1 In rats, surgically anaesthetized with Urethane, an increase in the depth of anaesthesia upon administration of ethyl carbamate (Urethane), pentobarbitone sodium (Nembutal), thiopentone sodium (Intraval), althesin, ketamine, trichloroethylene, halothane, methoxyflurane, diethyl ether, ethyl-vinyl ether, cyclopropane, enflurane or chloroform resulted in a dose-dependent increase in the latency, and decrease in the amplitudes of the initial positive and negative components of the short latency cortical response to electrical stimuli applied to the forepaw. 2 The same changes were seen when starting from initially unanaesthetized rats and anaesthetizing them with Urethane. 3 With all the inhalational agents used these changes lasted for as long as the administration except with nitrous oxide where the changes in the cortical response were transient.4 The tranquillizing agents diazepam, chlordiazepoxide, and haloperidol showed no such action. Chloral hydrate and chlorpromazine, on the other hand, produced moderate changes in the evoked cortical response similar to those seen with the other anaesthetic agents used.
Two experiments on the discrimination of time-varying tactile stimuli were performed, with comparison of stimulus delivery to the distal pad of the right index finger and to the right wrist (palmar surface). Subjects were required to perceive differences in short sequences of computer-generated stimulus elements (experiment 1) or differences in short tactile stimuli derived from a speech signal (experiment 2). The pulse-train stimuli were distinguished by differences in frequency (i.e., pulse repetition rate) and amplitude, and by the presence/absence of gaps (approximately 100-ms duration). Stimulation levels were 10 dB higher at the wrist than at the fingertip, to compensate for the lower vibration sensitivity at the wrist. Results indicate similar gap detection at wrist and fingertip and similar perception of frequency differences. However, perception of amplitude differences was found to be better at the wrist than at the fingertip. Maximum information transfer rates for the stimuli in experiment 1 were estimated at 7 bits s(-1) at the wrist and 5 bits s(-1) at the fingertip.
To establish the best strategy for transmitting speech-derived information via a single tactile channel, measurements were made on the perception of frequency- and/or amplitude-modulated pulse-train stimuli, with a comparison of the electrotactile and vibrotactile modalities. In one experiment, vibrotactile perception of 2-oct step changes in stimulus frequency was found to be significantly better than electrotactile on a time-scale appropriate for the transmission of speech features (e.g., with practiced subjects, information transfer of 69% with 200-ms vibrotactile stimuli, 32% with 200-ms electrotactile stimuli). Perception of step changes in stimulus amplitude was similar in the two modalities when changes in amplitude were tailored to match the different dynamic ranges available. In a second experiment, vibrotactile-perception of voice fundamental frequency with various codings was investigated. Both experiments showed information transfer for vibrotactile stimuli to be greater when frequency and amplitude modulation were used together rather than with one or the other in isolation (sentence-stress identification scores: 66% for FM stimuli, 69% for AM stimuli, 80% for FM/AM stimuli). It is concluded that frequency- and amplitude-modulated vibratory stimulation is a good choice in a practical device for the profoundly hearing impaired.
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