Selected publications
- Feuerstein D, Manning A, Hashemi P, et al., Dynamic metabolic response to multiple spreading depolarizations in patients with acute brain injury: an online microdialysis study, Journal of Cerebral Blood Flow and Metabolism Vol:30, ISSN:0271-678X, Pages:1343-1355.
- Feuerstein D, Parker KH, Boutelle MG, 2009, Practical Methods for Noise Removal: Applications to Spikes, Nonstationary Quasi-Periodic Noise, and Baseline Drift, Analytical Chemistry, Vol:81, ISSN:0003-2700, Pages:4987-4994.
- Hashemi P, Bhatia R, Nakamura H et al.,2009, Persisting depletion of brain glucose following cortical spreading depression, despite apparent hyperaemia: evidence for risk of an adverse effect of Leao's spreading depression, Journal of Cerebral Blood Flow and Metabolism, Vol:29, ISSN:0271-678X, Pages:166-175. Author web link.
- Fabricius M, Fuhr S, Willumsen L etal., 2008, Association of seizures with cortical spreading depression and peri-infarct depolarisations in the acutely injured human brain, Clinical Neurophysiology, Vol:119, ISSN:1388-2457, Pages:1973-1984.
- Caesar K, Hashemi P, Douhou A, et al., 008, Glutamate receptor-dependent increments in lactate, glucose and oxygen metabolism evoked in rat cerebellum in vivo, Journal of Physiology - London, Vol:586, ISSN:0022-3751, Pages:1337-1349.
Results
- Showing results for:
- Reset all filters
Search results
-
Journal articleSansuk S, Bitziou E, Joseph MB, et al., 2013,
Ultrasensitive Detection of Dopamine Using a Carbon Nanotube Network Microfluidic Flow Electrode
, ANALYTICAL CHEMISTRY, Vol: 85, Pages: 163-169, ISSN: 0003-2700- Author Web Link
- Cite
- Citations: 96
-
Journal articleRogers ML, Boutelle MG, 2013,
Real-Time Clinical Monitoring of Biomolecules
, ANNUAL REVIEW OF ANALYTICAL CHEMISTRY, VOL 6, Vol: 6, Pages: 427-453, ISSN: 1936-1327- Author Web Link
- Cite
- Citations: 34
-
Journal articleCorcoles EP, Boutelle MG, Deeba S, et al., 2012,
Monitoring the effect of hypoxia in bowel dialysate metabolites levels with online biosensors
, 2012 International Conference on Biomedical Engineering, ICoBE 2012, Pages: 60-62The intestinal tract is one of the main organs that, after hemorrhage or shock, appears to be involved in an ischemic/reperfusion injury. Metabolic substances, such as glucose and lactate are useful measurements for the monitoring of intestinal ischemia, since this provokes variation of intracellular biochemical markers. In order to identify the ischemic/reperfusion mechanism adequately, physiological monitoring of the bowel under a different stress condition is required. Biomarkers were monitored during hypoxic conditions induced in a swine model to investigate the effect of this physiological variable on metabolic rates. Results showed that hypoxia could have different effects on bowel dialysate metabolites levels depending on tissue capabilities. © 2012 IEEE.
-
Journal articleCorcoles EP, Deeba S, Hanna GB, et al., 2011,
Measurements of bowel microdialysis recovery with an online biosensor system
, Proceedings - International Conference on Instrumentation, Communication, Information Technology and Biomedical Engineering 2011, ICICI-BME 2011, Pages: 361-365Microdialysis is a sampling technique based on the passive diffusion of the molecules through a small segment of cylindrical hollow fiber membrane implanted within the tissue of study. Calibration of the microdialysis probe and the parameters that affect this calibration are essential, since recovery factors are never 100%. In vitro calibration methods are typically used to compare the concentration of the outlet with the concentration of the medium. In vivo quantification methods of microdialysis data monitoring depends on active and passive tissue effects, complicating the calibration methods further. In vitro and in vivo microdialysis calibration methods were performed in gastrointestinal tissue of animal models and intensive care patients. Results showed that the discrepancy between in vitro and in vivo calibration method is minimal. © 2011 IEEE.
-
Journal articleCorcoles EP, Deeba S, Damji S, et al., 2011,
Rapid sampling microdialysis monitorign of post aortic repair intestinal ischemia
, JOURNAL OF GASTROENTEROLOGY AND HEPATOLOGY, Vol: 26, Pages: 192-193, ISSN: 0815-9319 -
Journal articleDamji S, Hamaoui K, Chang Y-M, et al., 2011,
ORGAN VIABILITY ASSESSMENT IN THE PRESERVATION PERIOD UTILISING RAPID SAMPLING MICRODIALYSIS
, TRANSPLANT INTERNATIONAL, Vol: 24, Pages: 197-197, ISSN: 0934-0874 -
Journal articleCorcoles EP, Deeba S, Hanna GB, et al., 2011,
Use of online rapid sampling microdialysis electrochemical biosensor for bowel anastomosis monitoring in swine model
, ANALYTICAL METHODS, Vol: 3, Pages: 2010-2016, ISSN: 1759-9660- Author Web Link
- Cite
- Citations: 5
-
Journal articleDamji S, Hamaoui K, Bullock N, et al., 2011,
ONLINE RAPID SAMPLING MICRODIALYSIS (rsMD) FOR VIABILITY ASSESSMENT, COMPARING STATIC COLD STORAGE VERSUS HYPOTHERMIC MACHINE PERFUSION IN MARGINAL ALLOGRAFTS
, TRANSPLANT INTERNATIONAL, Vol: 24, Pages: 350-351, ISSN: 0934-0874 -
Journal articlePatel BA, Rogers M, Wieder T, et al., 2011,
ATP microelectrode biosensor for stable long-term <i>in vitro</i> monitoring from gastrointestinal tissue
, BIOSENSORS & BIOELECTRONICS, Vol: 26, Pages: 2890-2896, ISSN: 0956-5663- Author Web Link
- Cite
- Citations: 47
-
Journal articleCorcoles EP, Deeb S, Hanna G, et al., 2011,
Adaptation of on-line rapid sampling microdialysis to monitor human intestinal ischaemia
, Jurnal Teknologi (Sciences and Engineering), Vol: 54, Pages: 47-59, ISSN: 0127-9696Intestinal ischaemia or poor perfusion of the gastrointestinal tract is a major cause of post-operative mortality in abdominal surgery. Currently diagnosis of ischaemia relies only on clinical symptoms. Thus, monitoring bowel metabolism as an early marker of intestinal ischaemia is necessary. Human bowel microdialysis has been used in the past to study the metabolism of ichaemia collecting dialysate samples from the peritoneal cavity every 60 minutes. These sampling times carry a long delay for the detection of the typically rapid ischaemic event. We have previously developed a successful biosensor system to monitor neurochemicals in the human brain during surgery and in the intensive care unit The method consists of a flow injection analysis (FIA) system coupled to an enzyme based amperometric detector. The rapid sampling microdialysis monitoring system analysed electrochemically the dialysate glucose and lactate at high time resolution (typically 30 second sampling). Adaptation of the analytical assay system for on-line microdialysis monitoring of human bowel was performed and validated for in vivo procedures. Optimum membranes loading ratios were found to be 1:0.5 GOx:HRP and 2:0.5 LOx:HRP. The ischemic range was found to be 15μM-400μM, 40μM-6mM for glucose and lactate, respectively. The calibration method for these monitorings was concluded with a range from 250 μM to 6 mM. © Universiti Teknologi Malaysia.
This data is extracted from the Web of Science and reproduced under a licence from Thomson Reuters. You may not copy or re-distribute this data in whole or in part without the written consent of the Science business of Thomson Reuters.
Contact us
Professor Martyn Boutelle
Department of Bioengineering
Room 3.14, Royal School of Mines Building
Imperial College London
London, SW7 2AZ
Tel: +44 (0)20 7594 5138
Email: m.boutelle@imperial.ac.uk
Map: We are location #12 on the map
Detailed instructions on how to find us on the campus