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Polyphenon E, non-futile at neuroprotection in multiple sclerosis but unpredictably hepatotoxic: Phase I single group and phase II randomized placebo-controlled studies: STUDY















































 
Image source: PINTEREST

Abstract

Objectives:
Phase I (PhI): assess the safety of Polyphenon E in people with multiple sclerosis (MS) and determine the futility of Polyphenon E as a neuroprotective agent. Correlate plasma levels of EGCG with neuroprotective effects.

Phase II (PhII): Further assess safety and confirm the neuroprotective effects of Polyphenon E.

Design:
PhI: single group futility study. PhII: parallel group randomized double-blind placebo-controlled study.

Participants:
Recruitment area (both studies): LSU MS Center, New Orleans, LA and general public from surrounding areas.

Inclusion criteria (both studies): 1) MS per 2005 McDonald criteria; 2) relapsing remitting or secondary progressive MS; 3) stable for six months prior to enrollment on either no therapy or glatiramer acetate (GA) for the PhI study and on either on GA or Interferon β for the PhII study.

Exclusion criteria (both studies): 1) complete bone marrow ablation or alentuzumab use at any time; 2) mitoxantrone, cyclophosphamide, natalizumab or fingolimod use in the prior nine months; 3) liver problems or significant medical problems.

Interventions:
PhI: Polyphenon E, a green tea extract containing 50% of the antioxidant Epigallocatechin-gallate (EGCG), two capsules twice daily (200 mg of EGCG per capsule; total daily dose 800 mg) for six months.

PhII: Polyphenon E or matching placebo capsules, same dose for one year. Only the research pharmacist knew treatment assignment and she randomized participants (one-to-one, stratified by GA or Interferon β, blocks of 4 or 6). Outcome evaluators did not discuss side effects with participants.

Outcome measures:
PhI: 1) adverse events (AE); 2) futility: decrease in N-acetyl aspartate (NAA) from baseline to six months of 10% or more; 3) association between EGCG plasma levels and change in NAA.

PhII: 1) AEs; 2) difference in the rate of change of NAA-levels over twelve months.We measured NAA using a point resolved magnetic resonance spectroscopic imaging sequence (TE30/TR2000) on a 10 cm × 10 cm × 1 cm volume of interest (VOI) located just superior to the lateral ventricles. The field of view was 16 × 16 resulting in 1 cm3 voxels. We quantified NAA and creatine/phosphocreatine (Cr) levels using LCModel for post-processing.

Results:
PhI: Ten participants enrolled and completed all assessments with no serious AEs. One discontinued therapy due to grade (G) I abnormal liver function tests (LFTs). We included all participants in the analysis. NAA adjusted for creatine increased by 10% [95% CI(3.4%,16.2%), p < 0.01] rejecting the futility endpoint.

PhII: Thirteen participants enrolled and twelve started treatment. The DSMB stopped the study because 5/7 participants on Polyphenon E had abnormal LFTs (G I, and 1 G III). Median time to onset of abnormal LFTs was 20 weeks [Inter-Quartile Range (IQR) (10,23)]. Only two participants completed the six-month visit, so we could not analyze the NAA levels.

PhI participants took capsules from lot 189I1107 while 6/7 PhII participants took capsules from a new lot (L0206306). Both lots had similar levels of EGCG but differed in the levels of minor catechins. There were no significant differences between the lots on participants' median free EGCG plasma levels at either 3 h or 8 h as well as conjugated EGCG levels at 3 h (all p > 0.4, Wilcoxon exact test).

Free EGCG levels at 8 h correlated with changes in NAA adjusted by water content. A 1 ng/ml higher EGCG plasma concentration correlated with a 0.9% increase in NAA[95% CI(0.5%,1.4%), visit*level interaction F = 14.4, p < 0.001]. However, EGCG plasma concentrations did not correlate with NAA adjusted by creatine (1 ng/ml higher EGCG was associated with 0.02%,[95% CI(− 0.27%,0.3%) change in NAA, p > 0.5]). There was a trend towards an increase in creatine levels (referenced to water content) from baseline to exit (1 5% increase, [95% CI(− 6%,17%), p = 0.4]). The free EGCG levels at 8 hours correlated significantly with change in creatine levels (1 ng/ml higher EGCG level at 8 h was associated with a 1.1% increase in creatine [95% CI(0.6%,1.6%)]). Thus it is possible that the discrepancy between the correlation of the EGCG 8 h levels with NAA changes referenced to water and the 8 h EGCG levels with NAA changes referenced to creatine was due to a change in creatine among the subjects with higher EGCG levels.

Conjugated 3 h and 8 h levels and free 3 h levels did not correlate with NAA changes (all p > 0.5).

Conclusions/classification of evidence:
Class III evidence: Polyphenon E at a dose of 400 mg of EGCG twice a day is not futile at increasing brain NAA levels. Class I evidence: some lots of Polyphenon E have a high risk of hepatotoxicity.


Story Source: The above story is based on materials provided by SCIENCEDIRECT
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