Posts Tagged ‘wirless psg’

“Wireless” Polysomnography?!

Tuesday, November 24th, 2009

Patient being hooked-up with electrodes for a wireless polysomnography on the Sapphire PSG sleep diagnostic system

Hook-up of electrodes for a wireless polysomnography on the Sapphire PSG sleep diagnostic system

At first glance, what do you see in this photo of my friend?

Wires. This struck me as odd (very odd), because my friend was undergoing a wireless polysomnography (sleep test used in sleep disorder diagnosis). To be fair, I already knew that a wireless polysomnography did not mean a polysomnography without wires/electrodes on the patient, nevertheless, I could not help but react at how the term "wireless polysomnography" did not match what I was seeing!

In this article, I want to briefly discuss:

  • A typical polysomnography (PSG)
  • Wireless polysomnography (what makes it wireless while I am seeing all those wires)
  • Some benefits of wireless PSG

    • Polysomnography:

    The patient is hooked-up with sensors to monitor body functions like heart rhythm, brain, eye, and muscle movement, etc during sleep. The sensors plug into a patient-unit also called the jackbox. The jackbox connects to an amplifier, which then connects to the wiring system. The entire sleep lab is hard-wired so that the PSG data travels through the cables from the patient room into the control room, where a sleep technician can monitor the PSG data on a computer.

    Wireless Polysomnography:

    The patient is hooked-up with the standard sensors. The sensors plug into a patient-unit (which integrates the jack-box and amplifiers). The patient-unit wirelessly transmits data to a receiver in the control room where the sleep technician can monitor the PSG data on a computer. But why is this a big deal?

    Benefits of wireless PSG

    While wireless polysomnography is not flawless, it offers distinct advantages:

  • Un-tethered patient - convenient:
    During a typical polysomnography, the patient will need assistance from the technician to unplug the jackbox from the amplifier every time he/she needs to use the restroom or get a drink of water during the night. A wireless polysomnography allows for easy mobility since the patient-unit is not tethered to the wiring cables of the control room.
  • No hard wiring – cost effective:
    Wireless PSG completely eliminates the cost of running cables throughout the facility with its ability to transmit data through multiple walls. Also, there are typically fewer components with wireless devices and lower risk of individual component failure.
  • Portable PSG – cost-effective, convenient:
    With wireless polysomnography, the entire PSG system can be packed into a brief-case of sorts. Setups outside of the lab become more feasible. For example, mobile diagnostic studies in hotels (which is more cost-effective than a sleep lab set-up), hospitals, nursing homes, or patient homes mean that a comprehensive sleep diagnostic service can come to the patient instead of the patient coming to the lab for a PSG. This cuts transportation costs which can be significant for patients who cannot travel unassisted.
  • Expanding the reach of sleep services:
    Overcrowded sleep labs will only have to deal with more complex patients who require in-lab testing, while other patients can be tested off-site. Each patient population can then receive a faster diagnosis and therefore faster treatment initiation, cutting out the need for long waits or investing in additional beds for the sleep lab.

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    New & Emerging Markets beyond the Sleep Lab?

    Thursday, August 13th, 2009

    The Concept of PSG Anywhere

    Here is the last question in our video series of Q & A with Dr. Joseph Golish on Current & Emerging Trends in Sleep Medicine: Are there new and emerging markets beyond the traditional sleep lab?

    Dr. Golish, is a board-certified specialist in sleep medicine and author of more than 300 publications on sleep. He is a member of the Sleep Steering Committee for the ACCP. After 35 years as a professor in The Cleveland Clinic and Co-Director of Sleep Medicine, he has left academic medicine to advance a new paradigm in sleep medicine, focusing on accessibility and affordability. His goals are the proper use of HST and fostering continuity of care, in an efficient and cost-effective manner, while preserving high quality. He is currently the Medical Director of Cleveland Medical Devices (CleveMed) and Director of Sleep Center, North Coast Clinical Trials, in Cleveland, Ohio.

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    Is Your Sleep Lab Considering Going Wireless? Here are some questions you should ask your potential equipment supplier

    Wednesday, December 17th, 2008

    Sleep labs are beginning to take advantage of the added simplicity, patient comfort and cost savings associated with wireless technology. If a sleep lab is considering going wireless, it is important that they have each potential supplier in for an actual run through, and preferably allow a 30-day trial at their facility. Some wireless units, for instance Bluetooth devices, have a limited range and may not be suitable for labs with long hallways without added tools. Anyone who has ever lost a connection on a cell phone knows that wireless technology is not yet flawless. If a PSG study is interrupted several times through the night, typically since the amount of PSG data being transmitted is so large, even brief lapses can disrupt acquisition, annoy sleep techs and may affect data interpretation.

    If your sleep lab is considering going wireless here’s an important list of questions you should ask potential wireless PSG equipment supplier:

    1. What frequency range does the system operate in?
    2. How far can the patient be from the monitoring room?
    3. How many devices can we have working at one time without interference (cross-talk) risk?
    4. What is the battery life of the device under continuous use? You need to make sure the device can stay on at least a full night. (Wireless technology can consume a lot of power).
    5. What happens when there is interference – can the device retransmit data? Can it run a “spectrum sweep” of the environment?
    6. How difficult is it to change the operating frequency to move away from the interference?

    This post draws on the experience of several experts at CleveMed and is an adaptation from “Wireless Polysomnography” as seen in Sleep Diagnosis and Therapy, June⁄ July 2006.

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