Application of FT-IR Spectroscopy for Fingerprinting Bioactive Molecules in a Nutraceutical PROMEN, comparatively with Plantingredients

The aim of this study is to characterize and identify the main biomarkers of food supplement PROMEN by analysis of plant ingredients comparatively with the final product. Alcoholic extracts of plants were prepared at 15% plant content and purified fractions were analyzed by FTIR screening. The fingerprint region (1000 to 1500 cm-1) indicated the presence of specific functional groups to identify and monitor the phenolic derivatives

Untargeted LC-QTOF (ESI +) MS Analysis of Small Serum Metabolites Related to Prostate Cancer and Prostate Specific Antigen

Prostate cancer has an increasing incidence and there is an urgent need for development of new serum biomarkers for early diagnostic as the ones known are ineffective. The aim of the study was to use untargeted metabolomics in order to identify and characterize small metabolite fingerprints in patients with normal vs pathologic values of PSA ( previously determined by electrochemiluminiscence). A cohort of one hundred patients with different Prostate Specific amtigen values were investigated by untargeted metabolomics. The serum small metabolite profile determined by high performance liquid chromatography coupled with mass spectrometry, LC-QTOF(ESI+)MS in order to identify specific biomarkers, for normal patient group (PSA = 0-4 ng.ml) and four pathologic groups, having PSA values from 4 to >1000 ng/ml. The major molecules identified in the samples were polar phospholipids, maily lysophosphatidyl choline derivatives, having m/z values from 496 to 524, like LPC(O-16:0/O-1:0), LPC(18:1/2:0) or PS(18:1(9Z)/0:0), LPC(18:2(9Z,12Z)/0:0 and their isomers and  LPC(O-18:1(11Z)/2:0), respectively. Also, small molecules (free fatty acids and prostaglandin derivatives) were identified and are significantly different in pathologic vs normal serum samples. Generally the pathologic samples had increased concentrations of all above mentioned molecules. The Principal Component analysis showed , by plot and loadings scores, significant clustering of normal vs pathological groups

HPLC-UV Analysis Coupled with Chemometry to Identify Phenolic Biomarkers from Medicinal Plants, used as Ingredients in Two Food Supplement Formulas

. High performance liquid chromatography (HPLC) with UV detection is nowadays the reference method to identify and quantify the biomarkers of quality and authenticity of plants and food supplements. Seven medicinal plants were collected from wild flora: Taraxacum officinalis (1), Cynara scolimus (2), Silybum marianum (3), Hypericum perforatum (4),  Chelidonium majus (5), Lycopodium clavatum (6) and  Hippophae rhamnoides (7)  leaves and fruits.  Two products (A and B) were obtained by mixing individual plant powders. Therefore product A was obtained by mixing dandelion, artichoke and milk thistle, 1:1:1 while product B by mixing St John’s wort, Celandine and Wolf’s claw, 1:1:1. The methanolic extracts of individual plants as well as three different extracts of products A and B (using acidulated water, neutral water and acidulated methanol) were analyzed using HPLC-UV for their phenolics’ fingerprint and composition. The qualitative (untargeted analysis) and quantitative (targeted analysis) results were further compared using Principal Component Analysis (PCA) in order to identify their specific biomarkers. Thus, quantitative evaluation of individual phenolics in case of individual plants and products A and B extracts, showed specific and significant differences of composition. Both products A and B contained elagic acid as major compound. For product A, good biomarkers were trans-cinnamic, chlorogenic, caffeic and p-coumaric acids, as well silymarin and silibine originating from milk thistle. For product B, good biomarkers were quercetin and kaempherol, gallic and protocatecuic acids, this product being rich in flavonoids. In conclusion, HPLC-UV coupled with PCA analysis proved to be a rapid and useful way to identify the main biomarkers of plants’ authentication, as well of final products’ quality and safety

Comparative Fingerprint of Aromatic Herbs and Yeast Alcoholic Extracts used as Ingredients for Promen, a Prostate Preventive Nutraceutical

The aim of this study was to characterize and identify different bioactive compounds in plant sources and yeast powders  to obtain an original nutraceutical (Promen) which has beneficial effects in prostate disease prevention. Seven plant and fruit sources, namely nettle (Urtica dioica), green tea (Camellia sinensis), fluff with small flowers (Epilobium parviplorum), tomato (Solanum licopersicum),  sea buckthorn (Hippophae rhamnoides), pumpkin (Cucurbita maxima), sunflower (Helianthus annus) and lyophilized beer yeast (Saccharomyces cerevisiae) were investigated. Methanolic extracts were prepared using 15% plant concentration and the purified fractions were analyzed using high throughput techniques like UV-VIS spectroscopy, high performance liquid chromatography coupled with photodiode array detection (HPLC-DAD) and mass spectrometry LC-QTOF -MS. The majority of the investigated plants were rich in phenolic derivatives, polyphenols (flavonoid glucosides), while yeast was rich in aminoacids, peptides and vitamins B. The major compounds identified were: Juglone, Resveratrol, Quercetin, Epigallocatechin, Gallocatechin, Biochanin A, Isorhamnetin 3-O-glucoside 7-O-rhamnoside, Quercetin 3-O-galactoside 7-O-rhamnoside, Kaempferol 3,7-O-diglucoside and p-Coumaroylquinic acid. The specific biomarkers were identified for both plant extracts used as ingredients to obtain an nutraceutical  Promen. Combined UV-Vis spectroscopy, HPLC-PDA chromatography and LC-MS spectrometry are recommended as accurate, sensible and reliable tools to investigate the plants and nutraceutical fingerprints and to predict the relation between ingredients composition and their health effects

Characterisation of an Aromatic Plant-based Formula using UV-Vis Spectroscopy, LC-ESI(+)QTOF-MS and HPLC-DAD Analysis

Abstract. It is known for a long time that seasoning/condimentary herbs have antioxidant activity and antibacterial properties, being good natural alternatives for disease prevention. The different efficiency of these plants is assigned to their bioactive molecules, stability and bioavailability. In the present study seven aromatic herbs (basil, thyme, oregano, rosemary, clove, cinnamon and sage) were investigated individually. A new product was developed using basil, thyme, oregano, rosemary, clove, cinnamon and sage, according to a default recipe. The characterization of each plant aimed to identify the specific “fingerprint†by its main bioactive molecules and the “traceability†of these molecules in the new product, made by mixing the selected plants according to a default recipe. In order to determine the main bioactive compounds of the individual plants composition, in comparison with the new plant-based (EPC) formula, high throughput techniques like UV-Vis spectroscopy and LC-QTOF-MS  spectrometry were used. The most important bioactive compounds determined in the studied herbs, which may exert antioxidant activity and antibacterial properties, were phenolic compounds (phenolic acids, flavonoids), quinones, clorophylls as well some polar terpenoids. The fingerprints are providing comprehensive and accurate information about the compounds that may exert antimicrobial properties. In order to assure the biological effects and the bioavailability of the polyphenols and the secondary metabolites we have to consider the antagonistic and synergistic effect that the metabolites can exert on each other

Comparative Phenolic Fingerprint and LC-ESI+QTOF-MS Composition of Oregano and Rosemary Hydrophilic Extracts in Relation to their Antibacterial Effect

Rosemary (Rosmarinus officinalis) and oregano (Origanum vulgare) are known aromatic plants used as spice, with good flavoring, preservative, antioxidant and antibacterial activity. Beside their known terpenoid content responsible for the antibacterial activity, the water-soluble compounds (phenolic derivatives) are of high interest not only for their antioxidant activity but as a good alternative or as a hydrophilic new antibacterial solution. Two hydrophilic extracts from each plant were obtained (15% plant in hot water) and the phytochemicals were fingerprinted by UV-Vis and FTIR spectrometry and quantified. The total phenolic content was higher in case of oregano (54.2 mg GAE/g DW) comparing to rosemary (54.25 vs 15.35 mg GAE/g dry matter). By LC-ESI+QTOF-MS analysis there were identified mainly, in both extracts, flavonoid and diterpene derivatives, mainly carnosol, carnosic acid, rosmarinic acid, kaempferol 3-O-glucuronide. Other flavonoid glucuronides were more specific to one or the other plant, e.g. Luteolin 3'-(4''-acetylglucuronide) for rosemary and Apigenin 7-O-glucuronide for oregano. Water favorized increased extraction of flavonoid derivatives and soluble diterpenes, but not non-soluble  terpenes. The antibacterial activity of both extracts was tested against B.cereus, L. monocytogenes, Salmonella, S. aureus and E.coli. Both oregano and rosemary extracts showed a slight antibacterial activity, which can be related to the low concentration of terpenoids, known to have the most important antibacterial activity in these plants. Nevertheless, the antibacterial activity seems to be strain dependent, Bacillus cereus being the most sensitive bacterial strain comparing with the other four bacteria, the oregano extract having a slightly superior activity comparing to the rosemary extract

Theoretical consideration regarding the contaminated soil

This artice represent a small review of the main methods for decontamination of soil infected with toxic chemicals. Are presented several methods such as: isolation of contaminated area, separation methods, electrochemical methods, phytoremediation and photocatalytic remediation of soil contaminated with toxic chemicals

A multi-disciplinary approach to the diagnosis and management of allergic diseases:An EAACI Task Force

Background: Guidelines for management of patients with allergic conditions are available, but the added value of nurses, allied healthcare professionals (AHPs), and general practitioners (GPs), in the management of allergic disease, has not been fully clarified. The European Academy of Allergy and Clinical Immunology (EAACI) appointed a task force to explore this issue. Aim To investigate the added value of nurses, AHPs, and GPs in management of allergic diseases, in an integrated model of care. Methods: A search was made of peer-reviewed literature published between 2010 and December 2020 (Cochrane Library, PubMed, and CINAHL) on the involvement of the various specific healthcare providers (HCPs) in the management of allergic diseases. Results: Facilitative models of care for patients with allergies can be achieved if HCP collaborates in the diagnosis and management. Working in multi-disciplinary teams (MDT) can increase patients' understanding of the disease, adherence to treatment, self-care capabilities, and ultimately improve quality of life. The MDT competencies and procedures can be improved and enhanced in a climate of mutual respect and shared values, and with inclusion of patients in the planning of care. Patient-centered communication among HCPs and emphasis on the added value of each profession can create an effective integrated model of care for patients with allergic diseases. Conclusion: Nurses, AHPs, and GPs, both individually and in collaboration, can contribute to the improvement of the management of patients with allergic disease. The interaction between the HCPs and the patients themselves can ensure maximum support for people with allergies

Comparisons Between Tridentate Bis(benzazoles)-pyridine and Bis(benzazoles)triazine Ligands: a Theoretical Study

Twelve bis(benzazole) structures with potential ligand character were investigated by means of computational chemistry. Global and local reactivity descriptors within DFT (Density Functional Theory) theory (Fukui functions, chemical potential, hardness, electrophilicity index) have been computed at B3LYP/6-31G(d,p) level of theory. NICS(0) (Nucleus Independent Chemical Shift) index computations were employed for the evaluation of the local aromatic character of each heterocyclic moiety. Best results have been reported for the bis(benzimidazole) derivatives. Copper and zinc complexes of the investigated tridentate ligands have been proposed