Angela Rowland scite author profile

During late autumn insectivorous bats must deposit a fat store to cover their energy demands throughout the period of hibernation, yet the density of aerial insects by this time has already declined from its peak in midsummer. Krzanowski (1961) suggested that bats are able to deposit a fat store by manipulating their energy expenditure; specifically by selecting cold roosting locations rather than warm roosts, and depressing their body temperatures during the day roosting period. It was hypothesized that these behavioural changes result in very low daily energy demands, and despite reduced food intake the animals are still able to gain body fat. We made several tests of this hypothesis. First, we explored the thermo-selection behaviour of long-eared bats (PEecotus auritus) in the summer and in the pre-hibernal period. We found that in summer bats preferred temperatures of about 32-35' (about thermoneutral), but in the pre-hibernal period they preferred much colder temperatures of about 10". Second, using open-flow respirometry we found that in the cold pre-hibernal bats entered torpor for an average of 14 h each day. Compared with bats held at 30" (that did not go torpid), the bats at 7" expended less energy. The extent of saving was sufficient to positively affect their mass balance, despite the fact that bats at lower temperature also had reduced digestive efficiencies. Our findings support the hypothesis that during the pre-hibernal period insectivorous bats manipulate their mass balance primarily by alterations in their energy expenditure, specifically utilizing energy-sparing mechanisms such as torpor.

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Kinase inhibitor pharmacokinetics: comprehensive summary and roadmap for addressing inter-individual variability in exposure

Rowland

Dyk

Mangoni

et al. 2016

Expert Opinion on Drug Metabolism & Toxicology

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Small molecule protein kinase inhibitors (KIs) are a class of drugs with complex and unconventional physiochemical and pharmacokinetic characteristics. Cytochrome P450 mediated metabolism and transporter-mediated uptake and efflux are important processes that determine KI disposition and exposure. Areas covered: We provide an overview of KI pharmacology, with a comprehensive summary of KI physiochemical and pharmacokinetic properties and description of the major sources of variability in KI pharmacokinetics focusing on common pathways involved in determining exposure. We also consider the strategies proposed to optimize KI dosing, appraise the current evidence for their use and analyze the challenges and knowledge gaps for KI dose optimization. Expert opinion: A number of strategies to optimize KI dosing have been proposed, but evidence underpinning their use is limited. The major challenge for optimized KI dosing is the development of high-quality evidence to demonstrate a significant improvement in therapeutic outcomes and /or reduction in adverse events through appropriately designed trials in a setting where the limited KI prescribing restricts capacity to undertake prospective randomized studies. If precision KI dosing can facilitate a fraction of the reported observational benefits, then substantial gains in patient outcomes will be derived in a cost-effective manner.

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Optimized Cocktail Phenotyping Study Protocol Using Physiological Based Pharmacokinetic Modeling and In silico Assessment of Metabolic Drug–Drug Interactions Involving Modafinil

et al. 2016

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In vivo cocktail pathway phenotyping (ICPP) is routinely used to assess the metabolic drug–drug interaction (mDDI) potential of new drug candidates (NDC) during drug development. However, there are a number of potential limitations to this approach and the use of validated drug cocktails and study protocols is essential. Typically ICPP mDDI studies assess only the impact of interactions following multiple postulated perpetrator doses and hence the emphasis in terms of validation of these studies has been ensuring that there are no interactions between probe substrates. Studies assessing the comparative impact of single and multiple doses of the postulated perpetrator have the potential to provide richer information regarding both the clinical impact and mechanism of mDDIs. Using modafinil as a model compound, we sought to develop an optimized ICPP mDDI study protocol to evaluate the potential magnitude and clinical relevance of mDDIs using a physiologically based pharmacokinetic modeling approach.

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Evaluation of modafinil as a perpetrator of metabolic drug–drug interactions using a model informed cocktail reaction phenotyping trial protocol

Rowland

Dyk

Warncken

et al. 2018

Brit J Clinical Pharma

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Amiodarone-induced thyroid dysfunction and a perturbed N-desethyl-amiodarone to amiodarone ratio: could a drug-induced toxicity be regulating exposure to the offending agent?

Rowland

Sorich

et al. 2017

Eur J Clin Pharmacol

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Angela Rowland

Preparing for inactivity: How insectivorous bats deposit a fat store for hibernation

Kinase inhibitor pharmacokinetics: comprehensive summary and roadmap for addressing inter-individual variability in exposure

Optimized Cocktail Phenotyping Study Protocol Using Physiological Based Pharmacokinetic Modeling and In silico Assessment of Metabolic Drug–Drug Interactions Involving Modafinil

Evaluation of modafinil as a perpetrator of metabolic drug–drug interactions using a model informed cocktail reaction phenotyping trial protocol

Amiodarone-induced thyroid dysfunction and a perturbed N-desethyl-amiodarone to amiodarone ratio: could a drug-induced toxicity be regulating exposure to the offending agent?

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