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    Basic Information

Technology developed: Sulfated Carboxymethylcellulose Functionalized Electrospun Fibers for Electrostatic Immobilization o (TP19769280531)
Category:
Details of Inventor(s):
Inventor Institution/Organization/Company Department Designation
Dhirendra S. Katti IIT Kanpur BSBE Professor
Sarang Bhutada IIT Kanpur BSBE BT-MT student
Sriram M IIT Kanpur BSBE PhD Student
Technical Application Area: Other
If 'Other', please specify:
Biomedical Engineering
Please give more details of new technical application area:
Organization(s):
Indian Institute of Technology (IIT) Kanpur
Affiliated Ministry: Ministry of Education
Type of technology development: Indigenous
Does the technology help in replacing any import items currently
procured from outside India?
Yes
Does the technology have export potential? Yes
Category of Technology developed: Immediate Deployment
Stage of Development: Field Test
Please describe in detail including the TRL Level:
Under Development

    Abstract:

Applications: Developed a multipurpose electrospun fiber-based system that immobilizes positively charged molecules through electrostatic interaction. This was achieved by covalently conjugating an anionic polysaccharide viz. sulphated carboxymethylcellulose (sCMC) to electrospun poly-(hydroxybutyrate) (PHB)/gelatin scaffold. The conjugated system successfully immobilized various cationic molecules like toluidine blue O, lysozyme and different cationic growth factors. Immobilized growth factors were retained on the system for long duration with their bioactivity preserved. The system was cytocompatible and demonstrated long-term functional and morphological stability. The system possesses potential to be used in various biomedical applications.
Advantages: Tissue engineering is a growing field which aims to regenerate or repair an injured tissue by using scaffold, cells and signaling cues either alone or in combination. The scaffold used in the invention is a fibrous scaffold fabricated using electrospinning which is well-known for its versatile nature. Current approaches of growth factor (GF) delivery using electrospun scaffolds are direct adsorption, physical encapsulation and conjugation of GF to the fibers. The innovation described here enables long term immobilization of cationic GFs on electrospun fibers using electrostatic interaction without adversely affecting GF stabilityoractivity.

    Technology Inputs:

Imported Equipment/Spare Parts:
Equipment/Spare Parts Year ITC-HS Code
NA
Indigenous Equipment/Spare Parts:
Equipment/Spare Parts Year ITC-HS Code
NA
Imported Raw Materials:
Raw Materials Year ITC-HS Code
NA
Indigenous Raw Materials:
Raw Materials Year ITC-HS Code
NA
Existing R&D Facilities used:
Facilities Year ITC-HS Code
NA

   Patents & Publications:

Patents:
Filed Patents (No.) Granted Patents (No.) Year
1 0 2020-21
Publications:
Submitted (No.) Published (No.) Year
0 1 2020-21

    Commercialization Potential:

Who are the Potential Licensees? Pandorum Technologies, Regrow Biosciences, The Electrospinning Company, Bioinicia, TissueTech, Inovenso
What commercially available products address
the same problem?
Company Product Problem Addressed
Would you like to develop this invention further with
corporate research support?
Yes
Would you be interested in participating in cluster based
programs for commercialization research or business
planning for your invention?
Yes
      Submitted by: J.G. Rao Date of Submission: 17-3-2023



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