Feasibility Study in Subjects With Mild to Moderate Alzheimer's Disease

Phase 1

Completed

Conditions: Alzheimer's Disease

Interventions: Drug: T3D-959

Registration Number: NCT02560753

Lead Sponsor: T3D Therapeutics, Inc.

Brief Summary: The study is a randomized, parallel, 4-dose design in subjects with mild-to-moderate Alzheimer's Disease. Subjects will be randomized to one of 4 doses of T3D-959. Subjects will be evaluated for changes from baseline in cerebral metabolic rate of glucose (FDG-PET imaging), functional connectivity of the hippocampus (BOLD-fMRI), and cognitive function (ADAS-Cog11 and DSST) as well as assessed for safety and tolerability to T3D-959.

An expanded access extension is planed to provide access to study medication to subjects who have completed the main study and requested continued use.

Detailed Description: T3D-959 is an orally-delivered, once-a-day administered, small molecule dual nuclear receptor agonist that has been shown in animal and Phase 1 studies in normal human subjects to be safe and well tolerated. The purpose of this clinical study in AD patients is to demonstrate mechanistic proof of concept that T3D-959, can produce desired changes in cerebral glucose metabolism and functional connectivity that may indicate potential for cognitive improvement. The therapeutic approach to be tested is based on two suppositions; (A) ameliorating multiple pathologies in the disease with a single therapy may provide a superior clinical benefit than therapeutic approaches which target a single pathology and (B) correcting insulin resistance in the brain, (highly correlated with AD and potential key driver of AD pathophysiology) and peripherally may be disease remedial.

The brain requires integral insulin signaling for metabolic homeostasis and neuronal plasticity. Insulin resistance disrupts energy balance and signaling networks needed for a broad range of functions. Impaired insulin signaling in neurons enhances apoptosis, promotes oxidative cell death induced by Abeta1-42, increases secretion of Abeta1-42, blocks removal of extracellular Abeta oligomers and increases plaque loads. A growing body of evidence suggests that brain insulin resistance promotes or possibly is the trigger of key pathologies in AD and is supported by observed changes in levels of insulin signaling molecules in AD forebrains and associated changes in memory. Pre-clinical studies in animals have demonstrated the insulin sensitizing activity of T3D-959 and ability to improve multiple pathologies of AD in a rat model of disease.

This non-placebo controlled trial will be conducted in one to three clinical centers. Thirty six (36) patients with mild-to-moderate Alzheimer's disease will be randomly assigned to once daily, orally administered treatment with 3mg, 10mg, 30mg or 90mg doses of T3D-959. Participants will be treated for two weeks and will undergo at baseline and at two weeks; FDG-PET scans to measure brain glucose metabolism, BOLD fMRI scans to measure functional connectivity of the hippocampus, venous blood draws for biomarker analysis and ApoE genotyping, and ADAS-Cog11 and DSST cognitive testing. For monitoring potential toxicities of the drug subjects will undergo physical examination, neurological examination, adverse event review, blood chemistries, and pharmacokinetic (PK) analyses for T3D-959 plasma levels.

BOLD fMRI definition of terms:

GoF (Goodness of Fit): The degree to which the spatial extent and magnitude of one subject's default mode network (DMN) regions matches the one of an elderly control group.

Hippo-PreC Link (Hippocampus - Precuneus Link): The resting-state BOLD signal correlation strength between hippocampus and precuneus regions of interest.

GlobEff_DMN: (Global Efficiency from DMN Regions): The global efficiency among 11 pre-defined default mode network regions.

GlobEff_AAL: (Global Efficiency from AAL Regions): The global efficiency among 90 pre-defined cerebral regions based on automated anatomical labeling.

ALFF_lPCC_PreC: Amplitude of Low Frequency Fluctuations (ALFF) from left posterior cingulate cortex (PCC) and precuneus (PreC).

ALFF_rPCC_PreC: ALFF from right PCC and precuneus. fALFF_lPCC_PreC: Ratio ALFF from left PCC and precuneus. fALFF_rPCC_PreC: Ratio ALFF from right PCC and precuneus. ReHo_lPCC_PreC: Regional Homogeneity in left PCC and PreC. ReHo_rPCC_PreC: Regional Homogeneity in right PCC and PreC. ALFF_lIPL: ALFF from left inferior parietal lobule (IPL). ALFF_rIPL: ALFF from right IPL. fALFF_lIPL: Ratio ALFF from left IPL. fALFF_rIPL : Ratio ALFF from right IPL. ReHo_lIPL: Regional Homogeneity in left IPL. ReHo_rIPL: Regional Homogeneity in right IPL.

Expanded Access Extension: This is an open label 10 visit extension for up to 5 subjects who have completed the T3D959-201 protocol and whose caregivers and physician requested their continued treatment in an expanded access protocol. All subjects enrolled in this study will be treated with a 15mg q.d. dose of T3D959 for six months, regardless of their assigned dose level from the main study. A continued risk/benefit assessment by the investigator will be conducted at each visit to determine the need for treatment continuation. Subjects will be assessed for safety and tolerability to T3D-959 and evaluated for changes from baseline cognitive function via ADAS-Cog11 and DSST testing and global change via CIBIC-plus testing.

Recruitment & Eligibility

Status: COMPLETED

Sex: All

Target Recruitment: 36

Inclusion Criteria

Meets criteria for mild-to-moderate AD with Mini-Mental State Examination (MMSE) score of 14 through 26
Clinical Dementia Rating = 0.5 to 2.0
Modified Hachinski less than or equal to 4
A clinical diagnosis of AD per NINCDS-ADRDA criteria
Washout of psychoactive medication (other than anti-depressants): at least 4 weeks prior to baseline
Stability of all permitted medications for 4-12 weeks prior to baseline
Visual and auditory acuity adequate for neuropsychological testing
Home monitoring available for supervision of medications

Exclusion Criteria

Unstable diabetes or insulin use
Unable to participate in FDG-PET scanning
Inability to undergo a clinical MRI of the brain
Diagnosis of significant neurological/psychiatric disease other than AD
History of moderate or severe congestive heart failure, NYHA class III or IV, within 12 months prior to baseline.
Previous cardiovascular event within the past 6 months prior to baseline
Subject is pregnant, or lactating.
ALT and/or AST levels that are twice the upper limit of normal; bilirubin levels that exceed 2 mg/dL; serum creatinine >1.5 mg/dL in men or > 1.4 mg/dL in women.
Current or history of severe or unstable disorder (medical or psychiatric) requiring treatment that may make the subject unlikely to complete the study.
Current use of fluvoxamine.
Current unstable use of warfarin.
Current use (within 30 days of baseline, visit 2) of certain highly protein-bound medications
Malignancy within the last 5 years (other than non-melanoma skin cancer, stable, non-progressive prostate cancer not requiring treatment or in situ cervical cancer).
Known history of HIV, hepatitis B, or hepatitis C.
Blood pressure greater than 160/100 mmHg.
Known or suspected intolerance or hypersensitivity to the study drugs, closely related compounds, or any of their stated ingredients.
History of alcohol, drug abuse or dependence (except nicotine dependence) within 2 years.
Investigational amyloid lowering therapies use within two months prior to baseline
Have participated in any other investigational study or received an investigational drug within 30 days or 5 half-lives (whichever is longer) prior to baseline
Any surgical or medical condition which may significantly alter the absorption of any drug substance
Resides in hospital or moderate to high dependency continuous care facility.
Non ambulatory, or wheelchair-bound
History of swallowing difficulties.
Evidence of clinically relevant pathology that in the investigator's opinion could interfere with the study results or put the subject's safety at risk.

Expanded Access Extension :

Subjects must continue to meet the main study inclusion/exclusion criteria to insure continued safety to continue on a 6 months study extension

Study & Design

Study Type: INTERVENTIONAL

Study Design: PARALLEL

Arm && Interventions

Group	Intervention	Description
T3D-959 10mg	T3D-959	Nine subjects will take 10mg by mouth once daily for two weeks, with or without food.
T3D-959 3mg	T3D-959	Nine subjects will take 3mg by mouth once daily for two weeks, with or without food.
T3D-959 30mg	T3D-959	Nine subjects will take 30mg by mouth once daily for two weeks, with or without food.
T3D-959 90mg	T3D-959	Nine subjects will take 90mg by mouth once daily for two weeks, with or without food.

Primary Outcome Measures

Name	Time	Method
Change From Baseline (End of Treatment - Baseline) for FDG-PET Imaging With Whole Brain and White Matter as Reference Region	after 14 days of treatment	Changes in relative brain glucose metabolism (delta R CMRgl) were measured by FDG-PET. At each time point, a ratio of the PET reading in a pre-defined region of interest (sROI), known to be affected by AD, and in a reference region (RR) that is spared in AD, is determined. This ratio is defined as "sROI index" (spared region). A second RR, brain white matter (WM), was also used in this calculation: sROI index" (WM) value. delta sROI is defined as change in the sROI index values, over the treatment period. In this study we are looking for changes in delta sROI with increasing doses of T3D-959. Dose dependent changes in delta sROI (AD spared) are compared to those observed with the WM as the RR: delta sROI (WM). Dose related changes in delta sROI suggests T3D-959 is entering the brain and effecting glucose metabolism in a dose dependent fashion.
The Effect of Treatment With T3D-959 on Changes in Resting State Blood Oxygen Level Dependent (BOLD) Signal in Functional Magnetic Resonance Imaging (fMRI) of the Brain Areas Associated With Cognitive Tasks.	after 14 days of treatment	Changes in BOLD fMRI parameters such as GoF (see Study Description) over the course of two weeks of treatment, were obtained in this study. BOLD fMRI has been used in cross sectional and longitudinal studies of Alzheimer's subjects, for instance in the Alzheimer's Disease Neuroimaging Initiative studies. However, no studies monitoring Default Mode Networks measured parameters such as GoF, in the context of an effective AD therapeutic, as a result it is difficult to interpret the observed small changes listed in BOLD fMRI parameters obtained in this trial. Instead the changes in the listed BOLD fMRI parameters (EOT - BL) are reported without interpretation. These values represent changes in fMRI connectivity patterns over time and are unitless.

Secondary Outcome Measures

Name	Time	Method
Change From Baseline in the Score of the Digit Symbol Substitution Test	after 14 days of treatment	The digit symbol substitution test assesses attention, psychomotor speed, complex scanning, visual tracking, and immediate memory. This test consists of 4 rows each with 25 small blank squares; above each square is a number between 1 and 9. At the top is a 'key,' which pairs each number (1 through 9) with an unfamiliar symbol. The participant has 90 seconds to work as quickly as possible (left to right across the rows) to fill in each blank square with the appropriate symbol based on the number above the square. Results are presented as total number correct; therefore, lower numbers indicate greater impairment. Scores on the DSST range from 0-93.
Change From Baseline in the Total Score of the 11-item Alzheimer's Disease Assessment Scale - Cognitive Subscale	after 14 days of treatment	The 11-item Alzheimer's Disease Assessment Scale (ADAS-Cog 11) is a psychometric instrument that evaluates memory, attention, reasoning, language, orientation, and praxis. The score can range between 0 and 70. A higher score indicates more cognitive impairment. A positive change in the score indicates cognitive worsening. The minimum severity score is 0 and the maximum severity score is 70.

Trial Locations

Locations (3): Miami Jewish Health Systems
🇺🇸
Miami, Florida, United States
New Hope Clinical Research
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Charlotte, North Carolina, United States
Brain Matters Research
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Delray Beach, Florida, United States