Abstract
Purpose
To investigate anxiety and depression levels in prosthetic eye–wearing patients using standardized psychometric instruments, to define factors associated with these psychological diseases, and to identify a potential healthcare gap.
Methods
A total of 295 prosthetic eye wearers were screened using the 7-item generalized anxiety disorder scale (GAD-7) and the 9-item patient health questionnaire (PHQ-9). Scores of GAD-7 and PHQ-9 were correlated with scores of general physical and mental health functioning, vision-related quality of life, appearance-related distress, appearance-related social function, and further biosocial factors.
Results
Five patients (2%) had a pre-diagnosed anxiety disorder, and 20 patients (7%) had a pre-diagnosed depression. However, our screening revealed 26 patients (9%) with anxiety symptoms, 31 patients (11%) with depression symptoms, and 40 patients (14%) suffering from both anxiety and depression symptoms. This underdiagnosing for both anxiety and depression disorders was significant (p < 0.001, respectively). Higher GAD-7 scores were significantly associated with higher PHQ-9 scores, lower appearance-related social function, lower mental health functioning, and female gender (p ≤ 0.021, respectively). Higher PHQ-9 scores were significantly associated with lower physical and mental health functioning, higher educational degree, and non-traumatic eye loss (p ≤ 0.038, respectively).
Conclusions
Anxiety and depression disorders seem to be underdiagnosed in prosthetic eye wearers and to have higher incidence compared with the general population. Therefore, a psychometric screening should be routinely implemented in the clinical care. For a successful long-term rehabilitation, integrated care by a multidisciplinary team including ophthalmic plastic surgeons, ophthalmologists, ocularists, general practitioners, and psychologists is essential.
Similar content being viewed by others
Avoid common mistakes on your manuscript.
Introduction
The eyes and the periocular region are crucial for inter-personal communication [1]. Although prosthetic eye wearers mostly express high levels of satisfaction with their eye prosthesis, living with an ocular prosthesis has a significant impact on psychosocial factors and social interactions [1,2,3,4,5].
Most psychological studies regarding prosthetic eye wearers focused on concerns of anophthalmic patients or quality of life–affecting issues in this ordinary population [1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20]. The eye loss itself, a potential malignant eye disease, the health of the fellow eye, potential discharge at the anophthalmic socket, dry socket symptoms, altered visual perception, and changes of the appearance have been already reported as relevant life-affecting and distress-causing factors [1,2,3,4,5,6,7, 13,14,15,16,17,18, 21,22,23].
Distressed patients typically exhibited higher levels of anxiety, depression, self-consciousness, and social avoidance especially within the first months after eye loss [24].
General anxiety disorder is one of the most common mental disorders with a lifetime prevalence of 2.8–7.3% in the general population, but often undetected by physicians [25,26,27,28,29]. Furthermore, general anxiety disorders have a significant comorbidity with depression, which shows a prevalence of 7.7% in the general German population [28, 30, 31].
Several community-based studies have already analyzed the prevalence of depression and anxiety in patients with various eye diseases and the influence of these diseases on daily life [29, 32, 33]. However, until today, there is no extensive and systematic study investigating general anxiety disorders and depression dependent on main influence factors including general health status, appearance-related distress, appearance-related social function, and vision-related quality of life in prosthetic eye wearers using standardized and established psychometric tools. In addition, there is no study addressing anxiety and depression in cryolite glass prosthetic eye wearers at all.
Therefore, the purpose of the present study is to evaluate anxiety and depression symptoms in patients wearing prosthetic eyes using standardized psychometric screening instruments, to define factors associated with these psychological diseases, and to identify a potential healthcare gap.
Patients and methods
Over 63 consecutive working days between June 2019 and November 2019, patients who underwent ocular prosthetic care at the Trester-Institute for Ocular Prosthetics and Artificial Eyes, Cologne, Germany, were asked directly prior to their treatment to participate in an extensive study regarding anxiety and depression symptoms. The study was conducted by the Department of Ophthalmology, University of Cologne, Cologne, Germany, in adherence to the tenets of the Declaration of Helsinki and approved by the Institutional Review Board of the University of Cologne. In addition, this study was performed independently from previous studies. Informed consent was obtained from the subjects after explanation of the nature and possible consequences of the study. Inclusion criteria were age over 18, wearing cryolite glass prosthetic eyes, and adequate command of the German language.
Patients were asked face-to-face questions using a standardized three-section questionnaire: Section 1 requested general demographic data and information about age, gender, ethnicity, current relationship status, if the patient lives alone or not, highest educational degree, occupation, occupational disability, and amount of income.
In section 2, patients were asked about their history and treatment of already diagnosed active depression and anxiety-related disorders. Furthermore, a detailed ocular anamnesis for the anophthalmic site including time since the eye was lost, reason for eye loss, performed surgery, and age at time of eye loss was asked.
Section 3 included German versions of six standardized and established questionnaires for the psychometric evaluation of depression, anxiety, health-related quality of life, vision-related quality of life, appearance-related psychological distress, and appearance-related social interactions.
The patient health questionnaire (PHQ) is a self-administered version of the PRIME-MD diagnostic instrument for common mental disorders [34]. The PHQ-9 is a reliable, valid, and short depression screening and grading module, which scores each of the 9 DSM (Diagnostic and Statistical Manual of Mental Disorders) criteria as “0” (not at all) to “3” (nearly every day) [35]. PHQ-9 scores of 5, 10, 15, and 20 represent mild, moderate, moderately severe, and severe depression, respectively [35]. While the PHQ-9 scores and grades depression symptoms, it does not reveal reasons or type of the depression such as endogenous depression, depressive personality disorder, or exogenous (reactive) depression.
The 7-item generalized anxiety disorder (GAD-7) scale is a validated, reliable, and efficient measurement tool for GAD screening and assessing its severity in clinical practice and in research [34]. The GAD-7 scale classifies 4 levels of anxiety severity: none (0–4), mild (5–9), moderate (10–14), and severe (15–21) [34].
The 12-item short-form health survey (SF-12) is a shortened version of the 36-item short-form health survey [36]. SF-12 is a measurement tool of general physical and general mental health functioning that has been widely used and validated [36]. Responses to SF-12 questions were used to estimate a general mental composite score (MCS) and general physical composite score (PCS) for each patient, with higher values indicating higher health-related quality of life [36].
The 14-item visual function questionnaire (VF-14), one of the most commonly used vision-related functional questionnaires, is based on 14 vision-dependent activities performed in everyday life, and the difficulty undertaking each activity is rated [37, 38]. It has also been validated for use with a wide range of eye diseases [37, 38]. Scores range from 0 to 100, and higher scores represent better visual functioning and less difficulty to perform daily activities [37, 38].
The FACE-Q module is a patient-reported outcome instrument designed to measure important concepts of interest including various scales such as the appearance-related distress scale and appearance-related social function scale, evaluating social interactions [39, 40]. Both the appearance-related psychosocial distress scale and the appearance-related social function scale contain eight statements, respectively [39, 40]. Responses to each statement were rated on a four-point Likert-type scale and transformed to a score between 0 and 100 for each scale [39, 40]. Higher values represent a greater severity of psychosocial distress and a better social function [39, 40].
If the patients had any issues or understanding problems regarding the questions, these issues were clarified directly.
Statistical analyses
A commercial software (SPSS version 26.0 for Mac; SPSS, Inc., Chicago, IL) was used for all statistical analyses. Kolmogorov–Smirnov tests were performed to analyze normal distribution of all scores. Due to not normal distribution, Mann–Whitney U tests were performed to compare the PHQ-9 and GAD-7 scores between symptomatic and non-symptomatic patients. To evaluate differences between the rates of previously diagnosed disease and of symptomatic patients, Wilcoxon tests were used after a grading of the patients as pre-diagnosed (or not) and as symptomatic (or not) was performed. To investigate factors related to the PHQ-9 and GAD-7 scores, general linear models were used (one for each questionnaire) with explanatory variables of physical (SF-12 PCS) and general mental health functioning (SF-12 MCS), appearance-related distress (FACE-Q appearance-related psychosocial distress scale), appearance-related social function (FACE-Q appearance-related social function scale), vision-related quality of life (VF-14 score), gender (male vs. female), age, age at eye loss, highest educational degree, ethnicity (European or not), occupational disability, reason for eye loss, relationship status (single or not), time since eye loss under 1 year (or not), and if patient lived alone (or not).
Both linear regression models were highly significant (ANOVA: p ≤ 0.001), and all p values of the regression coefficients < 0.05 were reported as statistically significant.
Results
Biosocial profile of 295 prosthetic eye wearers
Out of 324 patients who were approached to participate, 295 patients agreed; 29 patients declined to participate due to lack of time. Of these 295 patients who agreed, 192 were males and 103 were females (Table 1). These 295 enrolled patients had a mean age of 62.54 ± 16.77 years (range, 18–95 years). In total, 90.5% were European, 7.1% were from the Middle East, 1 patient was Latin-American, 3 were Asian, and 3 were African. Over 60% of the patients were married or in a relationship, while 38.3% were single, divorced, or widowed. In total, 92 (31%) patients lived alone. Nineteen patients (6.4%) had no educational degree, while the highest educational degree of 89 patients (30%) was secondary school or high school. A total of 125 patients (42%) had an apprenticeship and 51 patients (17%) a university degree. Most of the patients were retired (49.3%) or full-time employed (32.2%). Seventy-four percent made no statement regarding their amount of income.
Reasons for eye loss included accident (51.2%), medical (43.4%), and congenital (5.4%). A percentage of 16.6% had a malignant disease resulting in eye loss. A total of 87.5% of the patients were enucleated, 3.7% eviscerated, and 8.8% had no operation and still retained their blind disfigured globe. Mean age at eye loss was 31.97 ± 23.93 years (range, 0–86 years), and mean time since eye loss was 30.56 ± 24.67 years (range, 0–89 years).
Of the 295 study participants, 20 patients (6.8%) had active pre-diagnosed depression. While 1 of these 20 patients had no current therapy, 4 had only current pharmacological treatment, 9 only current psychotherapy, and 6 combined pharmacological and psychological treatment at the moment. In addition, 5 patients (1.7%) had a pre-diagnosed anxiety disorder, with 4 of them receiving psychotherapy, and the remaining having no treatment at all. All patients with a pre-diagnosed anxiety disorder or depression had currently a stable disease status.
Depression and anxiety symptoms in prosthetic eye wearers
Mean PHQ-9 score of all 295 patients was 3.01 ± 3.83 and within normal range. Mean PHQ-9 score was 1.28 ± 1.43 in mentally well patients and 8.49 ± 3.91 in patients with depression symptoms with significantly lower scores in mentally well patients. While 224 patients (75.9%) had no depression symptoms (PHQ-9 score 0–4), 71 patients (24.1%) had significant depression symptoms (PHQ-9 score ≥ 5; Table 2). Of these 71 patients, 51 (17.3% of all patients) had mild, 13 (4.4%) moderate, 6 (2.0%) moderately severe, and 1 patient (0.3%) severe depression scores.
Mean GAD-7 score of all patients was 2.90 ± 4.34, again within the normal range, including 229 (77.6%) patients with minimal anxiety symptoms (GAD-7 score 0–4; Table 3). Mean GAD-7 score of the non-anxious patients was 0.93 ± 1.36 and 9.76 ± 4.15 of the symptomatic patients (GAD score ≥ 5) with significantly higher scores in the symptomatic group. Sixty-six patients had significant anxiety symptoms (GAD-7 score ≥ 5) with 39 patients (13.9%) showing mild, 13 (4.4%) moderate, and 14 (4.7%) severe anxiety symptoms.
In total, 198 of 295 (67.1%) had no symptoms, while 31 patients (10.5%) had only depression symptoms, 26 patients (8.8%) had only anxiety symptoms, and 40 patients (13.6%) had both depression and anxiety symptoms. There seems to be a significant underdiagnosing for both depression and anxiety disorders (p < 0.001, respectively).
Associations of explanatory variables with depression and anxiety symptoms
There was a significant positive correlation between PHQ-9 scores and GAD-7 scores (p < 0.001; Table 4; Fig. 1). Furthermore, there was a significant association between PHQ-9 scores and both the general MCS and PCS, with higher PHQ-9 scores associated with lower MCS and PCS (p < 0.001 and p = 0.015, respectively). In addition, higher educational degree and non-traumatic eye loss were associated with higher PHQ-9 scores (p = 0.038 and p = 0.033, respectively).
Higher GAD-7 scores were associated with lower appearance-related social function scores (p = 0.021) and lower general MCS (p < 0.001; Table 5). While there were no associations between gender and the PHQ-9 scores (p = 0.096), gender was associated with the GAD-7 scores, with females having significantly higher GAD-7 scores than males (p = 0.002).
There were no associations between both the PHQ-9 and GAD-7 scores and the explanatory variables of vision-related quality of life, age, age at eye loss, ethnicity, occupational disability, relationship status, time since eye loss, or if patient lived alone (p ≥ 0.05, respectively; Tables 4 and 5).
Discussion
The present study reveals three important findings having significant clinical implications for anophthalmic patients wearing prosthetic eyes:
-
(1)
Anxiety and depression disorders seem to be underdiagnosed in the prosthetic eye wearers. Therefore, standardized psychometric screening regarding these depression and anxiety disorders should be implemented in the routine of clinical care.
-
(2)
Since the physical condition seems to have a significant influence on depression symptoms, prosthetic eye wearers need not only good ophthalmological and ocularistic care but also good and professional general healthcare.
-
(3)
For a successful social and psychological rehabilitation and an interprofessional long-term care of patients wearing prosthetic eyes, an integrated care by a multidisciplinary team including ophthalmic plastic surgeons, ophthalmologists, ocularists, general practitioners, and psychologists is essential and is a high priority to be established in a standardized fashion.
Since the mean duration of prosthesis wear was longer than 30 years, the participants of this study had a lot of experience and knowledge of living with a prosthetic eye and the resulting psychological consequences including depression and anxiety. In addition, they likely had relevant and deep insights into quality of life–affecting factors such as general health status, appearance-related distress, appearance-related social function, and vision-related quality of life. The demographic data of the 295 consecutive enrolled patients was very similar to the data of previous studies and was therefore representative for the ordinary anophthalmic population in Germany quite well [3, 4, 13]. However, limitations of this study include the rather high proportion of patients with enucleation in relation to eviscerations or not operated patients as well as the design as a monocenter study conducted at an ocularistic institute. Patients with severe anxiety and depression might not attend appointments at the ocularists due to their high disorder severity.
Of the 295 study participants, 20 patients (6.8%) had a pre-diagnosed depression, indicating that patients wearing prosthetic eyes have no higher incidence of depression in comparison with the general population [28, 30, 31]. However, the results of our screening with PHQ-9 are in contrast to that and showed that 24.1% of these patients had significant depression symptoms. This suggests that there is a noticeable number of patients that are underdiagnosed. Since 51 of 71 symptomatic patients had only mild symptoms, a psychological or pharmacological treatment is probably not necessary in every case, but of course, these patients should be seen and individually counseled by a psychologist, and if necessary, treatment should be initiated.
A previous study with only 20 patients and without long-term follow-up reported a higher incidence of depression symptoms especially in the first months after enucleation in patients with uveal melanoma [41]. Three months after enucleation due to uveal melanoma, 45% of these patients had mild depression, 25% moderate depression, and 10% severe depression symptoms. In our study with a mean time of more than 30 years since eye loss, 17% of all prosthetic eye wearers had mild, 4% moderate, 2% moderately severe, and 0.3% severe depression scores. These results might indicate that depression symptoms seem to decrease over time. However, the study populations and the methodology in both studies were very different, and the results in this study with a much higher patient number and a long mean time since eye loss showed that time since eye loss had no statistical influence on depression symptoms.
Furthermore, a lower SF-12 PCS was associated with higher depression symptoms, which confirms the results of previous studies in general populations [42]. Therefore, prosthetic eye wearers seem to need not only good ophthalmological and ocularistic care but also professional general healthcare to avoid depression symptoms.
Non-traumatic eye loss was also associated with higher depression symptoms. A reason could be that patients with medical or congenital eye loss have a longer disease history. This could lead to higher depression symptoms [42], but the exact reasons stay unclear like the nature of why patients with higher educational degree had higher depression symptoms. This finding is also in contrast to previous studies in general populations [43].
The significant association between depression and anxiety symptoms in this population is similar to results in general populations [28, 30, 31]. Since prosthetic eye wearers had a higher incidence of depression symptoms, the logical consequence is also the higher incidence of anxiety symptoms in this study. There are not only a noticeable number of patients that are underdiagnosed regarding depression but also a high number of patients with undetected anxiety symptoms, which again confirms the need for professional long-term psychological care. Gender was associated with higher anxiety symptoms similarly to what has been reported for the general population, with females having more anxiety than males [29, 44]. Therefore, special attention should be given to the mental health status of females wearing prosthetic eyes. In addition, there was also a significant association between lower appearance-related social function and anxiety. This is in accordance with the findings of previous studies and suggests that the restoration of facial appearance through good ocularistic care has a significant influence on social interactions and acceptance, resulting in better quality of life and better general mental health [1, 44,45,46].
In summary, anxiety and depression disorders seem to be underdiagnosed in the prosthetic eye–wearing population. A standardized psychometric screening regarding these depression and anxiety disorders should be implemented in the routine of clinical care. For the successful social and psychological rehabilitation of these patients, long-term, integrated care by a multidisciplinary team including ophthalmic plastic surgeons, ophthalmologists, ocularists, general practitioners, and psychologists is essential.
Data availability
The data that support the findings of this study are available on request from the corresponding author. The data are not publicly available due to privacy or ethical restrictions.
References
McBain HB, Ezra DG, Rose GE, Newman SP (2014) The psychosocial impact of living with an ocular prosthesis. Orbit 33:39–44
Song JS, Oh J, Baek SH (2006) A survey of satisfaction in anophthalmic patients wearing ocular prosthesis. Graefes Arch Clin Exp Ophthalmol 244:330–335
Rokohl AC, Koch KR, Adler W, Trester M, Trester W, Pine NS, Pine KR, Heindl LM (2018) Concerns of anophthalmic patients-a comparison between cryolite glass and polymethyl methacrylate prosthetic eye wearers. Graefes Arch Clin Exp Ophthalmol 256:1203–1208
Rokohl AC, Koch KR, Trester M, Trester W, Pine KR, Heindl LM (2018) Concerns of anophthalmic patients wearing cryolite glass prosthetic eyes. Ophthalmic Plast Reconstr Surg 34:369–374
Pine K, Sloan B, Stewart J, Jacobs RJ (2011) Concerns of anophthalmic patients wearing artificial eyes. Clin Exp Ophthalmol 39:47–52
Rokohl AC, Trester M, Guo Y, Adler W, Jaeger VK, Loreck N, Mor JM, Pine KR, Heindl LM (2020) Dry anophthalmic socket syndrome–standardized clinical evaluation of symptoms and signs. Ocul Surf 18:453–459
Pine K, Sloan B, Stewart J, Jacobs RJ (2012) A survey of prosthetic eye wearers to investigate mucoid discharge. Clin Ophthalmol 6:707–713
Pine KR, Sloan B, Han KI, Swift S, Jacobs RJ (2013) Deposit buildup on prosthetic eye material (in vitro) and its effect on surface wettability. Clin Ophthalmol 7:313–319
Pine KR, Sloan B, Jacobs RJ (2012) Biosocial profile of New Zealand prosthetic eye wearers. N Z Med J 125:29–38
Pine KR, Sloan B, Jacobs RJ (2012) Deposit buildup on prosthetic eyes and implications for conjunctival inflammation and mucoid discharge. Clin Ophthalmol 6:1755–1762
Pine KR, Sloan B, Stewart J, Jacobs RJ (2013) The response of the anophthalmic socket to prosthetic eye wear. Clin Exp Optom 96:388–393
Pine KR, Sloan BH, Jacobs RJ (2013) A proposed model of the response of the anophthalmic socket to prosthetic eye wear and its application to the management of mucoid discharge. Med Hypotheses 81:300–305
Rokohl AC, Adler W, Koch KR, Mor JM, Jia R, Trester M, Pine NS, Pine KR, Heindl LM (2019) Cryolite glass prosthetic eyes-the response of the anophthalmic socket. Graefes Arch Clin Exp Ophthalmol 257:2015–2023
Rokohl AC, Koch KR, Trester M, Heindl LM (2018) Cryolite glass ocular prostheses and coralline hydroxyapatite implants for eye replacement following enucleation. Ophthalmologe 115:793–794
Rokohl AC, Mor JM, Trester M, Koch KR, Heindl LM (2019) Rehabilitation of anophthalmic patients with prosthetic eyes in Germany today-supply possibilities, daily use, complications and psychological aspects. Klin Monatsbl Augenheilkd 236:54–62
Rokohl AC, Trester M, Mor JM, Loreck N, Koch KR, Heindl LM (2019) Customizing a cryolite glass prosthetic eye. J Vis Exp 152
Rokohl AC, Trester M, Pine KR, Heindl LM (2019) Risk of breakage of cryolite glass prosthetic eyes. Graefes Arch Clin Exp Ophthalmol 257:437–438
Saxby E, Davies R, Kerr J (2019) Living with an artificial eye-the emotional and psychosocial impact. Eye 33:1349–1351
Rasmussen ML, Ekholm O, Prause JU, Toft PB (2012) Quality of life of eye amputated patients. Acta Ophthalmol 90:435–440
Steeves JK, Gonzalez EG, Steinbach MJ (2008) Vision with one eye: a review of visual function following unilateral enucleation. Spat Vis 21:509–529
Pine NS, De Terte I, Pine KR (2017) An investigation into discharge, visual perception, and appearance concerns of prosthetic eye wearers. Orbit 36:401–406
Pine NS, De Terte I, Pine KR (2017) The impact of eye loss and prosthetic eye wear on recreational, occupational and social areas of functioning. J Ophthalmol Vis Sci 2:1016
Pine NS, De Terte I, Pine KR (2017) Time heals: an investigation into how anophthalmic patients feel about eye loss and wearing a prosthetic eye. J Ophthalmol Vis Sci 2:1018
Clarke A, Rumsey N, Collin JR, Wyn-Williams M (2003) Psychosocial distress associated with disfiguring eye conditions. Eye 17:35–40
Bryant C, Jackson H, Ames D (2008) The prevalence of anxiety in older adults: methodological issues and a review of the literature. J Affect Disord 109:233–250
Alonso J, Lepine JP, ESEMeD/MHEDEA (2000) Scientific Committee (2007) Overview of key data from the European study of the epidemiology of mental disorders (ESEMeD). J Clin Psychiatry 68(Suppl 2):3–9
Mackenzie CS, Reynolds K, Chou KL, Pagura J, Sareen J (2011) Prevalence and correlates of generalized anxiety disorder in a national sample of older adults. Am J Geriatr Psychiatry 19:305–315
Wild B, Eckl A, Herzog W, Niehoff D, Lechner S, Maatouk I, Schellberg D, Brenner H, Müller H, Löwe B (2014) Assessing generalized anxiety disorder in elderly people using the GAD-7 and GAD-2 scales: results of a validation study. Am J Geriatr Psychiatry 22:1029–1038
Hinz A, Klein AM, Brahler E, Glaesmer H, Luck T, Riedel-Heller SG, Wirkner K, Hilbert A (2017) Psychometric evaluation of the generalized anxiety disorder screener GAD-7, based on a large German general population sample. J Affect Disord 210:338–344
Goncalves DC, Pachana NA, Byrne GJ (2011) Prevalence and correlates of generalized anxiety disorder among older adults in the Australian National Survey of Mental Health and Well-Being. J Affect Disord 132:223–230
Schoevers RA, Deeg DJ, van Tilburg W, Beekman AT (2005) Depression and generalized anxiety disorder: co-occurrence and longitudinal patterns in elderly patients. Am J Geriatr Psychiatry 13:31–39
Schuster AK, Tesarz J, Rezapour J, Beutel ME, Bertram B, Pfeiffer N (2018) Visual impairment is associated with depressive symptoms-results from the nationwide German DEGS1 study. Front Psych 9:114
Rezapour J, Nickels S, Schuster AK, Michal M, Munzel T, Wild PS, Schmidtmann I, Lackner K, Schulz A, Pfeiffer N, Beutel ME (2018) Prevalence of depression and anxiety among participants with glaucoma in a population-based cohort study: the Gutenberg health study. BMC Ophthalmol 18:157
Spitzer RL, Kroenke K, Williams JB, Lowe B (2006) A brief measure for assessing generalized anxiety disorder: the GAD-7. Arch Intern Med 166:1092–1097
Kroenke K, Spitzer RL, Williams JB (2001) The PHQ-9: validity of a brief depression severity measure. J Gen Intern Med 16:606–613
Ware J Jr, Kosinski M, Keller SD (1996) A 12-item short-form health survey: construction of scales and preliminary tests of reliability and validity. Med Care 34:220–233
Finger RP, Fenwick E, Chiang PP, Petrak M, Holz FG, Marella M, Lamoureux EL (2011) The impact of the severity of vision loss on vision-specific functioning in a German outpatient population-an observational study. Graefes Arch Clin Exp Ophthalmol 249:1245–1253
Chiang PP, Fenwick E, Marella M, Finger R, Lamoureux E (2011) Validation and reliability of the VF-14 questionnaire in a German population. Invest Ophthalmol Vis Sci 52:8919–8926
Klassen AF, Cano SJ, Alderman A, East C, Badia L, Baker SB, Robson S, Pusic AL (2016) Self-report scales to measure expectations and appearance-related psychosocial distress in patients seeking cosmetic treatments. Aesthet Surg J 36:1068–1078
Klassen AF, Cano SJ, Schwitzer JA, Scott AM, Pusic AL (2015) FACE-Q scales for health-related quality of life, early life impact, satisfaction with outcomes, and decision to have treatment: development and validation. Plast Reconstr Surg 135:375–386
Amaro TA, Yazigi L, Erwenne C (2010) Depression and quality of life during treatment of ocular bulb removal in individuals with uveal melanoma. Eur J Cancer Care 19:476–481
Read JR, Sharpe L, Modini M, Dear BF (2017) Multimorbidity and depression: a systematic review and meta-analysis. J Affect Disord 221:36–46
Lorant V, Deliège D, Eaton W, Robert A, Philippot P, Ansseau M (2003) Socioeconomic inequalities in depression: a meta-analysis. Am J Epidemiol 157:98–112
James H, Jenkinson E, Harrad R, Ezra DG, Newman S (2011) Appearance concerns in ophthalmic patients. Eye 25:1039–1044
Chin K, Margolin CB, Finger PT (2006) Early ocular prosthesis insertion improves quality of life after enucleation. Optometry 77:71–75
Ye J, Lou L, Jin K, Xu Y, Ye X, Moss T, McBain H (2015) Vision-related quality of life and appearance concerns are associated with anxiety and depression after eye enucleation: a cross-sectional study. PLoS One 10:e0136460
Funding
Open Access funding provided by Projekt DEAL.
Author information
Authors and Affiliations
Corresponding author
Ethics declarations
Conflict of interest
Ludwig M. Heindl, Yongwei Guo, Florian Zwiener, Narges Sadat, Nicola S. Pine, Keith R. Pine, Andreas Traweger, and Alexander C. Rokohl have no financial or proprietary interest in any materials or methods mentioned in the manuscript. Ludwig M. Heindl, Yongwei Guo, Florian Zwiener, Narges Sadat, Nicola S. Pine, Keith R. Pine, Andreas Traweger, and Alexander C. Rokohl declare that they have no conflict of interest. The Trester-Institute for Ocular Prosthetics and Artificial Eyes in Cologne is owned and operated by Marc Trester.
Ethical approval
All procedures performed in studies involving human participants were in accordance with the ethical standards of the institutional and/or national research committee and with the 1964 Helsinki declaration and its later amendments or comparable ethical standards. This article does not contain any studies with animals performed by any of the authors.
Informed consent
Informed consent was obtained from the subjects after explanation of the nature and possible consequences of the study.
Additional information
Publisher’s note
Springer Nature remains neutral with regard to jurisdictional claims in published maps and institutional affiliations.
Rights and permissions
Open Access This article is licensed under a Creative Commons Attribution 4.0 International License, which permits use, sharing, adaptation, distribution and reproduction in any medium or format, as long as you give appropriate credit to the original author(s) and the source, provide a link to the Creative Commons licence, and indicate if changes were made. The images or other third party material in this article are included in the article's Creative Commons licence, unless indicated otherwise in a credit line to the material. If material is not included in the article's Creative Commons licence and your intended use is not permitted by statutory regulation or exceeds the permitted use, you will need to obtain permission directly from the copyright holder. To view a copy of this licence, visit http://creativecommons.org/licenses/by/4.0/.
About this article
Cite this article
Heindl, L.M., Trester, M., Guo, Y. et al. Anxiety and depression in patients wearing prosthetic eyes. Graefes Arch Clin Exp Ophthalmol 259, 495–503 (2021). https://doi.org/10.1007/s00417-020-04908-0
Received:
Revised:
Accepted:
Published:
Issue Date:
DOI: https://doi.org/10.1007/s00417-020-04908-0