Tuesday, January 12, 2021

Lupine Publishers | MLC901 for Moderate to Severe Traumatic Brain Injury: Pilot, Randomized, Double-Masked, Placebo- Controlled Trial

 Lupine Publishers | Open access Journal of Complimentary and Alternative Medicine

 



Abstract

Background: Despite recent developments in intensive care for patients with Traumatic brain injury (TBI), the long-term neurological disabilities still exist. MLC901 is Traditional Chinese Medicine and has shown some neuroprotective and neuro regenerative benefits after brain injury in previous animal and human studies and may provide a new therapeutic approach in the treatment of TBI. Accordingly, we conducted this pilot, randomized, double-masked, placebo-controlled study to investigate the efficacy of MLC901 in patients with moderate to severe TBI.

Materials and Methods: Patients with a diagnosis of moderate to severe TBI were enrolled. Subjects were randomly assigned to receive either MLC901 or placebo capsules three times per day over 6 months. Evaluation of patients was carried out at baseline, 3rd month and 6th month follow-after injury. Modified Rankin Scale (mRS) and Glasgow outcome scale (GOS) were used to examine patients. Efficacy was evaluated by comparing these two scores between the 2 groups at follow-up visits.

Results: Eighty-one patients complete 6 months follow up. There was no significant difference between two study groups regarding the demographic features, interval between injury and start of intervention and length of ICU stay. However, functional outcome scales of GOS, MRS at 3rd and 6th month post-injury were significantly better in MLC901 group compared to placebo (p<0.05).

Conclusion: MLC901 has shown promising efficacy in patients suffering from moderate to severe TBI.

Keywords: NeuroAid, MLC901; Traumatic brain injury; Placebo-controlled study, Modified rankin scale, Glasgow outcome scale, Functional outcome

Introduction

Traumatic brain injury (TBI) has significant morbidity, mortality and is the major cause of disability in individuals younger than 35 years in the Europe and the USA. Traumatic brain injury (TBI) is also one of the causes of epilepsy and a substantial proportion of traumatic deaths are related to TBI [1]. TBI with its large socioeconomic consequences and its high incidence in young adults is still an important health concern worldwide and poses a real challenge to public health. Despite recent developments in intensive care for patients with TBI, long-term neurological disabilities related to TBI still exist. More than half of patients show significant after-effects, principally in cognitive tasks. Neuroprotective therapeutic Studies have still not introduced safe, and effective treatment for TBI [2,3]. MLC901 (Neuro Aid) as Traditional Chinese Medicine could provide a new therapeutic approach in the treatment of TBI. Therapeutic advantages of MLC901 have already been depicted in patients suffering from stroke, Alzheimer’s disease, mild cognitive impairment and vascular dementia [4-6]. Consistent with findings of clinical reports in efficacy and safety of MLC901, animal studies have also established that MLC901 prevents the death of neuronal tissues, decreases cognitive dysfunction and also improves functional neurological outcome by restoring neuronal circuits in models of ischemia. MLC901has also shown neuroprotective and neurorestorative actions, which could potentially lead to the enhanced recovery of cognitive functions in animal models of TBI. The efficacy of MLC901 has also been shown the oxygenglucose deprivation model, which mimics ischemic conditions [7,8]. Additionally, in a recent study, MLC901 has demonstrated to improve cognitive functioning in patients with mild to moderate TBI [9]. In this study, we aimed to evaluate the effect of MLC901 on neurological function and outcome in patients suffering from moderate to severe TBI.

Materials and Methods

Study design and patients

This was a randomized, double-blind, Placebo-controlled, study conducted between May 2017 and December 2019. The aim of the study was to determine efficacy of MLC901 on neurological outcome after injury in patients with moderate or severe TBI. Clinicians recruited patients from University-affiliated hospitals and patients were eligible for this study if they satisfied the following inclusion criteria: age between 15 and 65, nonpenetrating moderate (Glasgow Coma Scale score [GCS] 9-12) or severe (GCS 3-8) traumatic brain injury less than 24 hours from traumatic injury, anticipated intensive care unit length of stay at least 48 hours. Patients were excluded if GCS was 3 and they had fixed dilated pupils or penetrating injury, coexisting injury or medical conditions which could adversely affect our study outcome measures, dependence for everyday activities before the injury, pregnancy or breastfeeding, known allergy to any of MLC901 components.

MLC901 contains nine herbal components (0.114g radix Paeoniae rubrae, 0.57g radix Astragali, 0.114g radix Salviae miltiorrhizae, 0.114g rhizoma Chuanxiong

, 0.114g radix Angelicae sinensis, 0.114g radix Polygalae, 0.114g Prunus persica, 0.114g Carthamus tinctorius, and 0.114g rhizoma Acori tatarinowii) [10].

Patients were randomized to either MLC901 or placebo group with a simple allocation ratio of 1:1. Randomization was stratified based on age, gender, baseline and GCS. Patients received either MLC901 or visually indistinguishable placebo capsules (vegetable capsules that filled by less than 2 grams of stevia sweetened powder) for 6 months supply. The dose was two capsules (0.4g/ capsule) taken orally three times per day for 6 months. Patients were evaluated 3 month and 6 months after treatment initiation.

Outcome measures

Modified Rankin Scale (mRS) and Glasgow outcome scale (GOS) were utilized to examine participants at the baseline, 3 and 6-month follow-up visits. mRS is a widely used scale to determine the level of disability in patients with neurological disorders. It ranges between 0 and 6 with a higher score indicating a higher degree of disability [11] (Table 1). GOS is also another commonly used scale to evaluate patients with brain injuries such as TBI. This scale ranges between 1 and 5 with the highest score being the good recovery [12] (Table 1). All evaluations were conduct by medical staff who were unaware about randomization of patients in each group.

Table 1: Modified Rankin Scale (mRS) and Glasgow Outcome Scale (GOS) subscales.

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Statistical analysis

All statistical analysis was done by SPSS (version 16.0) software [Statistical Procedures for Social Sciences; Chicago, Illinois, USA] with the intention to treat approach. Descriptive data were reported as a mean± standard deviation for Continuous values and frequency for categorical values. Normal distributions of values were determined by the Kolmogorov-Smirnov test. Non-parametric data were compared using chi-square test. Kruskal-Wallis test was used to compare parametric data without normal distribution between two study groups. P values less than 0.05 were considered a statistically significant.

Ethical issues

Ethic committee of Shahid Beheshti University of Medical Science, Tehran, Iran approved all study protocols and written consent provided by each patient’s legal surrogate according to Helsinki Declaration and as permitted by local regulations. The protocol has been registered (ClinicalTrials.gov ID: NCT04487275). Patients who recovered with decision-making capacity were asked to consent to continue participating in the study.

Results

Table 2: Baseline characteristics.

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*Interval between injury and start of intervention.
ICU: intensive care unit.

Table 3: The modified Rankin Scale of patients with moderate and severe traumatic brain injury being treated with MLC901 vs. placebo.

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Table 4: The Glasgow Outcome Scale of patients with moderate and severe traumatic brain injury being treated with MLC901 vs. placebo.

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Figure 1: CONSORT flow diagram of the study.

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Totally 98 Patients recruited in this study. Seventeen patients were excluded from the study due to occurrence of MLC901 side effect (n=3), loss of follow-up (n=6), and death during hospitalization (n=8). The CONSORT flow diagram of the study is demonstrated in figure 1. Baseline patients’ characteristics, interval between injury and start of intervention, and length of intensive care unit (ICU) stay in both groups were not significantly different between the two study groups (Table 2). The comparison of mRS and GOS scores between the two groups are depicted in Tables 3 & 4.

Discussion

Our primary findings provide evidence that MLC901 helps in the recovery of patients with moderate to severe TBI. There were significant differences between the two groups in mRS and GOS scores at follow-up visits. Improvement of these two scales suggests the potential usefulness of MLC901 at 6 months period after injury. The brain is highly plastic following TBI and improvement in function can be observed over a year after initial injury, therefore, initiation of MLC901 during natural recovery period can facilitate this process. In our study, MLC901 was given within first 24 hours after TBI and it is likely that anti-inflammation and antioxidant properties of MLC901 have affected recovery in its initial phase and current evidence suggest the efficacy of these properties over the first-year post-injury [13,14].
Various studies showed effect of different medication on TBI based on mRS and GOS scores. Farzanegan et al, showed that, functional outcome scales of GOS, mRS and at 3-months post-injury were significantly better in patients with TBI who used atorvastatin in compare to placebo group [15]. In another study by Khalili et al, 3-months assessment of outcome by mRS and GOS showed no significant different in patients who received glibenclamide in compare with placebo group [16]. To the best of our knowledge, this is the first study evaluating the efficacy of MLC901 in moderate to severe TBI, consequently direct comparison of our findings to previous studies is not possible. However, there is one study that has reported the efficacy of MLC901 in mild to moderate TBI. In the study by Theadon et al, authors evaluated the efficacy of MLC901 on cognition in 78 patients suffering from mild to moderate TBI over 9 months and they used multiple questionnaires and scales to assess participants in 1 to 12 months after TBI. They reported significant improvements in complex attention and executive functioning. They also found that MLC901 has no advantage over placebo in terms of neurobehavioral sequelae, mood, fatigue, physical disability or overall quality of life. No serious adverse events were also reported [9]. Their findings are partially in line with the results of a current study in this way that MLC901 is an effective therapy for TBI regardless of its severity.

It is now well accepted that the functional recovery that occurs spontaneously after brain injury (stroke or TBI) is due to the plasticity of surviving neurons, lesion-induced plasticity, and/or plasticity of neural connections [17,18]. In the other hand, overall cellular remodeling that occurs after traumatic brain injury results to proliferation of newly generated cells [19]. Although there is a lack of clinical studies, experimental studies on TBI shows that both gliogenesis and neurogenesis induced by MLC901, probably help in inducing a dynamic brain remodeling and lead to a better neurologic recovery in the first weeks after TBI [18,19]. In animal model studies, Quintard et al. evaluated the neuroprotective and neuro regenerative effects of MLC901 in a rat model of TBI. In their study MLC901 inhibited the increase of S-100 beta and neuronspecific enolase in serum, that are possible predictor markers of neurologic outcome in patients with TBI. Also, they showed that probably regulation of aquaporin 4 by injection of MLC901 2 hour after TBI resulted to infarct volume reduction, prevented edema formation and assisted its resolution [20]. In addition, recently animal studies on focal and global ischemia have approved effects of MLC901 in increased neurogenesis, neurite outgrowth, axonal sprouting, dendritic arborization and/or synaptogenesis that are correlated with functional recovery [7,21].

Neuroprotective effects of MLC901 in ischemic brain injuries was suggested through activation of Toll-like receptor 4 (TLR4) signaling and inhibition of the expression of Prx6 and the transcriptional activity of NFκB which are main pathway in the immune system response to injury [10]. Quintard et al, also reported that in animal models of TBI, MLC901 effect around the lesion included vascular endothelial growth factor (VEGF) upregulation, hippocampal neurogenesis and gliogenesis [20]. Brain-derived neurotrophic factor (BDNF)and VEGF are well-known growth promoting factors that play a key role to support adaptive remodeling of surviving neurons and neural networks modulation in recovery process [22,23]. VEGF is an important tissue repair mediator after brain injury and has substantial role in angiogenesis [24]. In the other hand BDNF upregulation by MLC901 has been reported in brain injuries due to stroke and cardiac arrest [7,22,25]. It seems that increased expression of VEGF and BDNF is another positive effect of MLC901 that could be responsible for the findings that observed in this study.

The combination of multiple herbal components is thought to maximize therapeutic efficacy by facilitating synergistic actions and ameliorating or preventing potential adverse effects while at the same time aiming at multiple targets [22]. In the neuroinflammation study by Widman and Heurteaux list assumptions of molecules which may explain part of the effects [10,22]. In these different herbs that are extracted to manufacture MLC901, there are a number of recognized molecules such as ferulic acid ferulic acid (Radix angelicae sinensis, Rhizoma chuanxiong) [26], salvianolic acid B and tanshinone IIB (Radix salvia miltiorrhizae) [27-28] tetramethylpyrazine (Rhizoma chuanxiong) [29-30], ligustilide and butylidenephtalide (Radix angelicae sinensis, Rhizoma chuanxiong) [31-32], astralagoside IV (Radix astragali) [33], ligustilide and butylidenephtalide (Radix angelicae Sinensis, salvianolic acid B and tanshinone IIB (Radix salvia miltiorrhizae) that are identified for neurobeneficial and anti-inflammatory activity [10,23].

There are several strengths as well as limitations to our study. Recruitments of patients were challenging since their surrogates or patients mentioned taking capsules three times daily over 6 months as a hurdle to participate in the study and some suspect this many capsules could harm patients rather than help them in recovery. Probably, decreasing the daily dosage administration would help in participation and adherence of patients. Additionally, moderate to severe TBI is known to be related to cognitive deficits, therefore, aids to support memory may increase patient’s adherence and compliance. We used GOS to assess patient’s outcome. Recently is suggested that Glasgow Outcome Scale-Extended (GOSE) has priority to the GOS. GOSE in extended version of GOS that improve sensitivity of minor changes detection in functional activity [34]. Our study also suffers from a limited number of patients. Lack of patients self-reporting questionnaire is another issue with this study. We didn’t measure any neuroplasticity biomarkers in our patients, but it seems that measuring the neuroplasticity biomarkers in future studies could be useful to understand the underlying effects of MLC901 in TBI. We suggest, with the current promising result of the present study, more studies with a larger group of patients with different evaluation scales and longer duration of follow-up should be performed to draw a better conclusion.

Conclusion

This work provides evidence that MLC901 is an effective therapeutic approach in patients suffering from moderate to severe TBI. However further studies with more clinical and paraclinical assessments are suggested to evaluate different aspects of MLC901effectiveness in neurologic disease and particularly TBI.

Acknowledgments

None.

Conflict of Interest

None.


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