Your search keyword '"Gilham I"' showing total 5 results

1. Predictive medicine: Potential benefits from the integration of diagnostics and pharmaceuticals

Author

Gilham, I, primary and Rowland, T, additional

Published

2001

2. Evidence for the participation of a melanin-concentrating hormone in physiological colour change in the eel

Author

Gilham, I. D. and Baker, B. I.

Abstract

The hormonal and nervous control of colour change in the eel has been investigated. The only bioactive forms of MSH found in eel pituitary extracts or secreted by eel pituitary cultures were forms of α-MSH; no β-MSH was detected. After transfer of eels from a black to a white background, the melanin concentration in skin melanophores was accompanied by a rapid decline in plasma α-MSH titres. Hypophysectomy resulted in melanin concentration, and pituitary extracts injected into hypophysectomized eels caused melanin dispersion. This effect was eliminated if the pituitary extracts were first incubated with a specific α-MSH antiserum or if the antiserum was injected into the hypophysectomized eel. However, injection of α-MSH antiserum into intact, black-adapted eels failed to result in melanin concentration although the same antiserum was effective in causing pallor in black-adapted toads. Partially purified preparations of teleost melanin-concentrating hormone (MCH), free from catecholamines, induced melanin concentration when injected into black-adapted eels and this effect was significantly potentiated by injections of α-MSH antiserum. The denervation of melanophores on the pectoral fin had only a slight effect on the responses of the melanophores to humoral agents. It is concluded that the control of physiological colour change in the eel is largely hormonal, and involves the antagonistic effects of α-MSH and a melanin-concentrating agent which is probably MCH.J. Endocr.(1984) 102, 237–243

Published

1984

3. A black background facilitates the response to stress in teleosts

Author

Gilham, I. D. and Baker, B. I.

Abstract

This work examines the difference in responsiveness to stress which characterizes fish adapted to white and black backgrounds. Trout were maintained in black or white tanks for 2 weeks and then subjected to intermittent intense or moderate noise stress for periods between 1 h and 5 days, or to the stress of being injected daily with a large volume of liquid for 3 days. Plasma cortisol concentrations increased more readily and to a greater extent in fish from black tanks in response to moderate stress or brief intense stress. Dexamethasone suppressed the stress-induced rise of cortisol in white-adapted fish but was only partially effective in trout from black backgrounds. These differences in plasma cortisol between black- and white-adapted fish can be related to the different titres of plasma ACTH, apparently derived from the pars distalis.Removal of the neurointermediate lobe (NIL) from black-adapted eels markedly depressed the normal rise in plasma cortisol elicited by noise stress. It is suggested that products from the NIL may modulate the stress response of the hypothalamo-pituitary axis although other routes through which background colour could affect the pituitary responsiveness to stress are also considered. In several cases, stress also enhanced the secretion of MSH from the NIL.J. Endocr.(1985) 105, 99–105

Published

1985

4. Effect of Sarcobesity Index and Body Adipose Tissue Variables on Cardiopulmonary Exercise Testing Performance in Colorectal Surgery Setting: A Retrospective Cohort Study.

Author

Kirby E, Tam W, Gilham I, Babs-Osibodu AO, Jones W, Hajibandeh S, Hajibandeh S, Rose GA, Bailey DM, Morris C, Hargest R, Clayton A, and Davies RG

Subjects

Humans, Male, Retrospective Studies, Female, Middle Aged, Aged, Oxygen Consumption physiology, Tomography, X-Ray Computed methods, Colorectal Surgery, Prognosis, Anaerobic Threshold physiology, Obesity physiopathology, Body Composition physiology, Exercise Test methods, Adipose Tissue diagnostic imaging

Abstract

Aims/Background The prognostic significance of body composition variables has become a popular area of research over the recent years. This study aimed to determine whether adipose tissue variables and sarcobesity index measured by computed tomography (CT) could predict cardiopulmonary exercise testing (CPET) performance and long-term mortality in patients undergoing major colorectal surgery. Methods The Strengthening the Reporting of Cohort Studies in Surgery (STROCSS) statement standards were followed to conduct a retrospective cohort study of consecutive patients who had CPET prior to major colorectal surgery between January 2011 and January 2017. Receiver Operating Characteristic curve analysis was conducted to assess the discriminative performances of adipose tissue variables. The association between CT-derived adipose tissue variables (sarcobesity index, visceral adipose tissue, subcutaneous adipose tissue, and total adipose tissue) and CPET performance and mortality were assessed using regression analyses. Results 457 patients were included. Total adipose tissue evaluated via 2-dimensional (2D) and 3-dimensional (3D) approaches predicted oxygen uptake ( V̇ O 2 ) Rest, V̇ O 2 anaerobic threshold (AT), ventilatory equivalents for carbon dioxide ( V̇ E/ V̇ CO 2 ) AT, ventilatory equivalents for oxygen ( V̇ E/ V̇ O 2 ) AT, V̇ O 2 peak, exercise time, maximum work, peak metabolic equivalents (METS), peak respiratory rate (RER), and peak oxygen pulse. Sarcobesity index (2D and 3D) predicted V̇ O 2 Rest, V̇ O 2 AT, V̇ E/ V̇ CO 2 AT, V̇ O 2 peak, maximum work, peak METS, maximum heart rate, and peak RER. Neither total adipose tissue nor sarcobesity index (2D and 3D) predicted 1-year, 3-year, or 5-year mortality. There was no difference in the discriminative performance of adipose tissue variables in predicting mortality. Conclusion The CPET performance may be predicted by radiologically measured adipose tissue variables and sarcobesity index. However, the prognostic value of the variables may not be significant in this setting.

Published

2024

5. Association between psoas major muscle mass and CPET performance and long-term survival following major colorectal surgery: A retrospective cohort study.

Author

Hajibandeh S, Gilham I, Tam W, Kirby E, Babs-Osibodu AO, Jones W, Rose GA, Bailey DM, Morris C, Hargest R, Clayton A, and Davies RG

Subjects

Humans, Male, Retrospective Studies, Female, Aged, Middle Aged, Exercise Test, Survival Rate, Psoas Muscles diagnostic imaging, Psoas Muscles anatomy & histology, Tomography, X-Ray Computed

Abstract

Objectives: To evaluate whether computed tomography (CT)-derived psoas major muscle measurements could predict preoperative cardiopulmonary exercise testing (CPET) performance and long-term mortality in patients undergoing major colorectal surgery and to compare predictive performance of psoas muscle measurements using 2D approach and 3D approach., Methods: A retrospective cohort study compliant with STROCSS standards was conducted. Consecutive patients undergoing major colorectal surgery between January 2011 and January 2017 following CPET as part of their preoperative assessment were included. Regression analyses were modelled to investigate association between the CT-derived psoas major muscle mass variables [total psoas muscle area (TPMA), total psoas muscle volume (TPMV) and psoas muscle index (PMI)] and CPET performance and mortality (1-year and 5-year). Discriminative performances of the variables were evaluated using Receiver Operating Characteristic (ROC) curve analysis., Results: A total of 457 eligible patients were included. The median TPMA and TPMV were 21 ​cm 2 (IQR: 15-27) and 274 ​cm 3 (IQR: 201-362), respectively. The median PMI measured via 2D and 3D approaches were 7 ​cm 2 /m 2 (IQR: 6-9) and 99 ​cm 3 /m 2 (IQR: 76-120), respectively. The risks of 1-year and 5-year mortality were 7.4% and 27.1%, respectively. Regression analyses showed TPMA, TPMV, and PMI can predict preoperative CPET performance and long-term mortality. However, ROC curve analyses showed no significant difference in predictive performance amongst TPMA, TPMV, and PMI., Conclusion: Radiologically-measured psoas muscle mass variables may predict preoperative CPET performance and may be helpful with informing more objective selection of patients for preoperative CPET and prehabilitation., Competing Interests: Declaration of competing interest Damian M. Bailey is Editor-in-Chief of Experimental Physiology, Chair of the Life Sciences Working Group, a member of the Human Spaceflight and Exploration Science Advisory Committee to the European Space Agency, a member of the Space Exploration Advisory Committee to the UK Space Agency, and a member of the National Cardiovascular Network for Wales and South East Wales Vascular Network. Damian M. Bailey is also affiliated to the companies FloTBI Inc. and Bexorg Inc., focused on the technological development of novel biomarkers of brain injury in humans. All other authors declare no conflict of interest., (Copyright © 2024 Royal College of Surgeons of Edinburgh (Scottish charity number SC005317) and Royal College of Surgeons in Ireland. Published by Elsevier Ltd. All rights reserved.)

Published

2024