Review

. 2023 Apr 6;15(7):1801.

doi: 10.3390/polym15071801.

Microbial Exopolysaccharide Composites in Biomedicine and Healthcare: Trends and Advances

Vishal Ahuja^{1

2}, Arvind Kumar Bhatt³, J Rajesh Banu⁴, Vinod Kumar⁵, Gopalakrishnan Kumar⁶, Yung-Hun Yang^{7

8}, Shashi Kant Bhatia^{7

8}

Affiliations

¹ University Institute of Biotechnology, Chandigarh University, Mohali 140413, Punjab, India.
² University Centre for Research & Development, Chandigarh University, Mohali 140413, Punjab, India.
³ Department of Biotechnology, Himachal Pradesh University, Shimla 171005, Himachal Pradesh, India.
⁴ Department of Life Sciences, Central University of Tamil Nadu, Thiruvarur 610005, Tamil Nadu, India.
⁵ Centre for Climate and Environmental Protection, School of Water, Energy and Environment, Cranfield University, Cranfield MK43 0AL, UK.
⁶ Institute of Chemistry, Bioscience and Environmental Engineering, Faculty of Science and Technology, University of Stavanger, P.O. Box 8600 Forus, 4036 Stavanger, Norway.
⁷ Department of Biological Engineering, College of Engineering, Konkuk University, Seoul 05029, Republic of Korea.
⁸ Institute for Ubiquitous Information Technology and Applications, Seoul 05029, Republic of Korea.

PMID: 37050415
PMCID: PMC10098801
DOI: 10.3390/polym15071801

Review

Microbial Exopolysaccharide Composites in Biomedicine and Healthcare: Trends and Advances

Vishal Ahuja et al. Polymers (Basel). 2023.

. 2023 Apr 6;15(7):1801.

doi: 10.3390/polym15071801.

Authors

Vishal Ahuja^{1

2}, Arvind Kumar Bhatt³, J Rajesh Banu⁴, Vinod Kumar⁵, Gopalakrishnan Kumar⁶, Yung-Hun Yang^{7

8}, Shashi Kant Bhatia^{7

8}

Affiliations

¹ University Institute of Biotechnology, Chandigarh University, Mohali 140413, Punjab, India.
² University Centre for Research & Development, Chandigarh University, Mohali 140413, Punjab, India.
³ Department of Biotechnology, Himachal Pradesh University, Shimla 171005, Himachal Pradesh, India.
⁴ Department of Life Sciences, Central University of Tamil Nadu, Thiruvarur 610005, Tamil Nadu, India.
⁵ Centre for Climate and Environmental Protection, School of Water, Energy and Environment, Cranfield University, Cranfield MK43 0AL, UK.
⁶ Institute of Chemistry, Bioscience and Environmental Engineering, Faculty of Science and Technology, University of Stavanger, P.O. Box 8600 Forus, 4036 Stavanger, Norway.
⁷ Department of Biological Engineering, College of Engineering, Konkuk University, Seoul 05029, Republic of Korea.
⁸ Institute for Ubiquitous Information Technology and Applications, Seoul 05029, Republic of Korea.

PMID: 37050415
PMCID: PMC10098801
DOI: 10.3390/polym15071801

Abstract

Microbial exopolysaccharides (EPSs), e.g., xanthan, dextran, gellan, curdlan, etc., have significant applications in several industries (pharma, food, textiles, petroleum, etc.) due to their biocompatibility, nontoxicity, and functional characteristics. However, biodegradability, poor cell adhesion, mineralization, and lower enzyme activity are some other factors that might hinder commercial applications in healthcare practices. Some EPSs lack biological activities that make them prone to degradation in ex vivo, as well as in vivo environments. The blending of EPSs with other natural and synthetic polymers can improve the structural, functional, and physiological characteristics, and make the composites suitable for a diverse range of applications. In comparison to EPS, composites have more mechanical strength, porosity, and stress-bearing capacity, along with a higher cell adhesion rate, and mineralization that is required for tissue engineering. Composites have a better possibility for biomedical and healthcare applications and are used for 2D and 3D scaffold fabrication, drug carrying and delivery, wound healing, tissue regeneration, and engineering. However, the commercialization of these products still needs in-depth research, considering commercial aspects such as stability within ex vivo and in vivo environments, the presence of biological fluids and enzymes, degradation profile, and interaction within living systems. The opportunities and potential applications are diverse, but more elaborative research is needed to address the challenges. In the current article, efforts have been made to summarize the recent advancements in applications of exopolysaccharide composites with natural and synthetic components, with special consideration of pharma and healthcare applications.

Keywords: EPS composites; biopolymers; exopolysaccharides; food; healthcare.

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Conflict of interest statement

The authors declare no conflict of interest.

Figures

**Figure 1**
Exopolysaccharide composites with natural and synthetic polymers and their application in the health sector.

**Figure 2**
Microbial production of EPS using waste, and its recovery.

**Figure 3**
Composite scaffold prepared from different exopolysaccharides (A). Xanthan gum–gelatin [51]; (B). Xanthan gum–Konjac glucomannan [52]; (C). Alginate–gellan gum composites [53] and (D). Composite methacrylated gellan gum [54].

**Figure 4**
Preparation of antimicrobial coatings with dextran, thyme essential oil, magnesium salt, and hydroxyapatite, as suggested by Iconaru et al. [67].

**Figure 5**
3D scaffold prepared with xanthan gum and poly(3,4-ethylenedioxythiophene), as described by del Agua et al. [95].

See this image and copyright information in PMC

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Microbial Exopolysaccharide Composites in Biomedicine and Healthcare: Trends and Advances

Affiliations

Microbial Exopolysaccharide Composites in Biomedicine and Healthcare: Trends and Advances

Authors

Affiliations

Abstract

Conflict of interest statement

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