TY - JOUR
T1 - TrackUSF, a novel tool for automated ultrasonic vocalization analysis, reveals modified calls in a rat model of autism
AU - Netser, Shai
AU - Nahardiya, Guy
AU - Weiss-Dicker, Gili
AU - Dadush, Roei
AU - Goussha, Yizhaq
AU - John, Shanah Rachel
AU - Taub, Mor
AU - Werber, Yuval
AU - Sapir, Nir
AU - Yovel, Yossi
AU - Harony-Nicolas, Hala
AU - Buxbaum, Joseph D.
AU - Cohen, Lior
AU - Crammer, Koby
AU - Wagner, Shlomo
N1 - Publisher Copyright:
© 2022, The Author(s).
PY - 2022/12
Y1 - 2022/12
N2 - Background: Various mammalian species emit ultrasonic vocalizations (USVs), which reflect their emotional state and mediate social interactions. USVs are usually analyzed by manual or semi-automated methodologies that categorize discrete USVs according to their structure in the frequency-time domains. This laborious analysis hinders the effective use of USVs as a readout for high-throughput analysis of behavioral changes in animals. Results: Here we present a novel automated open-source tool that utilizes a different approach towards USV analysis, termed TrackUSF. To validate TrackUSF, we analyzed calls from different animal species, namely mice, rats, and bats, recorded in various settings and compared the results with a manual analysis by a trained observer. We found that TrackUSF detected the majority of USVs, with less than 1% of false-positive detections. We then employed TrackUSF to analyze social vocalizations in Shank3-deficient rats, a rat model of autism, and revealed that these vocalizations exhibit a spectrum of deviations from appetitive calls towards aversive calls. Conclusions: TrackUSF is a simple and easy-to-use system that may be used for a high-throughput comparison of ultrasonic vocalizations between groups of animals of any kind in any setting, with no prior assumptions.
AB - Background: Various mammalian species emit ultrasonic vocalizations (USVs), which reflect their emotional state and mediate social interactions. USVs are usually analyzed by manual or semi-automated methodologies that categorize discrete USVs according to their structure in the frequency-time domains. This laborious analysis hinders the effective use of USVs as a readout for high-throughput analysis of behavioral changes in animals. Results: Here we present a novel automated open-source tool that utilizes a different approach towards USV analysis, termed TrackUSF. To validate TrackUSF, we analyzed calls from different animal species, namely mice, rats, and bats, recorded in various settings and compared the results with a manual analysis by a trained observer. We found that TrackUSF detected the majority of USVs, with less than 1% of false-positive detections. We then employed TrackUSF to analyze social vocalizations in Shank3-deficient rats, a rat model of autism, and revealed that these vocalizations exhibit a spectrum of deviations from appetitive calls towards aversive calls. Conclusions: TrackUSF is a simple and easy-to-use system that may be used for a high-throughput comparison of ultrasonic vocalizations between groups of animals of any kind in any setting, with no prior assumptions.
KW - Animal models
KW - Appetitive calls, Aversive calls
KW - Autism spectrum disorder
KW - Bat echolocation
KW - Behavioral analysis
KW - Computational tool
KW - Mating calls
KW - Shank3-deficient rats
KW - Ultrasonic vocalizations
UR - http://www.scopus.com/inward/record.url?scp=85133925184&partnerID=8YFLogxK
U2 - 10.1186/s12915-022-01299-y
DO - 10.1186/s12915-022-01299-y
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C2 - 35820848
AN - SCOPUS:85133925184
SN - 1741-7007
VL - 20
JO - BMC Biology
JF - BMC Biology
IS - 1
M1 - 159
ER -