The average age at onset of Othello's syndrome was 68 (25–94) years with 61.9% of patients being male. Othello's syndrome was most commonly associated with a neurological disorder (73/105) compared with psychiatric disorders (32/105). Of the patients with a neurological disorder, 76.7% had a neurodegenerative disorder. Seven of eight patients with a structural lesion associated with Othello's syndrome had right frontal lobe pathology. Voxel-based morphometry showed greater grey matter loss predominantly in the dorsolateral frontal lobes in the neurodegenerative patients with Othello's compared to matched patients with neurodegenerative disorders without Othello's syndrome. Treatment success was notable for patients with dopamine agonist induced Othello's syndrome in which all six patients had improvement in symptoms following decrease in medication.

While cases reports and small cases series have associated OS with neurological and psychiatric diseases, there are no comprehensive studies on a large series of patients with OS.. The aim of the study was to investigate clinical and imaging characteristics of OS in patients with different neurological and psychiatric conditions.

Othello's syndrome (OS), named after the character in Shakespeare's play refers to the delusion of infidelity of a significant other, which is sometimes used interchangeably with delusional or morbid jealousy. OS has been associated with psychiatric and neurological disorders including strokes, brain trauma, brain tumors, neurodegenerative disorders, encephalitis, multiple sclerosis, normal pressure hydrocephalus, endocrine disorders, and drugs.( 1 – 8 ) Many of these reports, however, have been single case reports or small case series. Several case reports have suggested that the right frontal lobe is the neuroanatomical correlate for OS( 9 – 12 ) although, others have reported thalamic and left frontal lobe lesions.( 13 , 14 ) There are no quantitative imaging studies on OS. In one study assessing the prevalence of delusional jealousy in psychiatric patients, delusional jealousy was most frequently associated with an organic cause.( 6 )

Statistical analyses were performed using JMP statistical software (JMP, version 7.0.0; SAS Institute Inc. Cary, North Carolina) with statistical significance set at P<0.05. Sex ratios and binary variables collected were compared across groups and subgroups using the Chi squared test; Fisher's Exact test if there were cells with small numbers (<5). Age at onset of OS was compared across groups using analysis of variance. If significance was found, the Tukey-Kramer post hoc test was then used to compare all pairs of groups.

Given that neurodegenerative disorders are associated with cerebral atrophy, we used Voxel-based morphometry (VBM)( 17 ) to assess patterns of grey matter loss in the OS patients that had a neurodegenerative disorder and a T1-weighted volumetric MRI performed after the onset of OS as previously described.( 18 ) These neurodegenerative patients were matched by age and gender to patients that had the identical clinical diagnoses but no evidence of delusions on the Neuropsychiatric Inventory (NPI),( 19 ) and to healthy controls. In order to identify regions of grey matter loss that may be contributing to the OS two comparisons were performed. First, the OS patients were compared to the matched neurodegenerative patients. Age, gender and Short Test of Mental Status( 20 ) score were included in the analysis as covariates. Second, a conjunction analysis was performed to identify regions of grey matter loss that were common to the DLBD, AD and bvFTD patient groups with OS compared to controls. Age and gender were included in the analysis as covariates. Due to the exploratory nature of the analyses, results were assessed uncorrected for multiple comparisons at p<0.001.

All 105 subjects were initially divided into the following groups for comparison based on the context of the occurrence of the delusion of infidelity (i.e. diagnosis): psychiatric, drug-related, neurodegenerative (Alzheimer disease (AD), Lewy body disease (LBD) and behavioral variant of frontotemporal dementia (bvFTD)), vascular dementia and focal lesions. The group of patients with diseases, where Lewy bodies are the predominant pathology included the following subtypes: dementia with Lewy bodies (DLBD), Parkinson's disease (PD) and Parkinson's disease with dementia (PDD).( 15 , 16 ) There are approximately thirty two inpatient adult neurology beds and fifty five inpatient psychiatric beds available.

Using a text word search for “Othello” or “Delusions and Infidelity” or “Delusions of Jealousy or Infidelity”, the Mayo Clinic Medical Records Linkage system was used to identify patients with possible OS who were evaluated at our institution in any department between January 1 st , 1998 and October 31 st , 2009. Given this approach, any case where the delusion was mentioned as present or absent by the examining physician was identified (n=185). These medical records were reviewed to determine whether the patient met inclusion criteria for OS. Specifically, the delusion had to be one of infidelity or jealousy, clearly stated in the medical records and described. Cases not meeting criteria (n=80) were excluded. These were cases in which either OS was incorrectly used or the delusion did not involve infidelity or jealousy. Clinical data were abstracted in all 105 cases that met our inclusion criteria, including age at onset of delusion of infidelity, age at onset of first neurological sign/symptom, gender, description of the infidelity delusion, first and final clinical diagnosis, treatment and response to treatment of the infidelity delusion, physical findings on examination, behavioral or personality changes, hallucinations and other delusions. This study was approved by the Mayo Clinic Institutional Review Board in Rochester, Minnesota.

The neurodegenerative patients with OS showed greater grey matter loss predominantly in the dorsolateral frontal lobes, particularly in superior frontal gyri, and right posterior lateral temporal lobe compared to the matched neurodegenerative patients without delusions ( ). No regions of grey matter loss showed greater involvement in the matched neurodegenerative patients compared to the neurodegenerative patients with OS. The only regions of loss that were found to be common to each of the different neurodegenerative groups (DLBD, AD, bvFTD) with OS were also found in the superior frontal lobe, particularly on the right, and the posterior temporal lobe ( ).

A total of 14 patients with a neurodegenerative disorder had a volumetric T1-weighted MRI (DLBD n=5, AD, n=6, bvFTD n=3). These patients were therefore matched by age and sex to 14 patients that had identical clinical diagnoses (DLBD n=5, AD, n=6, bvFTD n=3) but no delusions, and 14 healthy controls. The mean (standard deviation) age at MRI was 73.3 years (10.6) in the Othello's group, 73.1 years (10.8) in the matched neurodegenerative group, and 73.1 years (11.2) in controls, with 50% female in each group. Time from disease onset to scan was 5.1 years (4.0) in the Othello's group and 4.0 years (2.1) in the matched neurodegenerative group (p=0.35) while Short Test of Mental Status scores,( 24 ) a tests of cognitive severity, was 22.9/38 (5.2) and 24.9/38 (7.4), respectively, (p=0.42). The average time from the onset of the Othello's delusion to the MRI was 1.2 (1.3) years (range 0–5 years).

shows the medication responses and dose ranges. In the medication subgroup, one patient had improvement after decreasing the dose of valproic acid that was recently started, and one subject had resolution of symptoms after stopping adderall (Amphetamine and Dextroamphetamine) and darvocet (Acetaminophen and Dextropropoxyphene). In the PD subgroup, 5/6 subjects developed OS secondary to pramipexole therapy. The average daily dose of pramipexole was 4.4mg daily when the delusions started in four of the patients. The delusions resolved when pramipexole was discontinued in each of these four patients. In the fifth patient, the patient's total daily dose of pramipexole was reduced to 6mg daily from an unspecified higher dose. The sixth patient was taking ropinirole and carbidopa/levodopa. Detailed information regarding these cases has been previously reported.( 23 )

The subjects with a neurological diagnosis were then further subdivided into those with a neurodegenerative diagnosis, those with vascular dementia and those with a lesion-specific diagnosis ( ). We also looked for differences across the different types of neurodegenerative disorders ( ). We also subdivided the 29 LBD patients into those with DLBD (n=20), those with PDD (n=3) and those with PD (n=6). There was a significant difference in age at onset of the delusional jealousy across these three LBD groups (p<0.0001), with the PD group being younger (54.3 ± 7.3) than the DLBD (74.6 ± 6.5) and PDD (77.3 ± 8.0) groups. There was no gender difference across these three groups. There was a significant difference in the frequency of hallucinations (p=0.01), which occurred most frequently in the DLBD group (DLBD=90% vs PDD=67% & PD=33%), but not in the frequency of other delusions across these three groups.

Forty-four patients in the series had hallucinations ( ). Four patients with DLBD had hallucinations specifically related to their delusions of infidelity e.g. visual hallucination of the patient's spouse engaging in an act of infidelity and to the patients this served as proof of the infidelity ( ). Forty-eight patients also had delusions other than OS ( ). One patient with AD had a delusion of reference.

Thirty-two patients ( ) had non-neurological causes associated with OS. Fourteen patients were diagnosed with a delusional disorder not otherwise specified (NOS), six with major depressive disorder and two with a mood disorder NOS. There was one case each of anxiety disorder, major depression with psychosis, psychotic disorder, schizoaffective disorder and bipolar disorder type 2. Of those with drug induced Othello's, two patients used methamphetamine, one was started on valproic acid, and the other two were thought to be related to a combination of multiple drugs.

Of the eight patients with lesions, two had a right frontal meningioma, one had a left frontal stroke, one had bifrontal hemorrhagic contusions, one had right frontal encephalomalacia from trauma, two had right frontal strokes and one had a right frontal subdural hematoma. Head MRI were completed in six of these patients ( ), with the remaining two patients having CT scans.

Seventy-three patients had OS associated with a neurological disorder ( ). Of the 56 patients with a neurodegenerative disorder, the majority (n=29) met criteria for one of the Lewy body diseases including DLBD in 20,( 16 , 21 ) PD in six and PDD in three patients. The onset of the delusion was associated with a dopamine agonist in six patients with PD. Of the 27 patients with a neurodegenerative diagnosis, 22 met criteria for AD( 16 ) and 5 met criteria for bvFTD.( 22 )

We identified 105 patients who met our inclusion criteria for having OS. Examples of the type of delusions that the patients experienced are shown in . The mean age at onset of the delusion for all 105 patients was 68 years (25–94). Sixty five (61.9%) of all patients were male.

Discussion

The main finding in this study is that OS is found in a wide array of disorders commonly related to frontal lobe dysfunction with seven of the eight focal lesion patients showing right frontal lobe damage. In addition, VBM showed that the neurodegenerative cases with OS had greater grey matter loss in the dorsolateral frontal lobes, compared to neurodegenerative patients without Othello's.

Previous smaller studies have linked OS to right hemisphere events such as strokes.(9, 11, 12) In addition OS has been associated with right frontal lobe hypometabolism on single photon emission computer tomography in one study,(9) and has also occurred after right orbitofrontal resection for a meningioma.(10) Our study also found an association between the development of OS and frontal lobe, in particular right frontal lobe, dysfunction. Specifically frontal lobe lesions were a common theme in our lesion associated cases, and were independently identified in the neurodegenerative patients on VBM. One hypothesis linking right frontal lesions to delusions suggests that the loss of frontal lobe function impairs the ability to monitor interactions with oneself and with others leading to false beliefs that persist despite being incorrect. Impairments in monitoring reality, memory and familiarity due to a damaged right hemisphere may lead to the unopposed left hemisphere categorizing without emotional familiarity resulting in false explanations.(25) There were also other reports that implicated the right hemisphere and/or right frontal lobe dysfunction to be associated with delusions in general. For example, in 1984, Levine and Grek described nine patients with right sided strokes who developed frequent delusions. These patients had strokes with underlying generalized atrophy.(26) Using functional imaging, Staff et al. also demonstrated right frontal lobe hypoperfusion in Alzheimer's patients with delusions compared to Alzheimer's patients without delsusions.(27)

Although there is strong evidence that links OS and delusions in general, to the right frontal lobe, delusional jealousy has also been associated with lesions in other regions of the brain. Indeed, in our study one patient developed OS after a left frontal stroke. Similarly, Silva and Leong describe delusional jealousy in a patient after left frontal stroke.(13) A case of OS has also been attributed to a right-sided thalamic infarct, although this patient had 3 prior right hemispheric infarcts leaving him with a left hemiparesis.(14)

Another important finding in this paper is the fact that six PD subjects without dementia developed OS after starting or increasing the dose of dopamine agonist. In support of the dopamine agonist as the cause of their delusional jealousy, the delusions stopped or significantly improved, when the medication was discontinued or the dose was decreased. OS has been described in a handful of cases after other dopamine therapy. Cannas et al. describe six young male PD patients without dementia who developed OS from dopamine therapy.(28) Two of these patients were on pramipexole, while the others were on pergolide, ropinirole, levodopa and amantadine, levodopa and pergolide respectively.

All patients had a reduction or disappearance of jealousy after decreasing medication doses and adding an antipsychotic. Amantadine has previously been reported as a cause of OS.(4) Dopamine appears to play an important role in producing OS. Interestingly, in our study, patients on pramipexole, adderall (a racemic mixture of amphetamine and dextroamphetamine), or methamphetamine also developed OS. All of these drugs affect dopamine. Methamphetamine is an analog of amphetamine which enters nerve terminals through the dopamine reuptake transporter system and changes the pH of the terminal to release dopamine from its vesicles causing dopamine to enter the synapse.(29) Pramipexole is a dopamine agonist acting preferentially at the D3 receptor which is located in the frontal cortex, midbrain and limbic cortex.(30)–(31) In our series, and the previously reported cases, three agonists (pramipexole, ropinirole, and pergolide account for the vast majority of OS with dopamine therapy in PD. Interestingly, all three have disproportionate affinity for the D3 receptor with pramipexole not surprisingly, having the highest affinity(32–34) and hence accounting for the most cases in our series. Using PET imaging in primates, Black et al. demonstrated that pramipexole produced decreased cerebral blood flow in the bilateral orbitofrontal cortex, with greater decreases observed in the right hemisphere.(35) A subject in our cohort developed OS after increasing the dose of valproic acid which resolved after decreasing the dose. Valproic acid has been shown to increase dopamine release in rat medial prefrontal cortex.(36)

It should be noted that many individuals who take dopamine therapy with similar conditions never develop delusions and dopamine therapy has been linked to other delusions as well.

Antipsychotics were used with varying success to treat delusions in the neurodegenerative subgroups. These medications were unsuccessful in improving delusions in the vascular dementia or the lesion groups. The success of treatment was not dose dependent. Therefore, if someone does not respond to antipsychotic treatment, raising the dose and risking more side-effects is not recommended.

Our large number of patients allowed us to investigate clinical and demographic features of patients with OS. We found that 61.9% of the OS patients were male suggesting a slight male predominance associated with the syndrome. Unfortunately, the existing demographic data for OS is sparse. One previous report also found that OS occurs more frequently in males,(37) although another study found that women outnumbered men two to one in a group of psychiatric patients with delusional jealousy.(38)

We also found that OS occurred most commonly in patients with a neurological disorder (69.5%) and that the patients with neurological and psychiatric disorders were significantly older than those in the medication group. Although this latter finding could be due to a bias, since patients that are younger may be more likely to abuse drugs, the data suggests that OS is not an age dependent phenomenon. We also found that neurodegenerative disorders accounted for the majority of those with a neurological diagnosis (76.7%), in which DLBD was the most frequent. The DLBD group also had the highest frequency of hallucinations. It is perhaps not surprising then that we found visual hallucinations to be more commonly associated with OS in the context of a neurological disorder. In fact, the frequency of hallucinations in the LBD group was 76% which is significantly higher than the typically reported 40%.(15) Perhaps, the higher than anticipated number of DLBD subjects with OS and hallucinations is related to the fact that four patients in our study had hallucinations specific to spousal infidelity. This association has been reported elsewhere. Sibisi reports that two LBD patients admitted to a psychiatric ward had hallucinations of sexual infidelity of the spouse resulting in delusional jealousy.(5)

This study has a few limitations that show be mentioned. Firstly, premorbid personality may play a role in disease manifestation and the patients' families were not routinely asked about the patient's premorbid personality. Secondly, patients with sexual disorders such as impotence may be more likely to develop jealousy. Screening for these sexual disorders was not performed. Finally, neuropsychological data was not routinely performed in our patients.