Neural and behavioral correlates of sexual stimuli anticipation point to addiction-like mechanisms in compulsive sexual behavior disorder (2022)

Participants

The study was performed at Karolinska Institutet and at ANOVA, Karolinska University Hospital, Stockholm, Sweden. CSBD patients were recruited through the Swedish phone helpline PrevenTell (Adebahr, Söderström, Arver, Jokinen, & Öberg, 2021). More recruitment details, in- and exclusion criteria are provided in the Supplemental Materials and elsewhere (Hallberg et al., 2020; Savard et al., 2020). In brief, male patients who met criteria for CSBD according to ICD-11 were invited to participate. Healthy age- and sex-matched controls from the Stockholm catchment area were recruited through public and multi-media advertisements. Controls showed no indication of CSBD.

We enrolled 20 HC and 23 CSBD patients, of which 22 patients provided MRI data. All data were collected between May 2018 and December 2020.

Clinical characteristics and questionnaires

Through online questionnaires, we assessed depression symptom levels (Montgomery Asberg Depression Rating Scale (MADRS-S) (Montgomery et al., 1979; Svanborg et al., 2001)), attention deficit levels (Adult ADHD Self-Report Scale (ASRS) (Kessler et al., 2005), alcohol and drug consumption (Alcohol Use Disorders Identification Test (AUDIT) (Bergman et al., 2002); Drug Use Disorders Identification Test (DUDIT) (Berman, Bergman, Palmstierna, & Schlyter, 2005)), hypersexual symptoms (Hypersexual Disorder Screening Inventory (HDSI) (Parsons et al., 2013), Hypersexual Behavior Inventory (HBI) (Reid, Garos, & Carpenter, 2011)), sexual compulsivity (Sexual Compulsivity Scale (SCS) (Kalichman et al., 1995)), sexual inhibition/excitation scales (SIS/SES) (Carpenter, Janssen, Graham, Vorst, & Wicherts, 2008), anxiety levels (State-Trait Anxiety Inventory – State (STAI-S) (Tluczek, Henriques, & Brown, 2009)), autism spectrum disorder symptoms (Ritvo Autism Asperger Diagnostic Scale (RAADS-14) (Eriksson, Andersen, & Bejerot, 2013)), sexual desire (Sexual Desire Inventory (SDI) (Spector, Carey, & Steinberg, 1996)), general impulsivity (Barratt Impulsiveness Scale (BIS-11) (Stanford et al., 2009)), and behavioral inhibition (Behavioral Inhibition/Activation System (BIS/BAS) (Carver et al., 1994)). We assessed the frequency of internet pornography consumption and sexual encounters within the last 6 months, as well as sexual orientation (7-point Kinsey scale) (Kinsey, Pomeroy, & Martin, 1948). The latter ranged from 0-6 with 0 defined as ‘exclusively heterosexual’ and 6 ‘exclusively homosexual’.

Neurocognitive testing

We administered neuropsychological tests to obtain objective estimates of impulsivity/risk taking (Balloon Analogue Risk Task, BART (Lejuez et al., 2002)), inhibitory/impulse control (Stop Signal Task, STOP-IT (Verbruggen, Logan, & Stevens, 2008)), and non-verbal intelligence (Ravens Standard Progressive Matrices, SPM (Raven et al., 2000)). SPM classifies a person’s performance into grade I (lowest) to V (highest). Higher Stop-Signal Reaction Time (SSRT) obtained from the STOP-IT indicates lower inhibitory control. Measures for risk taking obtained from BART were the adjusted number of balloons and number of explosions (Lejuez et al., 2002), where higher scores indicate more risk-taking behavior.

fMRI paradigm and stimuli

A detailed description of the fMRI paradigm is presented in the Supplemental Materials. Figure 1 shows a scheme of the paradigm. In brief, the task design was based on the frequently used monetary incentive delay (MID) task (Knutson et al., 2000) and the incentive delay task used by Gola and colleagues (Gola et al., 2017). The total number of trials was n = 80 (40 erotic and 40 non-erotic trials). Picture stimuli were obtained from the International Affective Picture System (IAPS) (Lang, Bradley, & Cuthbert, 2008) and the Nencki Affective Picture System (NAPS) (Marchewka, Zurawski, Jednorog, & Grabowska, 2014; Wierzba et al., 2015). Stimuli from both databases have been validated and shown to induce significant levels of sexual arousal in various previous studies (Gola et al., 2016; Marchewka et al., 2014; Politis et al., 2013; Walter et al., 2008; Wierzba et al., 2015). Erotic and non-erotic control stimuli were carefully matched with respect to valence and arousal ratings, and other image features. Since participants were included regardless of their sexual orientation, we created two versions of the paradigm that erotic stimuli could be matched to participants’ preference. More details on the stimuli characteristics are provided in the Supplemental Materials.

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Schematic representation of the sexual incentive delay fMRI task. Two example trials of non-erotic control trials (top) and erotic trials (bottom) are shown. The total number of trials was n = 80 (40 for each trial type) acquired in two sessions. Each session contained 20 erotic and 20 non-erotic control trials. Total task duration was approximately 24 min. The trial order was pseudo-randomized. Event durations are indicated. Event 1 grey screen (determined the inter-trial interval): random duration between 4 and 7 s. Event 2 was the anticipation phase presenting a cue symbol that indicated the type of trial, i.e., the future presentation of either an “erotic” or a “non-erotic” image (main event of interest). The meaning of each symbol was explained to the participants outside the scanner, who also performed a short practice session prior to the experiment. Event 3 (fixation cross) indicated task preparation. Event 4 target square: task requires button press. Participants were instructed to press a button as quick as possible when the square appeared and if they would respond fast enough the outcome image will be presented. The button-press task was included to keep participants alert and to assess reaction times as a proxy measure for ‘motivation to win’. Fail rate was fixed to 20%, where an image of noise was presented instead as visual stimuli (see Supplemental Materials for more details on task design). Event 5 grey screen: waiting period (random duration). In event 6, the image corresponding to the trial type was presented, i.e., either an erotic or non-erotic visual stimulus (secondary event of interest). Acquisition procedure was designed to avoid potential order effects, effects induced by symbol rotation, and habituation/conditioning effects (see Supplemental Materials). Jittering (random presentation times) of inter-stimuli durations was applied to disentangle reward anticipation from receipt or button press-related brain activation.

Two contrasts were compared between CSBD patients and controls: Contrast 1 (main): Difference in brain activation between erotic and non-erotic trials during anticipation phase (event 2). Contrast 2 (secondary): Difference in brain activation between erotic and non-erotic trials during image presentation (event 6).

Citation: Journal of Behavioral Addictions 2022; 10.1556/2006.2022.00035

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fMRI-experiment related questionnaires

Before and after MRI scan, participants were asked to rate their cravings/desires for different items (including sexual desire). Before the experiment, participants were asked how much they are looking forward to the viewing of non-erotic and erotic images. This was the primary rating of interest, as it directly relates to anticipation. After the experiment, participants were asked to provide ratings of valence and arousal induced by visual stimuli. Additional questions focused on factors that could potentially have confounding effects on brain activity during the experiment, such as the experienced feelings of shame, guilt, and how much a participant tried to control sexual arousal. See Supplemental Materials for more information on fMRI-related questionnaires.

Magnetic resonance imaging

Statistical analyses

Ethics

The study procedures were carried out in accordance with the Declaration of Helsinki. The study was approved by the regional Ethical Review Board, Stockholm, Sweden. All participants provided written informed consent.

Participants

Cohort characteristics are presented in Table 1. Groups matched on age (CSBD: M = 38.7, SD = 11.7, HC: M = 37.6, SD = 8.5) and sexual orientation (one self-identified homosexual in each group). CSBD patients had higher BMI than HC (CSBD: M = 25.8, SD = 4.5, HC: M = 23.1, SD = 2.8), albeit still in the normal range. HC contained four occasional smokers. There were no group differences in medication use or psychiatric comorbidity (Table S1). Compared with HC, CSBD patients scored significantly higher on scales assessing hypersexuality symptoms, sexual compulsivity and desire (HDSI, HBI, SDI, SCS), depression levels (MADRS), attention deficits (ASRS), autism symptoms (RAADS), anxiety (STAI-S), impulsivity and behavioral inhibition (BIS-11, BIS), but not reward response (BAS). CSBD patients consumed more pornography than HC. There were no group differences in drug and alcohol consumption or number of sexual encounters or partners (Table S2).

Incentive delay reaction times obtained from fMRI task

Repeated measures ANCOVA revealed a significant effect of trial type (P = 0.005, F _{1, 39} = 9.0) and trial-by-group interaction (P = 0.009, F _{1, 39} = 7.5). Main effects of age and group were not significant, (P = 0.737 and P = 0.867). Follow-up tests of the main effect of trial type revealed that in the combined group participants reacted significantly faster during erotic compared with non-erotic trials (RT_E < RT_N). Paired t-test comparing RT_E and RT_N within each group showed that this was the case both in patients (P < 0.001) and controls (P = 0.004). ΔRT (RT_E–RT_N) was negative in both groups and significantly differed between CSDB and HC (P = 0.009, d= 0.84), where CSBD patients showed larger ΔRT, confirming the observed trial-by-group interaction (displayed in Fig. 2). This difference may have been driven by slightly lower RT_E and larger RT_N means in CSBD compared with HC (Fig. 2, Table 2).

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Behavioral results from the sexual incentive delay task performed during fMRI. The scheme demonstrated the observed trial-by-group interaction and corresponding ΔRT differences. Mean reaction time for each trial type (erotic vs. non-erotic) and group (HC vs. CSBD) are shown. ΔRT for each group is indicated (vertical arrows). Numerical values are listed in Table 2

Citation: Journal of Behavioral Addictions 2022; 10.1556/2006.2022.00035

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ΔRT correlated negatively with hypersexuality symptoms and sexual compulsivity (HDSI, HBI, SCS) (Table S9), and with drive and reward response items of BIS/BAS (Table S14).

Exploratory tests revealed that the CSBD group displayed larger RT variability (standard deviation) during non-erotic trials (SD_N) than in erotic trials (SD_E), which was not observed in HC (Supplemental Materials; Table S3), indicating that the group differences in ΔRT were likely influenced by CSBD patients performing worse (or less consistent) during non-erotic trials than HC, rather than performing better during erotic trials.

Neurocognitive testing

There were no group differences in performance on the BART (risk taking) or STOP-IT (SSRT, inhibitory/impulse control). HC performed better on the Raven SPM test (non-verbal intelligence) than CSBD patients. However, CSBD patients showed an average performance, while HC performed above average (Table 2).

Task-related activity (fMRI)

Within-group task-related mean activations during anticipation are shown in Fig. 3. Results for the viewing phase are shown in the Supplemental Materials (Figures S4–S5). Corresponding activations comprised regions previously reported during anticipation and processing of visual sexual stimuli, respectively, including VS, anterior cingulate cortex, orbitofrontal cortex, insula, (pre)motor, visual, and occipitotemporal regions (Georgiadis et al., 2012; Jauhar et al., 2021; Oldham et al., 2018). On whole-brain level (exploratory), no group differences were observed after correction. See Figure S3 and S6 for uncorrected results.

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Within-group task-related fMRI mean activations. Corrected COPE mean activations (erotic > non-erotic) for contrast 1 (anticipation) are displayed for both healthy controls (HC, top) and CSBD patients (bottom). Z values are indicated by color (heat map). Although there are visual regional differences in activation patterns between HC and CSBD, direct group comparisons were not significant after correction (same applied to the reversed contrast HC > CSBD). Note that whole brain analyses were exploratory. Results for contrast 2 (viewing phase) and uncorrected group comparisons at a threshold of P = 0.01 are shown in the Supplemental Materials (Figure S3–S6). Cluster statistics, MNI coordinates of activation maxima, and regional labels are provided in the Supplemental Materials Table S10 and S12

Citation: Journal of Behavioral Addictions 2022; 10.1556/2006.2022.00035

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VS activation and correlations with ΔRT and CSBD symptoms

There were no significant group differences in VS mean activation during anticipation (or viewing phase, Table 3). However, VS activity during anticipation correlated negatively with ΔRT (r = −0.33, P = 0.031), whereas ΔRT did not correlate with VS activation during the viewing phase (r = 0.18, P = 0.250). There was one visual outlier with low ΔRT and high VS activity during anticipation (Fig. 4). The correlations between ΔRT and VS activity during anticipation was still suggestive (P = 0.072) after removing this outlier (Figure S2, Table S10), and the directionality and effect strength remained (r = −0.28). Note that we could not identify reasons that justified removing the outlier from analyses (no erroneous data). Among all participant, this subject scored the highest on all CSBD symptoms scores (indicated by multivariate outlier analyses; Supplemental Materials). Further, a non-parametric Spearman rank correlation was applied, which is, compared to a conventional Pearson correlation, less sensitive to outliers. Hence, all performed tests deem the results including the outlier reliable.

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A: Correlation between VS activation during anticipation and ΔRT. Patient data is plotted in red, HC data in blue. Supplementary Figure S2 shows the regression plot when excluding the outlier with highest VS and lowest ΔRT. Note that we deem results including the outlier reliable (see main text and Supplemental Materials for reasoning). B: Correlation between VS activity during anticipation phase and rating of how much CSBD patients reported to look forward to viewing erotic images (asked before fMRI experiment) (r = 0.61, P = 0.002). Such correlation was not observed in controls (r = −0.221, P = 0.362; see Supplemental Materials for more details)

Citation: Journal of Behavioral Addictions 2022; 10.1556/2006.2022.00035

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Finally, VS activation during anticipation, but not VS activation during viewing phase, correlated with pornography consumption measures (Table S9), but not with other CSBD symptom scores.

Desire, liking, and other emotional responses during the fMRI task

Detailed results of the fMRI experiment-related questionnaires can be found in the Supplemental Materials (Table S4–S6). In brief, CSBD patients desired to engage in sexual activity more than HC, and this desire increased after the experiment in both groups. Although there were no group differences with respect how much participants liked the stimuli, CSBD patients looked significantly more forward to viewing erotic images than non-erotic images. This was not observed in HC. In CSBD patients, not in HC, VS activity during anticipation correlated positively with the ‘looking forward to erotic images’ rating (r = 0.61, P = 0.002; Fig. 4). Such correlations with ΔRT were suggestive (Supplemental Materials).

Sensitivity analyses

The results remained robust when controlling for potential confounders (Table S8) with the exception that group differences in ΔRT were not significant when controlling for depression ratings (MDRS). This result should, however, be interpreted with caution, as depression relates to CSBD, the phenotype of interest (Ballester-Arnal, Castro-Calvo, Giménez-García, Gil-Juliá, & Gil-Llario, 2020; Hyatt et al., 2020).

Behavioral differences between HC and CSBD

In line with our hypothesis, CSDB patients showed larger differences between reaction times measured during erotic and non-erotic trials (ΔRT) than HC. The effect size was large (d = 0.84). The results remained robust when correcting for potential confounder variables and indicate potential differences in motivational drive – and potentially desire – to view erotic or non-erotic images. The differences seemed to be driven by CSBD patients showing slower mean reaction times and larger performance variability during non-erotic trials, indicating less motivation/desire to view non-erotic images compared with HC. Note that this does not exclude the possibility for higher motivational drive or desire in CSBD patients towards viewing erotic images (indicated by lower mean RT_E) compared to HC, as there are physical limitations to motor response speed. Importantly, these behavioral differences suggest that processes involving the anticipation of erotic and non-erotic stimuli may be altered in CSBD and support the idea that reward anticipation-related mechanisms similar to those in substance use disorders and behavioral addictions may play an important role in CSBD, as previously suggested (Chatzittofis et al., 2016; Gola et al., 2018; Jokinen et al., 2017; Kowalewska et al., 2018; Mechelmans et al., 2014; Politis et al., 2013; Schmidt et al., 2017; Sinke et al., 2020; Voon et al., 2014). This was further supported by the fact that we did not observe differences in other cognitive tasks measuring risk taking and impulse control, opposing the idea that general compulsivity-related mechanisms are at play (Norman et al., 2019; Mar, Townes, Pechlivanoglou, Arnold, & Schachar, 2022). Intriguingly, the behavioral measure ΔRT correlated negatively with hypersexuality symptoms and sexual compulsivity, indicating that anticipation-related behavioral alterations increase along with CSBD symptom severity.

Sexual incentive delay task-related brain activity

Within each group, the task induced explicit region-specific activations both during anticipation and viewing phases (Fig. 3). Mean activations comprised regions previously reported during both anticipation and processing of visual sexual stimuli, including activations in VS, anterior cingulate cortex, orbitofrontal cortex, insula, (pre)motor, visual, and occipitotemporal regions (Georgiadis et al., 2012; Jauhar et al., 2021; Oldham et al., 2018), supporting the specificity, validity, and applicability of the task. This was further supported by the fact that performing the task increased sexual desire, while desires for other assessed items did not increase after the experiment, indicating that the task specifically targeted sexual desire.

Although clear regional activation differences were observed in HC and CSBD patients during the anticipation phase (Fig. 3), where, compared with HC, CSBD patients showed more pronounced activations in prefrontal cortex and subcortical regions, including VS, we did not find significant group differences on whole-brain level. Note that whole-brain analyses were exploratory, and larger samples may be required to identify small effects. Hence, from these findings it should not be concluded that CSBD is not associated with functional brain abnormalities during anticipation, especially, since correlational analyses as discussed below point to the opposite.

Main analysis on VS activity during anticipation

Although numerical differences were as expected (CSBD > HC), the effect size was small and there were no significant group differences in VS mean activation during anticipation. Also here, larger samples may be required to capture task-based case-control differences in VS activation. However, VS activity during anticipation correlated negatively with ΔRT (moderate correlation), whereas ΔRT did not correlate with VS activation during the viewing phase. Hence, the larger the behavioral differences between erotic and non-erotic trials, the larger the VS mean activity during anticipation (note that also here erotic vs. non-erotic trials were contrasted). Since the behavioral response could directly be linked to VS activity during anticipation, but not viewing, of images, we suggest that differential neural responses related to anticipation may in fact explain the behavioral abnormalities observed in CSBD. In line with this notion, compared with HC, CSBD patients looked significantly more forward to viewing erotic than non-erotic images, and VS activity during anticipation correlated with ratings on how much patients were looking forward to the viewing of erotic images prior to the experiment.

In summary, the observed behavioral group differences and the fact that VS activity during anticipation related to both objective (ΔRT) and self-rated measures of anticipation were in line with our hypothesis that excessive incentive salience and related neural processes of reward anticipation play a role in CSBD.