Cerebral cortex activity in freely moving sheep using a wireless CW fNIRS system: preliminary results

Functional near-infrared spectroscopy (fNIRS) was recently applied in studies involving animals, showing great potential as, to date, this is the only technique that can be used to non-invasively measure hemodynamic brain responses in freely moving animals [1\u20133]. The aim of this study was to evaluate the cerebral activity of freely moving sheep undergoing different tasks (motor and somatosensory). Four one-year-old Sarda ewes were exposed to two different stimuli: a motor task (walking), and a sudden noise. To measure the changes of oxyhemoglobin ([\u394O2Hb]) and deoxyhemoglobin ([\u394HHb]) concentration, a mobile and miniaturized wireless CW fNIRS system (Octamon, Artinis Medical Systems, The Netherlands) was used. Sensors were applied on the forehead of the sheep depilated head and held in place with a customized head cap (Fig.1(a)). Four transmitters and two receivers (four channels in total), with pairs of transmitter-receiver at short (10 mm) and long (30 mm) distance, were used to cover the left and right hemisphere of the sheep head. The intensity of the light after transmission through tissue was recorded. The optical density was converted into [\u394O2Hb] and [\u394HHb] by the modified Lambert-Beer law. Our result of the motor task showed a decrease of [\u394O2Hb] and increase of [\u394HHb] in both hemispheres when sheep were walking (Fig.1(b)). For the sudden noise test, both hemispheres showed a transient decrease when the stimulus began, followed by a gradual increase in [\u394O2Hb] concentration (Fig.1(c)). Our preliminary results suggest that fNIRS has the potential to non-invasively measure cerebral cortex activity in free moving sheep undergoing different tasks. Combining behavioral indicators with these innovative measurements will strengthen knowledge on animal cognition and perception of different environmental situations, thus enhancing their welfare. This work was supported by MIUR-PRIN2015 (Grant 2015Y5W9YP)

Can functional near-infrared spectroscopy (FNIRS) give us reliable insights on sheep brain activity?

Functional near-infrared spectroscopy (fNIRS) is a noninvasive optical technique for monitoring the concentration of oxygenated and deoxygenated haemoglobin in human cerebral cortex. Recently, fNIRS has been increasingly used in animal studies, but research is needed to improve measurement accuracy and result reliability (e.g. rejecting possible extracerebral contributions). A wearable continuous wave (CW) fNIRS system (Octamon, Artinis Medical Systems, The Netherlands) was used to measure the cerebral activity of ten freely moving ewes (Sarda breed, 8-month-old) undergoing a motor task (30s baseline, 30s walking; ten repetitions) and a startling test (after 30s baseline an umbrella was opened in front of the sheep for 3s, followed by 60s recovery; five repetitions). fNIRS sensors were applied on the depilated sheep forehead and held in place with a customized head cap. Two pairs of transmitter-receiver at short (10mm) and long (30mm) distance were used to record light intensity at two wavelengths (760nm, 850nm) from the left and right hemisphere. Data were fitted to a CW model for photon diffusion in a two-layer geometry to estimate absorption changes with respect to the baseline in the bottom layer (representing cerebral cortex) and in the upper layer (representing tissues above brain: scalp, skull, CSF). Upper layer thickness was derived from anatomical measurements, while baseline optical properties (absorption and reduced scattering coefficients) were derived from time-resolved reflectance measurements on the same sheep. Beer\u2019s law was then used to calculate oxygenated haemoglobin changes (\u394O2Hb) and deoxygenated haemoglobin changes (\u394HHb) in both layers. Results of the motor task showed no changes in the upper layer and a canonical response in the bottom layer (\u394O2Hb increase and \u394HHb decrease) in both hemispheres when sheep were walking (Fig 1a). For the startling test, we found no changes in the upper layer and, after the stimulus, a canonical response only in right bottom layer (\u394O2Hb increase and \u394HHb decrease) (Fig 1b). These results confirm that CW fNIRS allowed to non-invasively measure cerebral cortex activity in freely moving sheep and that the use of short and long distance pairs of transmitter-receiver, coupled to a two-layer model for photon diffusion, was useful to reject extracerebral contributions. Measuring cerebral areas activation has the potential to give us new insights in the study of animal emotion and welfare. This study was approved by the Italian National Ethical Commission (authorization n\ub0457/2016-PR) and supported by MIUR-PRIN2015 (Grant 2015Y5W9YP)

In Car Audio

This chapter presents implementations of advanced in Car Audio Applications. The system is composed by three main different applications regarding the In Car listening and communication experience. Starting from a high level description of the algorithms, several implementations on different levels of hardware abstraction are presented, along with empirical results on both the design process undergone and the performance results achieved

Human Analogue Safe Haven Effect of the Owner : Behavioural and Heart Rate Response to Stressful Social Stimuli in Dogs

The secure base and safe haven effects of the attachment figure are central features of the human attachment theory. Recently, conclusive evidence for human analogue attachment behaviours in dogs has been provided, however, the owner’s security-providing role in danger has not been directly supported. We investigated the relationship between the behavioural and cardiac response in dogs (N = 30) while being approached by a threatening stranger in separation vs. in the presence of the owner, presented in a balanced order. Non-invasive telemetric measures of heart rate (HR) and heart rate variability (HRV) data during the threatening approaches was compared to periods before and after the encounters. Dogs that showed distress vocalisation during separation (N = 18) and that growled or barked at the stranger during the threatening approach (N = 17) were defined as behaviourally reactive in the given situation. While characteristic stress vocalisations were emitted during separations, the absence of the owner did not have an effect on dogs’ mean HR, but significantly increased the HRV. The threatening approach increased dogs’ mean HR, with a parallel decrease in the HRV, particularly in dogs that were behaviourally reactive to the encounter. Importantly, the HR increase was significantly less pronounced when dogs faced the stranger in the presence of the owner. Moreover, the test order, whether the dog encountered the stranger first with or without its owner, also proved important: HR increase associated with the encounter in separation seemed to be attenuated in dogs that faced the stranger first in the presence of their owner. We provided evidence for human analogue safe haven effect of the owner in a potentially dangerous situation. Similarly to parents of infants, owners can provide a buffer against stress in dogs, which can even reduce the effect of a subsequent encounter with the same threatening stimuli later when the owner is not present

Analysis of dogs’ sleep patterns using convolutional neural networks

Video-based analysis is one of the most important tools of animal behavior and animal welfare scientists. While automatic analysis systems exist for many species, this problem has not yet been adequately addressed for one of the most studied species in animal science—dogs. In this paper we describe a system developed for analyzing sleeping patterns of kenneled dogs, which may serve as indicator of their welfare. The system combines convolutional neural networks with classical data processing methods, and works with very low quality video from cameras installed in dogs shelters

The Effect of Genetic and Environmental Variation on Genital Size in Male Drosophila: Canalized but Developmentally Unstable

The genitalia of most male arthropods scale hypoallometrically with body size, that is they are more or less the same size across large and small individuals in a population. Such scaling is expected to arise when genital traits show less variation than somatic traits in response to factors that generate size variation among individuals in a population. Nevertheless, there have been few studies directly examining the relative sensitivity of genital and somatic traits to factors that affect their size. Such studies are key to understanding genital evolution and the evolution of morphological scaling relationships more generally. Previous studies indicate that the size of genital traits in male Drosophila melanogaster show a relatively low response to variation in environmental factors that affect trait size. Here we show that the size of genital traits in male fruit flies also exhibit a relatively low response to variation in genetic factors that affect trait size. Importantly, however, this low response is only to genetic factors that affect body and organ size systemically, not those that affect organ size autonomously. Further, we show that the genital traits do not show low levels of developmental instability, which is the response to stochastic developmental errors that also influence organ size autonomously. We discuss these results in the context of current hypotheses on the proximate and ultimate mechanisms that generate genital hypoallometry

Familiarity bias and physiological responses in contagious yawning by dogs support link to empathy

In humans, the susceptibility to yawn contagion has been theoretically and empirically related to our capacity for empathy. Because of its relevance to evolutionary biology, this phenomenon has been the focus of recent investigations in nonhuman species. In line with the empathic hypothesis, contagious yawning has been shown to correlate with the level of social attachment in several primate species. Domestic dogs (Canis familiaris) have also shown the ability to yawn contagiously. To date, however, the social modulation of dog contagious yawning has received contradictory support and alternative explanations (i.e., yawn as a mild distress response) could explain positive evidence. The present study aims to replicate contagious yawning in dogs and to discriminate between the two possible mediating mechanisms (i.e., empathic vs. distress related response). Twenty-five dogs observed familiar (dog’s owner) and unfamiliar human models (experimenter) acting out a yawn or control mouth movements. Concurrent physiological measures (heart rate) were additionally monitored for twenty-one of the subjects. The occurrence of yawn contagion was significantly higher during the yawning condition than during the control mouth movements. Furthermore, the dogs yawned more frequently when watching the familiar model than the unfamiliar one demonstrating that the contagiousness of yawning in dogs correlated with the level of emotional proximity. Moreover, subjects’ heart rate did not differ among conditions suggesting that the phenomenon of contagious yawning in dogs is unrelated to stressful events. Our findings are consistent with the view that contagious yawning is modulated by affective components of the behavior and may indicate that rudimentary forms of empathy could be present in domesticated dogs

Shape - but Not Size - Codivergence between Male and Female Copulatory Structures in Onthophagus Beetles

Genitalia are among the fastest evolving morphological traits in arthropods. Among the many hypotheses aimed at explaining this observation, some explicitly or implicitly predict concomitant male and female changes of genital traits that interact during copulation (i.e., lock and key, sexual conflict, cryptic female choice and pleiotropy). Testing these hypotheses requires insights into whether male and female copulatory structures that physically interact during mating also affect each other's evolution and patterns of diversification. Here we compare and contrast size and shape evolution of male and female structures that are known to interact tightly during copulation using two model systems: (a) the sister species O. taurus (1 native, 3 recently established populations) and O. illyricus, and (b) the species-complex O. fracticornis-similis-opacicollis. Partial Least Squares analyses indicated very little to no correlation between size and shape of copulatory structures, both in males and females. Accordingly, comparing shape and size diversification patterns of genitalia within each sex showed that the two components diversify readily - though largely independently of each other - within and between species. Similarly, comparing patterns of divergence across sexes showed that relative sizes of male and female copulatory organs diversify largely independent of each other. However, performing this analysis for genital shape revealed a signature of parallel divergence. Our results therefore suggest that male and female copulatory structures that are linked mechanically during copulation may diverge in concert with respect to their shapes. Furthermore, our results suggest that genital divergence in general, and co-divergence of male and female genital shape in particular, can evolve over an extraordinarily short time frame. Results are discussed in the framework of the hypotheses that assume or predict concomitant evolutionary changes in male and female copulatory organs

Patologia comportamentale : il gatto che sporca in casa: due casi esemplificativi del problema

This paper describes two cases of housesoiling problems in cats. In both clinical cases, environmental changes induced the onset of the problem. In the first case, housesoiling was the only behavioural problem and no major changes in other behaviours were reported. The therapy in this case only implied environmental modifications and modifications of the pet-owner relationship. In the second case the patient presented, along with the housesoiling problem, other behavioural symptoms. This more complex behavioural picture induced us to prescribe both a psychiatric drug (Fluoxetine) and some behavioural modification