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210 results on '"Wiklendt, Lukasz"'

1. Bayesian Functional Mixed-Effects Model with Gaussian Process Responses for Wavelet Spectra of Spatiotemporal Colonic Manometry Signals

Author

Wiklendt, Lukasz, Costa, Marcello, Brookes, Simon, and Dinning, Phil G.

Subjects
Statistics - Applications, Quantitative Biology - Quantitative Methods
Abstract

Objective: We present a technique for identification and statistical analysis of quasiperiodic spatiotemporal pressure signals recorded from multiple closely spaced sensors in the human colon. Methods: Identification is achieved by computing the continuous wavelet transform and cross-wavelet transform of these recorded signals. Statistical analysis is achieved by modelling the resulting time-averaged amplitudes or coherences in the frequency and frequency-phase domains as Gaussian processes over a regular grid, under the influence of categorical and numerical predictors that are specified by the experimental design as a mixed-effects model. Parameters of the model are inferred with Hamiltonian Monte Carlo. Results and Conclusion: We present an application of this method to colonic manometry data in healthy controls, to determine statistical differences in the spectra of pressure signals between different colonic regions and in response to a meal intervention. We are able to successfully identify and contrast features in the spectra of pressure signals between various predictors. Significance: This novel method provides fast analysis of manometric signals at levels of detail orders of magnitude beyond what was previously available. The proposed tractable mixed-effects model is broadly applicable to experimental designs with functional responses.

Published
2019

9. Abnormal Perception of Urge to Defecate: An Important Pathophysiological Mechanism in Women With Chronic Constipation

Author

Vollebregt, Paul F., Wiklendt, Lukasz, Burgell, Rebecca E., Chaichanavichkij, Pam, Dinning, Phil G., Knowles, Charles H., Scott, S. Mark, and Gastroenterology and hepatology

Subjects
Adult, Male, Hepatology, Manometry, Gastroenterology, Rectum, Humans, Bayes Theorem, Female, Perception, Prospective Studies, Defecation, Constipation
Abstract

INTRODUCTION: Although the association of absent or attenuated "call to stool" with constipation is well-recognized, no studies have systematically evaluated the perception of urge to defecate in a well-defined cohort of patients with chronic constipation (CC). METHODS: A prospective study of 43 healthy adult women and 140 consecutive adult women attending a tertiary center for investigation of CC. All participants completed a 5-day viscerosensory questionnaire, and all women with CC also underwent anorectal physiologic investigations. Normal urge perception and abnormal urge perception were defined using a Naive Bayes model trained in healthy women (95% having normal urge). RESULTS: In total, 181 toilet visits in healthy women and 595 in women with CC were analyzed. Abnormal urge perception occurred in 70 (50.0%) women with CC. In this group, the urge to defecate was more often experienced as abdominal sensation (69.3% vs 41.4%; P < 0.0001), and the viscerosensory referral area was 81% larger (median pixels anterior: 1,849 vs 1,022; P < 0.0001) compared to women with CC and normal urge perception. Abnormal (vs normal) urge in women with CC was associated with more severe constipation (Cleveland Clinic constipation score: 19 vs 15 P < 0.0001), irritable bowel syndrome (45.7% vs 22.9% P < 0.0001), and a functional evacuation disorder on defecography (31.3% vs 14.3% P = 0.023). A distinct pattern of abnormal urge was found in women with CC and rectal hyposensitivity. DISCUSSION: Abnormal urge perception was observed in 50% of women with CC and was frequently described as abdominal sensation, supporting the concept that sensory dysfunction makes an important contribution to the pathophysiology of constipation.

Published
2022

14. Long Range Synchronization within the Enteric Nervous System Underlies Propulsion along the Mouse Large Intestine

Author

Spencer, Nick, Travis, Lee, Wiklendt, Lukasz, Costa, Marcello, Hibberd, Timothy, Brookes, Simon, Dinning, Phil, Hu, Hongzhen, Wattchow, David, and Sorensen, Julian

Subjects
Data_FILES
Abstract

Zipped filecontains Matlab code for analysis undertaken in paper, as well as the data used. The readme file contains further instructions.

Published
2021
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19. A computational approach to fractal analysis of a cityscape's skyline

Author

Chalup, Stephan K., Henderson, Naomi, Ostwald, Michael J., and Wiklendt, Lukasz

Subjects
City planning -- Methods, City planning -- Technology application, Architects -- Practice, Architects -- Technology application, Image processing -- Computer programs, Image processing -- Usage, Image processing software, Technology application, Architecture and design industries
Abstract

This study proposes a semi-automated approach for cityscape analysis which is based on calculating the fractal dimension of a cityscape's skyline. A software tool was developed which consists of an intensity-based skyline extraction module combined with a box-counting approach for calculation of the fractal dimension. Obstacles such as power-lines, vertical poles or cranes which interrupt the skyline can automatically be excluded from the analysis. The paper describes the methods involved and presents three pilot experiments using the new approach which indicate that: (1) If trees intersect the skyline they typically increase its fractal dimension; (2) Different types of cities can be distinguished by their characteristic skylines; (3) The process to determine the best fit skyline in an image can require user intervention. It can be semi-automated by using the local minima of the skyline's fractal dimension which is interpreted as a function of the image's intensity cut-off values. Keywords: Cityscape, Fractal dimension, Image processing, Skyline, Sky segmentation, Introduction Human well-being is connected to features of the built environment. Although the latter is an intuitively acceptable fact, research into the nature of this relationship has turned out to [...]

Published
2009

30. Distinct patterns of myogenic motor activity identified in isolated human distal colon with high‐resolution manometry

Author

Rosli, Reizal M., primary, Heitmann, Paul T., additional, Kumar, Raghu, additional, Hibberd, Tim J., additional, Costa, Marcello, additional, Wiklendt, Lukasz, additional, Wattchow, David A., additional, Arkwright, John, additional, Fontgalland, Dayan, additional, Brookes, Simon J. H., additional, Spencer, Nick J., additional, and Dinning, Phil G., additional

Published
2020
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32. Characterization of the colonic response to bisacodyl in children with treatment‐refractory constipation

Author

Heitmann, Paul T., primary, Wiklendt, Lukasz, additional, Thapar, Nikhil, additional, Borrelli, Osvaldo, additional, Di Lorenzo, Carlo, additional, Yacob, Desalegn T., additional, Baaleman, Desiree F., additional, Vriesman, Mana H., additional, Nurko, Samuel, additional, El‐Chammas, Khalil, additional, Kaul, Ajay, additional, Benninga, Marc A., additional, Koppen, Ilan J.N., additional, Wattchow, David A., additional, Brookes, Simon J.H., additional, and Dinning, Phil G., additional

Published
2020
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36. High‐resolution impedance manometry characterizes the functional role of distal colonic motility in gas transit.

Author

Heitmann, Paul T., Mohd Rosli, Reizal, Maslen, Lyn, Wiklendt, Lukasz, Kumar, Raghu, Omari, Taher I., Wattchow, David, Costa, Marcello, Brookes, Simon J., and Dinning, Phil G.

Subjects
SIGMOID colon, SENSOR placement, POSITION sensors, GASES, COLON (Anatomy)
Abstract

Background: The colonic motor patterns associated with gas transit are poorly understood. This study describes the application of high‐resolution impedance manometry (HRiM) in the human colon in vivo to characterize distal colonic motility and gas transit; (a) after a meal and (b) after intraluminal gas insufflation into the sigmoid colon. Methods: HRiM recordings were performed in 19 healthy volunteers, with sensors positioned from the distal descending colon to the proximal rectum. Protocol 1 (n = 10) compared pressure and impedance prior to and after a meal. Protocol 2 (n = 9) compared pressure and impedance before and after gas insufflation into the sigmoid colon (60 mL total volume). Key Results: Both the meal and gas insufflation resulted in an increase in the prevalence of the 2‐8/minute "cyclic motor pattern" (meal: (t(9) = −6.42, P<0.001); gas insufflation (t(8) = −3.13, P = 0.01)), and an increase in the number of antegrade and retrograde propagating impedance events (meal: Z = −2.80, P = 0.005; gas insufflation Z = −2.67, P = 0.008). Propagating impedance events temporally preceded antegrade and retrograde propagating contractions, representing a column of luminal gas being displaced ahead of a propagating contraction. Three participants reported an urge to pass flatus and/or flatus during the studies. Conclusions and Inferences: Initiation of the 2‐8/minute cyclic motor pattern in the distal colon occurs both following a meal and/or as a localized sensorimotor response to gas. The near‐absence of a flatal urge and the temporal association between propagating contractions and gas transit supports the hypothesis that the 2‐8/minute cyclic motor pattern acts as a physiological "brake" modulating rectal filling. [ABSTRACT FROM AUTHOR]

Published
2022
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38. Roles of three distinct neurogenic motor patterns during pellet propulsion in guinea‐pig distal colon

Author

Costa, Marcello, primary, Keightley, Lauren J., additional, Wiklendt, Lukasz, additional, Hibberd, Timothy J., additional, Arkwright, John W., additional, Omari, Taher, additional, Wattchow, David A., additional, Zagorodnyuk, Vladimir, additional, Brookes, Simon J. H., additional, Dinning, Phil G., additional, and Spencer, Nick J., additional

Published
2019
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40. Characterization of alternating neurogenic motor patterns in mouse colon.

Author

Costa, Marcello, Keightley, Lauren J., Hibberd, Timothy J., Wiklendt, Lukasz, Smolilo, David J., Dinning, Phil G., Brookes, Simon J., and Spencer, Nick J.

Subjects
COLON (Anatomy), LARGE intestine, SMOOTH muscle, ANIMAL droppings, MICE
Abstract

Background: Colonic motor complexes (CMCs) have been widely recorded in the large intestine of vertebrates. We have investigated whether in the smooth muscle, a single unified pattern of electrical activity, or different patterns of electrical activity give rise to the different neurogenic patterns of motility underlying CMCs in vitro. Methods: To study differences of the CMCs between proximal and distal colon, we used a novel combination of techniques to simultaneously record muscle diameter and force at multiple sites along the whole mouse colon ex vivo. In addition, electrical activity of smooth muscle was recorded by suction electrodes. Key Results: Two distinct types of CMCs were distinguished; CMCs that propagated along the entire colon (complete CMC) and CMCs which were restricted to the proximal colon (incomplete CMC). The two types of CMC often occurred in the same preparations. Incomplete CMCs had longer bursts of smooth muscle action potentials than complete CMCs and propagated more slowly. Interestingly, both types of CMC were associated with similar frequency bursts of smooth muscle action potentials at ~2.4 Hz. In the most proximal colon, an additional firing frequency was detected close to ~7 Hz generating multiple peaks within each CMC. Conclusions & Inferences: We report distinct characteristics underlying complete and incomplete CMCs in isolated mouse colon. Recognizing these distinct patterns of motility will be important for future interpretation of analysis of murine colonic motility recordings. The identification of alternating patterns of motor activity in proximal colon, but not distal colon may reflect specific neural mechanisms for fecal pellet formation. [ABSTRACT FROM AUTHOR]

Published
2021
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41. Identification of neurogenic intestinal motility patterns in silver perch (Bidyanus bidyanus) that persist over wide temperature ranges.

Author

Jones, Bradley S., Keightley, Lauren J., Harris, James O., Wiklendt, Lukasz, Spencer, Nick J., and Dinning, Phil G.

Subjects
COLD (Temperature), SILVER, INTESTINES, GENETIC models, TETRODOTOXIN
Abstract

Background: Fish are increasingly being utilized as a model species for genetic manipulation studies related to gastrointestinal (GI) motility. Our aim was to identify whether patterns of GI motility in fish and the mechanisms underlying their generation are similar to those recorded from mammals (including humans). Methods: The entire intestine was removed from euthanized adult Silver Perch (n = 11) and lesioned at the midway point to obtain two equal lengths. Proximal and distal segments were studied separately in organ baths with oxygenated Krebs solution, maintained at either 15°C (n = 5) or 25°C (n = 6). Motility was analyzed during rest, after oral infusion of Krebs solution, and after application of hexamethonium (100 µM) and tetrodotoxin (TTX) (0.6 µM). Key Results: Antegrade and retrograde propagating contractions (PC) were recorded in all preparations. In the proximal intestine, at 15 and 25°C, retrograde PCs occurred at 2.7 [1.7–4.5] and 3.1 [1.6–6.5] times the frequency of antegrade PCs, respectively. Colder temperatures did not inhibit PC frequency. Hexamethonium did not inhibit PC, and however, TTX abolished all contractile activity. Conclusions and Inferences: Both neurogenic antegrade and retrograde propagating contractions occur throughout the intestine of Silver Perch. However, unlike the mammalian colon, these motor patterns do not require enteric nicotinic transmission and they are not inhibited by cold temperatures (15°C). Therefore, while the GI motility patterns in Silver Perch resemble those recorded from the colon of mammals, there may be differences in the mechanisms that underlying their generation. [ABSTRACT FROM AUTHOR]

Published
2021
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43. Identification of a Rhythmic Firing Pattern in the Enteric Nervous System That Generates Rhythmic Electrical Activity in Smooth Muscle

Author

Spencer, Nick J., primary, Hibberd, Timothy J., additional, Travis, Lee, additional, Wiklendt, Lukasz, additional, Costa, Marcello, additional, Hu, Hongzhen, additional, Brookes, Simon J., additional, Wattchow, David A., additional, Dinning, Phil G., additional, Keating, Damien J., additional, and Sorensen, Julian, additional

Published
2018
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