: average and for individual steps (mm)
  • Swing time: average and for individual steps (s)
  • Stance time: average and for individual steps (s)
  • Duty factor (unitless)
  • Anterior extreme position (AEP) (body units)
  • Posterior extreme position (PEP) (body units)
  • Footprint clustering (AEP and PEP; body units)
  • Stance linearity index: average and for individual segments (m)
  • Body linearity index (mm)
  • Leg combination indexes: no swing, single-leg swing, diagonal-leg swing, lateral-leg swing, front or hind swing, three-leg swing, or all-legs swing (unitless)
  • Leg phases: front and hind legs (unitless)
  • Footprint pixel intensity (unitless)
  • Footprint area (cm2)

Strengths & Limitations

The fTIR Walkway is an automated system that minimizes human error during testing. It is more affordable than many other automated devices and offers the advantage of observing a broader range of locomotion and motor parameters. The system is user-friendly, requiring no pretraining, and the testing process is straightforward and efficient, making it quicker than other methods. Unlike tests such as the Gait Test, the fTIR Walkway does not need additional materials like ink or involve aversive stimuli like fear of falling, thus reducing stress and anxiety in the subjects. Additionally, the use of acrylic glass enhances the fTIR signal-to-noise ratio compared to traditional glass, ensuring better contact between the subject’s paws and the walking surface.

Acrylic glass is more prone to scratching compared to traditional glass, which can interfere with the fTIR signal and tracking accuracy. To address this issue, it is advisable to replace the scratched acrylic glass as needed. Additionally, conducting multiple trials on the fTIR Walkway might lead to muscle fatigue in the subjects, so incorporating rest periods between trials is crucial. Performance can also be influenced by factors such as the subject’s strain, species, age, and sex, as well as their emotional and mental state.

Summary & Key Points

  • The fTIR Walkway is an automated device that provides qualitative and quantitative measurements of motor performance.
  • The device is based on the simplified and inexpensive frustrated total internal reflection (fTIR) set-up.
  • The fTIR Walkway allows flexibility to extract additional and unanticipated metrics of locomotion and motor capabilities.
  • The device can be effectively used to investigate the effects of diseases, lesions, pharmacological manipulations and other treatments on motor performances.

References

Hamers, F.P., Lankhorst, A.J., van Laar, T.J., Veldhuis, W.B., & Gispen, W.H. (2001). Automated quantitative gait analysis during overground locomotion in the rat: its application to spinal cord contusion and transection injuries. Journal of Neurotrauma, 18(2):187-201.

Mendes, C. S., Bartos, I., Márka, Z., Akay, T., Márka, S., & Mann, R. S. (2015). Quantification of gait parameters in freely walking rodentsBMC Biology, 13(1). doi:10.1186/s12915-015-0154-0

Additional information

Species

Mouse, Rat

Questions & Answers

There are no questions yet. Be the first to ask a question about this product.

Want to ask a question or need information? Fill in the form and contact us directly