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| ID | Type | Description | Link |
|---|---|---|---|
| 2022-003299-17 | EudraCT Number | ||
| DR-2021-00387 | Other Grant/Funding Number | Hersenstichting |
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| Name | Class |
|---|---|
| Netherlands Brain Foundation | OTHER |
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Fahr's disease or syndrome are neurodegenerative diseases in which patients present with bilateral vessel associated calcifications in the basal ganglia. The clinical penetration of Fahr's disease or syndrome is incomplete and heterogeneous comprising of neuropsychiatric signs, cognitive decline, movement disorders, and various other signs (migraine, speech disorders, pain, seizures). The symptoms start between 30 and 50 years and are (slowly) progressive. Symptomatic patients have an increased risk for dependence in activities of daily living and impaired quality of life.
Currently, disease-modifying therapies are not available for patients with Fahr's disease or syndrome. However, in a small case series it was shown that alendronate was effective in the clinical treatment of several patients with Fahr's disease or syndrome. Now the time has come to investigate the effectiveness of treatment with bisphosphonates in patients with Fahr's disease or syndrome in a randomized controlled trial.
Fahr's disease, scientifically known as primary familial brain calcification (PFBC), is a neurodegenerative disease in which all patients present with bilateral vessel associated calcifications in the basal ganglia in the absence of other secondary causes of brain calcifications. When a secondary cause is identified, the term Fahr's syndrome is often used. Dominantly-inherited PFBC is associated with mutations in four genes; solute carrier family 20 member 2 (SLC20A2), xenotropic and polytropic retrovirus receptor 1 (XPR1), platelet-derived growth factor b (PDGFB) and platelet-derived growth factor receptor b (PDGFRB). Recessively inherited PFBC is associated with mutations in two genes; myogenesis-regulating glycosidase (MYORG) and junctional adhesion molecule 2 (JAM2). Mutations in the known genes account for half of patients, suggesting genetic heterogeneity, with new genes yet to be discovered. The estimated minimal prevalence in studies with PFBC diagnosed with genetic and imaging studies is 2.1 to 6.6 per 1,000 suggesting that PFBC is actually not a rare disorder and is underdiagnosed. The clinical penetration of Fahr's disease or syndrome is incomplete and heterogeneous comprising of neuropsychiatric signs (depression, anxiety, psychosis), cognitive decline, movement disorders (ataxia, dystonia, Parkinsonism) and various other signs (migraine, speech disorders, pain, seizures). The symptoms start between 30 and 50 years and are (slowly) progressive. Symptomatic patients have an increased risk for dependence in activities of daily living and impaired quality of life.
Histology shows small vessel and capillary calcifications, vascular insufficiency and blood-brain barrier damage. Neural pathology has been described and there are indications that calcifications could interfere with neural circuitry. It is not known how mutations in different genes lead to a common pathology. Yet PFBC belongs to a group of genetic diseases that due to different types of faulty phosphor metabolism leads to a shortage of inorganic pyrophosphate (PPi). PPi is the strongest inhibitor of ectopic calcification in the body. PPi can be replaced by etidronate, a stable molecular homologue of PPi and a well known bisphosphonate that has been used widely. Presently, the rare genetic diseases Pseudoxanthoma Elasticum (PXE), Generalized Arterial Calcification of Infancy (GACI) and Arterial Calcification due to Cluster of Designation 73 (CD73) deficiency (ACDC) are successfully treated with this medication. In PFBC, it was shown that due to mutations in the SLC20A2 gene the Pi Transporter 2 (PiT2) is compromised. The PiT2 transporter plays an important role in the maintenance of Pi homeostasis which is essential for adenosine triphosphate synthesis. Another mutation, XPR1 is responsible for phosphate efflux and mutations here lead to calcium deposition in endothelial cells. Recently, it was shown that mutations in the PDGFB and PDGFRB genes cause osteoblast like cells to mediate in the calcification process, as was also shown in PXE, GACI and ACDC patients.
Currently, disease-modifying therapies are not available for patients with Fahr's disease or syndrome. However, in a small case series it was shown that alendronate was effective in the clinical treatment of several patients with Fahr's disease or syndrome. Now the time has come to investigate the effectiveness of treatment with bisphosphonates in patients with Fahr's disease or syndrome in a randomized controlled trial.
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| Label | Type | Description | Intervention Names |
|---|---|---|---|
| Etidronate | Active Comparator | Etidronate 20 mg/kg for two weeks on and ten weeks off during 12 months |
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| Placebo | Placebo Comparator | Placebo for two weeks on and ten weeks off during 12 months |
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| Name | Type | Description | Arm Group Labels | Other Names |
|---|---|---|---|---|
| Etidronate | Drug | The dosage of etidronate is 20 mg/kg for twee weeks and ten weeks off. Etidronate is given in capsules of 200 mg. Etidronate capsules are administered orally. During the study, participants will receive etidronate in four periods of two weeks during the twelve months of follow-up. |
| Measure | Description | Time Frame |
|---|---|---|
| Overall cognitive functioning | Montreal Cognitive Assessment (MoCA; range 0-30, higher scores mean better outcome) | 12 months |
| Memory | Composite z-score of Rivermead Behavioral Memory Test (RBMT) Stories immediate and delayed recall, Rey complex figure test immediate and delayed recall | 12 months |
| Attention and speed of information processing | Composite z-score of Wechsler Adult Intelligence Scale third edition (WAIS-III) Digit Span Forward, Trail Making Test A (TMT-A), Stroop I and II | 12 months |
| Executive functioning | Composite z-score of Wechsler Adult Intelligence Scale third edition (WAIS-III) Digit Span Backward, Trail Making Test B (TMT-B), Stroop III, semantic and letter fluency | 12 months |
| Social cognition | Facial Expressions of Emotion - Stimuli and Tests (FEEST; scored based on normative data) | 12 months |
| Measure | Description | Time Frame |
|---|---|---|
| Mobility | Condensed version of the Balance Evaluation Systems Test (Mini-BESTest), which is a composite test of gait and balance (range 0-28, higher scores mean better outcome) | 12 months |
| Mobility |
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Inclusion criteria are:
Age of 18 years or over,
Clinical diagnosis of Fahr's disease or syndrome. No international accepted diagnostic criteria for Fahr's disease or syndrome exist yet. It is diagnosed mostly based on the clinical presentation. For the present study the following criteria are used:
Clinical symptoms consistent with a clinical diagnosis of Fahr's disease or syndrome.
Bilateral calcifications of the basal ganglia as seen on the computed tomography (CT) scan of the head. To rule out basal ganglia calcifications due to aging, a CT based calcification score will be used as proposed by Nicolas et al. Calcification is graded from 0 (no calcification) to 5 (serious and confluent) in specific locations of the brain; lenticular, caudate, thalamus nuclei, subcortical white matter, cortex, cerebellar hemispheres, vermis, midbrain, pons, and medulla. The total calcification score (ranging from 0 to 80) is obtained by adding all location-specific points, where a score higher than the age-specific threshold points at Fahr's disease or syndrome.
Furthermore, the next criteria are supportive for the clinical diagnosis of PFBC:
Frequently, the family history is consistent with autosomal dominant inheritance. A positive family history with at least one relative in the first or second degree with symptoms of PFBC is supportive for the clinical diagnosis of PFBC.
The presence of a (likely) pathogenic mutation in one of the PFBC-related genes is supportive for the clinical diagnosis of PFBC. Mutations in up to now 4 known genes are associated with an autosomal dominant pattern of inheritance: solute carrier family 20 member 2 (SLC20A2) (OMIM#213600), xenotropic and polytropic retrovirus receptor 1 (XPR1) (OMIM#616413), platelet-derived growth factor b (PDGFB) (OMIM#615483), and platelet-derived growth factor receptor b (PDGFRB) (OMIM#615007). Autosomal recessively inherited PFBC is associated with mutations in two genes: myogenesis-regulating glycosidase (MYORG) (OMIM#618317) and junctional adhesion molecule 2 (JAM2) (OMIM#618824).
Exclusion criteria are:
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| Name | Role | Phone | Extension | |
|---|---|---|---|---|
| Huiberdina L Koek, MD PhD | Contact | 0031 88 75 55555 | h.l.koek@umcutrecht.nl |
| Name | Affiliation | Role |
|---|---|---|
| Huiberdina L Koek, MD, PhD | UMC Utrecht | Principal Investigator |
| Facility | Status | City | State | ZIP | Country | Contacts |
|---|---|---|---|---|---|---|
| University Medical Center Utrecht | Recruiting | Utrecht | Utrecht | 3584 CX | Netherlands |
| PubMed Identifier | Type | Citation | Retractions |
|---|---|---|---|
| 38326858 | Derived | Snijders BM, Mathijssen G, Peters MJ, Emmelot-Vonk MH, de Jong PA, Bakker S, Crommelin HA, Ruigrok YM, Brilstra EH, Schepers VP, Spiering W, van Valen E, Koek HL. The effects of etidronate on brain calcifications in Fahr's disease or syndrome: rationale and design of the randomised, placebo-controlled, double-blind CALCIFADE trial. Orphanet J Rare Dis. 2024 Feb 7;19(1):49. doi: 10.1186/s13023-024-03039-7. |
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Data can be shared with other researchers upon request. Due to the fact that Fahr's disease or syndrome is rare, not all data will be published openly, since this data might be traceable to an individual person.
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| ID | Term |
|---|---|
| C536275 | Fahr's disease |
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| ID | Term |
|---|---|
| D012968 | Etidronic Acid |
| ID | Term |
|---|---|
| D004164 | Diphosphonates |
| D063065 | Organophosphonates |
| D009943 | Organophosphorus Compounds |
| D009930 | Organic Chemicals |
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A randomized placebo-controlled double blind trial using etidronate versus placebo
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| Placebo | Drug | Placebo is given in capsules and are administered orally. During the study, participants will receive placebo in four periods of two weeks during the twelve months of follow-up. |
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Unified Parkinson's Disease Rating Scale, part III (UPDRS; range 0-56, higher scores mean worse outcome)
| 12 months |
| Neuropsychiatric symptoms | Neuropsychiatric Inventory (NPI; range 0-144, higher scores mean worse outcome) | 12 months |
| Activities of daily living | Katz-15 scale (range 0-15, higher scores mean worse outcome) | 12 months |
| Quality of life questionnaire | 36-item Short Form Health Survey (SF-36; range 0-100, higher scores mean better outcome) | 12 months |
| Brain calcification volume | Volume of calcification quantified in computed tomography scan (milliliters) | 12 months |
| University College London Hospital | Not yet recruiting | London | United Kingdom |
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