Tag Archives: Paper and Fibre Research Institute

Preparing nanocellulose for eventual use in* dressings for wounds

Michael Berger writes about a medical application for wood-based nanocellulose in an April 10, 2014 Nanowerk Spotlight article by featuring some recent research from Norway (Note: Links have been removed),

Cellulose is a biopolymer consisting of long chains of glucose with unique structural properties whose supply is practically inexhaustible. It is found in the cell walls of plants where it serves to provide a supporting framework – a sort of skeleton. Nanocellulose from wood – i.e. wood fibers broken down to the nanoscale – is a promising nanomaterial with potential applications as a substrate for printing electronics, filtration, or biomedicine.

Researchers have now reported on a method to control the surface chemistry of nanocellulose. The paper appeared in the April 8, 2014 online edition of the Journal of Biomaterials Applications (“Pretreatment-dependent surface chemistry of wood nanocellulose for pH-sensitive hydrogels”).

Using a specific chemical pretreatment as example (carboxymethylation and periodate oxidation), a team from the Paper and Fibre Research Institute (PFI) in Norway demonstrated that they could manufacture nanofibrils with a considerable amount of carboxyl groups and aldehyde groups, which could be applied for functionalizing the material.

The Norwegian researchers are working within the auspices of PFI‘s NanoHeal project featured in my Aug. 23, 2012 posting. It’s good to see that progress is being made. From the Berger’s article,

A specific activity that the PFI researchers and collaborators are working with in the NanoHeal project is the production of an ultrapure nanocellulose which is important for biomedical applications. Considering that the nanocellulose hydrogel material can be cross-linked and have a reactive surface chemistry there are various potential applications.

“A concrete application that we are working with in this specific case is as dressing for wound healing, another is scaffolds,” adds senior research scientist and co-author Kristin Syverud.

“Production of an ultrapure nanocellulose quality is an activity that we are intensifying together with our research partners at the Institute of Cancer Research and Molecular Medicine in Trondheim,” notes Chinga-Carrasco [Gary Chinga-Carrasco, a senior research scientist at PFI]. “The results look good and we expect to have a concrete protocol for production of ultrapure nanocellulose soon, for an adequate assessment of its biocompatibility.”

“We have various groups working with assessment of the suitability of nanocellulose as a barrier against wound bacteria and also with the assessment of the cytotoxicity and biocompatibility,” he says. “However, as a first step we have intensified our work on the production of nanocellulose that we expect will be adequate for wound dressings, part of these activities are described in this paper.”

I suggest reading Berger’s article in its totality for a more detailed description of the many hurdles researchers still have to overcome. For the curious, here’s a link to and a citation for the paper,

Pretreatment-dependent surface chemistry of wood nanocellulose for pH-sensitive hydrogels by Gary Chinga-Carrasco & Kristin Syverud. Published online before print April 8, 2014, doi: 10.1177/0885328214531511 J Biomater Appl April 8, 2014 0885328214531511

This paper is behind a paywall.

I was hoping to find someone from this group in the list of speakers for 2014 TAPPI Nanotechnology conference website here (officially known as 2014 TAPPI [Technical Association of the Pulp and Paper Industry] International Conference on Nanotechnology for Renewable Materials) being held in Vancouver, Canada (June 23-26, 2014) but had no luck.

* ‘as’ changed to ‘in’ Apr.14.14 10:50 am PDT in headline