Lecciso Flavia, Levante Annalisa, Fabio Rosa Angela, Caprì Tindara, Leo Marco, Carcagnì Pierluigi, Distante Cosimo, Mazzeo Pier Luigi, Spagnolo Paolo, Petrocchi Serena
Department of History, Society and Human Studies, University of Salento, Lecce, Italy.
Laboratory of Applied Psychology and Intervention, University of Salento, Lecce, Italy.
Front Psychol. 2021 Jul 21;12:678052. doi: 10.3389/fpsyg.2021.678052. eCollection 2021.
Several studies have found a delay in the development of facial emotion recognition and expression in children with an autism spectrum condition (ASC). Several interventions have been designed to help children to fill this gap. Most of them adopt technological devices (i.e., robots, computers, and avatars) as social mediators and reported evidence of improvement. Few interventions have aimed at promoting emotion recognition and expression abilities and, among these, most have focused on emotion recognition. Moreover, a crucial point is the generalization of the ability acquired during treatment to naturalistic interactions. This study aimed to evaluate the effectiveness of two technological-based interventions focused on the expression of basic emotions comparing a robot-based type of training with a "hybrid" computer-based one. Furthermore, we explored the engagement of the hybrid technological device introduced in the study as an intermediate step to facilitate the generalization of the acquired competencies in naturalistic settings. A two-group pre-post-test design was applied to a sample of 12 children (M = 9.33; ds = 2.19) with autism. The children were included in one of the two groups: group 1 received a robot-based type of training ( = 6); and group 2 received a computer-based type of training ( = 6). Pre- and post-intervention evaluations (i.e., time) of facial expression and production of four basic emotions (happiness, sadness, fear, and anger) were performed. Non-parametric ANOVAs found significant time effects between pre- and post-interventions on the ability to recognize sadness [ = 7.35, = 0.006; pre: M (ds) = 4.58 (0.51); post: M (ds) = 5], and to express happiness [ = 5.72, = 0.016; pre: M (ds) = 3.25 (1.81); post: M (ds) = 4.25 (1.76)], and sadness [ = 10.89, < 0; pre: M (ds) = 1.5 (1.32); post: M (ds) = 3.42 (1.78)]. The grouptime interactions were significant for fear [ = 1.019, = 0.03] and anger expression [ = 1.039, = 0.03]. However, Mann-Whitney comparisons did not show significant differences between robot-based and computer-based training. Finally, no difference was found in the levels of engagement comparing the two groups in terms of the number of voice prompts given during interventions. Albeit the results are preliminary and should be interpreted with caution, this study suggests that two types of technology-based training, one mediated a humanoid robot and the other a pre-settled video of a peer, perform similarly in promoting facial recognition and expression of basic emotions in children with an ASC. The findings represent the first step to generalize the abilities acquired in a laboratory-trained situation to naturalistic interactions.
多项研究发现,患有自闭症谱系障碍(ASC)的儿童在面部情绪识别和表达能力的发展上存在延迟。为此设计了多种干预措施来帮助儿童弥补这一差距。其中大多数采用技术设备(如机器人、计算机和虚拟化身)作为社交媒介,并报告了能力提升的证据。很少有干预措施旨在促进情绪识别和表达能力,而且在这些措施中,大多数都侧重于情绪识别。此外,一个关键问题是将治疗期间获得的能力推广到自然互动中。本研究旨在评估两种基于技术的干预措施在促进基本情绪表达方面的有效性,将基于机器人的训练方式与基于计算机的“混合”训练方式进行比较。此外,我们还探讨了本研究中引入的混合技术设备的参与度,将其作为促进在自然环境中获得的能力得以推广的中间步骤。对12名患有自闭症的儿童(M = 9.33;标准差 = 2.19)进行了两组前后测设计。这些儿童被分为两组:第1组接受基于机器人形式的训练(n = 6);第2组接受基于计算机形式的训练(n = 6)。对干预前后的面部表情以及四种基本情绪(快乐、悲伤、恐惧和愤怒)的表达进行了评估。非参数方差分析发现,干预前后在识别悲伤的能力上存在显著的时间效应[F(1,10) = 7.35,p = 0.006;干预前:M(标准差)= 4.58(0.51);干预后:M(标准差)= 5],在表达快乐的能力上存在显著的时间效应[F(1,10) = 5.72,p = 0.016;干预前:M(标准差)= ;干预后:M(标准差)= 4.25(1.76)],在表达悲伤的能力上存在显著的时间效应[F(1,10) = 10.89,p < 0.001;干预前:M(标准差)= 1.(1.32);干预后:M(标准差)= 3.42(1.78)]。组与时间的交互作用在恐惧表达[F(1,10) = 1.019,p = 0.03]和愤怒表达[F(1,10) = 1.039,p = 0.03]方面具有显著性。然而,曼 - 惠特尼比较未显示基于机器人的训练和基于计算机的训练之间存在显著差异。最后,就干预期间给出的语音提示数量而言,比较两组的参与度水平未发现差异。尽管结果是初步的,应谨慎解读,但本研究表明,两种基于技术的训练方式,一种由人形机器人介导,另一种由同伴的预设视频介导,在促进患有ASC的儿童面部基本情绪的识别和表达方面表现相似。这些发现代表了将在实验室训练情境中获得的能力推广到自然互动中的第一步。
