Brian Cadle scite author profile

Brian Cadle

5Publications

14Citation Statements Received

35Citation Statements Given

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Affiliations

University of Colorado Boulder, Institute for Behavioral Medicine

Publications

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Cocaine self-administration in mice with forebrain knock-down of trpc5 ion channels

et al. 2013

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Canonical transient receptor potential (TRPC) channels are a family of non-selective cation channels that play a crucial role in modulating neuronal excitability due to their involvement in intracellular Ca2+ regulation and dendritic growth. TRPC5 channels a) are one of the two most prevalent TRPC channels in the adult rodent brain; b) are densely expressed in deep layer pyramidal neurons of the prefrontal cortex (PFC); and c) modulate neuronal persistent activity necessary for working memory and attention. In order to evaluate the causal role of TRPC5 in motivation/reward-related behaviors, conditional forebrain TRPC5 knock-down (trpc5-KD) mice were generated and trained to nose-poke for intravenous cocaine. Here we present a data set containing the first 6 days of saline or cocaine self-administration in wild type (WT) and trpc5-KD mice. In addition, we also present a data set showing the dose-response to cocaine after both groups had achieved similar levels of cocaine self-administration. Compared to WT mice, trpc5-KD mice exhibited an apparent increase in self-administration on the first day of cocaine testing without prior operant training. There were no apparent differences between WT and trpc5-KD mice for saline responding on the first day of training. Both groups showed similar dose-response sensitivity to cocaine after several days of achieving similar levels of cocaine intake.

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Cellular Phone-Based Image Acquisition and Quantitative Ratiometric Method for Detecting Cocaine and Benzoylecgonine for Biological and Forensic Applications

et al. 2010

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Abstract:Here we describe the first report of using low-cost cellular or web-based digital cameras to image and quantify standardized rapid immunoassay strips as a new point-of-care diagnostic and forensics tool with health applications. Quantitative ratiometric pixel density analysis (QRPDA) is an automated method requiring end-users to utilize inexpensive (∼ $1 USD/each) immunotest strips, a commonly available web or mobile phone camera or scanner, and internet or cellular service. A model is described whereby a central computer server and freely available IMAGEJ image analysis software records and analyzes the incoming image data with time-stamp and geo-tag information and performs the QRPDA using custom JAVA based macros (http://www.neurocloud.org). To demonstrate QRPDA we developed a standardized method using rapid immunotest strips directed against cocaine and its major metabolite, benzoylecgonine. Images from standardized samples were acquired using several devices, including a mobile phone camera, web cam, and scanner. We performed image analysis of three brands of commercially available dye-conjugated anti-cocaine/benzoylecgonine (COC/ BE) antibody test strips in response to three different series of cocaine concentrations ranging from 0.1 to 300 ng/ml and BE concentrations ranging from 0.003 to 0.1 ng/ml. This data was then used to create standard curves to allow quantification of COC/BE in biological samples. Across all devices, QRPDA quantification of COC and BE proved to be a sensitive, economical, and faster alternative to more costly methods, such as gas chromatography-mass spectrometry, tandem mass spectrometry, or high pressure liquid chromatography. The limit of detection was determined to be between 0.1 and 5 ng/ml. To simulate conditions in the field, QRPDA was found to be robust under a variety of image acquisition and testing conditions that varied temperature, lighting, resolution, magnification and concentrations of biological fluid in a sample. To determine the effectiveness of the QRPDA method for quantifying cocaine in biological samples, mice were injected with a sub-locomotor activating dose of cocaine (5 mg/kg; i.p.) and were found to have detectable levels of COC/BE in their urine (160.6 ng/ml) and blood plasma (8.1 ng/ml) after 15-30 minutes. By comparison rats self-administering cocaine in a 4 hour session obtained a final BE blood plasma level of 910 ng/ml with an average of 62.5 infusions. It is concluded that automated QRPDA is a low-cost, rapid and highly sensitive method for the detection of COC/BE with health, forensics, and bioinformatics application and the potential to be used with other rapid immunotest strips directed at several other targets. Thus, this report serves as a general reference and method describing the use of image analysis of lateral flow rapid test strips.

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Cocaine self-administration in the mouse: A low-cost, chronic catheter preparation

et al. 2012

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Intravenous drug self-administration is the most valid animal model of human addiction because it allows volitional titration of the drug in the blood based on an individual's motivational state together with the pharmacokinetic properties of the drug. Here we describe a reliable low-cost mouse self-administration catheter assembly and protocol that that can be used to assess a variety of drugs of abuse with a variety of protocols. We describe a method for intravenous catheter fabrication that allows for efficient and long-lasting intravenous drug delivery. The intravenous catheters remained intact and patent for several weeks allowing us to establish stable maintenance of cocaine acquisition. This was followed by a dose response study in the same mice. For collaborators interested in premade catheters for research please make a request at www.neuro-cloud.net/ nature-precedings/pomerenze.In order to dissect the mechanisms underlying the transition from casual drug use to a state of compulsive use and dependence, effective animal models that allow the drug's pharmacokinetic profile to closely match that in humans is necessary 1 . The IV route of administration has the advantage over subcutaneous (SC) and intraperitoneal (IP) routes because it provides the rapid pharmacokinetics which is important for the rewarding properties of drugs of abuse 2 . In addition, it has been demonstrated that animals trained to self-administer cocaine exhibit long lasting neuroadaptations in excitatory synaptic strength onto ventral tegmental area (VTA) dopamine neurons after extinction training and up to 3 months of abstinence, whereas animals trained to selfadminister natural rewards or given IP injections of cocaine show only transient changes in the VTA that are not resilient to extinction 3 . Furthermore, considering the amount of inbred strains, transgenic mouse lines, and genetic tools available today, the application of an IV self-administration mouse model is particularly advantageous for the integration of behavioral pharmacology with specific genetic targeting 4 . Drug self-administration in the mouse has proven notoriously difficult because of behavioral inconsistency and poor drug delivery technique. To overcome this constraint, we have designed efficient drug delivery catheters fabricated within our laboratory that remain intact and patent throughout the duration of multiple-session self-administration experiments. As a result, we have developed a self-administration setup that serves as a low-cost preparation that can be constructed easily and reliably applied to numerous acute and chronic drug self-administration paradigms. RESULTSTrials using the custom catheters and C57 mice yielded effective self-administration and optimal intravenous drug delivery after an average of 21.3 ± 0.97 days of retained integrity and patency. After catheterization surgery (Supplementary Methods, www. Neuro-Cloud.net/nature-precedings/pomrenzes), mice acquired the self-administration task (nose poking) and were able to maintain stable coca...

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Cocaine self-administration in the mouse: A low-cost, chronic catheter preparation

Pomrenze¹,

Baratta²,

Cadle³

et al. 2012

Nature Precedings

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Cocaine self-administration in the mouse: A low- cost, chronic catheter preparation

Pomrenze

Baratta

Cadle

et al. 2012

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Brian Cadle

Cocaine self-administration in mice with forebrain knock-down of trpc5 ion channels

Cellular Phone-Based Image Acquisition and Quantitative Ratiometric Method for Detecting Cocaine and Benzoylecgonine for Biological and Forensic Applications

Cocaine self-administration in the mouse: A low-cost, chronic catheter preparation

Cocaine self-administration in the mouse: A low-cost, chronic catheter preparation

Cocaine self-administration in the mouse: A low- cost, chronic catheter preparation

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