Emotional Responses to Multisensory Environmental Stimuli: A Conceptual Framework and Literature Review.

How we perceive our environment affects the way we feel and behave. The impressions of our ambient environment are influenced by its entire spectrum of physical characteristics (e.g., luminosity, sound, scents, temperature) in a dynamic and interactive way. The ability to manipulate the sensory aspects of an environment such that people feel comfortable or exhibit a desired behavior is gaining interest and social relevance. Although much is known about the sensory effects of individual environmental characteristics, their combined effects are not a priori evident due to a wide range of non-linear interactions in the processing of sensory cues. As a result, it is currently not known how different environmental characteristics should be combined to effectively induce desired emotional and behavioral effects. To gain more insight into this matter, we performed a literature review on the emotional effects of multisensory stimulation. Although we found some interesting mechanisms, the outcome also reveals that empirical evidence is still scarce and haphazard. To stimulate further discussion and research, we propose a conceptual framework that describes how environmental interventions are likely to affect human emotional responses. This framework leads to some critical research questions that suggest opportunities for further investigation

Emotional Responses to Multisensory Environmental Stimuli

How we perceive our environment affects the way we feel and behave. The impressions of our ambient environment are influenced by its entire spectrum of physical characteristics (e.g., luminosity, sound, scents, temperature) in a dynamic and interactive way. The ability to manipulate the sensory aspects of an environment such that people feel comfortable or exhibit a desired behavior is gaining interest and social relevance. Although much is known about the sensory effects of individual environmental characteristics, their combined effects are not a priori evident due to a wide range of non-linear interactions in the processing of sensory cues. As a result, it is currently not known how different environmental characteristics should be combined to effectively induce desired emotional and behavioral effects. To gain more insight into this matter, we performed a literature review on the emotional effects of multisensory stimulation. Although we found some interesting mechanisms, the outcome also reveals that empirical evidence is still scarce and haphazard. To stimulate further discussion and research, we propose a conceptual framework that describes how environmental interventions are likely to affect human emotional responses. This framework leads to some critical research questions that suggest opportunities for further investigation

Emotional Responses to Multisensory Environmental Stimuli: A Conceptual Framework and Literature Review.

How we perceive our environment affects the way we feel and behave. The impressions of our ambient environment are influenced by its entire spectrum of physical characteristics (e.g., luminosity, sound, scents, temperature) in a dynamic and interactive way. The ability to manipulate the sensory aspects of an environment such that people feel comfortable or exhibit a desired behavior is gaining interest and social relevance. Although much is known about the sensory effects of individual environmental characteristics, their combined effects are not a priori evident due to a wide range of non-linear interactions in the processing of sensory cues. As a result, it is currently not known how different environmental characteristics should be combined to effectively induce desired emotional and behavioral effects. To gain more insight into this matter, we performed a literature review on the emotional effects of multisensory stimulation. Although we found some interesting mechanisms, the outcome also reveals that empirical evidence is still scarce and haphazard. To stimulate further discussion and research, we propose a conceptual framework that describes how environmental interventions are likely to affect human emotional responses. This framework leads to some critical research questions that suggest opportunities for further investigation

The effects of odor and body posture on perceived duration

This study reports an examination of the internal clock model, according to which subjective time duration is influenced by attention and arousal state. In a time production task, we examine the hypothesis that an arousing odor and an upright body posture affect perceived duration. The experimental task was performed while participants were exposed to an odor and either sitting upright (arousing condition) or lying down in a relaxing chair (relaxing condition). They were allocated to one of three experimental odor conditions: rosemary (arousing condition), peppermint (relaxing condition), and no odor (control condition). The predicted effects of the odors were not borne out by the results. Self-reported arousal (SRA) and pleasure (PL) states were measured before, during (after each body posture condition) and postexperimentally. Heart rate (HR) and skin conductance were measured before and during the experiment. As expected, odor had an effect on perceived duration. When participants were exposed to rosemary odor, they produced significantly shorter time intervals than in the no odor condition. This effect, however, could not be explained by increased arousal. There was no effect of body posture on perceived duration, even though body posture did induce arousal. The results do not support the proposed arousal mechanism of the internal clock model

A Randomized Multicenter Study Assessing the Educational Impact of a Computerized Interactive Hysterectomy Trainer on Gynecology Residents

Study Objective: To assess the improvement of cognitive surgical knowledge of laparoscopic hysterectomy in postgraduate year (PGY) 1 and 2 gynecology residents who used an interactive computer-based Laparoscopic Hysterectomy Trainer (Red Llama, Inc., Seattle, WA). Design: A multicenter, randomized, controlled study (Canadian Task Force classification I). Setting: Five departments of obstetrics and gynecology: Keck School of Medicine of the University of Southern California, Los Angeles, CA; University of California, Los Angeles, Los Angeles, CA; University of Washington, Seattle, WA; University of British Columbia, Vancouver, British Columbia, Canada; and University of Toronto, Toronto, Ontario, Canada. Participants: Gynecology residents, fellows, faculty, and minimally invasive surgeons. Interventions: The use of an interactive computer-based Laparoscopic Hysterectomy Trainer. Measurements and Main Results: In phase 1 of this 3-phase multicenter study, 2 hysterectomy knowledge assessment tests (A and B) were developed using a modified Delphi technique. Phase 2 administered these 2 online tests to PGY 3 and 4 gynecology residents, gynecology surgical fellows, faculty, and minimally invasive surgeons (n = 60). In phase 3, PGY 1 and 2 gynecology residents (n = 128) were recruited, and 101 chose to participate, were pretested (test A), and then randomized to the control or intervention group. Both groups continued site-specific training while the intervention group additionally used the Laparoscopic Hysterectomy Trainer. Participant residents were subsequently posttested (test B). Phase 2 results showed no differences between cognitive tests A and B when assessed for equivalence, internal consistency, and reliability. Construct validity was shown for both tests (p < .001). In phase 3, the pretest mean score for the control group was 242 (standard deviation [SD] = 56.5), and for the intervention group it was 217 (SD = 57.6) (nonsignificant difference, p = .089). The t test comparing the posttest control group (mean = 297, SD = 53.6) and the posttest intervention group (mean = 343, SD = 50.9) yielded a significant difference (p < .001, 95% confidence interval, 48.4-108.8). Posttest scores for the intervention group were significantly better than for the control group (p < .001). Conclusion: Using the Laparoscopic Hysterectomy Trainer significantly increased knowledge of the hysterectomy procedure in PGY 1 and 2 gynecology residents

A Randomized Multicenter Study Assessing the Educational Impact of a Computerized Interactive Hysterectomy Trainer on Gynecology Residents

Study Objective: To assess the improvement of cognitive surgical knowledge of laparoscopic hysterectomy in postgraduate year (PGY) 1 and 2 gynecology residents who used an interactive computer-based Laparoscopic Hysterectomy Trainer (Red Llama, Inc., Seattle, WA). Design: A multicenter, randomized, controlled study (Canadian Task Force classification I). Setting: Five departments of obstetrics and gynecology: Keck School of Medicine of the University of Southern California, Los Angeles, CA; University of California, Los Angeles, Los Angeles, CA; University of Washington, Seattle, WA; University of British Columbia, Vancouver, British Columbia, Canada; and University of Toronto, Toronto, Ontario, Canada. Participants: Gynecology residents, fellows, faculty, and minimally invasive surgeons. Interventions: The use of an interactive computer-based Laparoscopic Hysterectomy Trainer. Measurements and Main Results: In phase 1 of this 3-phase multicenter study, 2 hysterectomy knowledge assessment tests (A and B) were developed using a modified Delphi technique. Phase 2 administered these 2 online tests to PGY 3 and 4 gynecology residents, gynecology surgical fellows, faculty, and minimally invasive surgeons (n = 60). In phase 3, PGY 1 and 2 gynecology residents (n = 128) were recruited, and 101 chose to participate, were pretested (test A), and then randomized to the control or intervention group. Both groups continued site-specific training while the intervention group additionally used the Laparoscopic Hysterectomy Trainer. Participant residents were subsequently posttested (test B). Phase 2 results showed no differences between cognitive tests A and B when assessed for equivalence, internal consistency, and reliability. Construct validity was shown for both tests (p < .001). In phase 3, the pretest mean score for the control group was 242 (standard deviation [SD] = 56.5), and for the intervention group it was 217 (SD = 57.6) (nonsignificant difference, p = .089). The t test comparing the posttest control group (mean = 297, SD = 53.6) and the posttest intervention group (mean = 343, SD = 50.9) yielded a significant difference (p < .001, 95% confidence interval, 48.4-108.8). Posttest scores for the intervention group were significantly better than for the control group (p < .001). Conclusion: Using the Laparoscopic Hysterectomy Trainer significantly increased knowledge of the hysterectomy procedure in PGY 1 and 2 gynecology residents