Biased attention to threat and anxiety: On taking a developmental approach

Anxiety’s impact across the life span

Clinical anxiety disorders are the most common psychiatric disorders and are estimated to affect up to 20% of the population at some point in development (Bosquet & Egeland, 2006; Gross & Hen, 2004). Anxiety can be impairing across the life span and is a serious mental health phenomenon. Further, anxiety produces acute suffering and increases risk for a range of long-term adverse outcomes (Pine, Helfinstein, Bar-Haim, Nelson, & Fox, 2009). Childhood or adolescent anxiety disorders are also common, with rates in the population between 5% and 10% (Essau, Conradt, & Petermann, 1999; Fergusson, Horwood, & Lynskey, 1993; McGee et al., 1990), and persistent, often leading to twofold to threefold increases in levels of anxiety and depression in adulthood (Beesdo et al., 2007; Cole, Peeke, Martin, Truglio, & Seroczynski, 1998; Copeland, Angold, Shanahan, & Costello, 2014; Last, Perrin, Hersen, & Kazdin, 1996; Orvaschel, Lewinsohn, & Seeley, 1995; Pine, Cohen, Gurley, Brook, & Ma, 1998). High-trait anxious and clinically anxious adults tend to interpret ambiguous information from the environment as threatening, which can lead to avoidance and withdrawal behavior (Beck & Clark, 1988). In addition, anxious individuals more readily acquire fear pairings in learning paradigms (Mineka & Oehlberg, 2008) and are in turn more likely to generalize this fear learning to putatively nonthreatening safety signals (Britton, Lissek, Grillon, Norcross, & Pine, 2011).

Anxiety appears early in life with anxious behaviors at clinical and subclinical levels evident as early as age 3 (Egger & Angold, 2006). Further, aspects of anxiety symptoms including negative affect, social withdrawal, and hypervigilance (Fox, Henderson, Marshall, Nichols, & Ghera, 2005; Guyer, Masten, & Pine, 2013) often begin in infancy. However, the presentation of these symptoms changes across development and into adulthood in predictable ways that can reflect environmental influences (Bosquet & Egeland, 2006) and the development of regulatory processes (Rothbart, Sheese, Rueda, & Posner, 2011). Other biologically based correlates of anxiety are also stable across development. For example, individuals with, or at risk for, anxiety often present with increased heart rates and greater autonomic reactivity over the life span (Pine, 2007). Anxious individuals may also be acutely sensitive to environmental context, monitoring their surroundings for signs of threat or for feedback regarding their place and role in social engagements (Hadwin & Field, 2010). The behavioral, biological, and social correlates of anxiety are often evident even before the emergence of any disorder. Thus, childhood risk factors for anxiety are thought to morph into the symptoms of the disorder across development (Britton et al., 2011; Pérez-Edgar & Guyer, 2014).

Importantly, a newly emerging literature points to a potential causal relation between biased attention to threat and the development and maintenance of anxiety in both adults and children (Bar-Haim, 2010; Fox, Hane, & Pine, 2007; Von Bockstaele et al., 2014). Biased attention to threat “cause[s] preferential perception of [any] particular category of stimulus based on its relative affective salience” (Todd, Cunningham, Anderson, & Thompson, 2012, p. 365) and can systematically shape an individual’s view of the world. For individuals with a specific bias to threat, the downstream consequences are linked to anxiety and social withdrawal. Attention is a key component of cognition and dictates all stages of information processing. The centrality of attention in development grows out of its role as a cognitive mechanism whose core function is to influence the operation of other downstream processing—by choosing the focus of attention for further processing, by maintaining this focus as needed, and by disengaging from the focus of attention when it no longer serves current goals (Posner & Rothbart, 2007). The earliest forms of self-regulation and effortful control are rooted in the ability to disengage, shift gaze, and reorient to a new focus of attention (Rothbart, Posner, & Rosicky, 1994). In this way, attention mechanisms, and biased attention to threat in particular, may play a pivotal role in shaping the individual’s experienced environment from the first days of life. At the extreme, these biases can generate and canalize a relatively rigid and inflexible approach to the world.

Given the central role of attention in early processing and regulation, biased attention to threat may be evident from early in infancy and may act as a core mechanism of socioemotional development (Morales, Fu, & Pérez-Edgar, 2016; Pérez-Edgar, Taber-Thomas, Auday, & Morales, 2014). If this view is correct, individual differences in attention, first emerging in infancy, should be associated with diverging trajectories of socioemotional development, and importantly, trajectories for the development of anxiety. Understanding these relations early in development could thus provide avenues for (1) understanding mechanisms that lead to the emergence of social withdrawal and anxiety and (2) identifying individuals at risk for socioemotional difficulties.

Despite support in the adult literature for a link between attentional bias to threat and anxiety, developmental research in this domain is still limited. Further, there is currently no longitudinal research that investigates the early development of attention bias to threat as a predictor of anxiety. In the current review, we aim to highlight the importance of taking a developmental approach to studying the relation between attention biases and anxiety, outlining how biased attention to threatening stimuli can act as an important factor underlying the etiology and maintenance of anxiety disorders. First, we review developmental research on the relation between biased attention to threat and anxiety. We then describe how recent developmental work can fit into existing (and evolving) theoretical frameworks for the development of anxiety and how attention biases might interact with other risk factors over the course of development. Next, we describe how new adaptations to traditional methods for measuring biased attention to threat can be used to capture patterns of biased attention developmentally, particularly in infant populations. Finally, we conclude by discussing limitations of the current literature and directions for future research.

Altogether, we hope that by describing new research on attention bias to threat and anxiety in infants and children, and the methods that can be used to examine these variables and the relationships between them, we can provide a road map for how future researchers might implement developmental approaches to studying a core mechanism of socioemotional functioning. By highlighting early attention as an underlying mechanism in the emergence and developmental arc of anxiety, we aim to encourage future developmental work that ultimately helps us identify targets for early detection and intervention.

Biased attention to threat and anxiety in early development

Humans’ ability to recognize and detect threatening stimuli has been of interest to basic science researchers for decades (see LoBue & Rakison, 2013, for a review). Research has shown that both humans and nonhuman primates rapidly detect the presence of biological or evolutionary threats, such as snakes, spiders, and threatening conspecifics (e.g., angry faces) more quickly than they detect neutral or benign stimuli (LoBue, 2009; LoBue & Deloache, 2008, 2010; Ohman et al., 2001). Further, selective attention to snakes, spiders, and angry faces (LoBue, Rakison, & DeLoache, 2010) is evident behaviorally by 4–7 months (de Haan & Nelson, 1998; Kotsoni, de Haan, & Johnson, 2001; LoBue, Buss, Taber-Thomas, & Pérez-Edgar, 2017; Nelson & Dolgin, 1985; Peltola, Yrttiaho, & Leppänen, 2018; Rakison & Derringer, 2008) and in electrophysiology by 4–5 months (Hoehl & Striano, 2008; Striano, Kopp, Grossmann, & Reid, 2006). Similarly, a bias for fear faces emerges between 5 and 11 months of age (Peltola, Hietanen, Forssman, & Leppänen, 2013) in typically developing individuals. Mechanistically, biased attention may act as a rapid, reflexive response that precedes and supports more evaluative processing of environmental events (Todd et al., 2012). Thus, although biased attention to threat has traditionally been studied in typically developing populations, recent investigations into biased attention and its relation to the development of anxiety represent a key advancement. Indeed, if infants preferentially attend to threatening or negative social information in the environment, this information may play a role in shaping their expectations about social situations and, ultimately, their social behavior. Thus, biased attention to threat can act as a domain-general mechanism that overtime may support the emergence of entrenched regulatory patterns of behavior (Morales et al., 2016).

Importantly, biased attention to threat is not necessarily accompanied by signs of fear to the threat cue (LoBue, 2013). Rather, low-level perceptual biases draw attention to a personally salient environmental cue, which in conjunction with maturation and relevant experiences (e.g., social signals from adults) can “tune” filters in the deployment of initial attention and subsequent processing, gradually sculpting attention patterns from infancy onward, impacting memory encoding and behavior enactment (Leppanen & Nelson, 2006; Scerif, 2010). This process may serve as one underlying mechanism leading to biased attention to threat evident in the clinical and temperament literature (Bar-Haim, 2010; Bar-Haim, Lamy, Pergamin, Bakermans-Kranenburg, & van Ijzendoorn, 2007; Fox & Pine, 2012). Perceptual biases may have the greatest impact on individuals who are predisposed to high levels of fear and anxiety, such as children who go on to show extreme temperaments marked by fear and risk for anxiety, particularly behavioral inhibition (BI) and dysregulated fear (DF) (Buss & Kiel, 2013; Buss et al., 2013).

Cognitive theories of anxiety already focus on the role of information processing biases in the disorder (Mathews & Macleod, 2002; Rapee & Heimberg, 1997). Laboratory computer-based tasks reflect this assessment as clinically anxious children (Roy et al., 2008; Waters, Henry, Mogg, Bradley, & Pine, 2010; Waters, Mogg, Bradley, & Pine, 2008) and adults (Mathews & MacLeod, 1985) show spontaneous biases to threat stimuli in their environments (see Dudeney, Sharpe, & Hunt, 2015, for a recent meta-analysis of these findings in children). However, the role of biased attention to threat does not appear to have a “clean” linear relation to anxiety. For example, emerging data suggest that along with a bias toward threatening stimuli, biases away from threatening stimuli are also associated with anxiety (Shechner et al., 2012). Direction may reflect diagnostic boundaries, as distress disorders have shown a significant bias toward threat, whereas children with fear disorders show a bias away from threat (Waters, Bradley, & Mogg, 2014), so some qualification of diagnostic category or criteria might be necessary for comparing data across these studies. For example, in adults exposed to military attack, threat avoidance was associated with proximity to attack and subsequent levels of Post Traumatic Stress Disorder (PTSD) (Bar-Haim et al., 2010; Wald et al., 2011).

These patterns of vigilance and avoidance are also evident in the temperament literature. Morales, Pérez-Edgar, and Buss (2015) found that 5-year-old children characterized for DF as toddlers displayed attentional avoidance of emotion faces (Morales, Pérez-Edgar, & Buss, 2015). However, bias scores were still positively associated with anxiety. Nine- to twelve-year-olds completed two related tasks (dot probe and affective Posner) and the data suggest that children with inconsistent bias patterns were low in anxiety (Morales et al., 2017). Children with stable patterns of attention, either toward—or—away from threat, showed elevated levels of anxiety. There is some evidence that behaviorally inhibited (BI; reviewed below) children show a similar bias toward threat (Pérez-Edgar, Bar-Haim, et al., 2010), which in turn helps sustain a developmental link between early BI and later socioemotional difficulties (Pérez-Edgar et al., 2010, 2011; White, Degnan, et al., 2017).

While there is evidence that adults with clinical levels of anxiety (but not those without) are likely to display biased attention to threat (Bar-Haim et al., 2007), we do not know whether the pattern develops overtime or whether it is present early in life. As mentioned previously, some studies have shown that biased attention to threat is typical for all children, regardless of anxiety level (Ehrenreich & Gross, 2002; Kindt, Bierman, & Brosschot, 1997; Kindt, Brosschot, & Everaerd, 1997; LoBue, 2009, LoBue & DeLoache, 2010; LoBue & DeLoache, 2008; Morren, Kindt, van den Hout, & van Kasteren, 2003), others suggest that these biases are specific to children with anxiety (Waters et al., 2008), while others provide evidence that the two arguments are not mutually exclusive. For example, Waters, Lipp, and Spence (2004) showed that while anxious 9- to 12-year-old children have a greater bias toward affective stimuli, both anxious and nonselected children showed a specific bias for threatening stimuli. Similarly, LoBue and Pérez-Edgar (2014) reported that while all 5-year-olds demonstrate a bias for both social (angry faces) and nonsocial (snakes) threats, extremely shy children show an elevated bias for social threats specifically when compared to nonshy children.

Given these findings and others (e.g., Price et al., 2016), attention biases for social threats might be relative, with individuals with clinical levels of anxiety demonstrating a greater bias when compared to a nonclinical sample. However, most of these studies focus on either adults or children older than the age of 5 years. It may be that biased attention to threat in both anxious and nonanxious individuals is already established by this age. Thus, the question of how these biases develop over the first few years of life and how they relate to behavior is still open, and there is a critical need for longitudinal studies looking at these processes starting in infancy. Studies examining whether attention bias to threat is a concurrent symptom of, or precedes anxiety symptoms longitudinally, starting in early development, are still needed.

Several studies demonstrate that experimentally manipulating biased attention to threat in healthy and anxious children and adults (Bar-Haim et al., 2012; Eldar & Bar-Haim, 2010; Eldar, Ricon, & Bar-Haim, 2008; Eldar et al., 2012; MacLeod, Rutherford, Campbell, Ebsworthy, & Holker, 2002; Mathews & MacLeod, 2002; Schmidt, Richey, Buckner, & Timpano, 2009) produces a subsequent change in anxious behavior and stress-related reactivity (Bar-Haim, 2010; Hakamata et al., 2010; Lazarov et al., 2018; Naim, Kivity, Bar-Haim, & Huppert, 2018, but see Cristea, Kok, & Cuijpers, 2015). The findings support the argument that biased attention to threat is as a causal mechanism in the development and maintenance of anxiety. However, this is a mechanistic argument supporting the potential for causality. While experimental designs can support causality, it remains an assumption that this is the pathway through which biased attention develops or that this is the mechanism at play in the natural development of anxiety (Pérez-Edgar & Hastings, 2018). The degree to which biased attention to threat represents a downstream result of ongoing anxiety or an early-emerging predisposing factor implicated in the risk for anxiety remains unclear. Importantly, we still lack a critical component needed to understand these observed patterns: We do not know the antecedents of these divergent attentional patterns nor the mechanisms leading to vigilance or avoidance.

Developmental research involving infants has demonstrated the existence of biases for various kinds of salient stimuli for decades. Indeed, well-known paradigms like preferential looking and habituation tasks depend on the fact that infants are biased in where they look (Teller, 1979). However, research on infants’ biased attention to threat is still quite limited, leaving open the question of when these specific biases develop and how normative biases might shape socioemotional development over of the course of the life span. Recently, Burris, Barry-Anwar, and Rivera (2017) showed that a bias toward both negative and positive emotional expressions was normative in a sample of typically developing children aged 9–48 months, implementing similar experimental parameters that have been used to measure attention biases in adolescent and adult populations. Similarly, LoBue, Buss, Taber-Thomas, and Pérez-Edgar (2017) demonstrated that biases for both social (angry faces) and nonsocial (snakes) threats are measurable between the ages of 4 and 24 months in typically developing infants using an eye-tracking methodology. In one of the few studies incorporating anxiety and attention to threat in young children, Dodd et al. (2015) showed that, on an eye-tracking visual paired-comparison task, both anxious and nonanxious 3- to 4-year-old children showed attentional vigilance and longer dwell times to angry faces compared to neutral faces.

Importantly, other work has linked early patterns of attention with the manifestation of later temperament. While the literature linking BI and attention to threat is limited, Pérez-Edgar et al. showed that greater vigilance (less sustained attention) at 9 months was associated with increases in BI from 14 months to 7 years (Pérez-Edgar et al., 2010). Moreover, initial BI levels predicted social difficulties assessed during an observed social dyad interaction with an unfamiliar peer at age 14 years only when the individual had shown high levels of vigilance as an infant. This work has laid the groundwork for developing new methodologies for studying biased attention to threat in infants as young as 4 months of age.

One major limitation of this work is the open-ended question of whether biased attention to threat exists as a correlate, a risk factor, or simply a symptom of anxiety. These distinctions are blurred throughout the literature, and clarity with this concept should be an important priority for current and future work in this area. The current review presents strong evidence that there is an association between anxiety and attention, but the field currently does not know how or why it develops or the role that attention plays across development. Again, it is important to note that in many studies, there are large portions of the study sample that have anxiety but do not present biased attention to threat, and vice versa. Thus, there is no question that the framework underlying the development of anxiety is complex, and attention contributes only part of that larger framework. However, we do aim to challenge the notion that biased attention to threat is simply a symptom of anxiety, given the developmental framework that is becoming stronger in the literature. A thorough longitudinal investigation into biased attention across early development is needed, utilizing age-appropriate tasks that can identify attention biases for threat reliably in even very young infants.

Methodological issues

To more thoroughly explore the impact biased attention to threat can have on the development of anxiety, developmental researchers are challenged with developing more infant-directed methods to measure biased attention. Here, we discuss traditional methods for measuring biased attention to threat used in the adult literature, and we then explore adjustments that can be applied to make these methods appropriate for use in young populations (for additional information on the traditional uses of these paradigms, see Bar-Haim et al., 2007 and Cisler & Koster, 2010). Importantly, adjustments that can be applied to standard methods to make them appropriate for pediatric populations might also improve the reliability and validity of the tasks for adult populations.

The Dot-Probe Task is perhaps the oldest and most well-cited attention bias task (e.g., MacLeod, Mathews, & Tata, 1986; Mogg & Bradley, 1999; Mogg, Bradley, De Bono, & Painter, 1997; Koster, Crombez, Verschuere, & De Houwer, 2004; Salemink, van den Hout, & Kindt, 2007; for review, see Bar-Haim et al., 2007) and is theorized to measure biased attention by tracking reaction time to a visual stimulus after the presence of affective information. Many different versions of the task that utilize different types of stimuli exist. One version of the task that utilizes faces presents two faces side by side, usually paired by emotion—neutral–neutral, happy–neutral, and angry–neutral—followed by some type of probe that appears on the same side of one of the faces that preceded the probe (MacLeod et al., 1986). On congruent trials, the probe appears on the same side of the screen as the emotional face and on incongruent trials, the probe follows on the same side as the presentation of the neutral face. Individuals are tasked with indicating (traditionally with a button press) which side of the screen the probe appears. The theory behind the task is that individuals will respond faster to a stimulus that appears in an attended region of their visual perception than an unattended one (Posner, 1980). Attentional biases are calculated using the time to detect the probe on incongruent versus congruent trials. If individuals are faster at detecting probes that appear in the same spatial location as the threatening faces, it indicates that their attentional system was biased towards threat. If the latency to detect the neutral or happy faces is faster than the threatening faces, we can conclude that the individual is avoidant of threat.

The Emotional Stroop Task is commonly used to measure the attentional control component of biased attention. The task is a variation of the classic Stroop task which presents color words in varying “ink” colors (Stroop, 1935). In the emotional variant, a word with either a threatening or neutral valence is presented in a color and the participant is asked to report the color of the word rather than the valence or semantic information. An individual is said to demonstrate biased attention to threat whether they are slower to label the color of a threat-related word versus a neutral word (MacLeod, 1991; Williams, Mathews, & MacLeod, 1996).

Another task that investigates biased attention is the traditional Visual Search Task (Ohman, Flykt, & Esteves, 2001). Participants are presented with matrices of stimuli containing four or nine photographs from a single category (target absent) or similar matrices containing a single discrepant image (target present). Participants asked to indicate with a button-press when they have identified the presence or absence of a discrepant category. Using this paradigm, attentional biases are captured when response times are slower to detect discrepant neutral images than discrepant threatening images (Cisler, Bacon, & Williams, 2009). The task has been used with emotional facial expressions, animals, and even words and has shown biased attention to threat in individuals with anxiety (Rinck, Reinecke, Ellwart, Heuer, & Becker, 2005).

Finally, Posner (1980) presented a Spatial Cueing Task that has been used and manipulated extensively in the attention bias literature. In the task, a cue appears in one location and is then followed by a target stimulus that is presented either in the same place as the cue (valid cue trial) or in a different spatial location (invalid cue trial). If cues effectively capture attention, responses to the target should be faster in the valid cue trials than in the invalid cue trials. This difference in reaction time is thought to come from the benefit of having the attention system already fixated to the correct place on the screen before the target is presented. The slowing seen in the invalid cue trials reflects the time it takes to disengage attention, shift to the other side of the screen, and fixate the target. This task allows for a more thorough investigation of the attentional mechanisms guiding biased attention, allowing for separation between attentional disengagement, shift, and engagement. Adding affect-relevant motivation or feedback with the typical neutral cues have shown that the basic mechanism is sensitive to state and trait variation including childhood shyness (Pérez-Edgar & Fox, 2005). Fox, Henderson, Rubin, Calkins, and Schmidt (2001) modified the task to have affective cues and saw that a threatening cue caused a faster response relative to neutral valid cue trials. Both affective variations of the traditional task have found that the orienting effect is potentiated in individuals with anxiety (Bar-Haim, Morag, & Glickman, 2011; Ellenbogen & Schwartzman, 2009) or at risk for anxiety (White, McDermott, Degnan, Henderson, & Fox, 2011).

Attention and anxiety in the context of other risk factors

Although we have reviewed strong evidence for the impact of biased attention to threat on individuals with anxiety, attention bias is only one of many factors that are believed to put an individual at risk for developing anxiety. From the idea of multifinality, we know that there are many pathways that can be taken to reach the same developmental end point (Cicchetti & Rogosch, 1996), especially one as complex as anxiety. Not all anxious individuals show biased attention to threat, and not all individuals who do have biased attention to threat present with heightened anxiety levels. There are also factors that may moderate attentional processes, reflecting the interaction of different developmental pathways and highlighting that attentional processes do not operate within a vacuum. Thus, we argue that the emergence of anxiety is dependent on attention mechanisms embedded in a larger context (e.g., individual and environmental risk) that eventually lead to disorder.

A number of factors influence biased attention to threat and the development of anxiety, and thus, are important to consider when studying how biased attention might shape anxiety over the course of development. Given their prominence in the literature, we will focus on developmental findings related to three markers of risk—temperament, biology, and contextual environmental factors. While these factors play a prominent role in the attention bias literature, the degree to which we can disentangle their individual and interacting roles is limited by the reliance on reaction time measures that we have reviewed above. Utilizing the developmentally appropriate adaptations to the above tasks will improve what we can learn about these markers of risk, ensure that we can understand the early impact of these risk factors, and that we can follow the trajectory of that impact through childhood.

Limitations and future directions

The research reviewed here demonstrates that individual differences in biased attention to threat, first emerging in infancy, are likely associated with diverging trajectories of socioemotional development, and in particular, the development of anxiety. The literature is still in its infancy, and further work is needed, but there is emerging evidence that early identification of patterns of biased attention may help unpack the nuanced role that attention might play in the etiology and maintenance of anxiety development. This area of research would thus open the door to promising avenues of cognitive treatment options for anxiety.

In recent years, biased attention to threat has been targeted by an intervention called Attention Bias Modification (ABM) training (Amir, Beard, Burns, & Bomyea, 2009; Bar-Haim, 2010; Hakamata et al., 2010). ABM treatment involves systematically training individuals who show biased attention to threat to either attend more toward positive or neutral stimuli. Commonly, trials consist of treatment sessions using a modified dot-probe task in which the probe only appears on the side of the screen where the happy or neutral face appears so that the attentional system will be implicitly trained to focus attention away from threatening faces (for review, see Bar-Haim, 2010). Another commonly used version of this treatment is to use a modified visual search or vigilance task in which patients are trained to search for happy faces or positive stimuli in an array of negative faces (Dandeneau, Baldwin, Baccus, Sakellaropoulo, & Pruessner, 2007; Waters et al., 2010). Several recent large-scale meta-analyses suggest that ABM is a potentially promising new technique for reducing anxiety (e.g., Bar-Haim, 2010). Although related work with children and adolescents is not currently reporting strong effects of the interventions (see Cristea, Mogoase, David, & Cuijpers, 2015, for a review), understanding the developmental relationship between attention bias to threat and anxiety could lead to recommendations for when and how ABM might be most effective in child populations.

Future research should also examine attention biases for threat and how they relate to developing cognitive biases that are also commonly associated with anxiety. As mentioned previously, high-trait anxious and clinically anxious individuals tend to interpret ambiguous information from the environment as threatening, which can lead to avoidance and withdrawal behavior (Beck & Clark, 1988). A recent meta-analysis of interpretation biases in children and adolescents confirms the relation between anxiety and a tendency to interpret novel information as negative (Stuijfzand, Creswell, Field, Pearcey, & Dodd, 2018). Importantly, this meta-analysis reports an increasingly strong association between anxiety and interpretation bias with age, suggesting significant room for developmental change over time. However, there is no research to date examining interpretation biases in children younger than preschool age, and most studies in this domain focus on children who are between the ages of 8 and 12. Further, there is no research on the developing relation between interpretation bias and attention biases for threat over the course of development. New methodologies, like ERP, may need to be implemented to disentangle whether an interpretation bias is a strong underlying factor of attention biases for threat. This area of research could be a fruitful domain for unpacking the causal relations between these biases and anxiety overtime.

Relatedly, although the reviewed literature on biased attention to threat presents growing evidence for the relation between biased attention and the development of anxiety, much work is still to be done to clarify the precise role that attention plays. We do not find a one-to-one relation between biased attention to threat and anxiety, given that, much like other risk factors for anxiety, many studies show that only a portion of individuals with anxiety present with attention that is biased toward threat. We cannot currently measure biased attention at a single time point in development and select those individuals as being at risk for, or suffering from anxiety. However, current research, building on the reviewed work, shows great promise toward enhancing the field’s understanding of how attention fits into the broader framework of risk factors for anxiety. Additional research is needed to create a more comprehensive model of the different factors that contribute to the development of anxiety and to the complex interplay between them. With additional research into the role that attention toward threat plays in the broader model of anxiety, especially from a developmental perspective, we will be in a better position to understand the role that biased attention can play as a risk factor or marker for early intervention. Finally, although this is a promising area for future work, to date, the literature cannot directly provide the data needed to demonstrate whether biased attention to threat plays a causal role in the development of childhood anxiety, as it has primarily focused on older children and adults when examining the relation between attention, affect, and socioemotional functioning. Further, previous research has generally involved single-session, cross-sectional designs focusing on individuals already presenting with clear signs of clinical anxiety or distress (Bar-Haim et al., 2007; Pergamin-Hight, Naim, Bakermans-Kranenburg, van IJzendoorn, & Bar-Haim, 2015). Indeed, our own prior work suffers from these limitations as well (Morales et al., 2017; Pérez-Edgar et al., 2010; White et al., 2017), focusing on children already displaying clear, stable patterns of extreme fearful temperament. Thus, future work that employs multimethod, longitudinal designs beginning at an early age is still needed. The methods outlined earlier allow for future investigations to begin as early as 4 months of age and suggest that endogenous (biological) and contextual (parental characteristics and environment) markers of risk might be also useful in detecting and explaining patterns of change. Although to date few studies have deployed such systematic, multilevel measures of functioning and risk in a single sample, previous work and new methodological advances in infant eye-tracking have set the stage for future longitudinal data collection that is needed to properly address open questions related to the link between biased attention to threat and the development of psychopathology.