Table 1.

List of articles on NMDA antagonists and Parkinson’s disease in PubMed Database (1969–2018)

Study (year)	Drug, dose, duration	Population characteristics	Design	Measures	Findings	Limitations	Bias score
Aarsland et al. (2009)	Memantine 20 mg/day 24 weeks	PD or LBD N = 72	Randomized, double-blinded placebo-controlled	CGI, MMSE, NPI, UPDRS	CGI score improved in patients given memantine (p = 0.03). Improved speed and global cognition led to the changes in CGI score. MMSE improvement (p = 0.02) although no significant differences in UPDRS and NPI scores.	High patient attrition and lacked adequate statistical power-grouped PD and DLB cohort	2
Wesnes et al. (2014)	Memantine 20 mg/day 24 weeks	Disrupted episodic memory/cognition N = 30 PDD	Randomized, double-blind, placebo-controlled multi-center	CDR	Memantine produced statistically significant medium to large effect-sized improvements in attentional performance involving information processing and to verbal episodic recognition memory as evidenced by increased performance in choice reaction time, immediate, and delayed word recognition.		2
Emre et al. (2010)	Memantine 20 mg/day 24 weeks	PD N = 120	Multi-center, randomized, double-blind, placebo-controlled	ADAS, NPI	NPI did not improve in PD (−1.6 vs. −0.1, respectively, difference of −1.4, p = 0.522) nor with ADAS (p = 0.576).	Small sample size, missing data at some time points	2
Leroi et al. (2009)	Memantine 20 mg/day, 16 weeks Washout and follow-up after 6 weeks (22-week)	PDD N = 25	Randomized, double-blind, placebo-controlled	NPI, DRS, MMSE	NPI and MMSE changes between memantine and placebo were insignificant (sub-scores not shown). DRS changes between placebo (100.3) in favor of memantine (94.7). After washout, memantine group more often had global deterioration (70%) vs. (29%) for placebo.	NPI sub-scores not shown, small sample size, some participants on cholinesterase inhibitors before trial	2
Litvinenko et al. (2008)	Memantine 20 mg/day 12, 24 week assessment	PD N = 62	Placebo-controlled	ADAS-cog, Verbal Fluency Test, clock-drawing test NPI, FAB, DAD	At 24 weeks, memantine group had significant improvements in ADAS-cog (0.002), FAB (p = 0.01), verbal fluency test (p = 0.01), and clock drawing test (p = 0.03). NPI improvement with memantine, i.e., disinhibition (p = 0.006), irritability (p = 0.004), anxiety (p = 0.04), and hallucinations (p = 0.048). No significant changes at 12 weeks. At 52 weeks, significant improvements in all scales.	Non-randomized, non-blinded	2
Johansson et al. (2010)	Memantine 20 mg/day 24 weeks 4 week washout additional 26 week trial	PD and LBD n = 56	Washout and open label continuation after a double-blind randomized controlled trial	CGIC, presence of recurrence of symptoms upon drug withdrawal	Washout of memantine caused 9% (attrition due to worsening of psychiatric symptoms, i.e., anxiety and depression). CGIC scores worsened more in the memantine washout group vs. placebo.	Grouped PD and DLB cohort	2
Vidal et al. (2013)	Memantine 20 mg/day ~ 3 months	PD N = 2	Case report	Global UPDRS (I–III)	Global UPDRS showed improvement following treatment with memantine with the unanticipated improvement in LID and on–off phenomenon. For patient #2 = 4 point improvement in mood/behavior, no change in patient #1.	Small sample size	2
Leroi et al. (2014)	Memantine 20 mg/day 22 weeks	PDD N = 25	Randomized, double-blind, placebo-controlled	GAS, PDQ-8, Zarit Burden Inventory	A significantly greater proportion of participants on memantine (64%) had better than expected GAS outcomes compared with those on placebo (7%) (p = 0.007). GAS score, as well as mean caregiver burden score, from baseline to drug discontinuation was significantly greater in memantine compared to placebo (p = 0.03 and 0.04, respectively). Although significant differences in QOL were not seen, memantine improved individually set goals and caregiver burden in PDD.	Ungeneralizable outcome measures, small sample size, no measure of inter-rater reliability for GAS	2
Larsson et al. (2011)	Memantine 20 mg/day 24 weeks	PDD or LBD N = 70	Randomized, double-blind, placebo-controlled	Caregiver-rated QOL-Alzheimer’s Disease in domains (WHO health classification)	Memantine significantly improved total QOL in both PDD and LBD patients (p = 0.01), memantine had 42% rate higher QOL than at baseline compared to 15% in placebo.	Small sample size, some patient attrition, possible response shift phenomenon	2
Ondo et al. (2011)	Memantine 20 mg/day 8 weeks	PD N = 40	Double-blind placebo-controlled exploratory pilot trial	UPDRS I–II ESS, HAM-D, QOL-39, CGI	No significant change in UPDRS section I or II, Epworth sleepiness scale, fatigue severity scale, Hamilton depression scale, Conner adult inventory, PD Quality of Life-39, or clinical global impressions.	Short time period, only 8-week follow-up	1
Larsson et al. (2010)	Memantine 20 mg/day 24 weeks	PDD and LBD Excessive daytime sleepiness and REM disorder in PDD N = 20 (PDD + DLB)	Randomized, double-blind, placebo-controlled	Stavanger sleep questionnaire and ESS	At 24 weeks, patients treated with memantine were less physically active during sleep while patients in the placebo group worsened (p = 0.006). No significant change was observed in severity of excessive daytime sleepiness.	Small sample size, some patient attrition, possible awareness bias due to methodology	2
Pahwa et al. (2015)	Amantadine ADS‐5102 extended-release (260–420 mg/day) 8 weeks	PD patients with levodopa-induced dyskinesia N = 83	Randomized, double-blind, placebo-controlled, multisite study	UPDRS (I–III), PDQ-39	Insignificant change in UPDRS and QOL/PDQ-9 at week 8 for any dose.	UPDRS I score combined with II–III so effect on mood cannot be determined Focus was on safety of novel formulation (extended release)	1
Bandini et al. (2002)	Amantadine 100 mg/day/1st week 200 mg/day/2nd week 300 mg/day/3rd week 6 months	PD N = 23 Cognition and visual response	Open-label cohort study with amantadine monotherapy vs. adjuvant levodopa	Event related P300 (visual discrimination paradigm)	Amantadine alone and as adjuvant to levodopa can significantly improve both the speed of visuo-cognitive processing and shortened latency of visual discrimination (p < 0.05).	Small sample size, non-randomized, single ethnicity (African-American)	2
Parkes et al. (1970)	Amantadine 100 mg/day (2 weeks) 300 mg/day (2 weeks) 500 mg/day (2 weeks) 6 week trial	PD N = 43	Cohort study	Self-designed motor, sensory and psychological tests, patient report	During trial, 26/43 patients reported improved “mood”, regardless of dose.	Non-randomized, non-placebo-controlled, small sample size, unverified techniques to measure PD symptoms	0
Schwab et al. (1969)	Amantadine 100–200 mg/day 6 months	PD N = 163	Cohort study without a placebo control	Patient report	20% of patients experienced side effects of increased jitteriness, insomnia, abdominal uneasiness, loss of appetite, and slight subjective dizziness. One patient reported a feeling of depression. 22% of patients experienced insomnia, dizziness, confusion. One patient reported depression after amantadine.	Non-randomized, non-placebo-controlled, no description of how symptoms were quantified following drug administration	1
Sherman et al. (2016)	Ketamine 0.15–0.3 mg/kg/h 50–96 h periods	PD N = 5 Pain and depression	Case reports	Patient report	Depression and suicidality improved in one depression-positive patient (measure is not stated). However, the patient continued to exhibit mild symptoms of depression in follow-up visits. Pain improved for all five patients: two back pain, two headache and one painful dyskinesia.	Small sample size, multiple unspecified metrics used to measure outcomes	1
Schneider et al. (2000)	D-cycloserine 320, 1000, 8000 µg/kg Dizocilpine (10–32 µg/kg) (single)	MPTP-induced PD primate model N = 4	Animals served as their own controls with and without treatment	Performance of a variable-delayed-response task	D-cycloserine significantly improved performance of a variable-delayed-response task. No effect at cycloserine 8000 µg/kg or with dizocilpine.	Small sample size, animal model	a
Ho et al. (2011)	D-cycloserine 30 mg/kg/day 100 mg/kg/day 200 mg/kg/day (13 days)	MPTP-induced PD rat model	Animals served as their own controls	Rotarod test, T-maze, plus-maze	Treatment with D-cycloserine improved deficits in working memory and anxiety-like behavior.	Small sample size, animal model	a
Singh et al. (2017)	Dizocilpine 0.2 mg/kg, ip	6-OHDA-induced PD rat model anxiety and depression	Experimental	Light chamber (time spent) social interaction test (anxiety-like behavior) immobility test (depression)	Dizocilpine-treated rats spent more time in the light chamber (p < 0.01), and more contact time during the social interaction test (p < 0.05) in comparison to 6-OHDA lesioned rats.	Animal model	a
Montastruc et al. (1994)	Dextromethorphan 90–180 mg/day 1 month	PD n = 10 global symptoms	Open label	UPDRS (I–III)	No significant improvement in UPDRS subscores of extrapyramidal symptoms (partial tremor, rigidity, bradykinesia) mentation, behavior, and mood or daily activity.	Small sample size, specific changes in UPDRS score not provided	a

Quality assessment criteria for selected studies
Score	Method for measuring non-motor symptoms	Trial period
1	Subjective, self-reports by patient or qualitative noting by clinician	Adequate time period
0	Objective measure, either by clinician (UPDRS-1, MMSE, ADAS, etc.) or by caregiver (NPI)	Inadequate time period, less time than average trials for given drug

Abbreviations: ADAS-Cog Alzheimer’s disease assessment scale-cognitive, CDR clinical dementia rating, CGI clinical global impressions, DAD disability assessment for dementia, ESS Epworth sleepiness scale, FAB frontal assessment battery, GAS goal attainment scaling, HAM-D Hamilton depression rating scale, MMSE mini-mental state examination, PDQ-8/39 Parkinson’s disease questionnaire-8/39-item, NPI neuropsychiatric inventory, and UPDRS unified Parkinson’s disease rating scale

^a Bias assessment was not completed with animal studies