A new water-soluble bactericidal agent for the treatment of polymicrobial infections

Presentato, Alessandro; Piacenza, Elena; Scurria, A; Albanese, Lorenzo; Zabini, Federica; Meneguzzo, Francesco; Nuzzo, Domenico; Pagliaro, Mario; Dc, Martino; Alduina, Rosa; Ciriminna, Rosaria

doi:10.20944/preprints202008.0106.v1

Cited by 21 publications

(9 citation statements)

References 59 publications

(93 reference statements)

Supporting

Mentioning

Contrasting

Order By: Relevance

“…Figure 4 shows that all the typical FTIR absorption bands of pectin and cellulose are observed for each film, with the broad signal of O-H stretching mode at 3275 cm −1 broad signal In agreement with the FTIR spectrum of grapefruit IntegroPectin, 24 also the composite grapefruit IntegroPectin/CytroCell films showed one large ns(C=O) stretching mode signal centered at ~1716 cm −1 of carboxylate groups and another at ~1600 cm −1 due to νas(COO -). 28 Added to water, the films do not dissolve and only moderately swell after several days of immersion in water (Figure 5), eventually leaching in solution most water-soluble adsorbed molecules.…”

Section: Resultssupporting

confidence: 80%

“…In the case of grapefruit IntegroPectin/CytroCell films, cellulose depolymerization takes place at ~400-405 °C. We ascribe the ability of the IntegroPectin polymeric chains to protect and stabilize the incorporated cellulose fibrils to the strong hydrogen bonds forming between the free carboxylic acid groups of low esterified grapefruit IntegroPectin (degree of esterification of 14%) 24 and the grapefruit CytroCell cellulose fibrils consisting of highly ramified microfibrils with diameter ranging from 500 nm to 1000 nm. 19 The DSC thermograms of all films show a broad endothermic curve within the whole temperature range studied.…”

Section: Resultsmentioning

confidence: 99%

See 1 more Smart Citation

CytroCell micronized cellulose enhances the structural and thermal properties of IntegroPectin cross-linked films

Scurria

Pagliaro

Pantaleo

et al. 2022

Preprint

Self Cite

View full text Add to dashboard Cite

Added to grapefruit IntegroPectin in solution the micronized cellulose CytroCell, co-product of the IntegroPectin extraction via hydrodynamic cavitation, enhances the structural and thermal properties of the resulting cross-linked composite films. The films become strong but remain highly flexible as no transition glass temperature is observed, whereas the thermal properties are substantially improved. No organic solvent, acid or base is used from the extraction of the new pectin and cellulose biopolymers through filming their nanocomposites, thereby establishing a completely green route to a new class of biobased 2D films (and 3D scaffolds) with numerous potential application in regenerative medicine, tissue engineering and in the treatment of infections.

show abstract

Section: Resultssupporting

confidence: 80%

Section: Resultsmentioning

confidence: 99%

CytroCell micronized cellulose enhances the structural and thermal properties of IntegroPectin cross-linked films

Scurria

Pagliaro

Pantaleo

et al. 2022

Preprint

Self Cite

View full text Add to dashboard Cite

show abstract

“…This, once again, is due to the adsorption and concentration process taking place during the HC-based extraction process followed by freezedrying of the aqueous extract rich in flavonoids released into the aqueous phase most likely with pectin acting as emulsifying agent. For comparison, the overall amount of polyphenols found in grapegruit IntegroPectin, a powerful and broad-scope antibacterial agent, 6 was about 75 mg/g. 29 The high amount of naringin (47.16 mg/g), about half of that found in grapefruit IntegroPectin (73.66 mg/g), imparts the bitter taste to C. aurantium due to the sugar neohesperidose, in contrast to rutinose of hesperidin that causes these flavanones to have a neutral taste.…”

Section: Biophenolsmentioning

confidence: 99%

“…4 The process has been subsequently extended to other citrus processing biowastes, including those of lemon 5 and grapefruit. 6 Invariably, the citrus pectin thereby obtained contained large amounts of citrus flavonoids and terpenes, with a uniquely low DE of these pectins readily isolated after the HC-based extraction via freeze-drying. Accordingly, we dubbed "IntegroPectin" these whole citrus pectins to differentiate them from conventional citrus pectin industrially extracted via conventional acid hydrolysis of citrus or apple juice processing waste.…”

Section: Introductionmentioning

confidence: 99%

Red Orange and Bitter Orange IntegroPectin: Structure and Main Functional Compounds

Scurria

Sciortino²,

García

et al. 2022

Preprint

Self Cite

View full text Add to dashboard Cite

DRIFT, HPLC-MS and SPME-GC/MS analyses used to unveil the structure and the main functional compounds of red (blood) orange (Citrus sinensis) and bitter orange (Citrus aurantium) IntegroPectin show evidence that these new citrus pectins are comprised of pectin rich in RG-I hairy regions functionalized with citrus biophenols, chiefly flavonoids, and volatile molecules, mostly terpenes. Remarkably, IntegroPectin from the peel of fresh bitter oranges is the first high methoxyl citrus pectin isolated so far via hydrodynamic cavitation, whereas red orange IntegroPectin is a low methoxyl pectin. C. aurantium IntegroPectin has a uniquely high concentration of adsorbed flavonoids, especially flavanone glycosides hesperidin, naringin and eriocitrin.

show abstract

“…[15] Recently, for example the broad-scope antibacterial activity of a new citrus pectin ("IntegroPectin") obtained from lemon and grapefruit processing waste via hydrodynamic cavitation has been demonstrated in vitro, suggesting the origins of said enhanced antimicrobial activity. [16] "Tremendous progress in our understanding of the very complex fine structure of pectic polymers" wrote in 2006 researchers at a large pectin manufacturer, allow producers "to develop a new generation of sophisticated designer pectins with specific functionalities". [17] In this study, we offer a unified perspective on the new science and technology of pectin.…”

mentioning

confidence: 99%

Pectin: New Science and Forthcoming Applications of the Most Valued Hydrocolloid

Ciriminna¹,

Fidalgo²,

Scurria³

et al. 2021

Preprint

Self Cite

View full text Add to dashboard Cite

From new understanding of pectin molecular structure and physiological effects on man up to new production methods and new applications, significant new knowledge of pectin has emerged in the last two decades (2010-2020). These developments open the route to new and unexpected applications of this uniquely complex heteropolysaccharide ubiquitous in plants and fruits well beyond its traditional use as food hydrocolloid. This study provides a unified perspective on the new science and technology of pectin. Furthermore, we offer an insight into forthcoming pectin uses from an expanded perspective taking into account selected technology and economic factors that, we argue in this study, will shortly impact the pectin production and uptake in many countries.

show abstract

A new water-soluble bactericidal agent for the treatment of polymicrobial infections

Cited by 21 publications

References 59 publications

CytroCell micronized cellulose enhances the structural and thermal properties of IntegroPectin cross-linked films

CytroCell micronized cellulose enhances the structural and thermal properties of IntegroPectin cross-linked films

Red Orange and Bitter Orange IntegroPectin: Structure and Main Functional Compounds

Pectin: New Science and Forthcoming Applications of the Most Valued Hydrocolloid

Contact Info

Product

Resources

About