Leo MacDonald scite author profile

Monte Carlo techniques have been applied to a study of two related quasi-two-dimensional microscopic interaction models which describe the phase behavior of phospholipid bilayers. The two models are Ising-like lattice models in which (a) the acyl chains of the phospholipids interact via anisotropic van der Waals forces and (b) the rotational isomerism of the chains is accounted for by two and ten selected conformational states, respectively. Monte Carlo experiments are performed on both models so as to determine whether the static thermodynamic properties of lipid bilayers are most accurately represented by a simple two state gel–fluid concept or whether a more complicated melting process involving intermediate states takes place. To this purpose, the temperature dependence of several static thermodynamic properties has been calculated for both models. This includes the chain cross-sectional area, the internal and free energies, the coherence length, the lateral compressibility, and the specific heat. Particular care has been devoted to the transition region, since no analytical results are available in this region for either model. The comparison between the Monte Carlo results for the two models demonstrates that, whereas the two-state model has a first-order transition with jumplike behavior in the transition region the ten-state model exhibits a first-order transition associated with a closed hysteresis loop. Next, the Monte Carlo results for cross-sectional areas per lipid chain, coherence lengths and lateral compressibilities are discussed in the context of experimental results for dipalmitoyl phosphatidylcholine (DPPC). A detailed comparison is made with the results of molecular field calculations throughout the paper. Finally, a Monte Carlo analysis of bilayers composed of both DPPC and cholesterol shows that a two-state model does not adequately describe the thermodynamic behavior of lipid–cholesterol mixtures implying that intermediate states have to be introduced to account for the experimental data.

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Location and capacity allocations decisions to mitigate the impacts of unexpected disasters

Paul

MacDonald

2016

European Journal of Operational Research

109

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Pre-service Teachers’ Experiences with a Science Education Module

Sherman

MacDonald

2007

Journal of Science Teacher Education

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Determination of number of dedicated OR's and supporting pricing mechanisms for emergent surgeries

Paul

MacDonald

2013

Journal of the Operational Research Society

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Inefficient management of emergent surgeries in hospitals can, in part, be attributed to a lack of rigorous analysis appropriate to capturing the underlying uncertainties inherent to this process and a pricing mechanism to ensure its financial viability. We develop a non-preemptive multi-priority queueing model that optimally manages emergent surgeries and supports the resource allocation decision-making process. Specifically, we utilize queueing and discrete event simulation to develop empirical models for determining the required number of emergent operating rooms for a hospital surgical department. We also present algorithms that estimate the appropriate pricing for patient surgeries differentiated by priority level given the patient demand and the resources reserved to meet this demand.

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Service Learning Experiences in University Science Degree Courses

Sherman

MacDonald

2009

Innov High Educ

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This article describes a study about a service learning project at a small undergraduate university. We examined how professors and students became involved in service learning through course work and related activities. This study sought to find out why participation in service learning is low in post-secondary education science and mathematics courses. Participants described challenges to participation as well as benefits which, if emphasized, may allow for some growth in participation by science degree students.

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Leo MacDonald

Computer simulation of the main gel–fluid phase transition of lipid bilayers

Location and capacity allocations decisions to mitigate the impacts of unexpected disasters

Pre-service Teachers’ Experiences with a Science Education Module

Determination of number of dedicated OR's and supporting pricing mechanisms for emergent surgeries

Service Learning Experiences in University Science Degree Courses

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