Your search keyword '"Madamidola, Oladipo A."' showing total 7 results

1. Detecting new obfuscated malware variants: A lightweight and interpretable machine learning approach

Author

Madamidola, Oladipo A., Ngobigha, Felix, and Ez-zizi, Adnane

Subjects

Computer Science - Cryptography and Security, Computer Science - Artificial Intelligence, Computer Science - Machine Learning

Abstract

Machine learning has been successfully applied in developing malware detection systems, with a primary focus on accuracy, and increasing attention to reducing computational overhead and improving model interpretability. However, an important question remains underexplored: How well can machine learning-based models detect entirely new forms of malware not present in the training data? In this study, we present a machine learning-based system for detecting obfuscated malware that is not only highly accurate, lightweight and interpretable, but also capable of successfully adapting to new types of malware attacks. Our system is capable of detecting 15 malware subtypes despite being exclusively trained on one malware subtype, namely the Transponder from the Spyware family. This system was built after training 15 distinct random forest-based models, each on a different malware subtype from the CIC-MalMem-2022 dataset. These models were evaluated against the entire range of malware subtypes, including all unseen malware subtypes. To maintain the system's streamlined nature, training was confined to the top five most important features, which also enhanced interpretability. The Transponder-focused model exhibited high accuracy, exceeding 99.8%, with an average processing speed of 5.7 microseconds per file. We also illustrate how the Shapley additive explanations technique can facilitate the interpretation of the model predictions. Our research contributes to advancing malware detection methodologies, pioneering the feasibility of detecting obfuscated malware by exclusively training a model on a single or a few carefully selected malware subtypes and applying it to detect unseen subtypes., Comment: 23 pages (excluding Appendix), 4 figures and 7 tables

Published

2024

2. Role of second generation phosphodiesterase inhibitors on mammalian sperm mobility

Author

Madamidola, Oladipo A. and Brown, Sean G.

Subjects

362.1966, Sperm, Male fertility, Phosphodiesterase inhibitors, Enhancement of sperm motility, Drug discovery, In vitro fertilization

Abstract

Over three decades ago, W.H.O. declared infertility as a public health issue; due to its impact on millions of people worldwide. While cases of infertility could be multifactorial (affecting both male and female), 50% of cases are due to male factor infertility and this is mostly characterised by reduced sperm motility (asthenozoospermia). Assisted Reproduction Technology (ART) is the only treatment option available for this condition. Over 20 years ago, non-selective phosphodiesterase inhibitors (PDEi), such as pentoxifylline, were shown to enhance motility of human spermatozoa; however, contradictory results and stimulation of premature acrosome reaction has precluded their clinical use. Advancement in our knowledge have now made it clear that human sperm express several different PDEs and these are compartmentalised at different regions of the cells. By using type-specific phosphodiesterase inhibitors, differential modulation of sperm motility can be achieved without affecting other sperm function such as acrosome reaction. Additionally, by enhancing sperm function through PDE inhibition, there is a possibility of increasing IVF rates. The objective of this thesis is to: (1) examine the effect of phosphodiesterase inhibitors on spermatozoa in order to identify compounds that have clinically relevant enhancement of human sperm motility; (2) identify the signalling pathway(s) involved in the motility enhancing effects of identified compounds by targeting the modulator and mediator of cyclic nucleotides; (3) develop an animal IVF model to assess effects of Ibudilast on fertilization; and (4) optimise high performance liquid chromatography (HPLC) techniques for routine detection of cyclic nucleotides in sperm cells. A two phase drug screening approach was used to systematically and comprehensively screen series of compounds in order to identify those that have clinically relevant enhancement of human sperm motility. In phase 1, 6 compounds (out of 43 compounds) were found to have strong effects on poor motility samples, with magnitude of response ≥60% increase in percentage total motility. Additionally, these compounds significantly enhanced sperm penetration into cervical mucus substitute (p≤0.05), and they did not affect sperm acrosomal integrity nor cause externalisation of phosphatidylserine (p=0.6 respectively). 63% of IVF samples treated with compounds #26, #37 and #38 had significant increase in percentage total motility. For ICSI samples, compounds #26, #37 and #38 were the most effective. In respect to total motility, 88%, 81% and 79% of samples treated with these compounds showed significant increases in total motility, and 94%, 93% and 81% of samples showed significant increases in percentage of progressive cells, respectively. Analysis of the signalling pathways, using PKA, sGC and PKG inhibitors, showed that chosen PDE inhibitors were working predominantly through PKA signalling pathways. Additionally, this study revealed that this pathway is needed for the maintenance of basal progressive motility and hyperactivation in human sperm. Animal IVF studies showed that addition of Ibudilast (compound #26) during sperm-oocyte incubation leads to higher IVF rates. Lastly, this study used an HPLC system to detect cAMP in boar sperm. This was done to explore if HPLC system can be used for high throughput detection of cyclic nucleotides in mammalian sperm.

Published

2015

3. A spontaneous increase in intracellular Ca2+ in metaphase II human oocytes in vitro can be prevented by drugs targeting ATP-sensitive K+ channels

Author

Fernandes, Gonçalo, Dasai, Navin, Kozlova, Natalia, Mojadadi, Albaraa, Gall, Mandy, Drew, Ellen, Barratt, Evelyn, Madamidola, Oladipo A., Brown, Sean G., Milne, Alison M., Martins da Silva, Sarah J., Whalley, Katherine M., Barratt, Christopher L.R., and Jovanović, Aleksandar

Published

2016

4. Clinically relevant enhancement of human sperm motility using compounds with reported phosphodiesterase inhibitor activity

Author

Tardif, Steve, Madamidola, Oladipo A., Brown, Sean G., Frame, Lorna, Lefièvre, Linda, Wyatt, Paul G., Barratt, Christopher L.R., and Martins Da Silva, Sarah J.

Published

2014

5. A spontaneous increase in intracellular Ca2+in metaphase II human oocytesin vitrocan be prevented by drugs targeting ATP-sensitive K+channels

Author

Fernandes, Gonçalo, primary, Dasai, Navin, additional, Kozlova, Natalia, additional, Mojadadi, Albaraa, additional, Gall, Mandy, additional, Drew, Ellen, additional, Barratt, Evelyn, additional, Madamidola, Oladipo A., additional, Brown, Sean G., additional, Milne, Alison M., additional, Martins da Silva, Sarah J., additional, Whalley, Katherine M., additional, Barratt, Christopher L.R., additional, and Jovanović, Aleksandar, additional

Published

2015

6. Progesterone significantly enhances the mobility of boar spermatozoa.

Author

Campbell, Johan M., Savage, Anne L., Madamidola, Oladipo, Tamhane, Kshitij, Soriano, Renalyn, Adya, Ashok K., and Brown, Sean G.

Subjects

PROGESTERONE, CATTLE spermatozoa, BOARS, OVUM, CELL physiology, ACROSOME reaction, CHEMOTAXIS

Abstract

Progesterone released from the cumulus cells of the oocyte causes a number of physiological responses in human sperm cells including hyperactivation, acrosome reaction and chemotaxis. We employed a validated sperm mobility assay, which involves measuring the ability of sperm to penetrate an inert cell separation solution over time, to assess the ability of progesterone to enhance the mobility of boar spermatozoa. Cells maximally penetrate the solution over 50 minutes. 100nM progesterone significantly (P = 0.01) increased the mobility of non-capacitated sperm cells causing a doubling in the rate at which the cells penetrated through the cell separation solution (control half maximal penetration rate [Km] = 18.0±2.2; +100nM progesterone Km = 8.8±0.8min). Similarly, capacitated cells penetrated at a rate (Km = 19.2±3.0 min) not significantly different from non-capacitated cells and 100nM progesterone also significantly increased the rate of penetration of capacitated cells (Km = 9.5±1.0 min, P<0.05). The T-type voltage gated calcium channel blocker mibefradil (30mM) significantly inhibited both the control and progesterone enhanced mobility in non-capacitated and capacitated sperm. Only capacitated cells showed a significant increase in the acrosome reaction in response to 100nM progesterone (control non-reacted = 75±4%, +100nM progesterone non-reacted = 47±10%). Western blot analysis confirmed that there was an increase in the total protein tyrosine phosphorylation levels in capacitated cells. In conclusion, we have demonstrated that 100nM progesterone accelerates the mobility of boar sperm cells through an inert cell separation solution in an extracellular calcium dependent manner. [ABSTRACT FROM AUTHOR]

Published

2017

7. Pinacidil, a KATP channel opening drug, protects human oocytes against metabolic stress

Author

Fernandes, Goncalo M T, primary, Gall, Mandy, additional, Drew, Ellen, additional, Barratt, Evelyn, additional, Madamidola, Oladipo, additional, Brown, Sean G, additional, Milne, Alison M, additional, da, Silva Sarah Martins, additional, Barratt, Christopher, additional, and Jovanovic, Aleksandar, additional

Published

2014