ABSTRACT
Cardiovascular disease (CVD) is the leading cause of death worldwide (WHO, 2017). In addition to the global and national morbidity and mortality burdens of the disease, it imposes a substantial economic burden on society. The American heart association predicts that by 2035, 45% of Americans will suffer from CVD with costs expected to reach $1.1 trillion annually. Clinical trials have demonstrated that a nut-containing diet low in saturated fat and cholesterol, while high in poly and monounsaturated fatty acids has a beneficial effect on plasma lipids and lipoproteins when compared with either a low fat or average American diet. Other bioactive compounds present in walnuts, including micronutrients, fiber, and phytochemicals, may also contribute to their cardio protective effect by reducing inflammation, improving vascular reactivity, and lowering oxidative stress. It has been demonstrated that the consumption of walnuts resulted in significant reduction in body mass index (BMI), percentage of body fat, increased lean body mass and an increased amount of water in the body. A large population cohort study also demonstrated a marked reduction in body weight and other anthropometric parameters in people on regular consumption of walnuts.
ABSTRACT
Background: Parkinson’s disease (PD) is typically characterised by motor shortfalls. However, non-motor symptoms like mood disorders (anxiety, depression) and impaired cognition are also associated features. Previous studies have demonstrated a neuroprotective effect a plant against a disease. Consequently, this current study was focused on assessing its efficacy in extenuating non-motor shortfalls such as anxiety-like behaviour and impaired cognition induced by rotenone. Methods: PD was induced in rats by administering rotenone (10 mg/kg BW orally) for 28 days. The vehicle and the test drug were given orally daily for one hour prior to rotenone administration. The protective effect of methanol extract of A. viridis (500 mg/kg BW) was assessed through an array of tests; elevated plus maze test, Morris water maze test, and novel object recognition test. The rats were sacrificed on day 28th and neurobiochemical analyses of the hippocampus were performed using HPLC. Results: The findings of this study showed that co-administration of A. viridis reversed the rotenone-induced anxiety-like behaviour and cognitive shortfalls to a significant extent (p<0.001). It also restored the hippocampal neurotransmitters [(5-hydroxytryptamine (5-HT), 5-hydroxy indole acetic acid (5-HIAA), and dopamine (Da)] significantly (p<0.001). Conclusions: Amaranthus viridis offered neuroprotective effects that ameliorate non-motor symptoms in PD. This could be a novel insight into the therapy of PD. This study provides scientific evidence that A. viridis attenuates non-motor symptoms like anxiety-like behaviour and cognitive deficits in Parkinsonism. This extract can be a potential candidate in herbal formulations as a neuroprotectant against PD.