|(1, page 91)|
By this time such chambers were refined so that they contained carpet, windows, electric hydraulic compressors, and even humidity. Some of the devices that were available in 1903 were described by Paul Tissier in is 1903 book "Pneumotherapy: Including Aerotherapy and Inhalation Methods." Some are as follows:
1. Tabarie Sphere's: This was a sphere made of cast iron with two pipes, one to provide pressure from a hydraulic compressor run by steam, and the other to allow for ventilation. Carpet covered the floor mainly to cover the first pipe. There was an antechamber to allow the physician to enter and exit without disturbing the pressure, and to provide books, newspapers, and drinks to the patients. It's basically this device that was later copied by others who refined the pneumatic chambers. I wrote about the Tabarie Sphere in this post.
|Figure 13 and 14|
Another pipe allows for ventilation. To see the device check out figure 14. (1, page 95)
4. Dr. Dupont's Pneumatic Chamber: This was a later design described by Tissier as having both the ability to provide electric lighting at night and telephone service. They were large enough to hold two or three patients. It was located at the Etablissement AeVotheVapique of Dr. Dupont in Paris. Tissier provides a neat picture of it here on page 93.
|Liebig's Pneumatic Chamber; here is one of three chambers|
There are a variety of other chambers described, although it appears that for the most part a particular doctor constructed a chamber design for a specific medical institution. Some patients would have to travel a long way to seek treatment, and even then there was no evidence it did any good. I suppose in a way it would be similar to patients with certain cancers or chronic pain traveling from all over the United States to seek the treatment of experts at the Mayo Clinic.
I will mention one more chamber here.
|Hauke's Pneumatic Tub|
6. Hawke's Pneumatic Tub: Well, it was small chamber as compared to the ones mentioned above, and far less expensive, and probably even portable. It was build in such a way that it could provide compression and rarification of air by turning a crank, and was an alternative to the chambers mentioned above, and to the portable pressure apparatus's I describe in this post.
Hauke originally recommended using a cuirass that created rarified air, but he ultimately decided the tub provided a better effect. The patient sat in the tub, and a rubber hood was set over the head, slid over the shoulders like a shirt, so that only the face was exposed. The atmospheric pressure around the body is compressed and then rarified so as to create inspiration and expiration with greater ease than a patient's normal efforts. (1, page 231)
Tissier describes the device like this (1, page 231):
"(The device is) so constructed that the patient introduces the entire body with the exception of the head, and therefore breathes air under ordinary pressure. The cabinet communicates with two reservoirs, one containing condensed, the other rarefied air. During inspiration the air in the cabinet is rarefied, and expansion of the chest is facilitated. During expiration the air in the cabinet is condensed, the result of which is to aid thoracic retraction and render it more vigorous. By this means the two phases of respiration are influenced, and in an absolutely mechanical manner. The procedure may be truly said to be a method of artificial respiration. Hauke recommends his apparatus especially for children, who generally refuse to breathe into the so-called portable appliances, and, in fact, experience great difficulty in doing so. He has used it successfully in a variety of cases. Kaulich has also obtained good results."Tissier makes note here of the next phase of pressure therapy: the invention of portable pressure apparatus's, which were generally referred to as pneumatometers. Hawke became the first to invent such a device, and it was introduced to the market in 1870 and I describe it in detail in this post.
|Figure 3 -- William and Ketchum's Pneumatic Cabinet (6)|
By the 1900s the chambers were refined so that electricity was used to run the hydraulic compressor, windows provided the ability to see outside, temperature could be controlled, and humidification added.
Most of the chambers contained an antechamber that allowed the physician to leave and enter the chamber without disturbing the pressure. This also allowed the opportunity to bring entertainment to the patients, such as "books, newspapers, drinks, and the like, without interrupting inturrupting his treatment." (1, page 88-89)
And also keep in mind there were many of the above such chambers, tubs and cabinets at various medical institutions. Which one you would use would recommend on your ailment, symptoms, physician, and location.
- Tissier,Paul Lewis Alexandre, edited by Solomon Solis Cohen, "Pneumotherapy: Including Aerotherapy and inhalation methods," volume X, 1903, Philadelphia, P. Blakiston's Sons and Co., pages 88-98, or as noted above. If the profession of respiratory therapy existed in their era, we would be reading their books. However, as it was, their books were written for the medical profession. All of the material from this post is from Tissier's book unless otherwise noted in the above paragraphs.