. 2021 Mar 3;13(3):324.

doi: 10.3390/pharmaceutics13030324.

Development and Characterization of Xanthan Gum and Alginate Based Bioadhesive Film for Pycnogenol Topical Use in Wound Treatment

Affiliations

¹ Department of Pharmaceutical Sciences, University of Perugia, 06123 Perugia, Italy.
² Civil and Environmental Engineering Department, University of Perugia, 05100 Terni, Italy.
³ Department of Physics and Geology, University of Perugia, 06123 Perugia, Italy.
⁴ Istituto Zooprofilattico dell'Umbria e delle Marche, 06126 Perugia, Italy.
⁵ Department of Pharmacy and Pharmaceutical Technology, Faculty of Pharmacy, University of Granada, Campus of Cartuja, 18071 Granada, Spain.
⁶ Department of Chemistry, College of Science and Technology, Temple University, Philadelphia, PA 19122, USA.

PMID: 33802607
PMCID: PMC8002000
DOI: 10.3390/pharmaceutics13030324

Development and Characterization of Xanthan Gum and Alginate Based Bioadhesive Film for Pycnogenol Topical Use in Wound Treatment

Cinzia Pagano et al. Pharmaceutics. 2021.

. 2021 Mar 3;13(3):324.

doi: 10.3390/pharmaceutics13030324.

Affiliations

¹ Department of Pharmaceutical Sciences, University of Perugia, 06123 Perugia, Italy.
² Civil and Environmental Engineering Department, University of Perugia, 05100 Terni, Italy.
³ Department of Physics and Geology, University of Perugia, 06123 Perugia, Italy.
⁴ Istituto Zooprofilattico dell'Umbria e delle Marche, 06126 Perugia, Italy.
⁵ Department of Pharmacy and Pharmaceutical Technology, Faculty of Pharmacy, University of Granada, Campus of Cartuja, 18071 Granada, Spain.
⁶ Department of Chemistry, College of Science and Technology, Temple University, Philadelphia, PA 19122, USA.

PMID: 33802607
PMCID: PMC8002000
DOI: 10.3390/pharmaceutics13030324

Abstract

Pycnogenol (PYC) is a concentrate of phenolic compounds derived from French maritime pine; its biological activity as antioxidant, anti-inflammatory and antibacterial suggests its use in the treatment of open wounds. A bioadhesive film, loaded with PYC, was prepared by casting, starting with a combination of two biopolymer acqueous solutions: xanthan gum (1% wt/wt) and sodium alginate (1.5% wt/wt), in a 2.5/7.5 (wt/wt) ratio. In both solutions, glycerol (10% wt/wt) was added as plasticizing agent. The film resulted in an adhesive capable to absorb a simulated wound fluid (~ 65% wt/wt within 1 h), therefore suitable for exuding wounds. The mechanical characterization showed that the film is deformable (elastic modulus E = 3.070 ± 0.044 MPa), suggesting adaptability to any type of surface and resistance to mechanical solicitations. PYC is released within 24 h by a sustained mechanism, achieving a maximum concentration of ~ 0.2 mg/mL, that is safe for keratinocytes, as shown by cytotoxicity studies. A concentration of 0.015 mg/mL is reached in the first 5 min after application, at which point PYC stimulates keratinocyte growth. These preliminary results suggest the use of PYC in formulations designed for topical use.

Keywords: bioadhesion; hydrogel film; pycnogenol; sodium alginate; wounds; xanthan gum.

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Conflict of interest statement

The authors declare no conflict of interest.

Figures

**Figure 1**
TGA and DTA profiles of film A and film B (n = 3).

**Figure 2**
Stress- strain curved of film A (red line) and film B (black line), (n = 5).

**Figure 3**
Micrographs of the surface for film A (A,B) and film B (D,E); thickness of film A (C) and film B (F) (n = 3).

**Figure 4**
Hydration capacity (A) and erosion matrix (B) of film A (blue diamonds) and film B (red squares) (n = 3); * p > 0.05.

**Figure 5**
Micrographs of the surface of film A-loaded (A,B) and film B-loaded (D,E) and thickness of film A-loaded (C) and film B-loaded (F) (n = 3).

**Figure 6**
Micrographs of the sections of film A (A,B) and film B (C); (n = 3).

**Figure 7**
TGA (A) and DTG (B) curves of film A-loaded and film B-loaded (n = 3).

**Figure 8**
Stress-strain curves of loaded films (A) and loaded and unloaded film A and B (B) (n = 5).

**Figure 9**
In vitro release profiles obtained from plotting concentration (A) vs film A-loaded time and % released (B) vs time (n = 3).

**Figure 10**
Viability measured in vitro on HaCaT cells for different PYC concentrations (0.015–1.335 mg/mL). CTR, untreated cells in DMEM were set at 100%. DMSO in three different percentages (1%, 2% and 4%) as positive controls (n = 3).

**Figure 11**
Pictures of scratch test performed on untreated HaCat cells (CTR) and treated with two different PYC concentrations 0.015 mg/mL and 0.030 mg/mL (n = 2).

See this image and copyright information in PMC

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Development and Characterization of Xanthan Gum and Alginate Based Bioadhesive Film for Pycnogenol Topical Use in Wound Treatment

Affiliations

Development and Characterization of Xanthan Gum and Alginate Based Bioadhesive Film for Pycnogenol Topical Use in Wound Treatment

Authors

Affiliations

Abstract

Conflict of interest statement

Figures

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