Derby Group

Vietnam Cycle Ride

Not too long ago we heard of the sad news of Matt Barwick passing away after suffering from brain cancer. Matt completed his PhD in the School of Materials and was married to Oriel Barwick nee Goodman, who was a former member of the Derby Group. Oriel’s Phd work characterised damage on glass surfaces using SAM and nanoindentation. Oriel will be cycling around Vietnam to raise money for the hospice that looked after Matt during his final days. Please donate generously!

http://www.justgiving.com/orielandcaroline

Oriel using the Scanning Acoustic Microscope during her PhD

Tags: hospice, matt barwick, oriel goodman, vietnam

Nanoindentation of Histological Specimens

Our work using nanoindentation to characterise the micromechanical properties of blood vessels has been published in this month’s special issue of Journal of Materials Research: Indentation Methods in Advanced Materials Research. The reference and abstract are below:

“Nanoindentation of histological specimens: Mapping the elastic properties of soft tissues”. R. Akhtar, N. Schwarzer, M.J. Sherratt, R.E.B. Watson, H.K. Graham, A.W. Trafford, P.M. Mummery, B. Derby, J. Mat. Res. 24, 638-646 (2009).

Although alterations in the gross mechanical properties of dynamic and compliant tissues have a major impact on human health and morbidity, there are no well-established techniques to characterize the micromechanical properties of tissues such as blood vessels and lungs. We have used nanoindentation to spatially map the micromechanical properties of 5 µm thick sections of ferret aorta and vena cava and to relate these mechanical properties to the histological distribution of fluorescent elastic fibers. To decouple the effect of the glass substrate on our analysis of the nanoindentation data, we have used the extended Oliver and Pharr method. The elastic modulus of the aorta decreased progressively from 35 MPa in the adventitial (outermost) layer to 8 MPa at the intimal (innermost) layer. In contrast, the vena cava was relatively stiff, with an elastic modulus >30 MPa in both the extracellular matrix-rich adventitial and intimal regions of the vessel. The central, highly cellularized, medial layer of the vena cava, however, had an invariant elastic modulus of ~20 MPa. In extracellular matrix-rich regions of the tissue, the elastic modulus, as determined by nanoindentation, was inversely correlated with elastic fiber density. Thus, we show it is possible to distinguish and spatially resolve differences in the micromechanical properties of large arteries and veins, which are related to the tissue microstructure.

Tags: blood vessels, journal of materials research, nanoindentation

Group Meeting 26/02/09

Dr Nadja Nijenhuis will be give a talk on ‘Measuring Cell Mechanical Properties with SAM’ in this weeks group meeting. The meeting will be in Room B4, Materials Science Centre tomorrow, Thursday 26th February 2009 at 3 PM.

Tags: cell mechanics, Dr Nadja Nijenhuis, SAM

Nanoindentation of Biological Tissues and Hydrogels

Dr Michelle Oyen (Cambridge University) recently visited us at the School of Materials on Friday 13th February 2009, to give a seminar. Her presentation, was entitled ‘Nanoindentation and Microindentation Studies of Biological Tissues and Hydrogels”. We are grateful to her for accepting our invitation and for giving an excellent talk which fits well with the groups interests.

The abstract of her talk is below:

‘Interest in the mechanical behaviour of compliant biological tissues and is growing, and the emphasis on applications necessitating mechanically-robust implant materials motivates further study in this field. Nanoindentation has emerged as a leading technique for mechanical characterization; contact-based techniques are particularly attractive for materials that are difficult to test in tension, including soft biological tissues and hydrogels. However, commercial nanoindenter instrumentation is optimized for stiff, hard materials and therefore testing softer materials can be challenging. In the current study, mechanical testing by nanoindentation and larger scale microindentation were performed on a series of materials including polymeric validation standards, hydrogels of different gel composition and concentration, and hydrated biological tissues including bone and cartilage. Most tests were conducted under displacement control with a spherical indenter tip and using a load-relaxation test method to assess time-dependent deformation; creep characterization was considered when working in load control. Data analysis included a variety of different approaches, including a purely elastic analysis, a linear viscoelastic analysis and a computational analysis based on flow and poroelasticity. Quantitative results compare well for nanoindentation and microindentation, with mean elastic modulus values in the range of 100 kPa to 1-2 MPa for hydrogels and cartilage, respectively. Effects of both air dehydration and ethanol immersion are considered, and while these treatments both change the material elastic modulus by several orders of magnitude, the “dry” materials are found to exhibit profoundly different timedependent behavior depending on the dehydration method. The effects of finite layer thickness were considered in microindentation tests, and the result of faster equilibration for thinner gels was consistent with finite element modelling results for poroelasticity in finite layers. Nanoindentation is found to be a viable technique for mechanical characterization of compliant and hydrated tissues although challenges remain for widespread implementation and routine characterization due to the limitations of commercially available instrumentation.’

Tags: dr michelle oyen, hydrogels, nanoindentation

An Investigation into Nanoindentation of Hydrogel Contact Lenses

Alastair Selby (First Year PhD student) in the Derby Group gave a presentation entitled ‘An Investigation into Nanoindentation of Hydrogel Contact Lenses’ – click here to download a pdf of the talk.

Tags: Alastair Selby, contact lenses, derby group, nanoindentation

Research Group 2008

Tags: derby group, photo, research group 2008

MRS Fall 2008

We presented four papers at the MRS Fall 2008 meeting held in Boston, USA (1st-5th December):

Age-related Biomechanical Changes in Aortic Tissue Determined by Scanning Acoustic Microscopy. Riaz Akhtar, Michael J Sherratt, Rachel E Watson and Brian Derby

The Strength of Nanoporous Gold: Strain Gradient and Intrinsic Size Effects. Brian Derby and Rui Dou

The Strength of Gold Nanowires and Nanoporous Gold. Rui Dou and Brian Derby

Universal Scaling Laws for the Strength of Metallic Nanowires. Brian Derby and Rui Dou (poster)

The poster was nominated for the overall prize. The pdf is available to download at the bottom of this post.

mrsposterlandscape.pdf

Tags: aorta, conference, meeting, micromechanics, MRS, nanowires

Welcome to the Derby Group website

Welcome to the Derby Group website. This site is still under construction. Please visit again soon.