Background: Non-motor symptoms (NMS) in Parkinson’s disease (PD) differ from those in essential tremor (ET), even before a definitive diagnosis is made. It is not clear whether patient’s knowledge of the diagnosis and treatment influence their subsequent reporting of NMS.
Methods: 1 year after a clinical and instrumental diagnosis, we compared the motor impairment (Movement Disorders Society (MDS)-Unified Parkinson’s Disease Rating Scale-III) and non-motor symptoms (NMSQuest) in PD (n=31) and ET (n=21) patients.
Results: PD patients reported more NMS than did the ET patients (p=0.002). When compared to their baseline report, at follow-up, PD patients reported less nocturia (p=0.02), sadness (p=0.01), insomnia (p=0.02), and restless legs (p=0.04) and more nausea (p=0.024), unexplained pain (p=0.03), weight change (p=0.009), and daytime sleepiness (p=0.03). When compared to their baseline report, ET patients reported less loss of interest (p=0.03), anxiety (p=0.006), and insomnia (p=0.02). Differences in reported weight change (p<0.0001) and anxiety (p=0.001) between PD and ET patients were related to pharmacological side effects or to a reduction in the ET individuals.
Discussion: The reporting of NMS is influenced by subjective factors, and might vary with the patient’s knowledge of the diagnosis or the effectiveness of treatment.
Parkinson's disease (PD) is a neurodegenerative disease characterized by motor signs (bradykinesia plus tremor, rigidity, or postural instability, according to the UK PD Brain Bank [UKPDBB] criteria)1 and non-motor symptoms (NMS). NMS in PD include constipation,2 orthostatic hypotension,3 hyposmia,4 rapid eye movement sleep behavior disorder (RBD),5 neuropsychiatric complaints (anxiety, depression),6 and cognitive defects.7 Essential tremor (ET) is a movement disorder characterized by a rhythmic tremor affecting the hands and forearms.8 ET is associated with relevant NMS, such as frontal dysfunction, dementia, anxiety, depression, poor sleep quality, and subjective reduction of hearing.9 We previously demonstrated that, with respect to their NMS, PD and ET patients are suggestible,10 but despite this, NMS do exist and have been reported by affected patients who are not aware of their diagnosis. The aim of this study was to examine self-reports of NMS by PD and ET patients 1 year after learning their diagnosis, and to compare these reports to those at baseline.
The PD and ET patients included in this study were described in our recently published paper, which notes the inclusion and exclusion criteria.10 The participants were selected from individuals visiting the Operative Unit for Nuclear Medicine of the General Hospital of Barletta, and who had received [123I] β-CIT (2β-carbomethoxy-3β-[4-iodophenyl]tropane) single photon emission computed tomography (SPECT) for diagnostic purposes over a 6-month period (from March 2012 to September 2012). All patients provided written informed consent. The patients were interviewed for clinical history, evaluated with the NMSQuest,11 answered a 30-item self-administered questionnaire evaluating NMS, and scored for motor symptoms (Unified Parkinson's Disease Rating Scale [UPDRS]-III). A diagnosis of PD or ET was made by neurologists who were not involved in this study, and were made on the basis of the clinical and instrumental data (imaging and [123I] β-CIT SPECT). A diagnosis was assigned according to the established diagnostic criteria,1,8 and the diagnosing neurologists were responsible for determining the treatment. One year after the first evaluation, the selected individuals (n = 76) were followed-up to assess the diagnosis of PD based on the response to dopaminergic therapy and the other UKPDBB supportive and exclusion criteria. Twenty-three individuals were excluded from the final study sample because of the appearance of signs or symptoms suggesting a diagnosis other than PD or ET (namely vascular or iatrogenic parkinsonism, progressive supranuclear paralysis, Lewy body dementia, or psychogenic movement disorder). One additional ET patient was lost at follow-up because of a change of residence. The 24 excluded individuals did not differ from the included study sample with respect to their age (69.5±7 years old), gender distribution (16 men), or duration of symptoms. A diagnosis of PD was confirmed in 31 individuals (9 females, 22 males) 1 year after the first evaluation according to the following criteria: 1) the presence of a parkinsonian syndrome, 2) the absence of any exclusion criteria according to the UKPDBB diagnostic criteria, 3) reduced representation of striatal dopaminergic nerve terminals according to the Dopamine Transporter (DAT) scan results, and 4) the response to dopaminergic therapy. Twenty-two patients (10 females, 12 males) with ET were selected from the included participants according to published diagnostic criteria.8 The NMS and UPDRS score were re-assessed at the 1-year follow-up visit.
Unpaired t-tests were used to compare the groups with respect to age, the number of NMS, and UPDRS scores. Fisher's exact test was used to compare the frequency of NMS between the PD and ET groups. The data are expressed as the mean±SD. InStat software (GraphPad, La Jolla, CA, USA) was used to perform the statistical analysis.
There were no significant differences between the PD (n = 31) and ET (n = 21) patients with regards to the mean age or the male/female sex distribution. All of the PD patients were taking dopaminergic drugs at the time of the evaluations. Twenty-five PD patients were taking L-dopa alone or associated with either a monoamine oxidase B inhibitor (iMAO-B), a dopamine agonist, or both, and six were taking iMAO-Bs plus agonists. None of the ET patients was taking tremor-directed symptomatic treatments; they had been discouraged from doing so by their neurologists because of the mildness of their tremors (maximal amplitude less than 3 cm) relative to the possible eventual occurrence of drug-related side effects. The UPDRS scores were higher in the PD than in ET patients (PD 16.5±8, ET 3.43±2, p<0.0001). The PD patients complained of more NMS (10.16±6.9) than the ET patients (5±2.9, p = 0.002). The results are described in Table 1
|Parkinson's Disease||Essential Tremor||PD vs ET at Follow-up|
|Baseline n = 31 (%)||Follow-up n = 31 (%)||p Value||Baseline n = 22 (%)||Follow-up n = 21 (%)||p Value||p Value|
|Men||22 (71)||22 (71)||1.0||12 (54)||11 (52)||1.0||1.0|
|H & Y||≤2||≤2||-||-||-||-||-|
|Tremor||22 (71)||22 (71)||1.0||22 (100)||21 (100)||1.0||0.007|
|Dopaminergic therapy||8 (26)||31 (100)||<0.0001||1 (4)||0 (0)||1.0||<0.0001|
|Total LEDD (mg/day)||NA||412±76||-||0||0||-||-|
|L-dopa||8 (26)||25 (81)||<0.0001||1 (4)||0 (0)||1.0||<0.0001|
Changes from baseline (1 year earlier) were observed in the percentage of PD patients who complained of NMS. The following NMS decreased: drooling (−12.9%), nocturia (−32.2%), pain (−25.8%), sadness (−32.3%), insomnia (−32.2%), and restless legs syndrome (RLS) (−19.4%); the following NMS increased: daytime sleepiness (+25.8%), taste (+13%), incomplete bowel emptying (+16.2%), change in weight (+35.4%), and sweating (+12.9%). ET patients reported the following changes in NMS: urgency (−16.5%), nocturia (−16.7%), pain (−22%), weight change (−22%), forgetfulness (−21.5%), loss of interest (−35.2%), sadness (−26.2%), anxiety (−44.3%), reduced sex drive (−12%), orthostatic dizziness (−17.7%), and RLS (−17%). PD patients exhibited a higher frequency of the following NMS compared with ET patients: hyposmia, weight change, loss of interest, hallucinations, anxiety, orthostatic dizziness, falling, vivid dreams, and acting out during dreams (REM behavior disorder, RBD). The increased complaints of weight change and orthostatic dizziness by the PD patients compared with the ET patients was the most significant results (p<0.0001). None of the ET patients who reported vomiting were actively consuming central nervous system-active drugs. See Table 2 and Figure 1 for results.
|Parkinson's Disease||Essential Tremor||PD vs ET at Follow- up|
|NMS||Baseline||Follow-up||p Value||Baseline||Follow-up||p Value||p Value|
|n = 31||%||n = 31||%||n = 22||%||n = 21||%|
|Incomplete bowel emptying||6/31||9.6||8/31||25.8||0.7||4/22||18.1||2/21||9.5||0.6||0.2|
|Loss of interest||19/31||61.2||19/31||61.2||1.0||13/22||59||5/21||23.8||0.03||0.01**|
|Acting out during dreams||18/31||58||15/31||48.4||0.6||6/22||27.3||3/21||14.3||0.4||0.017****|
The fundamental finding of our study is that ET patients may experience spontaneous relief of NMS. We observed a significant and spontaneous reduction in the number of complaints of several NMS in these patients, and these patients were not receiving pharmacological therapy at the time of the follow-up visit. The reduction included NMS known to frequently affect ET patients, such as loss of interest, anxiety, and insomnia.10,12,13 As we have previously suggested,10 we hypothesize that a patient's perception of symptoms might change after learning about the diagnosis and the expected symptoms through mass media, the Internet, and printed information. Although increased reports of dementia, anxiety, executive deficit, depression, and poor sleep quality have been associated with ET,9 our findings should not be interpreted as variant results. The early follow-up (after 1 year from the first assessment) might only have affected the subjective declaration of NMS, whereas the appearance of specific NMS due to disease-associated physiopathological mechanisms would be expected later in the course of ET.
The total number of NMS declared by the PD patients did not change at the follow-up visit; however, there were changes in some of the specific symptoms. The number of patients reporting daytime sleepiness, weight change, and nausea/vomiting increased at 1 year from the initial evaluation. This finding was in accordance with results from a previous study14 and is possibly related to the pharmacological side effects of dopaminergic therapy. Conversely, the same report described a significant reduction in the number of complaints of drooling, nocturia, unexplained pain, sadness, insomnia, and RLS in the identical PD patient sample.14 Although it would be tempting to suggest that at least some of the reported improvements might be related to suggestion or adaptive mechanisms, as observed in ET, the responsiveness of specific NMS to pharmacological therapy has been extensively described.14,15 Drooling improves due to the dopaminergic-induced reduction of akinesia, nocturia positively responds to rotigotine,16 and L-Dopa and dopamine agonists have a specific antidepressant effect through limbic dopamine D3 receptor agonism.17 Sleep-associated disorders, such as insomnia and RLS, typically improve following dopaminergic therapy.18,19
Due to the decrease in NMS in the ET patients, the total number of NMS in the PD patients was significantly different from those observed in the ET patients at follow-up. The PD patients reported the same number of NMS before and 1-year after diagnosis. The UPDRS part III score significantly decreased upon treatment initiation, providing a diagnostic clue suggestive of PD (as encoded by the UKPDBB criteria). This finding was partly in accordance with previous studies that reported no significant changes in the number of NMS in patients with PD after 2 years of follow-up14 and a direct correlation between the total number of NMS and therapy-induced amelioration of the UPDRS score.20
Our work demonstrates that reports of NMS by patients with movement disorders are common; however, some NMS in PD appear to be highly reproducible and responsive to treatment. The major weakness of our investigation is the small study sample. Although this reduced the power of the statistical analyses, we do not expect that this shortcoming biased our findings.
1 Funding: None.
2 Financial Disclosures: None.
3 Conflict of Interests: The authors report no conflict of interest.
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