Reliability of visual assessment by non-expert nuclear medicine physicians and appropriateness of indications of [¹²³I]FP-CIT SPECT imaging by neurologists in patients with early drug-naive Parkinson’s disease

Parkinsonism is characterized by bradykinesia accompanied by either rigidity and rest tremor, or both. Parkinsonism can be classified into two clinically relevant categories: parkinsonism with nigrostriatal degeneration and parkinsonism or mimics with an intact nigrostriatal system.

First, the most frequent cause of parkinsonism with nigrostriatal cell loss is Parkinson’s disease (PD). Other, less common forms of neurodegenerative parkinsonism, also called atypical Parkinsonian syndromes (APS), include multiple system atrophy, progressive supranuclear palsy, dementia with Lewy bodies, and corticobasal degeneration.

Second, non-neurodegenerative forms of parkinsonism are disorders that are clinically established forms of parkinsonism/parkinsonism mimics but molecular imaging or autopsy shows no signs of nigrostriatal cell loss. Parkinsonism or mimics with an intact nigrostriatal system can be caused by for example medication, functional neurological symptoms, and essential tremor [1].

An accurate clinical diagnosis of PD can be challenging and misdiagnosis is not uncommon, particularly early in the course of parkinsonism since clinical features overlap frequently [2]. Distinguishing neurodegenerative versus non-neurodegenerative forms of parkinsonism is important, considering the differences in prognosis and treatment. Neuroimaging can be a useful tool to distinguish between these two categories. Dopamine transporter single-photon emission computed tomography (DAT SPECT) imaging is an accurate method to differentiate between neurodegenerative and non-neurodegenerative parkinsonism, even at an early stage of the disease [3]. The alterations of the presynaptic dopaminergic neurons can be quite similar between PD and APS. Consequently, a DAT SPECT cannot differentiate between the different forms of neurodegenerative parkinsonism in clinical practice [4].

In clinical practice, DAT SPECT images are assessed by nuclear medicine physicians, radiologists, or neurologists. Previous studies have shown that expertise in DAT SPECT imaging is preferred to visually assess DAT SPECT scans [5]. The focus of DAT SPECT imaging-related research has been on the diagnostic accuracy and the use of DAT SPECT imaging in tertiary referral centers specialized in movement disorders. Little is known about the accuracy of its use in routine clinical practice in general hospitals.

This study evaluates the reliability of visual assessments by community nuclear medicine physicians of ¹²³I-2β-carbomethoxy-3β-(4-iodophenyl)-N-(3-fluoropropyl) nortropane ([¹²³I]FP-CIT) SPECT imaging of patients that took part in the Levodopa in EArly Parkinson’s disease (LEAP) cohort and underwent DAT SPECT imaging prior to recruitment, as part of routine clinical practice. In addition, we present the results of a questionnaire, filled out by general neurologists, on the reasons to request DAT SPECT imaging by general neurologists.

Our findings are in line with the high diagnostic accuracy of visual assessments of DAT SPECT imaging in patients with a clinical diagnosis of early PD. In addition, we showed this is also true in routine clinical practice compared to a highly trained nuclear medicine physician dedicated to DAT imaging.

The strength of this study is that we evaluated the reliability of the visual assessments performed in clinical practice by nuclear physicians with various levels of expertise in neuroimaging in patients with a clinical diagnosis of early-stage PD. It was shown that false-positive (abnormal) outcomes occur more frequently among less experienced observers, while experienced observers classify [¹²³I]FP-CIT SPECT scans correctly using visual assessment only [5]. Our findings suggest that this does not seem to be an issue in clinical practice, considering only one scan was found to be false positive by the expert. A limitation of this study is the selection bias. Our results reveal little about the accuracy of assessments of normal DAT SPECT scans considering the patients were already included in the LEAP study. The LEAP study population is not a typical population in that only patients were included in which the referring neurologist was fairly confident the patient had a diagnosis of PD. Consequently, the rate of abnormal DAT SPECT scans is considerably higher compared to routine clinical practice; therefore, our results may not be applicable to general use.

A possible limitation is that only one expert reassessed the images. Nevertheless, the inter-agreement of visual assessment of DAT SPECT imaging by experts, reported in the literature, is very high (Cohen’s κ 0.87–0.99) [10].

Furthermore, our survey showed that most of the responding neurologists request for [¹²³I]FP-CIT SPECT imaging for an appropriate indication [3]. However, a significant portion (11.8%) of the responding neurologists request [¹²³I]FP-CIT SPECT imaging to differentiate between PD and other APS, although DAT SPECT imaging cannot reliably discriminate between neurodegenerative parkinsonian disorders in routine clinical practice [4]. It is essential for clinicians who apply for [¹²³I]FP-CIT SPECT imaging to have knowledge of the limitations and the information it can provide. With this survey, we gained a unique insight in the use of DAT SPECT imaging by neurologists in clinical practice.

In conclusion, visual assessment of DAT SPECT imaging by non-experts in patients with a clinical diagnosis of early-stage PD is reliable. A significant portion of neurologists who request DAT SPECT scans is not always aware that the high accuracy is limited to the differentiation between neurodegenerative and non-neurodegenerative parkinsonism as DAT SPECT cannot reliably distinguish the various Parkinsonian syndromes.