Your search keyword '"Roy, Tyler A."' showing total 14 results

1. NOISe: Nuclei-Aware Osteoclast Instance Segmentation for Mouse-to-Human Domain Transfer

Author

Manne, Sai Kumar Reddy, Martin, Brendan, Roy, Tyler, Neilson, Ryan, Peters, Rebecca, Chillara, Meghana, Lary, Christine W., Motyl, Katherine J., and Wan, Michael

Subjects

Computer Science - Computer Vision and Pattern Recognition

Abstract

Osteoclast cell image analysis plays a key role in osteoporosis research, but it typically involves extensive manual image processing and hand annotations by a trained expert. In the last few years, a handful of machine learning approaches for osteoclast image analysis have been developed, but none have addressed the full instance segmentation task required to produce the same output as that of the human expert led process. Furthermore, none of the prior, fully automated algorithms have publicly available code, pretrained models, or annotated datasets, inhibiting reproduction and extension of their work. We present a new dataset with ~2*10^5 expert annotated mouse osteoclast masks, together with a deep learning instance segmentation method which works for both in vitro mouse osteoclast cells on plastic tissue culture plates and human osteoclast cells on bone chips. To our knowledge, this is the first work to automate the full osteoclast instance segmentation task. Our method achieves a performance of 0.82 mAP_0.5 (mean average precision at intersection-over-union threshold of 0.5) in cross validation for mouse osteoclasts. We present a novel nuclei-aware osteoclast instance segmentation training strategy (NOISe) based on the unique biology of osteoclasts, to improve the model's generalizability and boost the mAP_0.5 from 0.60 to 0.82 on human osteoclasts. We publish our annotated mouse osteoclast image dataset, instance segmentation models, and code at github.com/michaelwwan/noise to enable reproducibility and to provide a public tool to accelerate osteoporosis research.

Published

2024

2. Pit-lake remediation by chemically activated Chlorocardium rodiei: Simultaneous metal ion removal from acidic waters

Author

France, Hamant E., Strong, O.L.K., Scotland, Kevin M., Roy, Tyler M., and Vreugdenhil, Andrew J.

Published

2024

3. Transforming micropores to mesopores by heat cycling KOH activated petcoke for improved kinetics of adsorption of naphthenic acids

Author

Strong, Oliver K.L., Nazari, Elmira, Roy, Tyler, Scotland, Kevin, Pede, Paul R., and Vreugdenhil, Andrew J.

Published

2023

4. Discovery and validation of genes driving drug‐intake and related behavioral traits in mice

Author

Roy, Tyler A., primary, Bubier, Jason A., additional, Dickson, Price E., additional, Wilcox, Troy D., additional, Ndukum, Juliet, additional, Clark, James W., additional, Sukoff Rizzo, Stacey J., additional, Crabbe, John C., additional, Denegre, James M., additional, Svenson, Karen L., additional, Braun, Robert E., additional, Kumar, Vivek, additional, Murray, Stephen A., additional, White, Jacqueline K., additional, Philip, Vivek M., additional, and Chesler, Elissa J., additional

Published

2024

5. Genetic variation regulates opioid-induced respiratory depression in mice

Author

Bubier, Jason A., He, Hao, Philip, Vivek M., Roy, Tyler, Hernandez, Christian Monroy, Bernat, Rebecca, Donohue, Kevin D., O’Hara, Bruce F., and Chesler, Elissa J.

Published

2020

6. Confirmation of a Causal Taar1 Allelic Variant in Addiction-Relevant Methamphetamine Behaviors

Author

Phillips, Tamara J., primary, Roy, Tyler, additional, Aldrich, Sara J., additional, Baba, Harue, additional, Erk, Jason, additional, Mootz, John R. K., additional, Reed, Cheryl, additional, and Chesler, Elissa J., additional

Published

2021

7. Genetic variation and sex differences are missed opportunities for addiction biology

Author

Saul, Michael C., Bagley, Jared R., Bailey, Lauren S., Datta, Udita, Dickson, Price E., Dodd, Rainy, Gagnon, Leona H., Kimble, Violet M., Leonardo, Michael, Kim, Sam-Moon, Olson, Ashley, Roy, Tyler, Schoenrock, Sarah A., Wilcox, Troy, Jentsch, J. David, Logan, Ryan W., McClung, Colleen A., Philip, Vivek M., Reinholdt, Laura G., Sukoff Rizzo, Stacey J., Tarantino, Lisa M., and Chesler, Elissa J.

Abstract

Though risk for cocaine use disorder is subject to substantial inter-individual variation, the sources of that variation – including, genetics and sex – are too often ignored in studies of this phenomenon. In genetically diverse laboratory mice, these individual differences explain the majority of variance in important cocaine-related behavioral, physiological, and striatum transcriptional responses traits. This individual variation represents a missed opportunity for discovery and translation of addiction mechanisms.

Published

2020

8. Propranolol Promotes Bone Formation and Limits Resorption Through Novel Mechanisms During Anabolic Parathyroid Hormone Treatment in Female C57BL/6J Mice

Author

Treyball, Annika, primary, Bergeron, Audrey C., additional, Brooks, Daniel J., additional, Langlais, Audrie L., additional, Hashmi, Hina, additional, Nagano, Kenichi, additional, Barlow, Deborah, additional, Neilson, Ryan J., additional, Roy, Tyler A., additional, Nevola, Kathleen T., additional, Houseknecht, Karen L., additional, Baron, Roland, additional, Bouxsein, Mary L., additional, Guntur, Anyonya R., additional, and Motyl, Katherine J., additional

Published

2020

9. Propranolol Promotes Bone Formation and Limits Resorption Through Novel Mechanisms During Anabolic Parathyroid Hormone Treatment in Female C57BL/6J Mice.

Author

Treyball, Annika, Bergeron, Audrey C., Brooks, Daniel J., Langlais, Audrie L., Hashmi, Hina, Nagano, Kenichi, Barlow, Deborah, Neilson, Ryan J., Roy, Tyler A., Nevola, Kathleen T., Houseknecht, Karen L., Baron, Roland, Bouxsein, Mary L., Guntur, Anyonya R., and Motyl, Katherine J.

Abstract

Although the nonselective β‐blocker, propranolol, improves bone density with parathyroid hormone (PTH) treatment in mice, the mechanism of this effect is unclear. To address this, we used a combination of in vitro and in vivo approaches to address how propranolol influences bone remodeling in the context of PTH treatment. In female C57BL/6J mice, intermittent PTH and propranolol administration had complementary effects in the trabecular bone of the distal femur and fifth lumbar vertebra (L5), with combination treatment achieving microarchitectural parameters beyond that of PTH alone. Combined treatment improved the serum bone formation marker, procollagen type 1 N propeptide (P1NP), but did not impact other histomorphometric parameters relating to osteoblast function at the L5. In vitro, propranolol amplified the acute, PTH‐induced, intracellular calcium signal in osteoblast‐like cells. The most striking finding, however, was suppression of PTH‐induced bone resorption. Despite this, PTH‐induced receptor activator of nuclear factor κ‐B ligand (RANKL) mRNA and protein levels were unaltered by propranolol, which led us to hypothesize that propranolol could act directly on osteoclasts. Using in situ methods, we found Adrb2 expression in osteoclasts in vivo, suggesting β‐blockers may directly impact osteoclasts. Consistent with this, we found propranolol directly suppresses osteoclast differentiation in vitro. Taken together, this work suggests a strong anti‐osteoclastic effect of nonselective β‐blockers in vivo, indicating that combining propranolol with PTH could be beneficial to patients with extremely low bone density. © 2022 American Society for Bone and Mineral Research (ASBMR). [ABSTRACT FROM AUTHOR]

Published

2022

10. Conodont fauna of the Excello Shale (middle Pennsylvanian), midcontinent North America

Author

Roy, Tyler, Sweet, Dustin, Gurrola, Harold, and Barrick, James E.

Subjects

Cyclothem, Midcontinent Basin, Conodont, Pennsylvanian, Black shale, The Excello Shale

Abstract

The Excello Shale member is the laterally extensive core shale of the Lower Fort Scott major cyclothem of the Desmoinesian Marmaton Group in the Midcontinent Basin of the central United States. It is the first major cyclothem of the group and lies above the Mulky Coal, which marks the transition between the Cherokee and Marmaton groups. The Excello Shale member can generally be divided into a lower black shale facies and an upper gray shale facies. Phosphate laminations as well as phosphate nodules occur through the lower black shale, as well as rare acrotretid brachiopods. Three sections of the Excello Shale member in a south to north transect were sampled in small stratigraphic intervals (5-10 cm) and small samples (200 g) of the shale were completely processed in bleach to obtain an accurate census of conodont genera and species. Rare abundance data was converted to approximate numbers of conodont individuals. Idiognathodus elements were divided into three species, I. acutus, I. species 2 and I. sp. 3. Neognathodus comprises four species, N. dilatus, N. roundyi, N. sp. 3 and N. sp. 4. Gondolella was separated into two species, G. wardlawi and the much rarer G. sp. 2.The Excello conodont fauna is significantly different than the more diverse conodont fauna of the highest major Cherokee cyclothem, the Verdigris. The Excello fauna resembles more closely the younger Marmaton conodont faunas, such as the Lost Branch fauna at the top of the Marmaton Group. The distribution of conodont genera in the Excello Shale member is compatible with the Midcontinent conodont biofacies model. The species provide some additional biofacies information, with differences in proportions of Idiognathodus and Neognathodus species occurring across the offshore to onshore transect. However, these species-level biofacies changes are not seen in the vertical succession of lithofacies in any one section. This may because the geographic spacing of sections provides greater ecological separation than can be resolved in the condensed vertical lithofacies section of the cyclothem.

Published

2017

11. Systems genetics of sensation seeking

Author

Dickson, Price E., primary, Roy, Tyler A., additional, McNaughton, Kathryn A., additional, Wilcox, Troy D., additional, Kumar, Padam, additional, and Chesler, Elissa J., additional

Published

2018

12. Systems genetics of sensation seeking.

Author

Dickson, Price E., Roy, Tyler A., McNaughton, Kathryn A., Wilcox, Troy D., Kumar, Padam, and Chesler, Elissa J.

Subjects

*GENETICS, *SENSATION seeking, *SUBSTANCE abuse, *PHENOTYPES, *MESSENGER RNA, *ETHANOL

Abstract

Sensation seeking is a multifaceted, heritable trait which predicts the development of substance use and abuse in humans; similar phenomena have been observed in rodents. Genetic correlations among sensation seeking and substance use indicate shared biological mechanisms, but the genes and networks underlying these relationships remain elusive. Here, we used a systems genetics approach in the BXD recombinant inbred mouse panel to identify shared genetic mechanisms underlying substance use and preference for sensory stimuli, an intermediate phenotype of sensation seeking. Using the operant sensation seeking (OSS) paradigm, we quantified preference for sensory stimuli in 120 male and 127 female mice from 62 BXD strains and the C57BL/6J and DBA/2J founder strains. We used relative preference for the active and inactive levers to dissociate preference for sensory stimuli from locomotion and exploration phenotypes. We identified genomic regions on chromosome 4 (155.236‐155.742 Mb) and chromosome 13 (72.969‐89.423 Mb) associated with distinct behavioral components of OSS. Using publicly available behavioral data and mRNA expression data from brain regions involved in reward processing, we identified (a) genes within these behavioral QTL exhibiting genome‐wide significant cis‐eQTL and (b) genetic correlations among OSS phenotypes, ethanol phenotypes and mRNA expression. From these analyses, we nominated positional candidates for behavioral QTL associated with distinct OSS phenotypes including Gnb1 and Mef2c. Genetic covariation of Gnb1 expression, preference for sensory stimuli and multiple ethanol phenotypes suggest that heritable variation in Gnb1 expression in reward circuitry partially underlies the widely reported relationship between sensation seeking and substance use. We used a systems genetics approach in the BXD recombinant inbred mouse panel to identify shared genetic mechanisms underlying substance use and preference for sensory stimuli, an intermediate phenotype of sensation seeking. Using the operant sensation seeking (OSS) paradigm, we quantified preference for sensory stimuli in mice from 62 BXD strains and the C57BL/6J and DBA/2J founder strains. We identified QTL associated with distinct behavioral components of OSS and used a systems genetics approach to prioritize positional candidates for these QTL including Gnb1 and Mef2c. Genetic covariation of Gnb1 expression, preference for sensory stimuli and multiple ethanol phenotypes suggest that heritable variation in Gnb1 expression in reward circuitry may underlie the widely reported relationship between sensation seeking and substance use. [ABSTRACT FROM AUTHOR]

Published

2019

13. Child Abuse and Neglect

Author

Catherine J. Ross, David P. Williams, Edward Zigler, Norman A. Polansky, Leroy H. Pelton, John Money, Elizabeth Buttenwieser, David G. Gil, Ursula Dibble, Richard Volpe, Margo Breton, George Gerbner, C. Henry Kempe, Gertrude Joanne Williams, Mary Ann Chalmers, Judith Mitton, Roy Tyler Bowles, Joanne Valiant Cook, and Ray Hefler

Subjects

Child abuse, medicine.medical_specialty, School age child, Sociology and Political Science, media_common.quotation_subject, Social environment, Commission, Neglect, Action (philosophy), medicine, Psychiatry, Psychological abuse, Psychology, Child neglect, media_common

Published

1982

14. DISCOVERY AND VALIDATION OF GENES DRIVING DRUG-INTAKE AND RELATED BEHAVIORAL TRAITS IN MICE.

Author

Roy TA, Bubier JA, Dickson PE, Wilcox TD, Ndukum J, Clark JW, Rizzo SJS, Crabbe JC, Denegre JM, Svenson KL, Braun RE, Kumar V, Murray SA, White JK, Philip VM, and Chesler EJ

Abstract

Substance use disorders (SUDs) are heritable disorders characterized by compulsive drug use, but the biological mechanisms driving addiction remain largely unknown. Genetic correlations reveal that predisposing drug-naïve phenotypes, including anxiety, depression, novelty preference, and sensation seeking, are predictive of drug-use phenotypes, implicating shared genetic mechanisms. Because of this relationship, high-throughput behavioral screening of predictive phenotypes in knockout (KO) mice allows efficient discovery of genes likely to be involved in drug use. We used this strategy in two rounds of screening in which we identified 33 drug-use candidate genes and ultimately validated the perturbation of 22 of these genes as causal drivers of substance intake. In our initial round of screening, we employed the two-bottle-choice paradigms to assess alcohol, methamphetamine, and nicotine intake. We identified 19 KO strains that were extreme responders on at least one predictive phenotype. Thirteen of the 19 gene deletions (68%) significantly affected alcohol use three methamphetamine use, and two both. In the second round of screening, we employed a multivariate approach to identify outliers and performed validation using methamphetamine two-bottle choice and ethanol drinking-in-the-dark protocols. We identified 15 KO strains that were extreme responders across the predisposing drug-naïve phenotypes. Eight of the 15 gene deletions (53%) significantly affected intake or preference for three alcohol, eight methamphetamine or three both (3). We observed multiple relations between predisposing behaviors and drug intake, revealing many distinct biobehavioral processes underlying these relationships. The set of mouse models identified in this study can be used to characterize these addiction-related processes further.

Published

2023