Features

When conducting a surgical procedure, doctors typically administer anesthetics to block all sensation for the patient, including pain and distress. Based on the type of procedure, patients can receive a local, spinal, or general anesthetic. When using local or spinal techniques, only the surgical site is anesthetized and the patient remains partly conscious, while general anesthetics render the patient unconscious and in a state of paralysis during the surgery.

The McSleepy automated anesthesia system in use in an operating room.

General anesthesia consists of drugs that produce three reactions: hypnosis to remove the patient’s consciousness and put them in a deep sleep, analgesia to block the conscious sense of pain, and relaxation to prevent unwanted muscle movement. Before surgeons begin their procedures, anesthesiologists choose the appropriate doses of the medications to achieve all three of these reactions. Throughout the surgery, anesthesiologists must manage the levels of medications they administer, which can consume more than 20 percent of their time.

Introducing “McSleepy”

To reduce the time anesthesiologists spend administering anesthetic doses and permit more time for them to manage other aspects of the surgery, a team of anesthesiologists and biomedical engineers at McGill University in Montreal, Canada, developed a prototype for an automated anesthesia system. Known as “McSleepy” (named after doctors on the television show “Grey’s Anatomy”), the goal of this system is to assist anesthesiologists, not replace them. Also, McSleepy is not intended to perform better than an anesthesiologist, but it has the ability to do so on any given day.

McSleepy is a closed-loop control system that monitors a patient’s depth of consciousness, level of pain, and muscle movements throughout surgery, and intravenously administers appropriate doses of the respective medications based on the acquired data. To use McSleepy, anesthesiologists insert an IV and apply the sensors that measure muscle movement to the patient. They must then input patient information including age, height, weight, and sex; the type of surgery being performed; and any preferences the anesthesiologist has regarding the drug doses for the patient.

After the system begins to administer the drugs, McSleepy monitors and controls the drug doses every minute through a mathematical algorithm developed using LabVIEW graphical programming software from National Instruments (Austin, TX). The patient’s data is then displayed on a GUI, which also was developed using LabVIEW, so that the anesthesiologist can see how the patient responds to the anesthetics administered by McSleepy. By using LabVIEW to develop the GUI, familiar graphical elements, such as dials that look like speedometers and thermometers, and color coding to track the patient’s level of consciousness using a bispectral index, were integrated. The researchers’ “Analgoscore” was used to track the patient’s level of pain.

Designed for Safety

To avoid giving the patient too much or too little medication in the event that McSleepy does not function properly, multiple safety features were built into the closed-loop control system. First, anesthesiologists can manually override any aspect of the system. For example, if the computer stops receiving signals from one of the sensors, the machine automatically enters basic manual mode. Throughout the procedure, the machine calculates the average amount of anesthetics given to the patient during each 15-minute period. In the event that the system does not work properly, it can then administer the average amount of anesthetics to keep the patient asleep and pain-free until either the problem is resolved or the anesthesiologist begins to manually control the anesthesia.

Additionally, if anesthesiologists operate the system in semiautomatic mode so that they can manually input doses of medications, and they input something that does not seem right, such as accidentally entering too much of a certain drug, the machine warns the anesthesiologists that the dose is too high. Another important feature of McSleepy is that the program was built with artificial intelligence. The machine can learn things such as the surgeon’s preferences and the length of the various procedures performed. After use on approximately 20 of the same surgeries with the same surgeon, McSleepy begins to recognize patterns. Additionally, at the end of each surgery, McSleepy stores trend data. Overall, because the machine is a closed-loop control system that uses a combination of artificial intelligence and human input, McSleepy may actually be safer than having only an anesthesiologist administer the medications.

By developing a GUI with LabVIEW, the researchers were able to address the common problem with most closed-loop control systems, which is that they lack a user interface so the user cannot see what is happening. Human interaction is very important to anesthesiologists, who like the system because it is not a black box. They can easily monitor the amount of anesthetics being administered and make changes if needed. With a simple user interface, both the anesthesiologists and surgeons in the operating room can look at McSleepy and understand the data.

The Future of McSleepy

The McSleepy interface is being deployed to personal digital assistants (PDAs). In doing so, anesthesiologists can perform distant control, monitoring, and recording of their patients. This is critical because many countries lack specialists such as anesthesiologists, and, in the future, anesthesiologists may need to take care of several patients at one time.

McGill currently has a fully functional prototype of the McSleepy system with off-the-shelf hardware and a proprietary algorithm developed using LabVIEW. Using the current prototype, they are developing a method to enter the market within five years. This plan includes securing funding to conduct more research to further enhance and commercialize the system, as well as seeking approval from both Health Canada and the U.S. Food and Drug Administration.

More Information

This article was written by Dr. Thomas Hemmerling of the Department of Anesthesiology at McGill University. Contact Dr. Hemmerling at 514-934-1934. For more information on LabVIEW, visit http://info.hotims.com/22926-176.