Your search keyword '"Vyas KN"' showing total 10 results

1. A composite element bit design for magnetically encoded microcarriers for future combinatorial chemistry applications

Author

Love, DM, Vyas, KN, Fernández-Pacheco, A, Llandro, J, Palfreyman, JJ, Mitrelias, T, Barnes, CHW, Barnes, Crispin [0000-0001-7337-7245], and Apollo - University of Cambridge Repository

Subjects

34 Chemical Sciences

Abstract

A composite element (CE) bit design for magnetically encoded microcarriers provides an increased coercivity range for longer bit codes as well as significant improvements to encoding density, reliability and read-out.

Published

2015

2. Cerenkov Luminescence Imaging in Prostate Cancer: Not the Only Light That Shines.

Author

Heuvel JO, de Wit-van der Veen BJ, van der Poel HG, van Leeuwen PJ, Bekers EM, Grootendorst MR, Vyas KN, Slump CH, and Stokkel MPM

Subjects

Male, Humans, Aged, Middle Aged, Luminescent Measurements, Gallium Isotopes, Oligopeptides, Prostatectomy, Edetic Acid analogs & derivatives, Luminescence, Prostatic Neoplasms diagnostic imaging, Prostatic Neoplasms surgery, Prostatic Neoplasms pathology, Gallium Radioisotopes

Abstract

Cerenkov luminescence imaging (CLI) is a novel imaging technology that might have the ability to assess surgical margins intraoperatively during prostatectomy using 68 Ga-prostate-specific membrane antigen ( 68 Ga-PSMA-11). This study evaluated the accuracy of CLI compared with histopathology and, as an exploratory objective, investigated the characteristics of the identified chemiluminescence signal. Methods: After intravenous injection of a mean 68 Ga-PSMA-11 activity of 69 MBq intraoperatively, all excised specimens were imaged with CLI. Areas of increased signal were marked for histopathologic comparison and scored for the likelihood of being a positive surgical margin (PSM) using a 5-point Likert scale. In addition, the chemiluminescence signal was investigated in 3 radioactive and 3 nonradioactive specimens using CLI. Results: In 15 patients, the agreement between CLI and histopathology was 60%; this improved to 83% when including close surgical margins (≤1 mm). In 6 hot spots, CLI correctly identified PSMs on histopathology, located at the apex and mid prostate. In all 15 patients, an increased signal at the prostate base was observed, without the presence of the primary tumor in this area in 8 patients. This chemiluminescence signal was also observed in nonradioactive prostate specimens, with a half-life of 48 ± 11 min. The chemiluminescence hampered the visual interpretation of 4 PSMs at the base. Conclusion: CLI was able to correctly identify margin status, including close margins, in 83% of the cases. The presence of a diathermy-induced chemiluminescent signal hampered image interpretation, especially at the base of the prostate. In the current form, CLI is most applicable to detect PSMs and close margins in the apex and mid prostate., (© 2022 by the Society of Nuclear Medicine and Molecular Imaging.)

Published

2022

3. Intraoperative [ 18 F]FDG flexible autoradiography for tumour margin assessment in breast-conserving surgery: a first-in-human multicentre feasibility study.

Author

Jurrius PAGT, Grootendorst MR, Krotewicz M, Cariati M, Kothari A, Patani N, Karcz P, Nagadowska M, Vyas KN, Purushotham A, and Turska-d'Amico M

Abstract

Introduction: In women undergoing breast-conserving surgery (BCS), 20-25% require a re-operation as a result of incomplete tumour resection. An intra-operative technique to assess tumour margins accurately would be a major advantage. A novel method for intraoperative margin assessment was developed by applying a thin flexible scintillating film to specimens-flexible autoradiography (FAR) imaging. A single-arm, multi-centre study was conducted to evaluate the feasibility of intraoperative [ 18 F]FDG FAR for the assessment of tumour margins in BCS., Methods: Eighty-eight patients with invasive breast cancer undergoing BCS received ≤ 300 MBq of [ 18 F]FDG 60-180 min pre-operatively. Following surgical excision, intraoperative FAR imaging was performed using the LightPath ® Imaging System. The first 16 patients were familiarisation patients; the remaining 72 patients were entered into the main study. FAR images were analysed post-operatively by three independent readers. Areas of increased signal intensity were marked, mean normalised radiances and tumour-to-tissue background (TBR) determined, agreement between histopathological margin status and FAR assessed and radiation dose to operating theatre staff measured. Subgroup analyses were performed for various covariates, with thresholds set based on ROC curves., Results: Data analysis was performed on 66 patients. Intraoperative margin assessment using FAR was completed on 385 margins with 46.2% sensitivity, 81.7% specificity, 8.1% PPV, 97.7% NPV and an overall accuracy of 80.5%, detecting both invasive carcinoma and DCIS. A subgroup analysis based on [ 18 F]FDG activity present at time of imaging revealed an increased sensitivity (71.4%), PPV (9.3%) and NPV (98.4%) in the high-activity cohort with mean tumour radiance and TBR of 126.7 ± 45.7 photons/s/cm 2 /sr/MBq and 2.1 ± 0.5, respectively. Staff radiation exposure was low (38.2 ± 38.1 µSv)., Conclusion: [ 18 F]FDG FAR is a feasible and safe technique for intraoperative tumour margin assessment. Further improvements in diagnostic performance require optimising the method for scintillator positioning and/or the use of targeted radiopharmaceuticals., Trial Registration: Identifier: NCT02666079. Date of registration: 28 January 2016. URL: https://clinicaltrials.gov/ct2/show/NCT02666079 . ISRCTN registry: Reference: ISRCTN17778965. Date of registration: 11 February 2016. URL: http://www.isrctn.com/ISRCTN17778965 .

Published

2021

4. 68 Ga-PSMA Cerenkov luminescence imaging in primary prostate cancer: first-in-man series.

Author

Olde Heuvel J, de Wit-van der Veen BJ, van der Poel HG, Bekers EM, Grootendorst MR, Vyas KN, Slump CH, and Stokkel MPM

Subjects

Edetic Acid analogs & derivatives, Gallium Isotopes, Gallium Radioisotopes, Humans, Male, Oligopeptides, Positron Emission Tomography Computed Tomography, Luminescence, Prostatic Neoplasms diagnostic imaging

Abstract

Purpose: Currently, approximately 11-38% of prostate cancer (PCa) patients undergoing radical prostatectomy have a positive surgical margin (PSM) on histopathology. Cerenkov luminescence imaging (CLI) using 68 Ga-prostate-specific membrane antigen ( 68 Ga-PSMA) is a novel technique for intraoperative margin assessment. The aim of this first-in-man study was to investigate the feasibility of intraoperative 68 Ga-PSMA CLI. In this study, feasibility was defined as the ability to distinguish between a positive and negative surgical margin, imaging within 45 min and low radiation exposure to staff., Methods: Six patients were included in this ongoing study. Following perioperative i.v. injection of ~ 100 MBq 68 Ga-PSMA, the prostate was excised and immediately imaged ex vivo. Different acquisition protocols were tested, and hotspots on CLI images from the intact prostate were marked for comparison with histopathology., Results: By using an acquisition protocol with 150 s exposure time, 8 × 8 binning and a 550 nm shortpass filter, PSMs and negative surgical margins (NSMs) were visually correctly identified on CLI in 3 of the 5 patients. Two patients had a hotspot on CLI from cancer < 0.1 mm from the excision margin., Conclusion: Overall, the study showed that 68 Ga-PSMA CLI is a feasible and low-risk technique for intraoperative margin assessment in PCa. The remaining patients in this ongoing study will be used to assess the diagnostic accuracy of the technique., Trial Registration: NL8256 registered at www.trialregister.nl on 04/11/20109.

Published

2020

5. Visualizing Magnetic Structure in 3D Nanoscale Ni-Fe Gyroid Networks.

Author

Llandro J, Love DM, Kovács A, Caron J, Vyas KN, Kákay A, Salikhov R, Lenz K, Fassbender J, Scherer MRJ, Cimorra C, Steiner U, Barnes CHW, Dunin-Borkowski RE, Fukami S, and Ohno H

Abstract

Arrays of interacting 2D nanomagnets display unprecedented electromagnetic properties via collective effects, demonstrated in artificial spin ices and magnonic crystals. Progress toward 3D magnetic metamaterials is hampered by two challenges: fabricating 3D structures near intrinsic magnetic length scales (sub-100 nm) and visualizing their magnetic configurations. Here, we fabricate and measure nanoscale magnetic gyroids, periodic chiral networks comprising nanowire-like struts forming three-connected vertices. Via block copolymer templating, we produce Ni 75 Fe 25 single-gyroid and double-gyroid (an inversion pair of single-gyroids) nanostructures with a 42 nm unit cell and 11 nm diameter struts, comparable to the exchange length in Ni-Fe. We visualize their magnetization distributions via off-axis electron holography with nanometer spatial resolution and interpret the patterns using finite-element micromagnetic simulations. Our results suggest an intricate, frustrated remanent state which is ferromagnetic but without a unique equilibrium configuration, opening new possibilities for collective phenomena in magnetism, including 3D magnonic crystals and unconventional computing.

Published

2020

6. Performance evaluation of Cerenkov luminescence imaging: a comparison of 68 Ga with 18 F.

Author

Olde Heuvel J, de Wit-van der Veen BJ, Vyas KN, Tuch DS, Grootendorst MR, Stokkel MPM, and Slump CH

Abstract

Background: Cerenkov Luminescence Imaging (CLI) is an emerging technology for intraoperative margin assessment. Previous research only evaluated radionuclide 18-Fluorine ( 18 F); however, for future applications in prostate cancer, 68-Gallium ( 68 Ga) seems more suitable, given its higher positron energy. Theoretical calculations predict that 68 Ga should offer a higher signal-to-noise ratio than 18 F; this is the first experimental confirmation. The aim of this study is to investigate the technical performance of CLI by comparing 68 Ga to 18 F., Results: The linearity of the system, detection limit, spatial resolution, and uniformity were determined with the LightPath imaging system. All experiments were conducted with clinically relevant activity levels in vitro, using dedicated phantoms. For both radionuclides, a linear relationship between the activity concentration and detected light yield was observed (R 2  = 0.99). 68 Ga showed approximately 22 times more detectable Cerenkov signal compared to 18 F. The detectable activity concentration after a 120 s exposure time and 2 × 2 binning of 18 F was 23.7 kBq/mL and 1.2 kBq/mL for 68 Ga. The spatial resolution was 1.31 mm for 18 F and 1.40 mm for 68 Ga. The coefficient of variance of the uniformity phantom was 0.07 for the central field of view., Conclusion: 68 Ga was superior over 18 F in terms of light yield and minimal detection limit. However, as could be expected, the resolution was 0.1 mm less for 68 Ga. Given the clinical constraints of an acquisition time less than 120 s and a spatial resolution < 2 mm, CLI for intraoperative margin assessment using 68 Ga could be feasible.

Published

2019

7. Flexible Multielectrode Array for Skeletal Muscle Conditioning, Acetylcholine Receptor Stabilization and Epimysial Recording After Critical Peripheral Nerve Injury.

Author

McAvoy M, Tsosie JK, Vyas KN, Khan OF, Sadtler K, Langer R, and Anderson DG

Subjects

Animals, Elastic Modulus, Electric Stimulation Therapy, Electromyography instrumentation, Female, Humans, Muscle Fibers, Skeletal chemistry, Muscle Fibers, Skeletal metabolism, Muscle, Skeletal injuries, Muscle, Skeletal metabolism, Muscle, Skeletal physiopathology, Peripheral Nerve Injuries metabolism, Peripheral Nerve Injuries physiopathology, Rats, Rats, Inbred Lew, Electromyography methods, Muscle, Skeletal innervation, Peripheral Nerve Injuries therapy, Receptors, Cholinergic metabolism

Abstract

Complete re-innervation after a traumatic injury severing a muscle's peripheral nerve may take years. During this time, the denervated muscle atrophies and loses acetylcholine receptors, a vital component of the neuromuscular junction, limiting functional recovery. One common clinical treatment for atrophy is electrical stimulation; however, epimysial electrodes currently used are bulky and often fail due to an excessive inflammatory response. Additionally, there remains a need for a device providing in vivo monitoring of neuromuscular regeneration and the maintenance of acetylcholine receptors. Here, an implantable, flexible microelectrode array (MEA) was developed that provides surface neuromuscular stimulation and recording during long-term denervation. Methods: The MEA uses a flexible polyimide elastomer and an array of gold-based microelectrodes featuring Peano curve motifs, which together maintain electrode flexibility. The devices were implanted along the denervated gastrocnemius muscles of 5 rats. These rats underwent therapeutic stimulation using the MEA daily beginning on post-operative day 2. Another 5 rats underwent tibial nerve resection without implantation of MEA. Tissues were harvested on post-operative day 14 and evaluated for quantification of acetylcholine receptors and muscle fiber area using immunofluorescence and histological staining. Results: The Young's modulus was 1.67 GPa, which is comparable to native tendon and muscle. The devices successfully recorded electromyogram data when implanted in rats. When compared to untreated denervated muscles, MEA therapy attenuated atrophy by maintaining larger muscle fiber cross-sectional areas (p < 0.05). Furthermore, the acetylcholine receptor areas were markedly larger with MEA treatment (p < 0.05). Conclusions: This proof-of-concept work successfully demonstrates the ability to combine conformability, tensile strength-enhancing metal micropatterning, electrical stimulation and recording into a functional implant for both epimysial stimulation and recording., Competing Interests: Competing Interests: The authors have declared that no competing interest exists., (© The author(s).)

Published

2019

8. The Scanning TMR Microscope for Biosensor Applications.

Author

Vyas KN, Love DM, Ionescu A, Llandro J, Kollu P, Mitrelias T, Holmes S, and Barnes CH

Subjects

Magnetic Fields, Biosensing Techniques instrumentation, Microscopy, Scanning Tunneling instrumentation

Abstract

We present a novel tunnel magnetoresistance (TMR) scanning microscope set-up capable of quantitatively imaging the magnetic stray field patterns of micron-sized elements in 3D. By incorporating an Anderson loop measurement circuit for impedance matching, we are able to detect magnetoresistance changes of as little as 0.006%/Oe. By 3D rastering a mounted TMR sensor over our magnetic barcodes, we are able to characterize the complex domain structures by displaying the real component, the amplitude and the phase of the sensor's impedance. The modular design, incorporating a TMR sensor with an optical microscope, renders this set-up a versatile platform for studying and imaging immobilised magnetic carriers and barcodes currently employed in biosensor platforms, magnetotactic bacteria and other complex magnetic domain structures of micron-sized entities. The quantitative nature of the instrument and its ability to produce vector maps of magnetic stray fields has the potential to provide significant advantages over other commonly used scanning magnetometry techniques.

Published

2015

9. Magnetically labelled gold and epoxy bi-functional microcarriers for suspension based bioassay technologies.

Author

Vyas KN, Palfreyman JJ, Love DM, Mitrelias T, and Barnes CH

Subjects

Biological Assay instrumentation, Equipment Design, Microarray Analysis instrumentation, Suspensions, Biological Assay methods, Epoxy Compounds chemistry, Gold chemistry, Magnets chemistry, Microarray Analysis methods

Abstract

Microarrays and suspension-based assay technologies have attracted significant interest over the past decade with applications ranging from medical diagnostics to high throughput molecular biology. The throughput and sensitivity of a microarray will always be limited by the array density and slow reaction kinetics. Suspension (or bead) based technologies offer a conceptually different approach, improving detection by substituting a fixed plane of operation with many individually distinguishable microcarriers. In addition to all the features of a suspension based assay technology, our technology offers a rewritable label. This has the potential to be truly revolutionary by opening up the possibility of generating, on chip, extensive labelled molecular libraries. We unveil our latest SU-8 microcarrier design with embedded magnetic films that can be utilized for both magnetic and optical labelling. The novel design significantly simplifies fabrication and additionally incorporates a gold cap to provide a dual surface, bi-functional architecture. The microcarriers are fabricated using deep-ultraviolet lithography techniques and metallic thin film growth by evaporation. The bi-functional properties of the microcarriers will allow us to use each microcarrier as its own positive control thereby increasing the reliability of our technology. Here we present details of the design, fabrication, magnetic detection and functionalization of these microcarriers.

Published

2012

10. On the individuality and number of the mammary components draining through a teat of the mare.

Author

Vyas KN

Subjects

Animals, Female, Mammary Glands, Animal growth & development, Horses anatomy & histology, Mammary Glands, Animal anatomy & histology

Published

1971