Aside from the danger and discomfort pertaining to the use of chloroform in apartments lighted or heated with natural gas, there is another similar danger in connection with ordinary city illuminating gas. In the presence of a flame produced by the latter the vapor of chloroform is broken up not only into chlorine and hydrochloric acid, but into a carbon oxychloride, known also as phosgene, which is toxic and produces a sense of suffocation by producing decomposition within the blood. A fatal occurrence of this kind led to experiments on animals by an Italian observer, which showed that the substance produced rapid disintegration of hemoglobin, which fell rapidly to 40 per cent., and that accompanying this there was suppression of urine with convulsions.
Unless chloroform be given by one familiar with its use, it is best given from a dropping bottle. If this be so arranged that it will discharge but one drop at a time, and the anesthetizer so administer it as to allow perhaps one drop to fall each second, the patient will at no time get an overdose, nor will there be struggling or choking. Irregularity of breathing is usually the result of insufficient air, and the mask should be at once removed, so that the patient may take one or two deep inspirations. When the cornea is insensitive the patient will stand almost any manipulation except, perhaps, stretching of the sphincters. When the sphincter can be stretched without provoking any effect except a prolonged inspiration, then the patient is, in all probability, completely relaxed and ready for any procedure. When the breath becomes stertorous the mask should be removed even though the cornea be sensitive. It will quickly lose its sensitiveness again within a few seconds. Proper breathing must be maintained. Free supply of air is important above all other things, and it is better that the surgeon should wait rather than the anesthetizer.
Additional safety in the use of chloroform may be afforded by the simultaneous use of oxygen gas, by which cyanosis is usually avoided and vomiting often prevented. It may be safely used with chloroform, but not with ether. If ozonized air be conducted into anhydrous ether it forms a thick liquid, probably ethyl peroxide, which explodes if heated (Hare). It is a mistake to so manage the administration of chloroform with oxygen that the patient receives no pure air. Oxygen is of great value, but it is not physiologically breathed in its pure state. When the gas is allowed to bubble through a bottle of chloroform, carrying with it the vapor, no idea can be formed as to relative percentages. A better way is to administer the chloroform upon a mask, and the oxygen by a tube from a wash-bottle filled with water and passed into the nostril under the edge of the inhaler (Hare).
Gwathmey has introduced a modification of the well-known standard Junker inhaler, by which oxygen and chloroform, or nitrous oxide and ether, may be given together, or by which any desired combination can be effected. Its special advantage is the same as the Harcourt apparatus, that the percentage of chloroform or ether vapor can be estimated or controlled. So far as the administration of chloroform with oxygen is concerned, Roth has shown that oxygen does not decompose the chloroform, but diminishes the danger of its administration.
Gwathmey refers to the advantage of keeping an open airway by turning the head a little to one side and pressing the jaw well forward; he also advises that when the anesthetic is removed from the face it is well to replace its odor by some other perfume, such as cologne or smelling salts, as it is presumed that the olfactory nerve is responsible for the initial symptoms of nausea and gastric distress.
In some States natural gas is used as fuel, usually in open fireplaces or stoves. When chloroform is administered in a room thus heated, or even lighted by natural gas, formaldehyde gas is the result of a mutual decomposition, and this is exceedingly pungent and irritating, and will soon produce violent coughing in all who are present in the room. It may be impossible to avoid this, but natural gas flames should be extinguished and some other source of illumination should be depended upon when practicable.
A. C. E. MIXTURE.
Under this term are known various mixtures of alcohol, chloroform, and ether, the intent being to counteract the depressing influence of chloroform by alcohol and ether. It may be said of every mixture of anesthetics that it is no less dangerous than its strongest constituent. Thus a mixture of chloroform and ether should be given with as much precaution as pure chloroform.
Mixtures of this kind should be made fresh for each administration, as the most volatile ingredient may evaporate in unknown amount and thus change the proportions. This is true of the mixture even after it is poured upon the inhaler, and the patient will thus be subjected to a chloroform mixture of varying strength.
The administration of ether for a few seconds during chloroform anesthesia will often prove beneficial in regulating or deepening inspiration, but it would be best to have the two drugs separate, and use the ether as it may seem called for, rather than to rely upon any such mixture. Moreover the vapor of alcohol is of itself irritating and undesirable.