Your search keyword '"Matheson AB"' showing total 22 results

1. Fluorescence lifetime imaging with distance and ranging using a miniaturised SPAD system.

Author

Matheson AB, Hopkinson C, Tanner MG, and Henderson RK

Abstract

In this work we demonstrate a miniaturised imaging system based around a time-gated SPAD array operating in a "chip-on-tip" manner. Two versions of the system are demonstrated, each measuring 23 mm × 23 mm × 28 mm with differing fields of view and working distances. Initial tests demonstrate contrast between materials in widefield fluorescence imaging (WFLIm) mode, with frame rates of > 2 Hz achievable. Following this, WFLIm images of autofluorescence in ovine lung tissue are obtained at frame rates of ~ 1 Hz. Finally, the ability of the second system to perform simultaneous WFLIm and time of flight (aka Flourescence Lifetime Imaging Distance and Ranging, FLImDAR) is also tested. This shows that the system is capable of 4 mm resolution of object separation when tested on 3D printed samples. It is further demonstrated as being able to perform scene reconstruction on autofluorescent lung tissue. This system is, to date, the smallest chip on tip WFLIm system published, and is the first demonstration of the FLImDAR technique in a compact, portable system., (© 2024. The Author(s).)

Published

2024

2. Fully angularly resolved 3D microrheology with optical tweezers.

Author

Matheson AB, Mendonca T, Smith MG, Sutcliffe B, Fernandez AJ, Paterson L, Dalgarno PA, Wright AJ, and Tassieri M

Abstract

Microrheology with optical tweezers (MOT) is an all-optical technique that allows the user to investigate a materials' viscoelastic properties at microscopic scales, and is particularly useful for those materials that feature complex microstructures, such as biological samples. MOT is increasingly being employed alongside 3D imaging systems and particle tracking methods to generate maps showing not only how properties may vary between different points in a sample but also how at a single point the viscoelastic properties may vary with direction. However, due to the diffraction limited shape of focussed beams, optical traps are inherently anisotropic in 3D. This can result in a significant overestimation of the fluids' viscosity in certain directions. As such, the rheological properties can only be accurately probed along directions parallel or perpendicular to the axis of trap beam propagation. In this work, a new analytical method is demonstrated to overcome this potential artefact. This is achieved by performing principal component analysis on 3D MOT data to characterise the trap, and then identify the frequency range over which trap anisotropy influences the data. This approach is initially applied to simulated data for a Newtonian fluid where the trap anisotropy induced maximum error in viscosity is reduced from ~ 150% to less than 6%. The effectiveness of the method is corroborated by experimental MOT measurements performed with water and gelatine solutions, thus confirming that the microrheology of a fluid can be extracted reliably across a wide frequency range and in any arbitrary direction. This work opens the door to fully spatially and angularly resolved 3D mapping of the rheological properties of soft materials over a broad frequency range., Competing Interests: Competing interestsThe authors declare no competing interests., (© The Author(s) 2024.)

Published

2024

3. Combined fluorescence lifetime and surface topographical imaging of biological tissue.

Author

Hopkinson C, Matheson AB, Finlayson N, Tanner MG, Akram AR, and Henderson RK

Abstract

In this work a combined fluorescence lifetime and surface topographical imaging system is demonstrated. Based around a 126 × 192 time resolved single photon avalanche diode (SPAD) array operating in time correlated single-photon counting (TCSPC) mode, both the fluorescence lifetime and time of flight (ToF) can be calculated on a pixel by pixel basis. Initial tests on fluorescent samples show it is able to provide 4 mm resolution in distance and 0.4 ns resolution in lifetime. This combined modality has potential biomedical applications such as surgical guidance, endoscopy, and diagnostic imaging. The system is demonstrated on both ovine and human pulmonary tissue samples, where it offers excellent fluorescence lifetime contrast whilst also giving a measure of the distance to the sample surface., Competing Interests: The authors declare that there are no conflicts of interest related to this article., (Published by Optica Publishing Group under the terms of the Creative Commons Attribution 4.0 License. Further distribution of this work must maintain attribution to the author(s) and the published article’s title, journal citation, and DOI.)

Published

2023

4. Fluorescence lifetime imaging for explosive detection.

Author

Matheson AB, Ogugu EB, Gillanders RN, Turnbull GA, and Henderson R

Abstract

In this Letter, a time-resolved 120 × 128 pixel single-photon avalanche diode (SPAD) sensor is used in conjunction with an array of organic semiconductor films as a means of detecting the presence of explosive vapors. Using the spatial and temporal resolution of the sensor, both fluorescence intensity and fluorescence lifetime can be monitored on a pixel-by-pixel basis for each of the polymer films arranged in a 2 × 2 grid. This represents a significant improvement on similar systems demonstrated in the past, which either offer spatial resolution without the temporal resolution required to monitor lifetime or offer only a single bulk measurement of lifetime and intensity without the spatial resolution. The potential of the sensing system is demonstrated using vapors of DNT, and differing responses for each of the four polymer films is observed. This system has clear applications as the basis of a portable chemical fingerprinting tool with applications in humanitarian demining and security.

Published

2023

5. Atomic Force Microscopy of Phytosterol Based Edible Oleogels.

Author

Matheson AB, Koutsos V, Euston SR, and Clegg PS

Abstract

This work reviews the use of atomic force microscopy (AFM) as a tool to investigate oleogels of edible triglyceride oils. Specific attention is given to those oleogels based on phytosterols and their esters, a class of material the authors have studied extensively. This work consists of a summary of the role of AFM in imaging edible oleogels, including the processing and preparation steps required to obtain high-quality AFM images of them. Finally, there is a comparison between AFM and other techniques that may be used to obtain structural information from oleogel samples. The aim of this review is to provide a useful introduction and summary of the technique for researchers in the fields of gels and food sciences looking to perform AFM measurements on edible oleogels.

Published

2023

6. Handheld wide-field fluorescence lifetime imaging system based on a distally mounted SPAD array.

Author

Matheson AB, Erdogan AT, Hopkinson C, Borrowman S, Loake GJ, Tanner MG, and Henderson RK

Subjects

Animals, Sheep, Microscopy, Fluorescence methods, Coloring Agents, Photons, Optical Imaging

Abstract

In this work a handheld Fluorescent Lifetime IMaging (FLIM) system based on a distally mounted < 2 mm 2 128 × 120 single photon avalanche diode (SPAD) array operating over a > 1 m long wired interface is demonstrated. The head of the system is ∼4.5 cm x 4.5 cm x 4.5 cm making it suitable for hand-held ex vivo applications. This is, to the best of the authors' knowledge, the first example of a SPAD array mounted on the distal end of a handheld FLIM system in this manner. All existing systems to date use a fibre to collect and relay fluorescent light to detectors at the proximal end of the system. This has clear potential biological and biomedical applications. To demonstrate this, the system is used to provide contrast between regions of differing tissue composition in ovine kidney samples, and between healthy and stressed or damaged plant leaves. Additionally, FLIM videos are provided showing that frame rates of > 1 Hz are achievable. It is thus an important step in realising an in vivo miniaturized chip-on-tip FLIM endoscopy system.

Published

2023

7. OptoRheo: Simultaneous in situ micro-mechanical sensing and imaging of live 3D biological systems.

Author

Mendonca T, Lis-Slimak K, Matheson AB, Smith MG, Anane-Adjei AB, Ashworth JC, Cavanagh R, Paterson L, Dalgarno PA, Alexander C, Tassieri M, Merry CLR, and Wright AJ

Subjects

Microscopy, Fluorescence, Cell Communication, Extracellular Matrix, Hydrogels

Abstract

Biomechanical cues from the extracellular matrix (ECM) are essential for directing many cellular processes, from normal development and repair, to disease progression. To better understand cell-matrix interactions, we have developed a new instrument named 'OptoRheo' that combines light sheet fluorescence microscopy with particle tracking microrheology. OptoRheo lets us image cells in 3D as they proliferate over several days while simultaneously sensing the mechanical properties of the surrounding extracellular and pericellular matrix at a sub-cellular length scale. OptoRheo can be used in two operational modalities (with and without an optical trap) to extend the dynamic range of microrheology measurements. We corroborated this by characterising the ECM surrounding live breast cancer cells in two distinct culture systems, cell clusters in 3D hydrogels and spheroids in suspension culture. This cutting-edge instrument will transform the exploration of drug transport through complex cell culture matrices and optimise the design of the next-generation of disease models., (© 2023. The Author(s).)

Published

2023

8. Exploring how changes to the steroidal core alter oleogelation capability in sterol: γ-oryzanol blends.

Author

Matheson AB, Dalkas G, Lloyd GO, Hart A, Bot A, den Adel R, Koutsos V, Clegg PS, and Euston SR

Abstract

Oleogels based on sterols such as β-sitosterol blended with the sterol ester γ-oryzanol are a very interesting class of systems, but there are aspects of their formation and structure that remain elusive. It has previously been shown that a methyl group on the C30 position of the sterol-ester plays an important role in gelation. This work explored the effect that having C30 methyl groups on both the sterol and the sterol-ester had on the gelation process and subsequent gel structure. Lanosterol and saponified γ-oryzanol (which was synthesized as part of this study) were identified as materials of interest, as both feature a methyl group on the C30 position of their steroidal cores. It was observed that both sterols formed gels when blended with γ-oryzanol, and also that lanosterol gelled sunflower oil without the addition of γ-oryzanol. All of these gels were significantly weaker than that formed by β-sitosterol blended with γ-oryzanol. To explore why, molecular docking simulations along with AFM and SAXS were used to examine these gels on a broad range of length scales. The results suggest that saponified γ-oryzanol-γ-oryzanol gels have a very similar structure to that of β-sitosterol-γ-oryzanol gels. Lanosterol-γ-oryzanol gels and pure lanosterol gel, however, form with a totally different structure facilitated by the head-to-tail stacking motif exhibited by lanosterol. These results give further evidence that relatively slight changes to the molecular structure of gelators can result in significant differences in subsequent gel properties., Competing Interests: The authors declare that they have no conflict of interest., (© 2022 The Authors. Journal of the American Oil Chemists' Society published by Wiley Periodicals LLC on behalf of AOCS.)

Published

2022

9. Optical Tweezers with Integrated Multiplane Microscopy (OpTIMuM): a new tool for 3D microrheology.

Author

Matheson AB, Paterson L, Wright AJ, Mendonca T, Tassieri M, and Dalgarno PA

Abstract

We introduce a novel 3D microrheology system that combines for the first time Optical Tweezers with Integrated Multiplane Microscopy (OpTIMuM). The system allows the 3D tracking of an optically trapped bead, with ~ 20 nm accuracy along the optical axis. This is achieved without the need for a high precision z-stage, separate calibration sample, nor a priori knowledge of either the bead size or the optical properties of the suspending medium. Instead, we have developed a simple yet effective in situ spatial calibration method using image sharpness and exploiting the fact we image at multiple planes simultaneously. These features make OpTIMuM an ideal system for microrheology measurements, and we corroborate the effectiveness of this novel microrheology tool by measuring the viscosity of water in three dimensions, simultaneously.

Published

2021

10. Molecular Interactions behind the Self-Assembly and Microstructure of Mixed Sterol Organogels.

Author

Dalkas G, Matheson AB, Vass H, Gromov A, Lloyd GO, Koutsos V, Clegg PS, and Euston SR

Abstract

In this work, we have employed docking and atomistic molecular dynamics (MD) simulations supported by complementary experiments using atomic force microscopy, rheology, and spectroscopy to investigate the self-assembled structure of β-sitosterol and γ-oryzanol molecules into cylindrical tubules in a nonaqueous solvent. Docking models of several phytosterols, including sitosterol, with oryzanol and other sterol esters demonstrate that for systems to form tubules, the phytosterol sterane group must be stacked in a wedge shape with the ester sterane group and a hydrogen bond must form between the hydroxyl group of the phytosterol and the carbonyl group of the ester. MD of the self-assembled structure were initiated with the molecules in a roughly cylindrical configuration, as suggested from previous experimental studies, and the configurations were found to be stable during 50 ns simulations. We performed MD simulations of two tubules in proximity to better understand the aggregation of these fibrils and how the fibrils interact in order to stick together. We found that an interfibril network of noncovalent bonds, in particular van der Waals and π-π contacts, which is formed between the ferulic acid groups of oryzanol through the hydroxyl, methoxy, and aromatic groups, is responsible for the surface-to-surface interactions between fibrils; an observation supported by molecular spectroscopy. We believe that these interactions are of primary importance in creating a strong organogel network.

Published

2018

11. The development of phytosterol-lecithin mixed micelles and organogels.

Author

Matheson AB, Dalkas G, Gromov A, Euston SR, and Clegg PS

Subjects

Gels chemistry, Hydrogen Bonding, Micelles, Molecular Dynamics Simulation, Rheology, Viscosity, Lecithins chemistry, Phenylpropionates chemistry, Phytosterols chemistry

Abstract

We demonstrate that by mixing the phytosterol-ester oryzanol with lecithin in an organic solvent, both components may be dispersed at much higher concentrations than they may be individually. Dynamic light scattering and molecular dynamics simulations show that the mechanism for this is the formation of r ∼ 4 nm mixed micelles. Infrared spectroscopy and simulations suggest that these micelles are formed due in part to hydrogen bonding of the phosphate of the lecithin head-group, and the phenol group of the oryzanol. Rheology shows that by mixing these materials at an equimolar ratio, highly viscous suspensions are created. Furthermore, by adding water to these samples, a solid-like gel may be formed which offers mechanical properties close to those desired for a margarine type spread, whilst still solubilizing the oryzanol.

Published

2017

12. Stabilizing bubble and droplet interfaces using dipeptide hydrogels.

Author

Aviño F, Matheson AB, Adams DJ, and Clegg PS

Subjects

Wettability, Dipeptides chemistry, Hydrogels chemistry

Abstract

Hydrophobic dipeptide molecules can be used to create interfacial films covering bubbles and droplets made from a range of oils. At high pH, the dipeptide molecules form micelles which transform into a hydrogel of fibres in response to the addition of salt. We characterize the properties of the hydrogel for two different salt (MgSO 4 ) concentrations and then we use these gels to stabilize interfaces. Under high shear, the hydrogel is disrupted and will reform around bubbles or droplets. Here, we reveal that at low dipeptide concentration, the gel is too weak to prevent ripening of the bubbles; this then reduces the long-term stability of the foam. Under the same conditions, emulsions prepared from some oils are highly stable. We examine the wetting properties of the oil droplets at a hydrogel surface as a guide to the resulting emulsions.

Published

2017

13. Microstructure of β-Sitosterol:γ-Oryzanol Edible Organogels.

Author

Matheson AB, Koutsos V, Dalkas G, Euston S, and Clegg P

Subjects

Phenylpropionates, Scattering, Small Angle, Sitosterols, Gels chemistry

Abstract

Rheology and atomic force microscopy (AFM) were employed to examine the microstructure of β-sitosterol:γ-oryzanol organogels in sunflower oil. Using time-resolved rheology, we followed gel formation, paying specific attention to the fibril aggregation process, which had not been studied in detail previously for this system. Using AFM, we observed gel structures directly and obtained detailed information on the gel structure, far exceeding previous studies. Our analysis suggests that though gels are formed by the self-assembly and aggregation of one-dimensional fibrils, the manner in which these fibrils aggregate into ribbons results in complex structures of higher dimensionality. We emphasize that it is a surprise to find ribbons and not twisted strands. Comparing AFM images of 10% w/w and 20% w/w gelator systems, we observed differences in the degree of branching which are consistent with the rheology. We also observed the individual self-assembled fibrils which make up these gels with much greater clarity than in previous microscopy studies, and the fibril diameters of ∼9.8 nm we measured agree excellently with those obtained from existing small-angle neutron scattering data. These results provide new insight into the structure and formation kinetics of this important organogel system.

Published

2017

14. Self-trapping and excited state absorption in fluorene homo-polymer and copolymers with benzothiadiazole and tri-phenylamine.

Author

Denis JC, Ruseckas A, Hedley GJ, Matheson AB, Paterson MJ, Turnbull GA, Samuel ID, and Galbraith I

Abstract

Excited state absorption (ESA) is studied using time-dependent density functional theory and compared with experiments performed in dilute solutions. The molecules investigated are a fluorene pentamer, polyfluorene F8, the alternating F8 copolymer with benzothiadiazole F8BT, and two blue-emitting random copolymers F8PFB and F8TFB. Calculated and measured spectra show qualitatively comparable results. The ESA cross-section of co-polymers at its maximum is about three times lower than that of F8. The ESA spectra are found to change little upon structural relaxation of the excited state, or change in the order of sub-units in a co-polymer, for all studied molecules. In all these molecules, the strongest ESA transition is found to arise from the same electronic process, exhibiting a reversal of the charge parity. In addition, F8PFB and F8TFB are found to possess almost identical electronic behaviour.

Published

2016

15. A new functional brace for the treatment of Colles' fractures.

Author

Moir JS, Murali SR, Ashcroft GP, Wardlaw D, and Matheson AB

Subjects

Adult, Aged, Casts, Surgical, Colles' Fracture rehabilitation, Female, Follow-Up Studies, Humans, Male, Middle Aged, Prospective Studies, Treatment Outcome, Braces, Colles' Fracture therapy, Fracture Fixation instrumentation

Abstract

A new prefabricated brace for the functional treatment of Colles' fractures has been developed. It is applied at fracture reduction and maintains fracture position by the application of three-point loading. In a prospective randomized clinical trial treating 85 displaced Colles' fractures, with blind independent follow-up, the brace gave better functional results than conventional plaster treatment. The improved function was apparent up to 6 months after injury. Finger function and pinch strength were also better in the brace-treated patients. Anatomical results were similar in the two groups.

Published

1995

16. Occupational accidents presenting to the accident and emergency department.

Author

Harker C, Matheson AB, Ross JA, and Seaton A

Subjects

Accidents, Occupational prevention & control, Adolescent, Adult, Female, Humans, Male, Middle Aged, Prospective Studies, Wounds and Injuries therapy, Accidents, Occupational statistics & numerical data, Emergency Service, Hospital statistics & numerical data, Wounds and Injuries epidemiology

Abstract

A prospective survey of patients attending the major Accident and Emergency Department in Aberdeen was undertaken. This department serves a population of 500,000 and sees some 50% of all accidents in the region. All work-related injuries were identified and information relating to the circumstances of the accident, injury sustained, and treatment required was sought. Work-related injuries accounted for 16.5% of new patients attending the department. The commonest injury type was a laceration to a finger. Three hundred and eighty diagnostic X-rays were undertaken and a total of 910 treatments were required over a 27-day period. On an annual basis, it is estimated that some 5100 radiographs and 12,300 medical treatments would be required for work-related accidents. It is estimated that 30% of injuries to the hands and feet would have been prevented by the wearing of appropriate personal protective equipment. The majority of workplace accidents were correctly referred to A&E and any efforts to reduce this workload must concentrate on preventive measures in the workplace. This paper suggests that documenting work-related accidents and determining targets for preventive action would reduce the number of attendances at A&E units with a potential significant saving for industry and the National Health Service.

Published

1992

17. Accidents in the workplace.

Author

Harker C, Matheson AB, Ross JA, and Seaton A

Subjects

Accidents, Occupational mortality, Accidents, Occupational statistics & numerical data, Data Interpretation, Statistical, Eye Injuries epidemiology, Eye Injuries mortality, Female, Humans, Male, Prospective Studies, United Kingdom epidemiology, Accidents, Occupational prevention & control, Eye Injuries prevention & control

Abstract

A prospective survey of patients attending the central Accident and Emergency Department and Eye Casualty Department in Aberdeen was made to determine the contribution of accidents at work to the workload of the departments and to estimate risks of injury in different industrial sectors. Work-related injuries accounted for 16.5 per cent of new patients attending the general accident department and 21.7 per cent of those attending eye casualty. Analysis by industrial sector led to estimates that almost one in 10 workers employed in manufacturing industries and in agriculture/forestry/fishing will attend casualty in the course of a year for a work-related injury. The relatively low-risk service sector, because of the large numbers of people employed, contributed the greatest number of individuals with work-related injuries. Two industries had very high rates of specific and preventable injuries--food and fish processing with an estimated 17 knife lacerations per 1000 per annum and mechanical engineering with 60 eye injuries per 1000 per annum. We give reasons for believing that our estimates of risk in the different industrial sectors are conservative.

Published

1991

18. Radioactive substances decontamination exercise.

Author

Heaton B, Matheson AB, and Page JG

Subjects

Accidents, Occupational, Ambulances, Equipment and Supplies, Hospital, Humans, Planning Techniques, Protective Clothing, Decontamination, Emergency Service, Hospital, Radiation Protection standards, Radioactive Pollutants

Published

1990

19. Clinical value of ultrasonography in the detection and removal of radiolucent foreign bodies.

Author

Crawford R and Matheson AB

Subjects

Adolescent, Adult, Aged, Female, Foreign Bodies surgery, Hand pathology, Hand Injuries surgery, Humans, Male, Middle Aged, Wood, Foreign Bodies diagnosis, Hand Injuries diagnosis, Ultrasonography

Abstract

A series of 39 consecutive patients with a suspected retained foreign body in the hand and in whom standard soft issue radiographs were negative were examined by real-time, high-resolution ultrasound scan. At operation 20 patients had radiolucent foreign bodies (18 wood, 2 thorns) removed. Ultrasound scan correctly localized 19 of the foreign bodies before surgery and failed to detect one. No foreign body was found in 19 patients. Ultrasound scan falsely predicted the presence of a foreign body in two of these cases. High-resolution ultrasound scanning is a sensitive, accurate technique for diagnosing foreign bodies which are otherwise difficult to demonstrate by conventional radiographic techniques, and provides accurate three-dimensional localization of the object which is of value to the surgeon at operation.

Published

1989

20. Motor paralysis during asphyxial block of the ulnar nerve.

Author

Sinclair DC, Matheson AB, and Skene WG

Subjects

Adult, Female, Fingers, Humans, Male, Nerve Fibers, Myelinated, Pressure, Thumb, Asphyxia physiopathology, Paralysis physiopathology, Ulnar Nerve physiopathology

Abstract

During blocks of the ulnar nerve induced by inflating a sphygmomanometer cuff round the arm, the strengths of the movements of ulnar deviation of the individual fingers and adduction of the thumb were measured by means of a pressure transducer. No statistically significant differences were found between the times at which failure of these movements occurred, and there was no evidence of the occurrence of a centripetal motor paralysis within the territory of the ulnar nerve in the hand. However, the flexor carpi ulnaris did not become paralysed until significantly later than the small muscles of the hand. The results do not support the idea that long motor fibres are more susceptible to asphyxia than short ones, at least when the difference in length is 4 cm or less. Such a theory could certainly explain the relative immunity of the flexor carpi ulnaris, but other explanations for this finding may be available.

Published

1971

21. The effect of intravenous fluids on the development on experimental tumour metastases: their effect on tumour cell aggregation.

Author

Garvie WH and Matheson AB

Subjects

Animals, Cell Aggregation drug effects, Female, In Vitro Techniques, Rats, Carcinoma 256, Walker pathology, Dextrans pharmacology, Glucose pharmacology, Neoplasm Metastasis pathology, Neoplastic Cells, Circulating, Sodium Chloride pharmacology

Published

1966

22. The range and power of ulnar and radial deviation of the fingers.

Author

Matheson AB, Sinclair DC, and Skene WG

Subjects

Female, Humans, Male, Metacarpus physiology, Movement, Pressure, Sex Factors, Transducers, Fingers physiology

Published

1970