A Study of L-DOPA for Depression and Slowing in Older Adults

Phase 4

Completed

Conditions: Major Depressive Disorder
Dysthymia
Depression Not Otherwise Specified
Decreased Gait Speed
Decreased Processing Speed

Interventions: Drug: Levodopa

Registration Number: NCT02744391

Lead Sponsor: New York State Psychiatric Institute

Brief Summary: Individuals with Late Life Depression (LLD) often have cognitive problems, particularly problems with memory, attention, and problem solving, all of which contribute to antidepressant non-response. Our group and others have shown that decreased thinking speed is the central cause of functional problems in patients with LLD. Similarly, decreased walking speed is associated with depression and carries additional risk for falls, hospitalization, and death. Available evidence suggests that declining functionality in the brain's dopamine system contributes to age-related cognitive and motor slowing. The central hypothesis of this R61/R33 Phased Innovation Award is that by enhancing dopamine functioning in the brain and improving cognitive and motor slowing, administration of carbidopa/levodopa (L-DOPA) will improve depressive symptoms in older adults.

Detailed Description: This study will elucidate the neurobiology of slowing and LLD, identify a novel therapeutic target for depression, and contribute to the development of personalized treatment regimens for LLD. The multimodal neuroimaging methods detailed in this application will provide information about the neurobiology of aging-associated slowing and LLD at molecular, structural, and functional levels of analysis. These data will fill a crucial gap in our knowledge regarding what are the physiologic and functional consequences of dopamine depletion occurring across the lifespan in individuals without PD. Results from this project also will allow us to evaluate a novel therapeutic approach to LLD, which could have large public health ramifications given the prevalence, frequent treatment resistance, and chronicity characteristic of LLD. Even apart from patients with LLD, cognitive and motor slowing exact a large public health burden in terms of impaired functioning and increased morbidity and mortality, and this burden will only grow as the population ages. It is critical to develop treatments capable of altering the negative health trajectories associated with slowing in order to help older adults maintain independent functioning and live longer with an increased quality of life. Finally, while PET and MRI may prove critical to understand the neurobiology of slowing and LLD, their invasiveness and expense limit their roles in informing treatment decisions in clinical practice settings. For this reason the investigators are also assessing the influence of genetic moderators such as interleukin-6 (IL-6) and catechol-O-methyl-transferase (COMT) genotype on baseline dopamine functioning and response to L-DOPA. This may facilitate the identification of both high-risk individuals and those most likely to benefit from treatment interventions.

Recruitment & Eligibility

Status: COMPLETED

Sex: All

Target Recruitment: 47

Inclusion Criteria

Age >59 years
DSM 5 non-psychotic Major Depressive Disorder, Dysthymia, or Depression Not Otherwise Specified
Center for Epidemiological Studies Depression (CES-D) Rating Scale > 9
Decreased processing speed (defined as 0.5 SD below age-adjusted norms on the Digit Symbol Test) and decreased gait speed (defined as average walking speed over 15' course < 1 m/s)
Willing and capable of providing informed consent and complying with study procedures
Prefer not to be treated with a standard treatment for MDD, Dysthymia, or Depression NOS (e.g., antidepressant medication or psychotherapy)

Exclusion Criteria

Diagnosis of substance abuse or dependence (excluding Tobacco Use Disorder) within the past 12 months
History of or current psychosis, psychotic disorder, mania, or bipolar disorder
Diagnosis of probable Alzheimer's Disease, Vascular Dementia, or PD
Mini Mental Status Exam (MMSE) < 25
HRSD ≥ 25 or the presence of significant suicide risk
Current or recent (within the past 4 weeks) treatment with antidepressants, antipsychotics, dopaminergic agents, or mood stabilizers
History of allergy, hypersensitivity reaction, or severe intolerance to LDOPA
Acute, severe, or unstable medical or neurological illness
Mobility limiting osteoarthritis of any lower extremity joints, symptomatic lumbar spine disease, history of joint replacement surgery, or history of spine surgery
Hypotension (SBP<90), hypertension (SBP >150 or DBP > 90), past stroke causing sensory or movement deficits, cardiac arrhythmias, or any other severe or uncontrolled cardiovascular disease
Having contraindication to MRI scanning (such as metal in body) or unable to tolerate the scanning procedures
History of significant radioactivity exposure (nuclear medicine studies or occupational exposure)
Presence of a clinically significant brain abnormality, significant anemia, insulin dependent diabetes, a history of cardiovascular disease, or uncontrolled/untreated risk factors for coronary artery disease

Study & Design

Study Type: INTERVENTIONAL

Study Design: SINGLE_GROUP

Arm && Interventions

Group	Intervention	Description
L-DOPA	Levodopa	Patients will receive titration of L-DOPA from 150 mg to 450 mg.

Primary Outcome Measures

Name	Time	Method
Hamilton Rating Scale for Depression (24 Item)	Week 3	Our target is depressive symptomatology as measured by the Hamilton Rating Scale for Depression (HRSD). The HRSD is a 24-item questionnaire used as an indication of depression and a guide to evaluate recovery. Total scores range from 0-74, not including atypical symptoms sub-scale. A score of 16 or above is typically considered to indicate the presence of depressive symptoms. Higher scores indicate greater severity.

Secondary Outcome Measures

Name	Time	Method
Letter Comparison	Week 3	Subjects will be asked to determine whether two strings of letters are the same or different. There are 3 pages and the subject is given 30 seconds per page. Scoring is based on the number answered correctly. The higher the number, the better the score.
Digit Symbol Substitution Test	Week 3	Digit symbol substitution test (DSST) is a neuropsychological test sensitive to brain damage, dementia, age and depression. The test is not sensitive to the location of brain-damage (except for damage comprising part of the visual field). It consists of (e.g. nine) digit-symbol pairs (e.g. 1/-,2/┴ ... 7/Λ,8/X,9/=) followed by a list of digits. Under each digit the subject should write down the corresponding symbol as fast as possible. The number of correct symbols within the allowed time (e.g. 90 or 120 sec) is measured. The higher the number, the better the score.
Inventory of Depressive Symptomatology-Self Report	Week 3	Rating scale for depressive symptoms based on Diagnostic and Statistical Manual of Mental Disorders (DSM) criteria that has been increasingly used in antidepressant studies due to its equivalent weightings for each item, understandable anchor points, and inclusion of all Diagnostic and Statistical Manual of Mental Disorders criteria. Patients will be asked to circle the one response to each item that best describes them for the past seven days. The answers range 0-84. The higher the score the greater the depressive symptoms.
Post-Treatment [11C]-Raclopride Binding Potential: Limbic Striatum	Week 3	Subjects received 2 \[11C\]-raclopride positron emission tomography (PET) scans: baseline and post-L-DOPA treatment. High resolution anatomical T1-weighted MRI scans were acquired for each subject and PET data were co-registered to the MRIs using maximization of mutual information (SPM12, Wellcome Centre for Human Neuroimaging). Regions of interest (ROIs) were applied to the MRIs and transferred to the PET data and included the sensorimotor striatum (post-commissural putamen, SMST), associative striatum (whole caudate and pre-commissural putamen, AST) and the limbic striatum (nucleus accumbens and the most ventral aspects of the pre-commissural caudate and putamen, LST). Additionally, an ROI was drawn on cerebellum as a reference tissue. ROI time activity curves were derived as the average activity in each ROI in each frame. The primary outcome measure was BPND, the binding potential with respect to the non-displaceable compartment, derived by the simplified reference tissue model.
Single Task Gait Speed	Week 3	Patients' gait will be assessed as walking speed in m/s on a 15' walking course. Patients are instructed to walk at their usual or normal speed for a total of 27' (starting and ending at a point 6 feet prior to and after the 15' course to eliminate acceleration and deceleration effects). Two trials will be completed, and gait speed will be based on the average of 2 trials.
Pre-Treatment [11C]-Raclopride Binding Potential: Limbic Striatum	Baseline	Subjects received 2 \[11C\]-raclopride positron emission tomography (PET) scans: baseline and post-L-DOPA treatment. High resolution anatomical T1-weighted MRI scans were acquired for each subject and PET data were co-registered to the MRIs using maximization of mutual information (SPM12, Wellcome Centre for Human Neuroimaging). Regions of interest (ROIs) were applied to the MRIs and transferred to the PET data and included the sensorimotor striatum (post-commissural putamen, SMST), associative striatum (whole caudate and pre-commissural putamen, AST) and the limbic striatum (nucleus accumbens and the most ventral aspects of the pre-commissural caudate and putamen, LST). Additionally, an ROI was drawn on cerebellum as a reference tissue. ROI time activity curves were derived as the average activity in each ROI in each frame. The primary outcome measure was BPND, the binding potential with respect to the non-displaceable compartment, derived by the simplified reference tissue model.
Pattern Comparison	Week 3	This test required participants to identify whether two visual patterns are the "same" or "not the same" (responses were made by pressing a "yes" or "no" button). Patterns were either identical or varied on one of three dimensions: color (all ages), adding/taking something away (all ages), or one versus many. Scores reflected the number of correct items (of a possible 130) completed in 90 s; items were designed to minimize the number of errors that were made.
Dual Task Gait Speed	Week 3	For the Dual Task, patients are instructed to walk at their usual pace while simultaneously verbally listing as many animals as possible. In addition, a counting Dual Task will be used in which patients are instructed to walk at their usual pace while simultaneously performing serial subtractions by three starting at 100. Patients will start and end at a point 2 meters from the Gaitrite mat to eliminate acceleration and deceleration effects. Dual Task will be assessed two times with the average used in the analyse.
Pre-Treatment [11C]-Raclopride Binding Potential: Sensorimotor Striatum	Baseline	Subjects received 2 \[11C\]-raclopride positron emission tomography (PET) scans: baseline and post-L-DOPA treatment. High resolution anatomical T1-weighted MRI scans were acquired for each subject and PET data were co-registered to the MRIs using maximization of mutual information (SPM12, Wellcome Centre for Human Neuroimaging). Regions of interest (ROIs) were applied to the MRIs and transferred to the PET data and included the sensorimotor striatum (post-commissural putamen, SMST), associative striatum (whole caudate and pre-commissural putamen, AST) and the limbic striatum (nucleus accumbens and the most ventral aspects of the pre-commissural caudate and putamen, LST). Additionally, an ROI was drawn on cerebellum as a reference tissue. ROI time activity curves were derived as the average activity in each ROI in each frame. The primary outcome measure was BPND, the binding potential with respect to the non-displaceable compartment, derived by the simplified reference tissue model.
Pre-Treatment [11C]-Raclopride Binding Potential: Associative Striatum	Baseline	Subjects received 2 \[11C\]-raclopride positron emission tomography (PET) scans: baseline and post-L-DOPA treatment. High resolution anatomical T1-weighted MRI scans were acquired for each subject and PET data were co-registered to the MRIs using maximization of mutual information (SPM12, Wellcome Centre for Human Neuroimaging). Regions of interest (ROIs) were applied to the MRIs and transferred to the PET data and included the sensorimotor striatum (post-commissural putamen, SMST), associative striatum (whole caudate and pre-commissural putamen, AST) and the limbic striatum (nucleus accumbens and the most ventral aspects of the pre-commissural caudate and putamen, LST). Additionally, an ROI was drawn on cerebellum as a reference tissue. ROI time activity curves were derived as the average activity in each ROI in each frame. The primary outcome measure was BPND, the binding potential with respect to the non-displaceable compartment, derived by the simplified reference tissue model.
Post-Treatment [11C]-Raclopride Binding Potential: Associative Striatum	Week 3	Subjects received 2 \[11C\]-raclopride positron emission tomography (PET) scans: baseline and post-L-DOPA treatment. High resolution anatomical T1-weighted MRI scans were acquired for each subject and PET data were co-registered to the MRIs using maximization of mutual information (SPM12, Wellcome Centre for Human Neuroimaging). Regions of interest (ROIs) were applied to the MRIs and transferred to the PET data and included the sensorimotor striatum (post-commissural putamen, SMST), associative striatum (whole caudate and pre-commissural putamen, AST) and the limbic striatum (nucleus accumbens and the most ventral aspects of the pre-commissural caudate and putamen, LST). Additionally, an ROI was drawn on cerebellum as a reference tissue. ROI time activity curves were derived as the average activity in each ROI in each frame. The primary outcome measure was BPND, the binding potential with respect to the non-displaceable compartment, derived by the simplified reference tissue model.
Post-Treatment [11C]-Raclopride Binding Potential: Sensorimotor Striatum	Week 3	Subjects received 2 \[11C\]-raclopride positron emission tomography (PET) scans: baseline and post-L-DOPA treatment. High resolution anatomical T1-weighted MRI scans were acquired for each subject and PET data were co-registered to the MRIs using maximization of mutual information (SPM12, Wellcome Centre for Human Neuroimaging). Regions of interest (ROIs) were applied to the MRIs and transferred to the PET data and included the sensorimotor striatum (post-commissural putamen, SMST), associative striatum (whole caudate and pre-commissural putamen, AST) and the limbic striatum (nucleus accumbens and the most ventral aspects of the pre-commissural caudate and putamen, LST). Additionally, an ROI was drawn on cerebellum as a reference tissue. ROI time activity curves were derived as the average activity in each ROI in each frame. The primary outcome measure was BPND, the binding potential with respect to the non-displaceable compartment, derived by the simplified reference tissue model.