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| Name | Class |
|---|---|
| Erasmus Medical Center | OTHER |
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This study will investigate the effect of treatment with tiratricol (also called Triac) in young boys (≤30 months) with MCT8 deficiency (also called the Allan-Herndon-Dudley syndrome (AHDS)). The hypothesis tested is that treatment with tiratricol will have a beneficial effect on the hypothyroid state in the brain as well as the hyperthyroid state in peripheral organs and tissues in these patients. Patients will initially be treated for 96 weeks with tiratricol, treatment effect on neurodevelopment impairment caused by hypothyroidism and peripheral thyrotoxicosis will be evaluated after 96 weeks treatment. Patients will be offered to continue on treatment for an additional 3 years.
This therapeutic trial will be conducted in patients with MCT8 deficiency (also called Allan-Herndon-Dudley Syndrome (AHDS)), which is due to mutations in monocarboxylate transporter (MCT)8. MCT8 is a thyroid hormone transporter which is crucial for the transport of thyroid hormone from the blood into different tissues. Defective MCT8 results in a lack of thyroid hormone (hypothyroidism) in tissues that are dependent on MCT8 for thyroid hormone uptake, such as the brain. Hypothyroidism in the brain results in severe intellectual and motor disability. Another important feature of this disease is the high serum T3 concentrations in the blood. This results in hyperthyroidism in tissues that are not dependent on MCT8 for their thyroid hormone supply. As a result, patients with MCT8 deficiency have clinical features of thyrotoxicosis such as low body weight, elevated heart rate and reduced muscle mass.
Preclinical studies have shown that the T3 analogue tiratricol is transported into cells in an MCT8-independent manner. In animal models mimicking MCT8 deficiency, Triac has been shown to normalize brain development if administrated during early postnatal life.
Recently, Triac Trial I (NCT02060474) has shown that tiratricol treatment in patients with MCT8 deficiency improves key clinical and biochemical features caused by the toxic effects of the high T3 concentrations. No drug related serious adverse events have occurred during Triac Trial I.
This study will investigate the effect of treatment with tiratricol in young boys (≤30 months) with MCT8 deficiency (also called the Allan-Herndon-Dudley syndrome (AHDS)). The hypothesis tested is that treatment with tiratricol will have a beneficial effect on the hypothyroid state in the brain as well as the hyperthyroid state in peripheral organs and tissues in these patients. Patients will initially be treated for 96 weeks with tiratricol, treatment effect will be evaluated after 96 weeks. After the 96 week treatment period, patients will enter Part II of the trial, evaluating long-term treatment. Patients will be followed for an additional 3 years and treatment effect will be evaluated after 3 years, 4 years and 5 years respectively from start of treatment.
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| Label | Type | Description | Intervention Names |
|---|---|---|---|
| MCT8 deficient patients | Experimental | Tiratricol (Triac) treatment |
|
| Name | Type | Description | Arm Group Labels | Other Names |
|---|---|---|---|---|
| Tiratricol | Drug | Tiratricol, individually titrated dose |
|
| Measure | Description | Time Frame |
|---|---|---|
| Gross Motor Function Measure 88 (GMFM 88) total score | To evaluate the effects of tiratricol on neurodevelopment in young MCT8 deficiency patients, measured by the Gross Motor Function Measure (GMFM)-88 assessment. Potential result values range from 0 to 100%, the latter being representative for a 4-year old healthy child. A high score is equivalent to better/more neurodevelopment and is therefore a better outcome than a low score. | 96 weeks, Year 3, Year 4 and Year 5 |
| Bayley Scales of Infant Development III Gross Motor Skill Domain score | To evaluate the effect of tiratricol treatment on neurodevelopment measured by the Bayley Scales of Infant Development (BSID-III) Gross Motor Skill Domain score. Potential total raw scores range from 0-72, and can be age-adjusted before analysis. A high score is equivalent to better/more neurodevelopment and is therefore a better outcome than a low score | 96 weeks, Year 3, Year 4 and Year 5 |
| Measure | Description | Time Frame |
|---|---|---|
| GMFM-88 individual item score 10 and 24. | GMFM-88 individual item score 10 ("lifts head upright") and item score 24 ("sit on mat"), GMFM Domain B (Sitting) - summary score of all items 18-37 ; Motor milestone responder analysis of Section 2 of the Hammersmith Infant Neurological Examination (HINE). | 96 weeks, Year 3, Year 4 and Year 5 |
| Measure | Description | Time Frame |
|---|---|---|
| Patient Quality of Life by Infant Toddler Quality of Life Questionnaire (ITQoL) | To evaluate patient´s quality of life (QoL) by Infant Toddler Quality of Life (ITQoL-SF-47) questionnaire. Item responses are scored, summed, and transformed on a scale from 0 (worst health) to 100 (best health). A high score is equivalent to better parent-reported outcomes and is therefore a better outcome than a low score. |
Inclusion Criteria:
Exclusion Criteria:
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| Name | Affiliation | Role |
|---|---|---|
| W.E. Visser, MD, PhD | Erasmus Medical Center | Principal Investigator |
| Kristina Sjöblom Nygren, MD | Rare Thyroid Therapeutics International AB | Study Director |
| Lindsey Nicol | Oregon Health& Science University (OHSU) Doernbecher Childrens Hospital | Principal Investigator |
| Jan Lebl | Charles University and Motol University Hospital | Principal Investigator |
| Heiko Krude | Charité - Universitätsmedizin Berlin Institut fur experimental paediatrische endokrinologie | Principal Investigator |
| Andrew Bauer, MD | Children's Hospital of Philadelphia | Principal Investigator |
| Facility | Status | City | State | ZIP | Country | Contacts |
|---|---|---|---|---|---|---|
| Oregon Health & Science University (OHSU) Doernbecher Childrens Hospital | Portland | Oregon | 97239 | United States | ||
Because of the rarity of MCT8 deficiency and the small number of patients in this trial, individual patient data beyond what is reported in the upcoming manuscript will not be shared to safeguard patient privacy.
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| ID | Term |
|---|---|
| C537047 | Allan-Herndon-Dudley syndrome |
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| ID | Term |
|---|---|
| C010642 | 3,3',5-triiodothyroacetic acid |
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| Bayley Scales of Infant Development III score. |
To evaluate the effect of tiratricol treatment on neurodevelopment measured by the Bayley Scales of Infant Development (BSID-III). Five subscales of this assessment will be used: Cognitive, Receptive communication, Expressive communication, Fine motor and Gross motor. Potential total raw scores range from 0-91, 0-49, 0-48, 0-66 and 0-72 respectively, and can be age-adjusted before analysis. A high score is equivalent to better/more neurodevelopment and is therefore a better outcome than a low score. This holds true for all subscales. |
| 96 weeks, Year 3, Year 4 and Year 5 |
| Serum T3 concentrations | Evaluate the effect of tiratricol on clinical and biochemical thyrotoxic features. | 96 weeks, Year 3, Year 4 and Year 5 |
| Tissue-specific markers of thyroid state: serum sex-hormone binding globulin concentrations for liver | Evaluate the effect of tiratricol on clinical and biochemical thyrotoxic features. | 96 weeks, Year 3, Year 4 and Year 5 |
| Tissue-specific markers of thyroid state: serum creatine kinase concentrations for muscles | Evaluate the effect of tiratricol on clinical and biochemical thyrotoxic features. | 96 weeks, Year 3, Year 4 and Year 5 |
| Tissue-specific markers of thyroid state: serum creatinine concentrations for kidneys | Evaluate the effect of tiratricol on clinical and biochemical thyrotoxic features. | 96 weeks, Year 3, Year 4 and Year 5 |
| Blood pressure | Evaluate the effect of tiratricol on clinical and biochemical thyrotoxic features. | 96 weeks, Year 3, Year 4 and Year 5 |
| Body weight | Evaluate the effect of tiratricol on clinical and biochemical thyrotoxic features. | 96 weeks, Year 3, Year 4 and Year 5 |
| 96 weeks and Year 5 |
| Parent Quality of Life by Parenting Stress index (PSI-4 SF) | To evaluate parent's quality of life (QoL) by Parenting Stress Index (PSI-4 SF) questionnaire. Results are given as raw scores, percentiles and T scores, where percentiles are the primary interpretive framework. Results from 16th - 84th percentile = Normal range, 85th - 89th Percentile = High range, 90th Percentile or higher = Clinically significant range. | 96 weeks and Year 5 |
| Evaluate the effect of tiratricol treatment on neurological symptoms (Hammersmith Infant Neurological Exam, HINE) | Hammersmith Infant Neurological Exam (HINE) | 96 weeks, Year 3, Year 4 and Year 5 |
| Evaluate the effect of tiratricol treatment on brain function (optional) (EEG) | Brain function outcome (optional) evaluated by EEG | 96 weeks |
| Evaluate the effect of tiratricol treatment on brain function (optional) (BERA) | Brain function outcome (optional) evaluated by Brainstem Evoked Response Audiogram (BERA) | 96 weeks |
| Evaluate the effect of tiratricol treatment on brain function (optional) (VEP) | Brain function/brain imaging outcome (optional) evaluated by Visual Evoked Potentials (VEP) | 96 weeks |
| Evaluate the effect of tiratricol treatment on brain imaging (optional) | Brain imaging outcome (optional) evaluated by MRI/MRS - in patients where this examination is scheduled as part of a clinical praxis (at the discretion of the investigator) | 96 weeks |
| Estimate the elimination half-life of tiratricol in young children, reported in hours (optional and provided a medical reason prevails). | Measurement of serum T3 concentrations of tiratricol as part of pharmacokinetic profile (optional and provided a medical reason prevails) | From baseline to end of the study |
| Estimate the maximum serum concentration of tiratricol in young children, reported in nmol/L (optional and provided a medical reason prevails). | Measurement of serum T3 concentrations of tiratricol as part of pharmacokinetic profile (optional and provided a medical reason prevails) | From baseline to end of the study |
| Evaluate the occurrence of episodes of tachycardia caused by the thyrotoxicosis. | Evaluation of cardiac rhythm and number of episodes of tachycardia with 24 hour Holter ECG. | 96 weeks and Year 5 |
| Evaluate the occurrence of premature atrial complexes (PACs) caused by the thyrotoxicosis. | Evaluation of occurrence of PACs with 24 hour Holter ECG. | 96 weeks and Year 5 |
| Evaluate the occurrence of other arrhythmias caused by the thyrotoxicosis. | Descriptive evaluation of occurrence of other arrhythmias with 24 hour Holter ECG. | 96 weeks, Year 3, Year 4 and Year 5 |
| Evaluate the occurrence of structural cardiac anomalies in patients | Evaluation of the occurrence of structural cardiac anomalies using routine trans-thoracic cardiac ultrasound. | 96 weeks and Year 5 |
| Number of participants with Treatment Emergent Adverse Events (TEAEs), Serious Adverse Events (SAEs) and discontinuations due to Adverse Events (AEs) | An AE is defined as any untoward medical occurrence associated with the use of a drug in humans, whether or not considered drug related. An SAE is defined as an AE or suspected adverse reaction that at any dose results in any of the following outcomes: death; life-threatening AE; inpatient hospitalization or prolongation of existing hospitalization; persistent or significant incapacity or substantial disruption of the ability to conduct normal life functions; a congenital anomaly/birth defect. Severity was graded as 1 (mild), 2 (moderate), 3 (severe), 4 (life-threatening), 5 (death). TEAEs are defined as AEs with onset on or after the time of initiation of study drug administration. | 96 weeks, Year 3, Year 4 and Year 5 |
| Serum free T4 (FT4) concentrations | Evaluate the effect of tiratricol on FT4 concentrations to ensure patient safety. | 96 weeks, Year 3, Year 4 and Year 5 |
| Serum total T4 (T4) concentrations | Evaluate the effect of tiratricol on T4 concentrations to ensure patient safety. | 96 weeks, Year 3, Year 4 and Year 5 |
| Serum tiratricol concentrations | Evaluate tiratricol concentrations in serum, as estimated based on measured T3 concentrations in serum. | 96 weeks, Year 3, Year 4 and Year 5 |
| Serum thyroid stimulating hormone (TSH) concentrations | Evaluate the effect of tiratricol on TSH concentrations to ensure patient safety. | 96 weeks, Year 3, Year 4 and Year 5 |
| Serum reverse T3 (rT3) concentrations | Evaluate the effect of tiratricol on rT3 concentrations to ensure patient safety. | 96 weeks, Year 3, Year 4 and Year 5 |
| Serum Alanine (Amino) Transaminase (ALAT) concentrations | Evaluate the effect of tiratricol on ALAT concentrations to ensure patient safety. | 96 weeks, Year 3, Year 4 and Year 5 |
| Serum Aspartate (Amino) Transaminase (ASAT) concentrations | Evaluate the effect of tiratricol on ASAT concentrations to ensure patient safety | 96 weeks, Year 3, Year 4 and Year 5 |
| Serum gamma-glutamyl transferase (gGT) concentrations | Evaluate the effect of tiratricol on gGT concentrations to ensure patient safety. | 96 weeks, Year 3, Year 4 and Year 5 |
| Serum alkaline phosphatase concentrations | Evaluate the effect of tiratricol on alkaline phosphatase concentrations to ensure patient safety. | 96 weeks, Year 3, Year 4 and Year 5 |
| Serum albumin concentrations | Evaluate the effect of tiratricol on albumin concentrations to ensure patient safety. | 96 weeks, Year 3, Year 4 and Year 5 |
| Serum urea concentrations | Evaluate the effect of tiratricol on urea concentrations to ensure patient safety. | 96 weeks, Year 3, Year 4 and Year 5 |
| Serum sodium concentrations | Evaluate the effect of tiratricol on sodium concentrations to ensure patient safety. | 96 weeks, Year 3, Year 4 and Year 5 |
| Serum potassium concentrations | Evaluate the effect of tiratricol on potassium concentrations to ensure patient safety. | 96 weeks, Year 3, Year 4 and Year 5 |
| White blood cell total and differential count | Evaluate the effect of tiratricol on white blood cell total and differential count to ensure patient safety. | 96 weeks, Year 3, Year 4 and Year 5 |
| Red blood cell count | Evaluate the effect of tiratricol on red blood cell count to ensure patient safety. | 96 weeks, Year 3, Year 4 and Year 5 |
| Platelet count | Evaluate the effect of tiratricol on platelet cell count to ensure patient safety. | 96 weeks, Year 3, Year 4 and Year 5 |
| Children's Hospital of Philadelphia |
| Philadelphia |
| Pennsylvania |
| 19104 |
| United States |
| Charles University and Motol University Hospital; The department of peadiatrics of the 2nd faculty of medicine | Prague | 15006 | Czechia |
| Charité - Universitätsmedizin Berlin Institut fur experimental paediatrische endokrinologie | Berlin | 13353 | Germany |
| Erasmus MC | Rotterdam | 3015 GD | Netherlands |