Psychological Medicine Empirically defining treatment

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Psychological Medicine Empirically defining treatment

Transcript Of Psychological Medicine Empirically defining treatment

Psychological Medicine
cambridge.org/psm

Empirically defining treatment response and remission in body dysmorphic disorder

Original Article
Cite this article: Fernández de la Cruz L et al (2021). Empirically defining treatment response and remission in body dysmorphic disorder. Psychological Medicine 51, 83–89. https://doi.org/10.1017/S0033291719003003
Received: 1 April 2019 Revised: 2 September 2019 Accepted: 1 October 2019 First published online: 30 October 2019
Key words: Body dysmorphic disorder; clinical trials; signal detection; symptom remission; treatment response
Author for correspondence: Lorena Fernández de la Cruz, E-mail: [email protected]

Lorena Fernández de la Cruz1,2 , Jesper Enander1, Christian Rück1,2,
Sabine Wilhelm3, Katharine A. Phillips4,5, Gail Steketee6, Suraj Sarvode Mothi3,
Georgina Krebs7,8, Laura Bowyer9, Benedetta Monzani7, David Veale9,10
and David Mataix-Cols1,2
1Department of Clinical Neuroscience, Centre for Psychiatry Research, Karolinska Institutet, Stockholm, Sweden; 2Stockholm Health Care Services, Stockholm County Council, Stockholm, Sweden; 3Massachusetts General Hospital and Harvard Medical School, Boston, MA, USA; 4New York-Presbyterian Hospital and Weill Cornell Medical College, New York, NY, USA; 5Rhode Island Hospital and the Alpert Medical School of Brown University, Providence, RI, USA; 6Boston University, School of Social Work, Boston, MA, USA; 7The National and Specialist OCD, BDD and Related Disorders Team, Child and Adolescent Mental Health Services, South London and Maudsley NHS Foundation Trust, London, UK; 8MRC Social, Genetic and Developmental Psychiatry Centre, Institute of Psychiatry, Psychology & Neuroscience, King’s College London, London, UK; 9Department of Psychology, Institute of Psychiatry, Psychology & Neuroscience, King’s College London, London, UK and 10Centre for Anxiety Disorders and Trauma, South London and Maudsley NHS Foundation Trust, London, UK
Abstract
Background. The number of clinical trials in body dysmorphic disorder (BDD) has steadily increased in recent years. As the number of studies grows, it is important to define the most empirically useful definitions for response and remission in order to enhance field-wide consistency and comparisons of treatment outcomes across studies. In this study, we aim to operationally define treatment response and remission in BDD. Method. We pooled data from three randomized controlled trials of cognitive-behavior therapy (CBT) for BDD (combined n = 153) conducted at four academic sites in Sweden, the USA, and England. Using signal detection methods, we examined the Yale-Brown Obsessive Compulsive Scale modified for BDD (BDD–YBOCS) score that most reliably identified patients who responded to CBT and those who achieved remission from BDD symptoms at the end of treatment. Results. A BDD–YBOCS reduction ⩾30% was most predictive of treatment response as defined by the Clinical Global Impression (CGI) – Improvement scale (sensitivity 0.89, specificity 0.91, 91% correctly classified). At post-treatment, a BDD–YBOCS score ⩽16 was the best predictor of full or partial symptom remission (sensitivity 0.85, specificity 0.99, 97% correctly classified), defined by the CGI – Severity scale. Conclusion. Based on these results, we propose conceptual and operational definitions of response and full or partial remission in BDD. A consensus regarding these constructs will improve the interpretation and comparison of future clinical trials, as well as improve communication among researchers, clinicians, and patients. Further research is needed, especially regarding definitions of full remission, recovery, and relapse.

© The Author(s) 2019. This is an Open Access article, distributed under the terms of the Creative Commons AttributionNonCommercial-NoDerivatives licence (http:// creativecommons.org/licenses/by-nc-nd/4.0/), which permits non-commercial re-use, distribution, and reproduction in any medium, provided the original work is unaltered and is properly cited. The written permission of Cambridge University Press must be obtained for commercial re-use or in order to create a derivative work.

Introduction
Body dysmorphic disorder (BDD) is characterized by excessive preoccupation with perceived defects in physical appearance that are not observable or appear only slight to others. This preoccupation leads to significant distress or significant impairment (usually both), avoidance behaviors (usually of social situations), and time-consuming repetitive behaviors (American Psychiatric Association, 2013). BDD is often a chronic disorder that persists if left untreated, and is associated with high rates of psychiatric hospitalization and suicidal behavior (Veale et al., 1996; Phillips et al., 2005). BDD is classified in the obsessive-compulsive and related disorders chapter in both the Diagnostic and Statistical Manual of Mental Disorders, 5th Edition (DSM-5) (American Psychiatric Association, 2013) and the International Classification of Diseases, 11th Revision (ICD-11) (Veale and Matsunaga, 2014). Recommended evidencebased treatments from randomized controlled trials (RCTs) include cognitive-behavior therapy (CBT) (Harrison et al., 2016), clomipramine (Hollander et al., 1999), and selective serotonin reuptake inhibitors (SSRIs) (Phillips et al., 2002; Phillips et al., 2016).
As the evidence for the clinical management of BDD continues to accumulate, an important goal for the future is to develop empirically grounded definitions of treatment response and remission for this condition. Generally, treatment response is defined as a meaningful improvement of symptoms compared to the beginning of treatment (Frank et al., 1991;

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Farris et al., 2013; Mataix-Cols et al., 2016). In turn, remission is defined as being illness-free after having been ill (Frank et al., 1991; Farris et al., 2013; Mataix-Cols et al., 2016). Remission may be full (i.e. complete), in which there are no remaining symptoms, or partial, which reflects some remaining symptoms that are subthreshold for the diagnosis (Phillips et al., 2006; Phillips et al., 2013). While there seems to be a broad consensus regarding these conceptual definitions (Mataix-Cols et al., 2016), operational definitions are generally more difficult to agree upon. In obsessivecompulsive disorder (OCD), a disorder closely related to BDD, the lack of agreement over these operational definitions has resulted in poor comparability among studies and treatment modalities, as varying definitions lead to different estimates of treatment efficacy and relapse risk. However, progress has recently been made with international consensus of OCD experts for defining such constructs (Mataix-Cols et al., 2016).
In BDD, some initial progress in the empirical definition of treatment response has already been made. In the first report on the psychometric properties of the Yale-Brown Obsessive Compulsive Scale Modified for Body Dysmorphic Disorder (BDD-YBOCS), among 30 patients treated with the SRI fluvoxamine, Phillips and collaborators found that a cut-off of ⩾30% improvement on the BDD-YBOCS corresponded best to at least ‘much improved’ on the Clinical Global Impression – Improvement (CGI-I) scale (Phillips et al., 1997). Subsequently, in a report of 63 BDD patients who were treated with various SSRIs, Phillips et al. (2014) again found that a cut-off of ⩾30% improvement on the BDD-YBOCS corresponded best to at least ‘much improved’ on the CGI-I; in addition, a score of ⩾50% best corresponded best to ‘very much improved,’ on the CGI-I. However, this previous work has been done only in pharmacotherapy studies, and it is important to replicate and extend this work to other samples and treatment modalities, such as CBT.
Various definitions of remission have also been proposed. In a prospective naturalistic observational study of the course of BDD (in which treatment was not assigned or controlled), Phillips et al. (2016) used the Longitudinal Interval Follow-Up Evaluation (LIFE) (Keller et al., 1987), which employs the Psychiatric Status Rating (PSR) scale to indicate the global severity of DSM-defined disorders. The BDD-PSR is a 7-point scale that maps directly onto DSM-IV diagnostic criteria for BDD. Phillips et al. (2016) followed the LIFE convention, defining full remission as minimal or no BDD symptoms (scores of 1 or 2 on the BDD-PSR) during a period of at least eight consecutive weeks (Phillips et al., 2006; Phillips et al., 2013). They defined partial remission as a score of 3 or 4 on the BDD-PSR for at least eight consecutive weeks. This study did not report on the relationship between BDD-PSR scores and BDD-YBOCS scores, despite the fact that the BDD-YBOCS is considered to be the ‘gold standard’ outcome measure in this population. In another study, Veale et al. (2015) defined partial remission as a reduction in BDD-YBOCS score from above 24 at pre-treatment to between 12 and 24 at post-treatment, whereas full remission was defined as a reduction in from above 24 to below 12.
In summary, there has been consistency in definitions of treatment response, although data are limited to pharmacotherapy studies. Definitions of remission in BDD have been inconsistent, and no study to date has attempted to establish an empirically derived definition for this construct. As the number of future clinical trials in BDD grows, deriving operational definitions of treatment response and remission seems warranted. The use of inconsistent definitions of response and remission can lead to

quite different estimates, which would, in turn, make comparison of different studies and treatment modalities challenging and hinder communication among researchers, clinicians, and patients.
In this study, we reanalyzed data from adults and adolescents with BDD who participated in various trials of CBT for BDD to empirically determine the optimal amount of symptom improvement to define treatment response and remission. Based on these results, we propose conceptual and operational definitions for these constructs for use in future clinical trials.
Method
Participants
We pooled data from 153 individuals who took part in three different RCTs of CBT for BDD published between 2014 and 2016; trials were carried out at four academic sites in Sweden (n = 93) (Enander et al., 2016), the USA (n = 31) (Wilhelm et al., 2014), and England (n = 29) (Mataix-Cols et al., 2015). Only those individuals from the original studies who had pre- and post-treatment measurements in the outcomes of interest were included. The studies from Sweden and the USA contained adult samples, while the English study contained adolescents with BDD. Two of the RCTs offered face-to-face CBT (Wilhelm et al., 2014; Mataix-Cols et al., 2015) and one offered Internet-based CBT (Enander et al., 2016).
Participants in the Enander et al. (2016) study received either CBT or supportive therapy – both delivered via the Internet – for twelve weeks. The patients in the Wilhelm et al. (2014) study were randomized to 22 face-to-face sessions of CBT over 24 weeks or a 12-week waitlist. For the current study, the measures collected at week 12 in Wilhelm et al. (2014) will be considered the end of the treatment scores because the controlled phase of the trial finished at that time-point. The adolescents in the Mataix-Cols et al. (2015) study were randomized to 14 sessions of face-to-face treatment delivered over four months or to a control condition of equivalent duration consisting of written psychoeducation materials and weekly telephone monitoring. In all three studies, the CBT protocol was heavily based on exposure with response prevention strategies. The Wilhelm et al. study also included substantial cognitive therapy and additional techniques such as perceptual retraining or mindfulness (2014).
The pooled sample was predominantly female (n = 123, 80%). Participants’ ages ranged from 12 to 72 years (mean = 30.26, S.D. = 12.78). Participants in the American and English sites were predominantly White (n = 51, 85%). Race and/or ethnicity were not recorded in the Swedish study. Additional information about the individual studies can be found in the original reports (Wilhelm et al., 2014; Mataix-Cols et al., 2015; Enander et al., 2016).
Measures
For all participants, the diagnosis of BDD was established according to the diagnostic criteria from the DSM-IV using the Structured Clinical Interview for DSM-IV (First et al., 2001). All outcome measures were administered by independent assessors who were blind to the treatment condition (CBT or control/waitlist).
The primary outcome measure in all of the studies was the BDD-YBOCS. The BDD-YBOCS is a 12-item, semi-structured, rater-administered scale that assesses BDD symptom severity during the past week. The first five items assess obsessional

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preoccupations about perceived appearance defects (time preoccupied, interference in functioning and distress due to perceived appearance defects, attempt to resist preoccupations, and control over preoccupations). Items six to 10 assess BDD-related repetitive behaviors (e.g. excessive grooming, mirror checking) and mirror the content of the first five items (i.e. time spent performing the behaviors, interference in functioning due to the behaviors, distress experienced if the behaviors are prevented, attempt to resist behaviors, and control over the behaviors). Item 11 assesses insight regarding appearance beliefs, and item 12 assesses avoidance behaviors (e.g. occupational/academic or social activities). Scores for each item range from 0 to 4; the total score ranges from 0 to 48, with higher scores reflecting more severe symptoms. The BDD-YBOCS has shown good psychometric properties, including strong interrater and test-retest reliability, internal consistency, validity, and sensitivity to change (Phillips et al., 1997; Phillips et al., 2014).
The CGI is a clinician-rated scale that assesses overall improvement (CGI-I) and severity (CGI-S). The CGI-I consists of a single 7-point item scored from 1 (‘very much improved’) to 7 (‘very much worse’). Similarly, the CGI-S is a single 7-point item scored from 1 (‘normal, not at all ill’) to 7 (‘extremely ill’). The CGI has been widely used in psychiatric treatment trials and has shown good reliability and validity for a range of psychiatric disorders (Zaider et al., 2003; Kadouri et al., 2007). As in previous OCD and BDD studies, the CGI-I (Phillips et al., 1997; Phillips et al., 2014; Mataix-Cols et al., 2016) and the CGI-S (Mataix-Cols et al., 2016) were employed as the criteria against which we tested the change in BDD-YBOCS scores to define treatment response and remission, respectively. Specifically, CGI-I scores of 1 (‘very much improved’) or 2 (‘much improved’) were used to indicate treatment response and CGI-S scores of 1 (‘normal, not at all ill’) or 2 (‘borderline mentally ill’) corresponded to full or partial remission.
Analyses
Means and standard deviations (S.D.) of the predictor (BDDYBOCS) and criterion (CGI) variables were calculated at preand post-treatment. For treatment response, the percent reduction from pre- to post-treatment on the BDD-YBOCS was coded by increments of five percent. For remission, raw scores at posttreatment on the BDD-YBOCS were coded by one point increments. Using signal detection analysis, we calculated the sensitivity, specificity, positive predictive value (PPV), negative predictive value (NPV), efficiency, and weighted κ statistic of the percent reduction on the BDD-YBOCS or the post-treatment BDD-YBOCS score in relation to the criterion outcome (CGI-I or CGI-S) to determine the cut-offs that best defined treatment response and remission, respectively. Sensitivity is defined as the probability that the BDD-YBOCS will correctly detect positive responses according to the criterion variable (i.e. CGI) [true positives/(true positives + false negatives)]. Specificity is the probability that the BDDYBOCS will correctly detect negative responses according to the criterion [true negatives/(true negatives + false positives)]. The PPV test (or precision) is the probability that the criterion correctly identifies positive responses on the BDD-YBOCS [true positives/ (true positives + false positives)] and the NPV test is the probability that the criterion test correctly identifies negative responses on the BDD-YBOCS [true negative/(true negatives + false negatives)]. Efficiency (or accuracy of detections) is the probability that the predictor and the criterion variables will agree [(true positives + true

negatives)/total n]. Strength of the agreement was assessed according to the guidelines provided by Landis and Koch (1977) for κ coefficients (e.g. κ’s from 0.61 to 0.80 indicate ‘substantial’ agreement; κ’s from 0.81 to 1.00 indicate ‘almost perfect’ agreement).
Results
Change in BDD severity with treatment
In the treated group (i.e. CBT condition, n = 78), BDD-YBOCS mean scores dropped from pre-treatment (mean = 31.49, S.D. = 5.55) to post-treatment (mean = 21.68, S.D. = 8.70), reflecting a mean of 30.52% (S.D. = 26.22) reduction in BDD severity. As expected, this reduction was less in the control group (n = 75), in which baseline BDD-YBOCS mean scores changed from 30.80 (S.D. = 5.54) to 28.09 (S.D. = 6.65) at post-treatment (mean percentage of reduction = 7.58%, S.D. = 17.72). The percentage of change between the two groups was significantly larger in the CBT group (t-test = −6.36, p < 0.001).
Consistent with the BDD-YBOCS measurements, in the CBT group, mean CGI-S scores improved across time from the moderately-markedly ill range (mean = 4.50, S.D. = 0.73) to values closer to the mildly ill range (mean = 3.21, S.D. = 1.31). In contrast, in the control group, both pre- and post-treatment scores were in the moderately-markedly ill range (mean pre-treatment = 4.41, S.D. = 0.83; mean post-treatment = 4.22, S.D. = 0.96). The posttreatment CGI-S score was significantly different across groups (t-test = 5.43; p < 0.001). CGI-I scores in the CBT group ranged from much improved to minimally improved (mean = 2.63, S.D. = 1.11), whereas the control condition presented scores close to ‘no change’ (mean = 3.73, S.D. = 0.85). Again, this difference was significant between groups (t-test = 6.86; p < 0.001).
Treatment response
Thirty-two participants (42.67%) in the CBT group and six (7.79%) in the control group (χ2 = 24.64; p < 0.001) were treatment responders according to the predefined criterion measure (i.e. CGI-I scores of 1 or 2 (much or very much improved)). A 30% reduction in the BDD-YBOCS score was associated with the highest efficiency values in both the total sample (CBT + control) and the CBT group only (Table 1). The 30% cut-off also showed an optimal compromise between sensitivity and specificity in both the total sample and the CBT groups (0.89 and 0.91, and 0.94 and 0.81, respectively). κ values indicated substantial agreement between the predictor and the criterion variables (Table 1).
Full or partial remission
Twenty-three (30.67%) participants in the CBT group and two (2.56%) in the control group (χ2 = 22.09; p < 0.0.001) were in full or partial remission at the end of the treatment, according to the predefined criterion measure (i.e. CGI-S scores of 1 or 2). In the total sample, a BDD-YBOCS score ⩽15 was associated with the highest efficiency and the highest agreement value for full or partial remission (Table 2). At this cut-off, sensitivity was acceptable and specificity was high (0.72 and 0.99, respectively); in addition, 95% of those achieving remission and 95% of those not achieving remission were correctly identified as such. A BDD-YBOCS cut-off score of ⩽16 presented with similar efficiency and κ values and offered more balanced scores between sensitivity and specificity (0.80 and 0.97, respectively), with a slightly lower

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Table 1. Signal detection analysis predicting treatment response at various BDD-YBOCS percent reduction cut-off points using the CGI-I as the gold standard (scores 1: ‘very much improved’ to 2: ‘much improved’)

BDD-YBOCS

percent reduction (%)

Sensitivity

Specificity

PPV

NPV

Efficiency

κ (0.5)

Total sample (n = 152)

⩾5

1.00

0.45

0.38

1.00

0.58

0.29

⩾10

1.00

0.56

0.43

1.00

0.67

0.39

⩾15

1.00

0.70

0.53

1.00

0.78

0.54

⩾20

0.97

0.80

0.62

0.99

0.84

0.65

⩾25

0.95

0.85

0.68

0.98

0.87

0.70

⩾30

0.89

0.91

0.77

0.96

0.91

0.77

⩾35

0.71

0.92

0.75

0.90

0.87

0.64

⩾40

0.68

0.94

0.79

0.90

0.87

0.65

⩾45

0.60

0.97

0.88

0.88

0.88

0.65

⩾50

0.53

0.99

0.95

0.86

0.87

0.61

⩾55

0.34

1.00

1.00

0.82

0.83

0.44

⩾60

0.28

1.00

1.00

0.81

0.82

0.38

⩾65

0.24

1.00

1.00

0.80

0.81

0.32

⩾70

0.16

1.00

1.00

0.78

0.79

0.22

CBT condition (n = 75)

⩾5

1.00

0.33

0.52

1.00

0.61

0.29

⩾10

1.00

0.44

0.60

1.00

0.68

0.40

⩾15

1.00

0.60

0.65

1.00

0.77

0.57

⩾20

1.00

0.67

0.70

1.00

0.81

0.64

⩾25

0.97

0.72

0.72

0.97

0.83

0.66

⩾30

0.94

0.81

0.79

0.94

0.87

0.73

⩾35

0.78

0.81

0.76

0.83

0.80

0.59

⩾40

0.75

0.86

0.80

0.82

0.81

0.61

⩾45

0.66

0.93

0.87

0.78

0.81

0.61

⩾50

0.56

0.98

0.95

0.75

0.80

0.57

⩾55

0.37

1.00

1.00

0.68

0.73

0.41

⩾60

0.31

1.00

1.00

0.66

0.71

0.34

⩾65

0.25

1.00

1.00

0.64

0.68

0.28

⩾70

0.16

1.00

1.00

0.61

0.64

0.17

BDD-YBOCS, Yale-Brown Obsessive Compulsive Scale modified for BDD; CBT, cognitive-behavior therapy; CGI-I, clinical global impression – improvement; NPV, negative predictive value; PPV, positive predictive value Note: Optimal cut-offs are highlighted.

but still high score in precision (Table 2). When only the participant group who had received CBT was considered, the same cutoffs of 15–16 points appeared as the most efficient and presented the highest level of agreement with the criterion value (Table 2). Both values offered an acceptable level of sensitivity and excellent specificity (cut-off ⩽15 offered values of 0.70 and 0.98, and cut-off ⩽16 values of 0.78 and 0.94, respectively), as well as excellent PPV and NPV values (Table 2).

responders to CBT, as well as the optimal amount of improvement to be classified as being in full or partial remission. Our findings on treatment response on the BDD-YBOCS are consistent with those of previous studies (Phillips et al., 1997; Phillips et al., 2014); no prior studies have examined the best BDD-YBOCS cut-off for remission. We propose the following conceptual and operational definitions of treatment response and remission to help guide future BDD research studies (also summarized in Table 3).

Discussion
In this study, we have calculated the optimal amount of symptom improvement needed to classify individuals with BDD as being

Treatment response
We conceptualize ‘treatment response’ as a clinically meaningful reduction in symptoms relative to baseline severity (Frank et al.,

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Table 2. Signal detection analysis predicting full or partial remission at various BDD-YBOCS cut-off points using the CGI-S as the gold standard (scores 1: ‘normal, not at all ill’ to 2: ‘borderline mentally ill’)

BDD-YBOCS cut-off

Sensitivity

Specificity

PPV

NPV

Efficiency

κ (0.5)

Total sample (n = 153)

⩽4

0.08

1.00

1.00

0.85

0.85

0.13

⩽5

0.12

1.00

1.00

0.85

0.86

0.19

⩽6

0.16

1.00

1.00

0.86

0.86

0.24

⩽7

0.20

1.00

1.00

0.86

0.87

0.29

⩽8

0.20

1.00

1.00

0.86

0.87

0.29

⩽9

0.28

1.00

1.00

0.88

0.88

0.39

⩽10

0.32

1.00

1.00

0.88

0.89

0.44

⩽11

0.36

1.00

1.00

0.89

0.89

0.48

⩽12

0.52

1.00

1.00

0.91

0.92

0.64

⩽13

0.52

1.00

1.00

0.91

0.92

0.64

⩽14

0.68

0.99

0.94

0.94

0.94

0.76

⩽15

0.72

0.99

0.95

0.95

0.95

0.79

⩽16

0.80

0.97

0.83

0.96

0.94

0.78

⩽17

0.84

0.94

0.72

0.97

0.92

0.73

⩽18

0.88

0.91

0.65

0.97

0.90

0.69

⩽19

0.92

0.88

0.61

0.98

0.89

0.66

⩽20

1.00

0.84

0.56

1.00

0.87

0.64

⩽21

1.00

0.82

0.52

1.00

0.85

0.60

⩽22

1.00

0.77

0.45

1.00

0.80

0.52

⩽23

1.00

0.73

0.42

1.00

0.78

0.47

⩽24

1.00

0.66

0.36

1.00

0.71

0.38

CBT condition (n = 75)

⩽4

0.09

1.00

1.00

0.71

0.72

0.12

⩽5

0.09

1.00

1.00

0.71

0.72

0.12

⩽6

0.13

1.00

1.00

0.72

0.73

0.17

⩽7

0.17

1.00

1.00

0.73

0.75

0.23

⩽8

0.17

1.00

1.00

0.73

0.75

0.23

⩽9

0.26

1.00

1.00

0.75

0.77

0.33

⩽10

0.30

1.00

1.00

0.76

0.79

0.38

⩽11

0.35

1.00

1.00

0.78

0.80

0.42

⩽12

0.52

1.00

1.00

0.82

0.85

0.60

⩽13

0.52

1.00

1.00

0.82

0.85

0.60

⩽14

0.65

0.98

0.94

0.86

0.88

0.69

⩽15

0.70

0.98

0.94

0.88

0.89

0.73

⩽16

0.78

0.94

0.86

0.91

0.89

0.74

⩽17

0.83

0.86

0.73

0.92

0.85

0.67

⩽18

0.87

0.81

0.67

0.93

0.83

0.62

⩽19

0.91

0.79

0.66

0.95

0.83

0.63

⩽20

1.00

0.73

0.62

1.00

0.81

0.62

⩽21

1.00

0.69

0.59

1.00

0.79

0.58

⩽22

1.00

0.63

0.55

1.00

0.75

0.52

⩽23

1.00

0.63

0.55

1.00

0.75

0.52

⩽24

1.00

0.56

0.50

1.00

0.69

0.44

BDD-YBOCS, Yale-Brown Obsessive Compulsive Scale modified for BDD; CBT, cognitive-behavior therapy; CGI-I, clinical global impression – improvement; NPV, negative predictive value; PPV, positive predictive value. Note: Optimal cut-offs are highlighted.

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Table 3. Definitions and operationalization of treatment response and full or partial remission for BDD

Conceptual definition

Treatment response

A clinically meaningful reduction in symptoms (time, distress, and interference associated with preoccupations about appearance, repetitive behaviors, and avoidance) relative to baseline severity in an individual who meets diagnostic criteria for BDD.

Full or partial remission

Residual preoccupations about appearance, repetitive behaviors, and avoidance may be present but are minimally time consuming and cause no more than minimal distress or interference in the person’s everyday life.

BDD-YBOCS, Yale-Brown Obsessive Compulsive Scale modified for BDD.

Operationalization A ⩾30% reduction in BDD-YBOCS scores, lasting for at least one week.
A score of ⩽16 on the BDD-YBOCS, lasting for at least one week.

1991; Mataix-Cols et al., 2016). Based on our empirical results, and those of two prior studies by Phillips and collaborators (Phillips et al., 1997; Phillips et al., 2014), a BDD-YBOCS reduction ⩾30% seems to be the most clinically meaningful reduction to define response.
The BDD-YBOCS asks questions that refer to the previous week. Because some trial participants are not assessed at every session in CBT studies and for consistency with the corresponding OCD definitions (Mataix-Cols et al., 2016), we propose that the operational definition of treatment response has a duration requirement of at least one week. This coincides with the primary end point employed in most clinical trials, that is, the posttreatment outcome evaluation.
Remission
Strictly speaking, patients should be classified as being ‘in remission’ when they no longer meet syndromal (i.e. threshold) criteria for the disorder and have no more than minimal symptoms (Farris et al., 2013; Mataix-Cols et al., 2016). We therefore suggest that, if feasible, diagnostic interviews should be used to determine that the person no longer meets diagnostic criteria for BDD at post-treatment. However, it is not common practice in BDD clinical trials to conduct structured diagnostic interviews at the end of treatment. If diagnostic interviews are unavailable, a BDD-YBOCS cut-off score could also be used to define full or partial remission at post-treatment. Clinically, these would be patients with more than very minimal or no symptoms but not meeting full DSM diagnostic criteria for BDD. Based on our results, the appropriate cut-off to define at least partial remission would be a score of either ⩽15 or ⩽16. However, because it has somewhat better balance between sensitivity and specificity, we recommend the use of the ⩽16 cut-off (rather than ⩽15). Further studies in larger samples are needed to further examine the best cut-off for full remission in BDD, which we did not examine separately in this study because few patients were considered fully remitted, according to the CGI-S scores (only seven patients scored 1, corresponding to ‘normal, not at all ill’).
Also, following the rationale outlined for treatment response, we propose that the duration requirement of full or partial remission in treatment studies be at least one week at the trial’s end point. Although duration longer than a week would be desirable to define remission, it would be highly impractical and unfeasible to extend the primary endpoint of a clinical trial beyond the final post-treatment assessment. This recommendation is consistent with the BDD-YBOCS’s assessment of symptom severity during the past week. Similar consensus was achieved for OCD (Mataix-Cols et al., 2016).

We wish to emphasize that the definitions of remission in prospective naturalistic observational course of illness studies differ from definitions used in treatment studies in terms of required duration. This is the case for both BDD and other disorders. If participants are followed over years, as in course of illness studies, it makes sense to define remission in terms of months as opposed to one week. On the other hand, a definition of several months is not suitable for treatment studies, which may last for only a few weeks/ months. The recommendations in this paper pertain only to treatment studies.
Limitations
The results of this study have to be interpreted in light of some limitations. Our sample was the result of the combination of samples from three different studies conducted in different countries that delivered treatments using different CBT modalities and included participants from different age groups. However, we lacked statistical power to examine different age groups and CBT modalities separately. Additionally, this study only used those data collected during the controlled phase of the RCTs as we wanted to take advantage of variables such as the blindness of the raters to the treatment condition. Most notably, our ‘gold standard’ measure of remission, the CGI-S, has limitations. For example, the score of 2 (‘borderline mentally ill’), included in the definition of full or partial remission, is vague and imprecisely defined. Though the CGI-S was used as a secondary outcome measure in the included trials, it is possible that CGI-S scores reflect a broader set of symptoms other than BDD symptoms, leading to less precise scoring. Another limitation is that we did not examine full remission because so few patients fully remitted. Additionally, we did not address the issue of defining relapse or recovery in BDD; such definitions have previously been proposed and used in a few studies but require additional examination (Phillips et al., 2006; Phillips et al., 2013; Veale et al., 2015; Phillips et al., 2016). The impact of using previous or other alternative definitions of relapse or recovery requires empirical evaluation before recommendations can be made. Another limitation is that the BDD-YBOCS does not have normative data from the general population. Such data might assist in defining cut-offs, but the scale cannot be normed in this way because it is intended for use only in individuals who have been diagnosed with BDD.
Conclusions
We are hopeful that the proposed definitions for treatment response and remission (Table 3) will result in (1) improved design, interpretation, and comparison of clinical trials of various modalities (e.g. CBT v. medication trials), (2) improved communication

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of research findings between professionals and to the general public, (3) improved guidelines for evaluation of clinical efficacy of various treatments by regulatory agencies, and (4) development of improved treatment guidelines for clinical practice (Frank et al., 1991). However, additional studies in more and larger samples are needed to further examine optimal cut-offs and definitions for remission (both full and partial), recovery, and relapse in treatment studies of BDD.
Acknowledgements. Dr Fernández de la Cruz is funded from the Swedish Research Council for Health, Working Life and Welfare (FORTE grant number 2015-00569). Dr Rück acknowledges funding from the regional agreement on medical training and clinical research (ALF) between the Stockholm County Council and Karolinska Institutet, the Swedish Research Council (reference number K2013-61X-22168-01-3), and the Swedish Society of Medicine (Söderströmska Königska sjukhemmet, grant No: SLS3B4451). Dr Wilhelm acknowledges funding from the National Institute of Mental Health (grant reference number R34 MH070490). Dr Krebs is funded by an MRC Clinical Research Training Fellowship (MR/N001400/1). Dr Veale is part-funded by the National Institute for Health Research (NIHR) Biomedical Research Centre at South London and Maudsley NHS Foundation Trust and King’s College London. Dr Mataix-Cols acknowledges funding from the National Institute for Health Research (NIHR) under its Research for Patient Benefit (RfPB) Programme (Grant Reference Number PB-PG-0110-21231).
Conflict of interest. Dr Fernández de la Cruz and Prof. Mataix-Cols receive royalties for contributing articles to UpToDate, Wolters Kluwer Health. In the past year, Dr Phillips has received research support and/or salary support from the Institute of Mental Health, the Norman Prince Neurosciences Institute/ Brown Institute for Brain Science, Brown University Division of Biology and Medicine, and the National Institute of General Medical Sciences (salary and research support). She has received royalties from Oxford University Press, American Psychiatric Publishing, International Creative Management, Inc., UpToDate, and Guilford Press. She has received honoraria from Royal Pharma and the Merck Manual. The rest of authors report no conflicts of interest.
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RemissionBddTreatment ResponseDefinitionsStudies