docle DAT scan “The day may not be far off when molecular imaging
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le DAT scan “The day may not be far off when molecular imaging
Conclusion slide: AMA-UCL May 12, 2007 “The day may not be far off when molecular imaging methods are standard tools for clinical practice in neurology.” Nouveautés en Imagerie : le DAT scan Roger L Albin Geriatrics Research, Education and Clinical Center, Ann Arbor. VAMC, Ann Arbor, MI, USA; and Department of Neurology, University of Michigan, Ann Arbor, MI, USA Prof. Thierry Vander Borght Service de Médecine Nucléaire UCL Mont-Godinne Lancet Neurol 2007; 6:288-9. Global Function Anatomy Specific Function DA Pathways 1) Tuberoinfundibular 2) Mesolimbic Ctscan/MRI fMRI, SPECT, PET SPECT, PET Atrophy Distribution pattern Cellular dysfunction • reward/salience • pleasure, euphoria • motor function • compulsion • Perseveration 3) Nigrostriatal Size Earliness Dopaminergic synapse A Good Radiotracer NigroNigro-striatal neuron Glial cell Tyrosine MAOMAO-A TyrosineTyrosine-hydroxylase L-Dopa DopaDopa-decarboxylase D2 Dopamine metabolites ² Design Parameters MAOMAO-B COMT Test Criteria COMT D2 D1 COMT PostPost-synaptic neuron D2 1. 2. 3. 4. 5. Must have an appropriate target High in vitro affinity and selectivity for target Able to be radiolabeled routinely Target accessibility Low non-specific binding 6. Good signal to noise ratio in vivo 7. Appropriate in vivo pharmacokinetics 8. Appropriate in vivo distribution and pharmacology 9. Low amounts of labeled metabolites in the ROI 10. Sensitivity towards target 1 Assessment of the presynaptic DA system with PET & SPECT Dopaminergic synapse [11C]C]-deprenyl [11C]C]-befloxatone NigroNigro-striatal neuron [11C]DTBZ PET [11C]FE-CIT PET AADC VMAT2 DAT Prof. Bartenstein Univ. Mainz Prof. Frey Univ. of Michigan Prof. Antonini Milano [123I]ß-CIT SPECT [123I]FP-CIT SPECT [99mTc]TRODAT-1 SPECT DAT DAT DAT 18-24 h p.i. 3-6 h p.i. 3-4 h p.i. Glial cell Tyrosine MAOMAO-A [11C]C]-tetrabenazine TyrosineTyrosine-hydroxylase métabolites ² L-Dopa [18F]F]-FluoroDOPA [18F]FDOPA PET MAOMAO-B COMT D2 DopaDopa-decarboxylase Dopamine [11C]C]-SCH 23390 [123I]I]-FPFP-CIT (DaTSCAN (DaTSCAN®) [11C]C]-PE2I, [123I]I]-PE2I 123I][COMT I]-b-CIT [76Br]D2 Br]-FEFE-CBT [11C]C]-CFT, [11C]C]-RTI32 [11C]C]-raclopride D1 D2 COMT PostPost-synaptic neuron Metabolite Analogues: FDOPA BRAIN Presynaptic DA Terminal FDA DAT vesicle OMeFDOPA FDOPA FDA FDOPAC FHVA BBB OMeFDOPA VMAT2 ATP ADP Vesicular Lumen CaM Kinase II Extracellular FDOPA Pi Pase H2O Exocytosis Recycling H2N HOOC Cytoplasm COOH CIRCULATION NH2 Cytoplasm Limitations SERVICE HOSPITALIER FREDERIC JOLIOT 1000 40 nm vesicles Proton exchange Monoamine (-) reserpine, TBZ, ketanserin • Expensive • Metabolization • Not specific for DA neurons • Uptake = f(dopamine turnover) 1000 DAT Cotransport of cation Dopamine (-) antidepressant, cocaine Dopaminergic function and dopamine transporter binding in Parkinson’s disease [18F]-DOPA 1.6 % Putamen 100 [18F]-DOPA [76Br]-FE-CBT 80 ~20% 60 [76Br]-FE-CBT 0 2.8 40 Poewe & Scherfler. Mov Disoder 2003;18:S16-21. 20 0 early drug-naive PD advanced PD 0 less more affected Early PD less more affected Advanced PD Ribeiro et al. Arch Neurol 2002 2 Practical aspects for clinical use: Medication-interactions for DAT imaging DAT Radioligands Radioligand STR/CBL Time Max DA/5HT Brain metabolites (min) [123I]β-CIT >12 > 1200 1.7 + [123I]FP-CIT 4 90-120 2.8 - [123I]Altropane 6 30 28 - [99mTc]Trodat 2 120-140 “5/1” - CNS Stimulants cocaine, crack cocaine amfetamine + analogs methylphenidate (Ritaline) dextroamphetamine phenylpropanolamine phentermine, mazindol norephedrine phenylpropanolamine amoxapine, buspirone R/ for ADHD, epilepsy, nacrolepsy Most anti-anorectic and anti-obesities drugs Sympathomimetics (nasal decongestant) Some antidepressants (esp. tricyclic) NO effect: levodopa, amantadine, benzhexol (trihexifenidyl), budipine, selegeline (Deprenyl), metoprolol, propranolol en primidon NO interference expected from dopamine receptor-agonists 123I-Ioflupane Nigrostriatal Pathway SPECT Procedure Striatum Single i.v. injection of 123I-Ioflupane (3-5 mCi) Thyroid blockade Effect of Normal Aging on Specific [11C]DTBZ DVtot in the Putamen SPECT 2.5 • • • • Gamma cameras : Two-headed or three-headed Collimators: high resolution or fan beam Photopeak 159KeV; Energy Window ±10% Minimum of 750k counts/slice SPECIFIC DVtot 3-6 h. Substantia Nigra - tremor - rigidity - bradykinesia - postural abnormalities gait cognitive decline autonomous signs speech disturbance 1.0 0.5 20 2 3 30 4 40 5 50 6 60 7 70 Frey et al. Ann Neurol 1996; 40:873. AGE (yr) Parkinsonian Signs in the Elderly Idiopathic Parkinson’s Disease >> 90% 1.5 0.0 Clinical level Parkinsonism DVtot = 1.432 - 0.011[age] r = 0.53, p = 0.04. 2.0 Multiple System Atrophy • 467 residents > 64 years • > 2 specified parkinsonism features PSP Essential tremor Vascular Toxic Corticobasal degeneration Wilson’s disease Age 65-74 y 75-84 y 85 y + BK 11% 21% 37% Gait 13% 28% 52% Rigid 19% 30% 44% Tremor Parkinsonism 19% 15% 24% 30% 30% 52% … Bennett et al. NEJM 1996;334:71-6. 3 THE BRAIN BANK : 100 CASES Parkinson’s Disease Hughes et al, JNNP 1992 • Second most prevalent neurodegenerative disorder • Prevalence 1-2 % (> 65 y) • Etiology : ? – Genetic factors N PM • • • Parkin Alpha-synuclein Ubiquitin C hydrolase L1 76 histological IPD 46 IPD and... 24 not IPD 6 PSP 5 MSA 30 IPD only 3 Alzheimer – Environmental • Same numbers : Rajput et al, J Can Neurol Sci 1991 3 lacunar 26 vascular disease Oxidative stress 1 post-encephalitis 10 Alzheimer-type – Protein aggregation in SNc common to all forms 1 ET BUT : Hughes, Lees et al (Brain 2002): Accuracy in specialist movement disorder service > 85 % for IPD, MSA and PSP Tatsch, EANM 2000 Diagnostic Accuracy: Specialist and Generalist Features Improving Accuracy in PD Initial Diagnosis PD n=131 Specialist n=97 Hughes et al Neurol 1992; 42: 1142-6 Brain Bank Criteria + Asymmetric onset + No atypical features + No possible cause for other PS Confirmed n=86 (89%) Refuted n=11 (11%) Non-specialist n=34 Confirmed n=25 (74%) Refuted n=9 (26%) Initial Diagnosis not PD n=69 Specialist n=26 Non-specialist n=43 Diagnostic accuracy 93% But 32% of pathologically proven PD not identified Confirmed n=20 (77%) Refuted n=6 (23%) Confirmed n=34 (79%) Refuted n=9 (21%) Schrag et al; JNNP 2002;73:529-534. Difficult Clinical Cases Patients with a tremor dominant disorder Diagnostic Revision in PD • n “error rate” • • Long-standing tremor-dominant disorder, considered essential tremor but with features raising uncertainty Tremor treatment: poorly tolerated Antiparkinson treatment: little effect Study Type CALM-PD 2002 β-CIT SPECT 82 4% Benamer et al 2003 FP-CIT SPECT 38 13% • • • Real-PET 2003 18F-Dopa PET 186 11% Patients with “multiple pathology” Ell-dopa 2003 β-CIT SPECT >100 14% Drug-induced or unmasked PD • Patients with current or recent drug R/ known to cause drug-induced parkinsonism Persistence of features after stopping or amending treatment Or clinical features more suggestive of idiopathic PD Patients with co-existent medical conditions which affect interpretation of the movement disorder - small vessel cerebrovascular disease - depression / anxiety - chronic obstructive pulmonary disease - osteoarthritis and osteoporosis 4 Visual Assessment of SPECT image Summary: Clinical Diagnosis of PD Abnormal • A majority of cases can be diagnosed clinically • Therapy response and monitoring over time improves diagnostic accuracy Normal Type 1 Type 2 Type 3 Clinical Aspects of Early Diagnosis • PD has a long pre-symptomatic phase • Early clinical features are mild / subtle • Clinical monitoring / therapy trial over 6 months to 2 years • Average time to ‘confirmed and accepted’ diagnosis is 18 months 123I-Ioflupane Yielding (Uncertain diagnosis) SPECT n= 33 True Positive True Negative False Negative Rate 100% 92% 8% (Booij et al. Eur J Nucl Med 2001, 28: 266-272) Visual assessment n=158 PD, 27 ET, 35 HV Institutional read Consensus Blinded read Sensitivity for PD 97% 95% Specificity for ET 100% 93% (Benamer et al. Movement Disorders 2000, 15: 303-510) Pirker. Mov Disoder 2003;18:S43-51. STUDY POPULATION Patients with Clinically Uncertain Parkinsonian Syndrome Patients recruited (written informed consent) 125 DaTSCAN not performed 5 Patients included 120 Prohibited medications 2 Evaluable Patients 118 Marshall & Grosset. Mov Disoder 2003;18:22-7. Demographics & Clinical Symptoms Number of patients 118 Sex Male/female 59/59 Race Caucasian/others 116/2 Age (years ± SD) 65.5 ± 11.2 Unilateral symptoms Bradykinesia Tremor Rigidity Postural instability 62% 69% 74% 63% 36% Exclusion criteria: • Diagnosed PS but clinical uncertainty between PD, PSP and MSA • Medications suspecting to interact with 123I-Ioflupane uptake • History of drug abuse • Others 5 Results of DaTSCAN image versus initial suspected clinical diagnosis ? Normal ? 63% 60% 94% normal(44) 54% 36% abnormal(73) 80% 46% 40% 100% 100% 68% 32% Abnormal %of patients 80% Final diagnosis vs. results of DaTSCAN 59% 60% 41% 40% 20% 20% 0% PS (n=66*) Non-PS (n=26) * in one patient the image was not interpretable Inconclusive (n=25) 6% 0% 0% PS (n=62)* Initial diagnosis non-PS (n=33) Inconclusive (n=22) Final diagnosis * in one patient the image was not interpretable Analytical Model (simple version) Clinical Impact of 123I-Ioflupane (DaTSCANTM) SPECT Impact on diagnosis in 109/118 patients (92.4%): • Change initial diagnosis: 53 (45%) • More confident with initial diagnosis: 56 (47%) Choice Test Diagnostic outcome +ve: ?PS Use of DatSCAN Change to PS 20% PS supported 31% Confidence in PS: 63.9±19.7 to 90.5±13.3%, p<0.0001 Treatment selection PS therapy -ve: ?ET ET therapy Target Cohort:?P S PS therapy Change to other than PS 25% No impact on diagnosis 8% No use of DatSCAN Other than PS supported 16% ET therapy Confidence in PS: 41.1± 24.2 to 8.7±13.6%, p<0.0001 PS = Parkinson syndrome TP/TN = True Positive/True Negative Costs of Diagnosis, Treatment and Adverse Events (€) Current diagnosis and treatment • Current diagnosis and treatment • 123I-FP-CIT SPECT • 1 year PD drug treatment first line • 1 year PD drug treatment second line • 1 year PD specialist visits • Follow-up diagnosis 6 months • follow-up diagnosis over 2–5 years • No treatment 6 months • ET drug treatment 6 months Costs of treating adverse events • Dyskinesia • Psychosis • Orthostatic hypotension 216 900 1,625 1,819 170 86 162 131 230 1,584 2,172 1,115 Final Results True result plus Consequences TP: PS Benefit, AEs FP No benefit, AEs FN: PS No benefit TN Benefit PS Benefit, AEs Other No benefit, AEs PS No benefit Other Benefit ET = Essential tremor FP/FN = False positive/ False Negative CURRENT DatSCAN DIFF Total cost 6464 6569 105 Adequately treated yrs 1.998 3.397 1.398 Cost per adequately treated year 3235 1934 74.8 Prevalence of PS Total cost current ATY current Total cost DaTSCAN ATY DaTSCAN Diff. cost Diff. ATY Cost per ATY 39% € 6,253 1.753 5727 3.369 -526 1.616 -325 46% € 6,359 1.876 6150 3.383 -209 1.507 -139 53% € 6,465 2.000 6573 3.397 108 1.397 77 59% € 6,556 2.105 6936 3.408 380 1.303 291 66% € 6,663 2.228 7360 3.422 697 1.194 584 Van Laere et al. Eur J Nucl Med Mol Imaging 2008;35:1367-76. 6 SPECT, Diagnosis and Management Results from the Registry Study Detection of Preclinical PD • Hemiparkinsonism: striatal DAT binding : ↓ 39% contralateral, ↓ 28% ipsilateral (Staffen W et al. Nucl Med Commun 2000;21:417) • MPTP: (Calne DB et al. Nature 1985;246) • Twins: • Susceptibility in familial PD: 34% asymptomatic relatives FDOPA < 2.5 SD • Essential tremor: 20-33% → PD (Brooks DJ et al. Neurology 1992;29:673) asymptomatic co-twins of affected PD patients, ↓ FDOPA 53% MZ; 13% DZ (Burn DJ et al. Neurology 1992;41:1894) (Piccini P et al. Ann Neurol 1997;41:222) Van Laere et al. Eur J Nucl Med Mol Imaging 2008;35:1367-76. Annual Percentage Changes in Striatal β-CIT Uptake in PD Change (%) Pirker et al., 2002 mean disease duration 9.2 ± 2.6 yrs mean disease duration 2.4 ± 1.5 yrs Marek et al., 2001 Pat. (N) 2.4 ± 9.6 7.1 ± 7.1 11.2 ± 8.3 12 24 32 Chouker et al., 2001 6.6 8 Staffen et al., 2000 5.6 15 Seppi et al., 2001 Contralat. to affected limb Ipsilateral to affected limb 9 5.7 ± 3.8 6.4 ± 3.5 % Residual DA neurons in the SN References Models of Disease Progression 100 % 90 % 80 % 70 % 60 % 50 % 40 % 30 % Threshold for clinical symptoms 20 % 10 % Symptomatic (H&Y stage) st I st II st III st IV st V 0% Lifetime Poewe & Scherfler. Mov Disoder 2003;18:S16-21. Imaging Outcome Measures to Evaluate Efficacy of Putative Neuroprotective Agents Pre sympto matic Imaging of the presynaptic DA system: Indications 1. Parkinson Disease - PD: establishment of early and preclinical diagnosis - PD: assessment of the severity of disease - PD: measuring disease progression - PD: monitoring neuroprotection/neurorescue 2. Differential diagnosis of parkinsonian syndromes Pavese & Brooks. Biochim Biophys Acta 2008; in press. 3. Assessment of LBD 7 Confirmation / exclusion of parkinsonian syndromes DAT SPECT No presynapt. dopamin. deficit Essential Tremor ΔΔ Parkinsonism with Presynaptic DA ligands Presence of a presynaptic dopaminergic deficit PD PSP MSA 1.5 / 100.000 4.0 / 100.000 • Clinical status and presynaptic DA integrity [123I]β-CIT Binding and Clinical Status (n) All Control Stage I Stage II Stage III 6.0 ± 1.6 (11) IPD 3.4 ± 0.8 (58)* 3.9 ± 0.5 (9) 3.6 ± 0.6 (25) 3.0 ± 0.8 (24) SPD 5.5 ± 1.4 (29)* 6.2 ± 1.1 (14)* 4.7 ± 1.3 (14)* 4.8 (1) Staffen et al. Nucl Med Commun 2000;21:417. + + + + vertical gaze palsy postural instability dysphagia subcortical dementia + cerebellar signs + autonomic dysfunction • Topography of the striatal DA deficit DA Imaging in sOPCA Striatal Projections & Parkinsonism Striatal FDA Uptake, Concurrent and Subsequent Vital Status V3’’ (ROI 1 - ROI 4) 6 Patient FDOPA (91) Parkinsonism(91) Parkinsonismlater 4 2 0 Normals PD PSP #1 #2 #3 #4 #5 #6 #7 #8 #9 #10 ¯ ¯ N ¯ ¯ ¯ N ¯ ¯ by 1SD ¯ Unknown Yes No Yes Yes Yes No Yes Yes Yes Shrag et al. Ann Neurol 1998;44:151. Mesa C et al. Eur J Nucl Med 1998;25:1270. Corticobasal Degeneration Presynaptic site Nigrostriatal Pathway Unilateral parkinsonism and: • • • • • No No No No No No No Yes Yes Yes dyspraxia cortical sensor. deficits alien limb syndrome myoclonus dementia Striatum no levodopa response rapid progression Substantia Nigra Unilateral atrophy of the central region in > 50% Postsynaptic site 8 Discriminative Power IPD / MSA (/ PSP) MRI Signal Changes and Parkinsonism Presynaptic binding - 18F-dopa and 123 I-beta/FP-CIT Signal Changes within the Putamen in 90 Patients with Parkinsonism of Various Origins - discrimination in 50-60% of patients (Pirker et al., Mov Disord 2000) * MRI (Putamen) Perfusion and metabolism - 18FDG PET and 99mTc-ECD SPECT - posterior lentiform nucleus hypometabolism/perfusion in 70-80% of patients (Brooks, Brain Mapping 2000; Bosman et al. EJNM 2002) Postsynaptic binding 11C-raclopride : highest discriminating capacity : up to 100% (Antonini et al., Brain1997, Ghaemi et al JNNP 2002) * 123 I-IBZM : sensitivity and specificity 70-80% (Larisch & Klimke, Nuclearmedizin 1998) * – higher if combined with presynaptic studies ? Normal Only Hypointense Hypointense & Hyperintense Total MSA 1 5 9 15 PSP PD 6 59 4 6 0 0 10 65 Kraft E et al. Arch Neurol 1999; 56:225. Hypointense putaminal changes - poor response to DA treatment - clearly related to normal aging - due to iron? gliosis? calcification? Hypo- & hyperintense putaminal signal : specific for MSA, but tardive * Most of these studies use post-hoc values and were not cross-validated ! Secondary Parkinsonism Clinical Pointers for Structural Imaging in Parkinsonism CO Intoxication Putaminal hemorrhage • Vascular risk factors / markers • Predominantly lower body parkinsonism, usually symmetrical • Features suggesting normal pressure hydrocephalus • Abnormally prolonged asymmetry Adachi M et al. AJNR 1999;20:1500. Pseudo PS Normal pressure hydrocephalus (NPH) difficulties with balance upper limbs intact „lower body parkinsonism“ important ΔΔ, treatable!! DOPA Response Dystonia GTP Presynaptic site Subcortical arteriosclerotic encephalopathy (SAE) GCH-I neopterin Dihydroneopterin triphosphate 6-PPH synthase 6-Pyruvoyltetrahydropterin Sepiapterin reductase Tyr Tetrahydrobiopterin NAD + DHPR TH Dopa Quinonoid Dihyhydrobiopterin NADH + H + Juvenile PD Jeon BS et al. Ann Neurol 1998. 9 Drug-Induced Parkinsonism Psychogenic Parkinsonim • Common, often underdiagnosis (25-35% PS) • More in females and elderly • Clinical aspect: - Bucco-linguo-masticatory syndrome, focal dystonia, stereotypies, akathisia - Tremor in 29%, asymmetry in 2/3 - Within few days of several years, not always reversible • Drugs: • 1.9-6.4% PS • More in young females • Unusual movement disorder: – – – - neuroleptiques - few calcium-channel blockers (flunarizine, cinnarizine) - DA-depleting agents (reserpine, tetrabenazin) – – Sudden onset, may be trigger by minor injury Complex tremor rigidity=resistance Fluctuation Most, very effective dopaminergic treatment Tolosa et al. Mov Disoder 2003;18:S28-33. Differential Diagnosis of Dementia Dementia with Lewy bodies Parkinson’s disease Diffuse Lewy body disease Lewy body variant of AD Vascular dementias and AD AD 5% 10% Diffuse Lewy Body Disease Other dementias Frontal lobe dementia Creutzfeld-Jakob disease Corticobasal degeneration Progressive supranuclear palsy others Vascular dementias Multi-infarct dementia Binswanger’s disease ● Lewy bodies in subcortical, allocortical, and neocortical structures ● Pure form or associated in conjunction with AD ● 13-26% dementia ● Clinical features: (Ss 75%; Sp 79%) fluctuating cognitive impairment visual hallucinations parkinsonism • Adverse effects of typical antipsychotics; 2 “atypicals” recommended: Quetiapine (Seroquel®), Clozapine (Clozapine®, Leponex®) AD and dementia with Lewy bodies 65% Tolosa et al. Mov Disoder 2003;18:S28-33. 5% 7% 8% • Cognition may differentially benefit from AChE inhibition • Subtle bradykinesia/rigidity may benefit from antiparkinsonian Small et al. JAMA 1997;278:1363-71 American Psychiatric Association. Am J Psychiatry 1997;154:1-39 Morris JC. Clin Geriatr Med 1994;10:275-6. therapy; avoid DA agonists Dementia Subtypes in FDG PET Walker et al. Lancet 1999;354:646-7. Minoshima et al., 2002. 10 DAT Imaging With presynaptic deficit Without presynaptic deficit Neurodegenerative PS Parkinsonian syndromes • Parkinson’s disease • Psychogenic PS • Multiple system atrophy • Drug induced PS • Progressive supranuclear palsy • Cortico basal degeneration DLBD Tremor syndromes • essential tremor • Psychogenic • Drug induced • cerebro-vascular Walker et al. J Neurol Neurosurg Psychiatry 2007;78:1176-81. Thank you for your attention... 11
