ient was suffering from an earache that
extended over almost the entire head, and that increased at night
and especially in cold and damp weather. To these symptoms were
added strokes of epilepsy and an atrophy of the left arm. Finally, in
November, 1595, De Hilden, being called in, acquainted himself with
the cause of the trouble, and decided to remove the foreign body. To
do this, he selected, as he tells us, "a well lighted place, caused
the solar light to enter the ailing ear, lubricated the sides of the
auditory canal with oil of almonds, and introduced his apparatus."
Then, passing a scoop with some violence between the side of the
auditory canal and the glass ball, he succeeded in extracting the
latter.
At the beginning of the 17th century, then, physicians had at their
disposal all that was necessary for making an examination of the ear,
viz.: (1) a luminous source; (2) a means of concentrating the light;
and (3) an instrument which, entering the auditory canal, held its
sides apart.
The improvements which succeeded were connected with each of these
three points. To solar light, an artificial one has been preferred.
D'Acquapendentus' bottle has given way to the convex lens, and to
concave, spherical, and parabolic mirrors, etc. De Hilden's speculum
has been replaced by cylindrical, conical, bivalve, and other forms of
the instrument.
The apparatus that we illustrate herewith offers some arrangements
that are all its own as regards the process of concentrating the
light. It is lighted, in fact, by a small incandescent lamp of
2 candle-power, placed within the apparatus and supplied by an
accumulator. The reflector is represented by a portion of an ellipse
so calculated that one of the foci corresponds to the lamp and the
other to the extremity of the instrument. A commutator, B, permits of
establishing or interrupting the current at will. A rheostat added
to the accumulator makes it possible to graduate the light at one's
leisure and cause it to pass through all the shades comprised between
cherry-red and incandescence. Finally, the orifice through which the
observer looks is of such dimensions that it gives passage to all
the instruments necessary for treating complaints of the middle and
internal ear.
[Illustration: RATTEL'S OTOSCOPE.]
This mode of lighting and reflection may be adapted to a Brunton
otoscope, utilized for examining other natural cavities, such as the
nose, pharynx, etc. Elliptical
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