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Catalog Record: Iron Lung


Access Key: aiqd
Accession No.: 2010-07-01-5

Title: Emerson respirator / [designed by John Haven Emerson].

Author: Emerson, John Haven, 1906-1997.
Corporate Author: J. H. Emerson Co.

Title variation: Alt Title
Title: Emerson iron lung.

Title variation: Alt Title
Title: Tank respirator.

Publisher: Cambridge, Mass. : J.H. Emerson Co., [1940-1975].

Physical Description: 1 ventilator : glass, metal, chrome, leather, plastic ; 144" x 82" x 245" cm.

Subject: Ventilators, Negative-Pressure.

Note Type: General
Notes: Title from manufacturer markings on the object.

Note Type: Citation
Notes: Branson RD. Jack Emerson: notes on his life and contributions to respiratory
care. Respir Care. 1998;43(7):567-571.

Note Type: Citation
Notes: Designers and makers of the modern “iron lung”. Cambridge, Mass.: J. H.
Emerson, 1939.

Note Type: Citation
Notes: Drinker PA, McKhann CF. The iron lung: first practical means of respiratory
support. JAMA. 1986;255(11):1476-1480.

Note Type: Citation
Notes: Emerson JH. Some reflections on iron lungs and other inventions. Respir Care.
1998;43(7):573-582.

Note Type: Citation
Notes: Emerson respirators: parts and accessories price list, adult model. Cambridge
Mass., 1953.

Note Type: Citation
Notes: The evolution of iron lungs. Cambridge, Mass.: J.H. Emerson Co., 1978.

Note Type: Physical Description
Notes: A negative-pressure ventilator composed on a large cylindrical tank on four
legs with wheels; There is a clear plastic dome on the end of the tank where
the patient's head protrudes, and a leather diaphragm on the other end; This
description is based on the perspective of a patient laying in the tank with
his or her head outside of the tank; The entire ventilator measures approx.
144 cm high and 82 cm wide (or approx 4.70 x 2.7 feet); The length of the
ventilator, measured from the end of the dome to the end of the handle for
hand operation, is approx. 245 cm (or 5.75 feet) but can vary depending on
what position the diaphragm is in; Most of the operating features are on the
right side and diaphragm-end of the tank; On the right side of the tank are
two round port-holes and a rectangular bedpan-porthole for quick access to
the patient; Above the portholes are two wide rectangular windows that allow
visualization of the interior of the tank; Between the two windows is a metal
plate, approx 31.5 x 20 cm, with instructions for using the ventilator;
Manufacturer's markings on the instruction plate include, "SERIAL NUMBER 3R
766", and "EMERSON RESPIRATOR"; On the plate below the instructions is, "J. H
EMERSON CO." [new line] "Originators of the modern diaphragm type iron lung
[new line] 22 Cottage Park Ave, Cambridge, Massachusetts, U.S.A."; Below the
tank near the diaphragm-end of the tank is the motor with rods and levers to
control the diaphragm; Other important features in this area include the
respiratory rate adjustment, negative pressure adjustment, motor and light
switches, and the tilting jack handle; The handle and lever to operate the
diaphragm by hand are located at the diaphragm-end of the ventilator; Below
the tank, on the right side, near the patient-head end of the tank, is a
suction device, bottle, and tubing; On top of the tank is an opening for a
pressure sensing alarm; Just beyond the alarm-opening, a pressure-gauge
protrudes from the top of the tank; The gauge has markings for 0 to negative
45 cm of water (CM H2O) on the left, and 0 to positive 50 CM H2O on the
right; On the left side of the tank are four round portholes for patient
access; Above the portholes are two wide rectangular windows; Under the tank
near the head-end of the ventilator are adjustments for the bed-height; In
the opening of the head-end of the tank is an expandable, plastic collar; The
collar fits around the patient's neck to seal off the pressure inside the
tank from the pressure outside; On the head-end of the tank are supports for
a mirror; Between the two supports is a small metal plate with manufacturer's
markings, which include, "Model KAE [new line] No. 744"; The dome is left
open or can be removed when the ventilator is in use; The dome can be closed
and clamped in place to seal the dome/head space; The dome is closed so that
aided respirations can be continued when the tank is open for patient access;
The dome and the bed inside the tank can be rolled away from the tank for
full access to the patient, or to place the patient in or remove the patient
from the ventilator.


Note Type: Reproduction
Notes: Photographed by Mr. William Lyle, Sept. 22, 2010.

Note Type: Historical
Notes: The first tank-ventilator, or iron lung, used in hospitals was developed by
Dr. Philip Drinker and his colleagues in 1928 (Drinker & McKhann, 1986). The
positive and negative pressure in Drinker’s tank was created by an electric
pump that was effective but noisy. John Emerson, a self-taught engineer,
worked closely with physicians while building medical devices and his father
was a professor of public health at Columbia University (Branson, 1998 ;
Emerson, 1998). These ties ensured that he was aware of the Drinker’s
ventilator and its success in saving the lives of young patients severely
affected by polio. Seeing potential for improvements, Emerson build and
successfully tested the first model of his diaphragm-respirator in 1931
(Branson, 1998 ; Emerson, 1998 ; The evolution of iron lungs, 1978). Other
improvements were added to successive models, including an emergency manual
operation handle, tilting and rotation adjustments, and a positive pressure
dome to allow for continued assisted respiration when the tank compartment
was opened for access to the patient. An Emerson marketing catalog produced
in January, 1939 lists the standard [pre-dome] model for $1,400. An Emerson
price-list published in January, 1953 lists the “Emerson Respirator, Dome
Model” for $2,150.

Note Type: Historical
Notes: Negative-pressure ventilators, or iron lungs, were used primarily for polio
patients whose ability to breath was hampered because of severe weakness or
paralysis. Polio, or poliomyelitis, is a viral infection that can cause
varying degrees and types of paralysis. Widespread vaccination after the
development of the polio-vaccine, and advancements in endotracheal tubes and
positive-pressure ventilation lead to decreased use of negative-pressure
ventilators during the mid-1950s (Drinker & McKhann, 1986). According to
Post-Polio Health International in 2011 the number of people using negative
pressure ventilators, such as the iron lung, Porta-lung, 170-C, or a chest
shell/cuirass is between 30-40 (email communication, Feb 16, 2011, from Joan
L. Headly, Executive Director).


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