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Monday, February 1, 2010

Stanford Hospital's Pneumatic Tube Messaging System

Filed under: in the news...


In its recent press release, the media relations department at Stanford University Hospital is touting the clinic's pneumatic tube messaging system. The technology, which has faded away in most other industries with the advent of modern telecommunications, can still be highly efficient in large medical centers. The pneumatic highway is typically used to pass around clinical samples and orders between departments. While a lab may be within walking distance of patient rooms in small hospitals, it becomes increasingly distant as a facility grows in size. That's what happened at Stanford, and now they have one of the largest such installations in the country. The pneumatic system is completely computer controlled and includes features like soft landings to prevent damage to any samples within the capsule.

It hosts 124 stations (every nursing unit has its own); 141 transfer units, 99 inter-zone connectors and 29 blowers. To help alert employees to the arrival of containers, the system has more than three dozen different combinations of chiming tones.

Such pneumatic tube systems date back to the early 19th century, when they drove the workings of postal services, department stores and other commercial businesses whose physical size demanded something faster than standard human pace. But those versions were usually designed to move paper. As computers and then the Internet made it possible to deliver data electronically without paper, tube systems lost their value for many industries.

But the technology endures—and thrives—in hospitals, thanks in part to more recent improvements in the delivery system. Originally, the tubes would arrive with a thud, a hard landing that could damage sensitive lab samples. Then in the late 1980s engineers figured out a way to control airflow to slow down the containers for a soft landing at their destination station.


At Stanford Hospital, before 1993, a team of about 20 people had the job of transporting the multitudes of tissue, medications and documents. However, the increasing size of the hospital, and the addition of two adjacent buildings—the Blake Wilbur Outpatient Clinic, the Stanford Cancer Center and Packard Children’s Hospital—made the tube system option the most modern solution.

Depending on the diameter of a tube, cylinders can reach speeds of up to 25 feet per second, about 18 miles per hour, far faster than any human could ever manage.

It was also a question of best use of employee time, if, as often happened, a courier wasn’t available when a specimen needed to get to the lab. Having a nurse leave a patient’s bedside for a minutes-long run to the lab made no sense.

Reliable speed is crucial when the system carries blood products, some of which are temperature-sensitive and, by regulations, must be discarded if not properly maintained.

READ MORE...


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replies: 2 comments
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Ah, how well I remember midnight shifts in the early '70's in the Tube Room at the old Main hospital at the University of Michigan. Fifty-some pneumatic pipes from patient floors and labs disgorged tubes into big padded bins, each arrival marked by a characteristic series of 'pinging' sounds (as the tube rubbed against joints in the pipe) that got louder and louder, followed by a sound like Star Trek doors opening (like opening a vacuum-packed tuna can) and then finally a thump into the bins. (Stanford, I scoff at your 'chiming tones'!)

The Tube Room worker would then take the tube out of the bin, examine it, and then send it on to its destination by walking over and selecting the right outgoing pipe. You'd hold it against the open intake and whoosh! off it went.

The tube system for Main and the system for Mott Children's hospital were incompatible (different diameter) and tubes traveling from one to the other would have to be repacked.

The long narrow room was entirely bare except for the bins, a wall-mounted telephone and a six-foot by two-foot table in the center of the narrow room used for sorting and repacking tubes. It was very difficult to nap on this table, given the constant noise, but I managed it on midnights. Oversleeping was prevented by helpful nurses, who would call every twenty minutes asking about late tubes.


Posted by: Bill
on February 1, 2010 07:56 PM GMT

YAWN! For a site dedicated to innovation - this is a snooze of a post about non-news. Some tub thumpers attempt to get Stanford and/or the company that made the tube system a .little press. Silence would have been better than wasting bandwidth on this sort of thing. I work in a 180 bed hospital in VA & we have the same system. Want to come do a story about us?


Posted by: Dick
on February 2, 2010 11:32 AM GMT

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