Home / Resources / July 2020 / Å håndtere mikroklima (engelsk tekst)

Å håndtere mikroklima (engelsk tekst)

Del:

Take it offline!

This Education in Motion resource is also available as a printable PDF.

Last ned PDF

Download thIS ARTICLE AS A PRINTABLE PDF

 

The term "microclimate" was coined in the 1950s to describe any climatic condition in a relatively small area. Historically, the term has been used in a geographical, meteorological, or topographical context, but as of late it has made its way into the complex rehab industry to describe the mini-atmosphere of increased skin temperature and level of moisture at the seating interface.

Because of their limited mobility and sensation, wheelchair users are at risk for tissue injuries. We've known for decades that pressure and shear are clear culprits in these injuries, but continued research is determining that higher skin surface temperature and moisture are also contributing factors and management of this climate is also critical in healthy skin promotion.

Preventative Strategies

Icons for preventative strategies

There are steps that caregivers and wheelchair users should take to manage the microclimate.

  • Repositioning and weight shifts: these are essential in allowing improved airflow and moisture dissipation.
  • Maximize pressure distribution: pressure itself may also lead to increases in skin temperature.
  • Increase the heat dissipation away from the seated surface.

During the seating assessment, consideration of both the cushion design and materials needs to occur in order for the clients to effectively use these strategies.

  • Consider the cushion materials:
    • Is the cushion full contact, form fitting, and immersive? This type of cushion might reduce airflow - if so, more heat reduction strategies may be required.
    • Is the cushion able to dissipate heat appropriate to the client and climate?
    • Consider "active cooling strategies" provided by cushion material with the more "at-risk" clients.
  • Consider cushion cover materials that optimize airflow with the more "at-risk" clients:
    • Is it able to passively dissipate heat appropriate to the client and climate?
    • Does it have the necessary wicking capability?
    • What is the permeability of the cover material?

JAY Fluid® with Cryo Technology

This technology helps protect clients from pressure and shear injuries while addressing the risks inherent in heat and moisture. By addressing all four components of skin integrity management (pressure, shear, heat, moisture), JAY Fluid with Cryo Technology offers the highest degree of skin protection available on the market. The innovative CryoFluid offers an active method of keeping the cushion surface cooler. This technology helps to decrease heat and moisture at the cushion interface for up to 8 hours.

It's not magic. Just physics that work.

At the heart of the Cryo Technology are millions of microbeads filled with paraffin wax. As heat from the user moves into this fluid, it's absorbed by these microbeads and the wax inside actively begins to melt. The beads also contain graphite which draws the head down into the bladder, away from the user until the wax inside each microbead is melted. This active cooling process can last for up to 8 hours. During this time, the user's skin surface is cooled to a therapeutic temperature range.

The JAY Fluid with Cryo Technology provides wheelchair users skin protection across all of the risk factors: pressure, shear, moisture, and heat.

 

Download thIS ARTICLE AS A PRINTABLE PDF

Clinical Support Information Citations

  1. Kokate, J. Y., Leland, K. J., Held, A. M., Hansen, G. L., Kveen, G. L., Johnson, B. A., ... Iaizzo, P. A. (1995). Temperature-modulated pressure ulcers: A porcine model. Archives of Physical Medicine and Rehabilitation, 76(7), 666-673. doi: 10.1016/s0003-9993(95)80637-7
  2. Lachenbruch, C. (2005, February). Skin cooling surfaces: estimating the importance of limiting skin temperature. Retrieved from https://www.ncbi.nlm.nih.gov/pubmed/15699555
  3. Lachenbruch, C., Tzen, Y.-T., Brienza, D., Karg, P. E., & Lachenbruch, P. A. (2015), February). Relative contributions of interface pressure, shear stress, and temperatrue on ischemic-induced, skin-reactive hyperemia in healthy volunteers: a repeated measures laboratory study. Retrieved from https://www.ncbi.nlm.nih.gov/pubmed/25654778

DISCLAIMER: FOR PROFESSIONAL USE ONLY. THIS WEBSITE (AND THE DOCUMENTS REFERENCED HEREIN) DO NOT PROVIDE MEDICAL ADVICE. Sunrise Medical (US) LLC (“Sunrise”) does not provide clinician services. The information contained on this website (and the documents referenced herein), including, but not limited to, the text, graphics, images, and descriptions, are for informational purposes only and should be utilized as a general resource for clinicians and suppliers to then use clinical reasoning skills to determine optimal seating and mobility solutions for individual patients. No material on this website (or any document referenced herein) is intended to be used as (or a substitute for) professional medical advice, diagnosis or treatment. Never disregard your professional medical training when providing medical advice or treatment because of something you have read on this website (or any document referenced herein). Clinicians should review this (and any other materials) carefully and confirm information contained herein with other sources. Reliance on this website (and the information contained herein) is solely at your own risk.