Parkinson's Disease (PD) is a neurodegenerative disorder described in 1817 by James Parkinson.1 Since his publication, “An Essay on Shaking Palsy”,1 there has been a crescent scientific interest on this subject. According to the most accepted theory, it was suggested that PD has a spreading character correlated with deposition of abnormal aggregates which create a significant loss of dopaminergic enervation in Substantia Nigra pars compacta.2 Motor symptoms begin when loss in dopamine uptake becomes ≥50%.3

In clinical practice, main symptoms are muscular rigidity, rest tremor and/or postural instability.4 One of the most common and simplest used scales to assess motor progression and severity of PD is the Modified Hoehn and Yahr Scale (H&Y).5

As a definitive solution is yet to be found, treatment can be the most challenging phase. General measures can reduce the impact of motor symptoms, but not completely, and surgical treatments are indicated in advanced disease6,7; differently, pharmacological therapy is widely used.8 Many drug classes are available – such as MAO-B inhibitors, dopaminergic agonists (DA) and anticholinergic drugs – but the best drug in relieving motor symptoms is levodopa.9,10 Associations with aromatic l-amino acid decarboxylase inhibitor and catechol-O-methyltransferase inhibitors are used to optimize drug action and reduce side effects like nausea and vomiting.11

With the risk of undertreatment, levodopa introduction is sometimes delayed because of the most feared levodopa-induced motor complications (MC): dyskinesia (DK) and motor fluctuations (MF).12

MF include “wearing-off” phenomena - symptoms re-appearance just before the next levodopa dose – and generally it is the first MC. MF also include “on-off” phenomena – sudden changes between normal and parkinsonic motor state; and “delayed on” phenomena – when symptoms relief takes longer.12,13

DK are defined as involuntary movements, the most common are chorea and dystonia, that can affect any body region, usually an extremity.12 This region can coincide with the first one affected by motor symptoms of PD.13 Initially they are peak-dose related, but can also be dysphasic – according to levodopa blood levels rise and fall – or “off dyskinesias” – when these levels are low.13,14

Although less and later than in the past, nowadays a significant part of PD patients develop these MC: 9 or more years after beginning levodopa, close to 90% of patients will develop DK and 70% MF.15 In Portugal, it was reported that patients with MF have 2 times more socio-economic costs than MF-free patients.16 Also, quality of life is greatly impaired in PD patients with MC. Their mobility, daily living activities or communication skills can be compromised, and stigmatization is frequent.17

MC are important obstacles to the everyday life of PD patients. It is vital not only to understand their etiology and pathophysiology, but also to understand what can be made to prevent them right since the first medical approach.

Our objective was to identify which Parkinson's Disease's, patient's and therapeutics’ initial features are more associated with dyskinesias or motor fluctuations development.

Several observational retrospective studies were conducted aiming to find risk factors associated with the development of levodopa induced MC.18–20

In the present study, DK development was correlated with AR subtype at the onset of PD symptoms. AR subtype was also related with a higher risk of developing MF. Another factor found to be independently related with MF was age at symptoms onset: patients with ≤50 years old were more prone to develop MF.

Comparing present results to previous retrospective studies, similar rates of MC were reported. In the present sample, 51.7% of the patients developed MC, comparing to 62% in another study.21 Regarding studied MC, 35.6% patients developed DK and 32.2% MF; in previous studies DK rates ranged from 28% to 30.1% and MF rates from 40% to 46.3%.19,20

Concerning Kaplan–Meier analysis, 12% of patients presented DK after 4 years of levodopa therapy and 35.9% after 8 years. MF were present in 15.8% of patients after 4 years and in 35.6% after 8 years. In a cross-sectional study, DK were present in 13% of the patients with 5 or less years of treatment duration, and in 36% after 6 to 9 years. MF were present in 21% of patients with 5 or less years and in 56% after 6–9 years.20 Except for MF at 8-years, similar rates were described, showing that our population's MC characteristics can be comparable to others.

Previous retrospective studies reported that initial TD subtype was associated with lower probability of DK, independently of other risk factors.22–24 A clinical review concluded that recognition of the phenotype is important for PD managing since patients with TD subtype are associated with a more benign disease course and fewer MF.25 A possible explanation for these results was suggested by imaging studies that correlated AR subtype with a higher clinical progression and dopaminergic loss in putamen.26 Although a cross-sectional study reported that AR subtype was more common in patients with MF than with DK,20 our study found AR subtype to be independently correlated in MF and DK development.

Average age at symptoms onset was 60.76 (Standard Deviation (SD) 10.0) years, comparable with mean age in other studies: 63.8 (SD 8.5) and 64.5 (SD 7.3) years.20,27 Younger ages at PD symptoms onset were demonstrated to influence MF development in a previous cross-sectional, retrospective study.27 No relation with DK occurrence was found in the referred studies.20,27 Similarly, in other studies, including a survival community-based cohort, younger age was not found to be an independent risk factor for DK.18,28 Analogous results were obtained in our study: younger age of onset was associated with development of MF, but not DK. Although in some studies DK were influenced by age of symptoms onset,19,24 it has been suggested that MF and DK have a different pathophysiology.29

Some studies reported that DK was more common in females.18,19 Though, in previous studies and in ours, gender does not appear to influence development of MC.20,24,27

Time between symptoms onset and diagnosis did not appear to be associated with development of DK or MF. This variable was not studied in others studies of our knowledge. Given that most patients start treatment at the moment of diagnosis, there are similar results in other studies concerning levodopa onset.19,20

H&Y class at levodopa onset had a median of 2 (range 1–4), and no relationship was found concerning MC development. In a previous study relating H&Y class and MC onset, it was described that earlier MC occurred when levodopa was introduced in H&Y class 3. Yet, in the mentioned study, patients were drug-free before levodopa onset, unlike our study.30

In patients who started DA before levodopa, time between them was related neither with MF nor DK. Concerning first pharmacological choice, other studies support our finding that there is no association between patients who start with DA or with levodopa.20 Although some clinical-trials found it statistically significant,21 a recent clinic-pathological study concluded that delaying levodopa onset in order to avoid levodopa is unnecessary; MC were associated with disease progression, not levodopa.31 Also, a placebo-controlled trial concluded that, in a clinical perspective, levodopa therapy, in early-onset PD patients, does not accelerate PD progression.32 It is interesting to note that some studies, trying to find differences between starting medical therapy with a specific DA or with levodopa, suggest that development of MC is similar in both groups at long term.33,34 Mortality in patients who start levodopa in early stages of PD symptoms onset was found to be similar to those who start it in later stages.35 It was suggested that levodopa therapy would reduce mortality, possibly by improving motor symptoms in later PD stages.36 A major advantage on using levodopa is the fact that it does not cause cognitive impairment as DA does, so it can be used in older patients.12

We tried to evaluate if 1st year dose evolution influenced the development of MC but there were no statistically significant results. A hospital-based study concluded that initial levodopa dose was higher in patients with MC.19 Information in other studies about levodopa dose evolution in the 1st year was not found.

Presence of MF did not change DK appearing and neither the reverse. In other studies, the majority of patients with MF developed DK or there was a relationship between them.19,21 It was suggested that DK would predict MF appearing37 but that is yet to be determined.

Measures can be taken to manage MC. A huge matter of debate is whether the use of DA has a protective effect on MC or not. Studies suggest that the delay on MC when using DA as first medical approach is due to the delay in levodopa introduction and not a neuroprotective process.34,38 However, after longer follow-ups, there are contradictory findings about the existence of a “catch-up” mechanism or a real MC delay.33,34,39 It seems to be a consensus that using the lowest levodopa dose necessary for good clinical control minimizes both DK and MF.40

These comparisons are restricted because of the statistical method used in the present study: we are not aware of other studies with the similar analysis method and objective. A survival analysis model was considered the best option since participants in our study had a different follow-up time and at the end of follow-up not all participants developed MC; it has the advantage of retrieving information about those patients too.41 Different results between studies may also occur because of different treatment regiments or different population characteristics.

Although ideal to chronic diseases like PD, the present study has some limitations related to its retrospective observational nature. A major limitation was data collection: many patients were excluded by lack of data and, although trustable, the only information we had access was the written one. Due to undefined guidelines, confounding/treatment-by-indication bias may be present, for example the tendency to start with DA, not levodopa, in younger patients, which is also a variable related with the outcome. We tried to control confounding factors by using multivariable analysis. Other disadvantage is the absence of a randomized sample which would confer more external validity to the study. As there was no direct control, we also have to consider the possibility of low adherence to medication in these patients.42

Regarding advantages when comparing to other studies, recording-bias is not in question, making data more accurate. Also, patients’ information was written in clinical records by 2 movement disorders neurologists and therapeutic adjustments in drugs were made only by them. Besides, since our study is a non-interventional observational study, a more natural and realistic approach to day-to-day PD and its’ MC was made. Finally, follow-up length (16–17 years) allows for more precise information.

In conclusion, our results suggest that patients’ disease initial characteristics, such as subtype or age of PD onset, are independently associated with the development of MC, rather than the first drug used in therapy.

This study was not funded and conflicts of interest are inexistent.