Inhaling Helium: Party Fun or Deadly Menace?

By Henry G. Wickes, Jr.
What could be hazardous about a helium-filled party balloon, you ask? After all, balloons are supposed to be fun, right? The answer may surprise you.

Public Awareness

Most people simply do not have the information available to help them understand hazards associated with inhaling helium. Several years ago, I was asked to investigate the death of a teenager who died while inhaling helium from a balloon-filling system. During this investigation, I discovered the true nature of these severe—and potentially fatal— hazards. The discussion here is intended to help readers make informed decisions that will prevent future loss of life .

Inhaling Helium From A Ballon

A little-known aspect of inhaling helium is how quickly you may lose consciousness due to asphyxia (oxygen deprivation). During the exchange of gases in the normal breathing process, the blood stream absorbs oxygen from air in the lungs, while carbon dioxide passes from the blood to the air. When you hold your breath, the exchange of gases slows, as "stale" air in the lungs is no longer replaced by "fresh" air.

This process does not stop instantly, however. Some time will pass before you start to experience serious physical distress. For example, you would likely have time to pick up and put down an object, walk across a room, or find a chair and sit down before feeling compelled to breathe again.

However, when the lungs are filled with helium, a different process takes over. Oxygen is actually removed from the blood stream during the exchange of gases. Depending on how completely oxygen is replaced by helium, you may lose consciousness quickly and without warning—you may literally pass out while still standing. The usual result is an uncontrolled fall that can cause serious injury, even if normal breathing resumes before brain damage occurs due to lack of oxygen.

Commercial Balloon-Filling Systems

Helium balloon-filling systems have become popular in recent years, and are frequently found in supermarkets, party supply stores, and variety stores. The "commercial" type system is generally operated by a store employee rather than by a customer. Sometimes the system is loaned or leased to the customer—a practice that led to the fatality mentioned earlier. A typical commercial system consists of a helium cylinder, shut-off valve, pressure flow regulator, and tilt valve with balloon adapter.

Such a system is designed to fill balloons rapidly. Typically, it delivers a maximum helium gas flow rate of approximately five cubic feet per minute (cfm). Maximum flow rate is determined by the pressure/flow regulator and cylinder pressure—normally several hundred pounds per square inch (psi).

Inhaling Helium From a Commercial System

Attempting to inhale helium from a commercial helium balloon filling system poses a greater hazard than does inhaling helium from a balloon. Beyond the risk of passing out, the potential for fatal injury is present. Unfortunately, several young people have been killed while inhaling helium from such a system.

How can a healthy young person be killed by a seemingly harmless substance, you ask? Postmortem examinations of victims explain what occurs, while engineering analysis explains how.

Chemical reaction does not cause fatal injuries. Rather, the pressure of gas inside the lungs is the agent that can kill instantly. Autopsies show that the alveoli (air sacs) in the lungs have been ruptured. Death follows immediately, as the victims literally drown in their own blood. Under such circumstances, cardiopulmonary resuscitation is of no avail.

Gas Flow vs. Lung Capacity

Gas flow rate of 5 cfm is equivalent to 2.36 liters per second. Although individual lung capacity varies, a reasonable estimate for total lung capacity in an adult female is 4.5 liters. This capacity is used in the calculations that follow.

According to human physiology references, prolonged exposure to a difference of 30 millimeters (mm) of mercury between intrapulmonary pressure and surrounding body pressure can be fatal. If pressure is increased to 80 to 100 mm, immediate fatality is expected . A pressure of 80 to 100 mm of mercury is equivalent to 1.5 to 1.9 psi. For calculation purposes, a mid-range value of 1.7 psi (above atmospheric pressure) is used as the critical value. Furthermore, assume a rigid container with a volume of gas that must be added in order to increase pressure by 1.7 psi.

Calculations show that additional volume required is .52 liters. The minimum length of time required to add this amount (thereby increasing pressure by 1.7 psi) from a balloon-filling system is determined by dividing additional volume (.52 liters) by maximum flow rate (2.36 liters per second). The result is 0.22 seconds.

Since lungs are not a rigid container, actual time to reach 1.7 psi may be slightly longer than 0.22 seconds. However, calculations clearly show that, given the flow rate and pressure available from a helium balloon-filling system, human lungs can be fatally overpressured in a fraction of a second. Victims simply do not have time to react.

Henry G. Wickes Jr., P.E., CSP, is a consultant with and professional associate of Madeley Safety Engineers in Bryan, Tex. 979-693-2041.

This article is excerpted from the December, 1996, issue of Professional Safety magazine with permission of the publisher and the author .

Article provided by the Compressed Gas Association, Inc. For more information on industrial gas safety call 703-788-2700, ext. 799.

HELIUM SAFETY PRECAUTIONS

Read all of the following precautions prior to using this cylinder.

HANDLE WITH CARE

THIS IS A HIGH PRESSURE CYLINDER

DO NOT allow anyone to inhale helium from the filling equipment or from balloons. Rapid suffocation can take place by reducing the concentration of oxygen in the air necessary to support life. Inhaling directly from filling equipment can also cause serious lung damage, WHICH COULD RESULT IN DEATH!

DO NOT allow children to touch the cylinder or to operate the balloon filling equipment.

SECURE THE CYLINDER TO PREVENT IT FROM FALLING OVER.

DO NOT leave this cylinder unattended in a public area or where children or unauthorized personnel can gain access to it.

NEVER open the cylinder valve before attaching a balloon-filling regulator to it. Tighten the regulator connection to the cylinder valve with a wrench. Do not use leaky equipment.

DO NOT store or use the cylinder in a closely confined or poorly ventilated area. Leaking helium can reduce the amount of oxygen in the air and produce asphyxiation.

DO NOT store or use the cylinder in hot areas (over 130 °F) or near flames or electrical devices.

DO NOT attempt to transfer helium from this cylinder into any other cylinder or container.

SHUT OFF the cylinder valve after each use and when empty. Remove the balloon filling regulator and replace the cylinder cap prior to returning the cylinder to your supplier.

REMEMBER: DO NOT remove the cylinder cap until the cylinder is secured. If the cap is stuck or jammed, return the cylinder to the supplier.

Information provided by the Compressed Gas Association, Inc. For more information on industrial gas safety call 703-788-2700, ext. 799.