Improved Cardiovascular Effects of a Novel Pomegranate Byproduct Extract Obtained through Hydrodynamic Cavitation.
Giada BenedettiLorenzo FloriJacopo SpezziniVincenzo MiragliottaGiulia LazzariniAndrea PironeCosimo MeneguzzoLuca TagliaventoAlma MartelliMichele AntonelliDavide DonelliCecilia FaraloniVincenzo CalderoneFrancesco MeneguzzoLara TestaiPublished in: Nutrients (2024)
The healthy properties of pomegranate fruit, a highly consumed food, have been known for a long time. However, the pomegranate supply chain is still rather inefficient, with the non-edible fraction, whose weight is roughly half the total and is endowed with plenty of valuable bioactive compounds, either disposed of or underutilized. A novel extract obtained from non-edible byproducts (called PPE), using hydrodynamic cavitation, a green, efficient, and scalable technique, was investigated for its cardiovascular effects in vivo. PPE showed efficacy in an acute phenylephrine (PE)-induced hypertensive rat model, similar to the extract of whole fruit (PFE) obtained using the same extractive technique, along with good intestinal bioaccessibility after oral administration. Finally, when chronically administered for 6 weeks to spontaneously hypertensive rats, PPE was shown to significantly contain the increase in systolic blood pressure, comparable to the reference drug Captopril, and at a dose remarkably lower than the reported effective dose of ellagic acid. The extract from the non-edible fraction of the pomegranate fruit also showed good anti-inflammation and anti-fibrotic effects. The findings of this study, along with the extraction technique, could contribute to enhancing the value of the pomegranate supply chain, relieve the related environmental burden, and potentially improve public health.
Keyphrases
- blood pressure
- oxidative stress
- public health
- drug induced
- anti inflammatory
- diabetic rats
- heart failure
- hypertensive patients
- body mass index
- physical activity
- liver failure
- drinking water
- left ventricular
- idiopathic pulmonary fibrosis
- high resolution
- type diabetes
- high glucose
- aortic dissection
- metabolic syndrome
- weight gain
- skeletal muscle
- respiratory failure
- body weight
- gestational age
- hepatitis b virus
- insulin resistance
- single molecule
- heavy metals
- mass spectrometry
- intensive care unit
- health risk assessment
- atomic force microscopy