Your search keyword '"Phillips, Kimberley A"' showing total 68 results

1. Determination of dexamethasone dose for cortisol suppression in adult common marmosets (Callithrix jacchus).

Author

Phillips, Kimberley A., Lopez, Matthew, Salmon, Adam B., Ross, Corinna N., Abbott, David H., and Capitanio, John P.

Subjects

*CALLITHRIX jacchus, *DEXAMETHASONE, *MARMOSETS, *HYDROCORTISONE, *ADULTS

Abstract

We conducted a dose–response study of dexamethasone to investigate an optimal dexamethasone suppression test for common marmosets. Twelve marmosets received 0.1, 0.5, or 1.0 mg/kg dexamethasone. Doses of 0.5 and 1.0 mg/kg both suppressed endogenous cortisol for at least 18 h with greater individual variability in the lower 0.5 mg/kg dose. [ABSTRACT FROM AUTHOR]

Published

2022

2. Comparison of Musculoskeletal Injury and Behavioral Health Diagnoses Among U.S. Army Active Duty Servicewomen in Ground Combat and Non-Ground Combat Military Occupational Specialties.

Author

Phillips, Kimberley J, Banaag, Amanda, Lynch, LeeAnne C, Wu, Hongyan, Janvrin, Miranda, and Koehlmoos, Tracey Perez

Subjects

*MUSCULOSKELETAL system diseases, *PSYCHIATRY, *RESEARCH, *CROSS-sectional method, *RESEARCH methodology, *EVALUATION research, *OCCUPATIONS, *COMPARATIVE studies, *MILITARY personnel

Abstract

Introduction: The U.S. Army's Soldier 2020 program, which started in January 2016, was designed to achieve full integration of women in all military occupational specialties. This study was undertaken to determine differences in risk of musculoskeletal injury and behavioral health (BH) disorders among U.S. Army Active Duty Servicewomen (ADSW) in ground combat military occupational specialties (MOS) versus those in non-ground combat MOS since the start of the program until January 2019.Materials and Methods: Using healthcare claims data from the Military Health System's Data Repository we conducted a cross-sectional study on ADSW from January 1, 2016 to January 1, 2019 and categorized them as either ground combat specialists (GCSs) or non-ground combat specialists (NGCSs). We identified all female soldiers in our cohort with a musculoskeletal injury (MSKI) and/or BH diagnosis during the study period. A multivariable logistic regression, adjusted by pregnancy or delivery status, was used to assess risk factors associated with GCS and included soldier age, race, body mass index (BMI), tobacco use, alcohol/substance use, and MSKI and BH status as predictor variables.Results: A total of 92,443 U.S. Army ADSW were identified, of whom 3,234 (3.5%) were GCS (infantry, field artillery, cavalry/armor, and air defense) and 89,209 (96.5%) were in non-ground combat billets. A large difference was observed when comparing the age of the population by occupation; GCS women were predominantly between the ages of 18-23 years (71.9%), compared to NGCS women aged 18-23 (41.0%). Top MSKI and BH diagnoses for both occupations were joint pain (44.9% GCS, 50.2% NGCS) and adjustment disorders (26.2% GCS, 28.0% NGCS). GCS women had lower odds for musculoskeletal injury (0.86 AOR, 0.79-0.93 CI, P = 0.0002), obesity per BMI classification (0.82 AOR, 0.70-0.97 CI, P = 0.0214), and BH disorders (0.87 AOR, 0.80-0.95 CI, P = 0.0019); and higher odds for tobacco use (1.44 AOR, 1.27-1.63 CI, P < 0.0001), substance use (1.36 AOR, 1.04-1.79 CI, P = 0.0257), and alcohol use (1.18 AOR, 1.02-1.38 CI, P = 0.0308) when compared to NGCS women.Conclusions: With the increasing focus on soldier medical readiness in today's U.S. Army, the health of all soldiers is of paramount concern to command groups, unit leaders, and individual soldiers. The integration of women into ground combat military occupational specialties is a relatively new program; further longitudinal research of these groups should follow, focusing on their progression and improvement in soldier readiness, overall health, and the well-being of all servicewomen. [ABSTRACT FROM AUTHOR]

Published

2022

3. Serum biomarkers associated with aging and neurodegeneration in common marmosets (Callithrix jacchus).

Author

Phillips, Kimberley A., Lopez, Matthew, Bartling-John, Evelyn, Meredith, Reagan, Buteau, Anna, Alvarez, Addaline, and Ross, Corinna N.

Subjects

*CALLITHRIX jacchus, *GLIAL fibrillary acidic protein, *SINGLE molecules, *ALZHEIMER'S disease, *MARMOSETS

Abstract

• We assessed serum levels of GFAP, NfL, T-Tau, and UCH-L1 in adult and aged marmosets. • Aged marmosets had higher levels of biomarkers associated with neurodegeneration than adults. • Males and females did not differ in biomarker concentrations. The common marmoset (Callithrix jacchus), a small South American monkey, is an important nonhuman primate model in the study of aging and age-related neurodegenerative disease, including Alzheimer's disease, Parkinson's disease, and related dementias. Thorough characterization of the wild type marmoset brain aging model, including biomarkers of aging and neural degeneration, will further the marmoset's utility in translational research. We measured serum concentration of four key biomarkers of neural degeneration [total tau (T-tau), glial fibrillary acidic protein (GFAP), neurofilament light chain (NfL), and ubiquitin C-terminal hydrolase-L1 (UCH-L1)] via single molecule array from 24 marmosets (female n = 13, male n = 11) ranging in age from 1.3 to 18.7 years. Aged marmosets (>7 years) had significantly higher GFAP, NfL, UCH-L1, and T-tau than adult marmosets. Sex differences were not detected for any of these biomarker concentrations. These data provide an important initial range of reference values for GFAP, NfL, T-tau, and UCH-L1 to evaluate aging and neural health in marmosets, as well as evaluation of therapeutics in clinical models of disease. [ABSTRACT FROM AUTHOR]

Published

2024

4. Quantification of hair cortisol concentration in common marmosets (Callithrix jacchus) and tufted capuchins (Cebus apella).

Author

Phillips, Kimberley A., Tukan, Alyson N., Rigodanzo, Anna D., Reusch, Ryan T., Brasky, Kathleen M., and Meyer, Jerrold S.

Subjects

*HYDROCORTISONE, *HAIR physiology, *MARMOSETS, *CALLITHRIX jacchus, *CEBUS apella, *ENZYME-linked immunosorbent assay

Abstract

Quantifying cortisol concentration in hair is a non‐invasive biomarker of long‐term hypothalamic‐pituitary‐adrenal (HPA) activation, and thus can provide important information on laboratory animal health. Marmosets (Callithrix jacchus) and capuchins (Cebus apella) are New World primates increasingly used in biomedical and neuroscience research, yet published hair cortisol concentrations for these species are limited. Review of the existing published hair cortisol values from marmosets reveals highly discrepant values and the use of variable techniques for hair collection, processing, and cortisol extraction. In this investigation we utilized a well‐established, standardized protocol to extract and quantify cortisol from marmoset (n = 12) and capuchin (n = 4) hair. Shaved hair samples were collected from the upper thigh during scheduled exams and analyzed via methanol extraction and enzyme immunoassay. In marmosets, hair cortisol concentration ranged from 2,710 to 6,267 pg/mg and averaged 4,070 ± 304 pg/mg. In capuchins, hair cortisol concentration ranged from 621 to 2,089 pg/mg and averaged 1,092 ± 338 pg/mg. Hair cortisol concentration was significantly different between marmosets and capuchins, with marmosets having higher concentrations than capuchins. The incorporation of hair cortisol analysis into research protocols provides a non‐invasive measure of HPA axis activity over time, which offers insight into animal health. Utilization of standard protocols across laboratories is essential to obtaining valid measurements and allowing for valuable future cross‐species comparisons. [ABSTRACT FROM AUTHOR]

Published

2018

5. Cortisol levels across the lifespan in common marmosets (Callithrix jacchus).

Author

Lopez, Matthew, Seidl, Amaya, and Phillips, Kimberley A.

Subjects

*CALLITHRIX jacchus, *HYDROCORTISONE, *AGE groups, *ENZYME-linked immunosorbent assay, *HYPOTHALAMIC-pituitary-adrenal axis, *IMMUNOASSAY

Abstract

Human aging is associated with senescence of the hypothalamic–pituitary–adrenal (HPA) axis, leading to progressive dysregulation characterized by increased cortisol exposure. This key hormone is implicated in the pathogenesis of many age‐related diseases. Common marmosets (Callithrix jacchus) display a wide spectrum of naturally occurring age‐related pathologies that compare similarly to humans and are increasingly used as translational models of aging and age‐related disease. Whether the marmoset HPA axis also shows senescence with increasing age is unknown. We analyzed hair cortisol concentration (HCC) across the lifespan of 50 captive common marmosets, ranging in age from approximately 2 months–14.5 years, via a cross‐sectional design. Samples were processed and analyzed for cortisol using enzyme immunoassay. HCC ranged from 1416 to 15,343 pg/mg and was negatively correlated with age. We found significant main effects of age group (infant, adolescent, adult, aged, very aged) and sex on HCC, and no interaction effects. Infants had significantly higher levels of HCC compared with all other age groups. Females had higher HCC than males. There was no interaction between age and sex. These results suggest marmosets do not show dysregulation of the HPA axis with increasing age, as measured via HCC. Highlights: We quantified hair cortisol concentration over the lifespan in marmosets.Infants displayed higher cortisol than all other age groups.Marmosets did not exhibit senescence of the hypothalamic–pituitary–adrenal (HPA) axis.HPA axis dysregulation may not be an inevitable consequence of aging. [ABSTRACT FROM AUTHOR]

Published

2024

6. Membership analysis of the American Society of Primatologists through 2015 and planning for future.

Author

Phillips, Kimberley A. and Norconk, Marilyn A.

Subjects

*MEMBERSHIP in associations, institutions, etc., *TRENDS, *PRIMATOLOGY, *STUDENTS

Abstract

The article offers information on membership trends of the American Society of Primatologists in 2015 and the organization's future plans. It discusses events in scientific primatology between 2012 and 2015 that have influenced decisions concerning membership in the organization, a decline in the total number of its members and the failure of the organization to convert student members into full members.

Published

2017

7. Behavioral phenotypes associated with MPTP induction of partial lesions in common marmosets (Callithrix jacchus).

Author

Phillips, Kimberley A., Ross, Corinna N., Spross, Jennifer, Cheng, Catherine J., Izquierdo, Alyssa, Biju, K.C., Chen, Cang, Li, Senlin, and Tardif, Suzette D.

Subjects

*PARKINSON'S disease treatment, *METHYLPHENYLTETRAHYDROPYRIDINE, *CALLITHRIX jacchus, *PHENOTYPES, *NEUROCHEMISTRY

Abstract

Parkinson’s disease is a chronic neurodegenerative disorder with the core motor features of resting tremor, bradykinesia, rigidity, and postural instability. Non-motor symptoms also occur, and include cognitive dysfunction, mood disorders, anosmia (loss of smell), and REM sleep disturbances. As the development of medications and other therapies for treatment of non-motor symptoms is ongoing, it is essential to have animal models that aid in understanding the neural changes underlying non-motor PD symptoms and serve as a testing ground for potential therapeutics. We investigated several non-motor symptoms in 10 adult male marmosets using the MPTP model, with both the full ( n = 5) and partial ( n = 5) MPTP dosing regimens. Baseline data in numerous domains were collected prior to dosing; assessments in these same domains occurred post-dosing for 12 weeks. Marmosets given the partial MPTP dose (designed to mimic the early stages of the disease) differed significantly from marmosets given the full MPTP dose in several ways, including behavior, olfactory discrimination, cognitive performance, and social responses. Importantly, while spontaneous recovery of PD motor symptoms has been previously reported in studies of MPTP monkeys and cats, we did not observe recovery of any non-motor symptoms. This suggests that the neurochemical mechanisms behind the non-motor symptoms of PD, which appear years before the onset of symptoms, are independent of the striatal dopaminergic transmission. We demonstrate the value of assessing a broad range of behavioral change to detect non-motor impairment, anosmia, and differences in socially appropriate responses, in the marmoset MPTP model of early PD. [ABSTRACT FROM AUTHOR]

Published

2017

8. The corpus callosum in primates: processing speed of axons and the evolution of hemispheric asymmetry.

Author

Phillips, Kimberley A., Stimpson, Cheryl D., Smaers, Jeroen B., Raghanti, Mary Ann, Jacobs, Bob, Popratiloff, Anastas, Hof, Patrick R., and Sherwood, Chet C.

Subjects

*CORPUS callosum, *PRIMATES, *AXONS, *PHYLOGENY, *LIFE sciences

Abstract

Interhemispheric communication may be constrained as brain size increases because of transmission delays in action potentials over the length of axons. Although one might expect larger brains to have progressively thicker axons to compensate, spatial packing is a limiting factor. Axon size distributions within the primate corpus callosum (CC) may provide insights into how these demands affect conduction velocity. We used electron microscopy to explore phylogenetic variation in myelinated axon density and diameter of the CC from 14 different anthropoid primate species, including humans. The majority of axons were less than 1 mm in diameter across all species, indicating that conduction velocity for most interhemispheric communication is relatively constant regardless of brain size. The largest axons within the upper 95th percentile scaled with a progressively higher exponent than the median axons towards the posterior region of the CC. While brain mass among the primates in our analysis varied by 97-fold, estimates of the fastest cross-brain conduction times, as conveyed by axons at the 95th percentile, varied within a relatively narrow range between 3 and 9 ms across species, whereas cross-brain conduction times for the median axon diameters differed more substantially between 11 and 38 ms. Nonetheless, for both size classes of axons, an increase in diameter does not entirely compensate for the delay in interhemispheric transmission time that accompanies larger brain size. Such biophysical constraints on the processing speed of axons conveyed by the CC may play an important role in the evolution of hemispheric asymmetry. [ABSTRACT FROM AUTHOR]

Published

2015

9. Take the monkey and run.

Author

Phillips, Kimberley A., Hambright, M. Karen, Hewes, Kelly, Schilder, Brian M., Ross, Corinna N., and Tardif, Suzette D.

Subjects

*MARMOSET behavior, *BODY size, *NEURODEGENERATION, *AGING, *AEROBIC exercises

Abstract

Background The common marmoset ( Callithrix jacchus ) is a small, New World primate that is used extensively in biomedical and behavioral research. This short-lived primate, with its small body size, ease of handling, and docile temperament, has emerged as a valuable model for aging and neurodegenerative research. A growing body of research has indicated exercise, aerobic exercise especially, imparts beneficial effects to normal aging. Understanding the mechanisms underlying these positive effects of exercise, and the degree to which exercise has neurotherapeutic effects, is an important research focus. Thus, developing techniques to engage marmosets in aerobic exercise would have great advantages. New method Here we describe the marmoset exercise ball (MEB) paradigm: a safe (for both experimenter and subjects), novel and effective means to engage marmosets in aerobic exercise. We trained young adult male marmosets to run on treadmills for 30 min a day, 3 days a week. Results Our training procedures allowed us to engage male marmosets in this aerobic exercise within 4 weeks, and subjects maintained this frequency of exercise for 3 months. Comparison with existing methods To our knowledge, this is the first described method to engage marmosets in aerobic exercise. A major advantage of this exercise paradigm is that while it was technically forced exercise, it did not appear to induce stress in the marmosets. Conclusions These techniques should be useful to researchers wishing to address physiological responses of exercise in a marmoset model. [ABSTRACT FROM AUTHOR]

Published

2015

10. Multi-region hemispheric specialization differentiates human from nonhuman primate brain function.

Author

Wey, Hsiao-Ying, Phillips, Kimberley, McKay, D., Laird, Angela, Kochunov, Peter, Davis, M., Glahn, David, Duong, Timothy, and Fox, Peter

Subjects

*BRAIN research, *PRIMATES, *PREFRONTAL cortex, *CHIMPANZEES, *HUMAN behavior

Abstract

The human behavioral repertoire greatly exceeds that of nonhuman primates. Anatomical specializations of the human brain include an enlarged neocortex and prefrontal cortex (Semendeferi et al. in Am J Phys Anthropol 114:224-241, ), but regional enlargements alone cannot account for these vast functional differences. Hemispheric specialization has long believed to be a major contributing factor to such distinctive human characteristics as motor dominance, attentional control and language. Yet structural cerebral asymmetries, documented in both humans and some nonhuman primate species, are relatively minor compared to behavioral lateralization. Identifying the mechanisms that underlie these functional differences remains a goal of considerable interest. Here, we investigate the intrinsic connectivity networks in four primate species (humans, chimpanzees, baboons, and capuchin monkeys) using resting-state fMRI to evaluate the intra- and inter- hemispheric coherences of spontaneous BOLD fluctuation. All three nonhuman primate species displayed lateralized functional networks that were strikingly similar to those observed in humans. However, only humans had multi-region lateralized networks, which provide fronto-parietal connectivity. Our results indicate that this pattern of within-hemisphere connectivity distinguishes humans from nonhuman primates. [ABSTRACT FROM AUTHOR]

Published

2014

11. Why primate models matter.

Author

Phillips, Kimberley A., Bales, Karen L., Capitanio, John P., Conley, Alan, Czoty, Paul W., ‘t Hart, Bert A., Hopkins, William D., Hu, Shiu‐Lok, Miller, Lisa A., Nader, Michael A., Nathanielsz, Peter W., Rogers, Jeffrey, Shively, Carol A., and Voytko, Mary Lou

Subjects

*PRIMATES, *MAMMALS, *COGNITION, *PSYCHOLOGY, *CHIMPANZEES

Abstract

Research involving nonhuman primates (NHPs) has played a vital role in many of the medical and scientific advances of the past century. NHPs are used because of their similarity to humans in physiology, neuroanatomy, reproduction, development, cognition, and social complexity-yet it is these very similarities that make the use of NHPs in biomedical research a considered decision. As primate researchers, we feel an obligation and responsibility to present the facts concerning why primates are used in various areas of biomedical research. Recent decisions in the United States, including the phasing out of chimpanzees in research by the National Institutes of Health and the pending closure of the New England Primate Research Center, illustrate to us the critical importance of conveying why continued research with primates is needed. Here, we review key areas in biomedicine where primate models have been, and continue to be, essential for advancing fundamental knowledge in biomedical and biological research. Am. J. Primatol. 76:801-827, 2014. © 2014 Wiley Periodicals, Inc. [ABSTRACT FROM AUTHOR]

Published

2014

12. Hand Preference for Tool-Use in Capuchin Monkeys ( Cebus apella) Is Associated With Asymmetry of the Primary Motor Cortex.

Author

PHILLIPS, KIMBERLEY A. and THOMPSON, CLAUDIA R.

Subjects

*CAPUCHIN monkeys, *PRIMATOLOGY, *MOTOR cortex, *NEUROANATOMY, *MAGNETIC resonance imaging

Abstract

Skilled motor actions are associated with handedness and neuroanatomical specializations in humans. Recent reports have documented similar neuroanatomical asymmetries and their relationship to hand preference in some nonhuman primate species, including chimpanzees and capuchin monkeys. We investigated whether capuchins displayed significant hand preferences for a tool-use task and whether such preferences were associated with motor-processing regions of the brain. Handedness data on a dipping tool-use task and high-resolution 3T MRI scans were collected from 15 monkeys. Capuchins displayed a significant group-level left-hand preference for this type of tool use, and handedness was associated with asymmetry of the primary motor cortex. Left-hand preferent individuals displayed a deeper central sulcus in the right hemisphere. Our results suggest that capuchins show an underlying right-hemisphere bias for skilled movement. Am. J. Primatol. 75:435-440, 2013. © 2012 Wiley Periodicals, Inc. [ABSTRACT FROM AUTHOR]

Published

2013

13. Performance Asymmetries in Tool Use Are Associated With Corpus Callosum Integrity in Chimpanzees (Pan troglodytes): A Diffusion Tensor Imaging Study.

Author

Phillips, Kimberley A., Schaeffer, Jennifer, Barrett, Elizabeth, and Hopkins, William D.

Subjects

*CORPUS callosum, *CHIMPANZEE behavior, *DIFFUSION tensor imaging, *CELL morphology, *MOTOR ability, *HANDEDNESS

Abstract

The authors examined the relationship of corpus callosum (CC) morphology and organization to hand preference and performance on a motor skill task in chimpanzees. Handedness was assessed using a complex tool use task that simulated termite fishing. Chimpanzees were initially allowed to perform the task wherein they could choose which hand to use (preference measure), then they were required to complete trials using each hand (performance measure). Two measures were used to assess the CC: midsagittal area obtained from in vivo magnetic resonance images and density of transcallosal connec-tions as determined by fractional anisotropy values obtained from diffusion tensor imaging. The authors hypothesized that chimpanzees would perform better on their preferred hand compared to the nonpre-ferred hand, and that strength of behavioral lateralization (rather the direction) on this task would be negatively correlated to regions of the CC involved in motor processing. Results indicate that the preferred hand was the most adept hand. Performance asymmetries correlated with fractional anisotropy measures but not area measures of the CC. [ABSTRACT FROM AUTHOR]

Published

2013

14. Curious monkeys have increased gray matter density in the precuneus

Author

Phillips, Kimberley A., Subiaul, Francys, and Sherwood, Chet C.

Subjects

*LABORATORY monkeys, *PERIAQUEDUCTAL gray matter, *CURIOSITY, *COGNITION, *VOXEL-based morphometry, *CLUSTER analysis (Statistics), *MAGNETIC resonance imaging of the brain

Abstract

Abstract: Curiosity is a cornerstone of cognition that has the potential to lead to innovations and increase the behavioral repertoire of individuals. A defining characteristic of curiosity is inquisitiveness directed toward novel objects. Species differences in innovative behavior and inquisitiveness have been linked to social complexity and neocortical size . In this study, we observed behavioral actions among nine socially reared and socially housed capuchin monkeys in response to an unfamiliar object, a paradigm widely employed as a means to assess curiosity. K-means hierarchical clustering analysis of the behavioral responses revealed three monkeys engaged in significantly more exploratory behavior of the novel object than other monkeys. Using voxel-based-morphometry analysis of MRIs obtained from these same subjects, we demonstrated that the more curious monkeys had significantly greater gray matter density in the precuneus, a cortical region involved in highly integrated processes including memory and self-awareness. These results linking variation in precuneus gray matter volume to exploratory behavior suggest that monitoring states of self-awareness may play a role in cognitive processes mediating individual curiosity. [Copyright &y& Elsevier]

Published

2012

15. Genetic Contributions to the Midsagittal Area of the Corpus Callosum.

Author

Phillips, Kimberley A., Rogers, Jeffrey, Barrett, Elizabeth A., Glahn, David C., and Kochunov, Peter

Subjects

*CORPUS callosum, *NEUROGENETICS, *HERITABILITY, *SAGITTAL curve, *BABOONS, *PHYSIOLOGY

Abstract

The degree to which genes and environment determine variations in brain structure and function is fundamentally important to understanding normal and disease-related patterns of neural organization and activity. We studied genetic contributions to the midsagittal area of the corpus callosum (CC) in pedigreed baboons (68 males, 112 females) to replicate findings of high genetic contribution to that area of the CC reported in humans, and to determine if the heritability of the CC midsagittal area in adults was modulated by fetal development rate. Measurements of callosal area were obtained from high-resolution MRI scans. Heritability was estimated from pedigree-based maximum likelihood estimation of genetic and non-genetic variance components as implemented in Sequential Oligogenic Linkage Analysis Routines (SOLAR). Our analyses revealed significant heritability for the total area of the CC and all of its subdivisions, with h2 = .46 for the total CC, and h2 = .54, .37, .62, .56, and .29 for genu, anterior midbody, medial midbody, posterior midbody and splenium, respectively. Genetic correlation analysis demonstrated that the individual subdivisions shared between 41% and 98% of genetic variability. Combined with previous research reporting high heritability of other brain structures in baboons, these results reveal a consistent pattern of high heritability for brain morphometric measures in baboons. [ABSTRACT FROM PUBLISHER]

Published

2012

16. Topography of the Chimpanzee Corpus Callosum.

Author

Phillips, Kimberley A. and Hopkins, William D.

Subjects

*CHIMPANZEES, *CORPUS callosum, *TELENCEPHALON, *CEREBRAL cortex, *MAGNETIC resonance imaging, *STEREOLOGY

Abstract

The corpus callosum (CC) is the largest commissural white matter tract in mammalian brains, connecting homotopic and heterotopic regions of the cerebral cortex. Knowledge of the distribution of callosal fibers projecting into specific cortical regions has important implications for understanding the evolution of lateralized structures and functions of the cerebral cortex. No comparisons of CC topography in humans and great apes have yet been conducted. We investigated the topography of the CC in 21 chimpanzees using high-resolution magnetic resonance imaging (MRI) and diffusion tensor imaging (DTI). Tractography was conducted based on fiber assignment by continuous tracking (FACT) algorithm. We expected chimpanzees to display topographical organization similar to humans, especially concerning projections into the frontal cortical regions. Similar to recent studies in humans, tractography identified five clusters of CC fibers projecting into defined cortical regions: prefrontal; premotor and supplementary motor; motor; sensory; parietal, temporal and occipital. Significant differences in fractional anisotropy (FA) were found in callosal regions, with highest FA values in regions projecting to higher-association areas of posterior cortical (including parietal, temporal and occipital cortices) and prefrontal cortical regions (p<0.001). The lowest FA values were seen in regions projecting into motor and sensory cortical areas. Our results indicate chimpanzees display similar topography of the CC as humans, in terms of distribution of callosal projections and microstructure of fibers as determined by anisotropy measures. [ABSTRACT FROM AUTHOR]

Published

2012

17. Why do capuchin monkeys urine wash? An experimental test of the sexual communication hypothesis using fMRI.

Author

Phillips, Kimberley A., Buzzell, Courtney A., Holder, Nicholas, and Sherwood, Chet C.

Subjects

*URINE, *PRIMATE behavior, *CAPUCHIN monkey behavior, *BRAIN stimulation, *SEXUAL attraction

Abstract

Urine washing (UW) consists of depositing urine on the hands and vigorously rubbing the body. As urine contains chemical and pheromonal cues, UW may convey socially relevant information. Although ritualized UW is observed in many New World primates, including capuchin monkeys, the functional significance of UW remains unclear. In this experiment, we investigated the social signaling hypothesis of UW. Specifically, we hypothesized that UW by males conveys socially relevant signals that females can detect. We used functional magnetic resonance imaging (fMRI) to test whether adult female capuchins show differential brain activation in response to adult male and juvenile male capuchin urine. We expected to see changes in activation of structures involved in olfactory processing, including the piriform cortex, medial preoptic and anterior hypothesis, orbitofrontal cortex, hippocampus, and cerebellum. Data were acquired from four adult female capuchin monkeys. Presentations of odor stimuli (obtained from unfamiliar males) were made during fMRI acquisition using a standard ON-OFF design. All fMRI data were spatially normalized to a template and analyzed using the FMRI Expert Analysis Tool Version 5.98, part of the FMRIB's Software Library (). Whole brain analyses revealed significant activations in the inferior temporal cortex, parahippocampal gyrus, precuneus, hippocampus, pulvinar, and cerebellum when females were presented with the adult male urine. Notably, significantly greater signal activation was observed in several regions associated with olfactory processing, when subjects were presented with adult male urine as compared with urine from juvenile males. Our results indicate that UW serves a social communicative function in capuchins, providing support for the sexual signaling hypothesis. Am. J. Primatol. 73:578-584, 2011. © 2011 Wiley-Liss, Inc. [ABSTRACT FROM AUTHOR]

Published

2011

18. Hand preferences for coordinated bimanual actions in 777 great apes: Implications for the evolution of handedness in Hominins

Author

Hopkins, William D., Phillips, Kimberley A., Bania, Amanda, Calcutt, Sarah E., Gardner, Molly, Russell, Jamie, Schaeffer, Jennifer, Lonsdorf, Elizabeth V., Ross, Stephen R., and Schapiro, Steven J.

Subjects

*HANDEDNESS, *APES, *PRIMATES, *HOMINIDS, *CHIMPANZEES, *GORILLA (Genus), *ANTHROPOCENTRISM

Abstract

Abstract: Whether or not nonhuman primates exhibit population-level handedness remains a topic of considerable scientific debate. Here, we examined handedness for coordinated bimanual actions in a sample of 777 great apes including chimpanzees, bonobos, gorillas, and orangutans. We found population-level right-handedness in chimpanzees, bonobos and gorillas, but left-handedness in orangutans. Directional biases in handedness were consistent across independent samples of apes within each genus. We suggest that, contrary to previous claims, population-level handedness is evident in great apes but differs among species as a result of ecological adaptations associated with posture and locomotion. We further suggest that historical views of nonhuman primate handedness have been too anthropocentric, and we advocate for a larger evolutionary framework for the consideration of handedness and other aspects of hemispheric specialization among primates. [Copyright &y& Elsevier]

Published

2011

19. The development of the basal ganglia in Capuchin monkeys (Cebus apella)

Author

Phillips, Kimberley A., Sobieski, Courtney A., Gilbert, Valerie R., Chiappini-Williamson, Christine, Sherwood, Chet C., and Strick, Peter L.

Subjects

*DEVELOPMENTAL neurobiology, *BASAL ganglia, *CAPUCHIN monkeys, *EXECUTIVE function, *MAGNETIC resonance imaging, *CAUDATE nucleus, *GLOBUS pallidus, *LABORATORY monkeys

Abstract

Abstract: The basal ganglia are subcortical structures involved in the planning, initiation and regulation of movement as well as a variety of non-motor, cognitive and affective functions. Capuchin monkeys share several important characteristics of development with humans, including a prolonged infancy and juvenile period, a long lifespan, and complex manipulative abilities. This makes capuchins important comparative models for understanding age-related neuroanatomical changes in these structures. Here we report developmental volumetric data on the three subdivisions of the basal ganglia, the caudate, putamen and globus pallidus in brown capuchin monkeys (Cebus apella). Based on a cross-sectional sample, we describe brain development in 28 brown capuchin monkeys (male n =17, female n =11; age range=2months–20years) using high-resolution structural MRI. We found that the raw volumes of the putamen and caudate varied significantly with age, decreasing in volume from birth through early adulthood. Notably, developmental changes did not differ between sexes. Because these observed developmental patterns are similar to humans, our results suggest that capuchin monkeys may be useful animal models for investigating neurodevelopmental disorders of the basal ganglia. [Copyright &y& Elsevier]

Published

2010

20. Cortical development in brown capuchin monkeys: A structural MRI study

Author

Phillips, Kimberley A. and Sherwood, Chet C.

Subjects

*NEURAL development, *CAPUCHIN monkeys, *MOTOR ability, *FRONTAL lobe, *CORPUS callosum, SEX differences (Biology)

Abstract

Abstract: Relative to other primates, Cebus monkeys display unusually fast postnatal brain growth and motor skill development. The neonatal capuchin brain, at approximately 29–34 g, is a smaller proportion of the adult brain weight (c. 50%) than is the brain of other primates except humans and great apes. Here we describe, from a cross-sectional sample, brain development in 29 brown capuchin monkeys (Cebus apella) using high-resolution structural magnetic resonance images, focusing on growth patterns in total brain volume, cortical gray and white matter volume, frontal lobe gray and white matter volume, and corpus callosum area. Non-linear age-related changes in total brain volume, cortical white matter volume and frontal white matter volume were detected from birth – 5 years. Sex differences in corpus callosum:brain ratio were also found, with males having a 10% smaller corpus callosum:brain ratio than females regardless of age. Female corpus callosum:brain ratio showed significant age-related related changes, whereas males did not display any significant changes across age. Sex differences were also found in cortical gray and frontal lobe gray matter volumes, with males having larger volumes than females. These findings support the conclusion that capuchins undergo rapid neurological change during the first few years of life. [Copyright &y& Elsevier]

Published

2008

21. Consistency of hand preference across low-level and high-level tasks in Capuchin monkeys (Cebus apella).

Author

Lilak, Alayna L. and Phillips, Kimberley A.

Subjects

*CAPUCHIN monkeys, *PRIMATES, *ANIMAL behavior, *ANIMAL populations, SEX differences (Biology)

Abstract

Numerous studies investigating behavioral lateralization in capuchins have been published. Although some research groups have reported a population-level hand preference, other researchers have argued that capuchins do not show hand preference at the population level. As task complexity influences the expression of handedness in other primate species, the purpose of this study was to collect hand preference data across a variety of high- and low-level tasks to evaluate how task complexity influences the expression of hand preference in capuchins. We tested eleven captive brown capuchin monkeys (Cebus apella) to determine if they show consistent hand preferences across multiple high- and low-level tasks. Capuchins were expected to display high intertask consistency across the high-level tasks but not the low-level tasks. Although most individuals showed significant hand preferences for each task, only two of the high-level tasks that involved similar hand motions were significantly positively correlated, indicating consistency of hand preference across these tasks only. None of the tasks elicited a group-level hand preference. High-level tasks elicited a greater strength of hand preference than did low-level tasks. No sex differences were found for the direction or strength of hand preference for any task. These results contribute to the growing database of primate laterality and provide additional evidence that capuchins do not display group-level hand preferences. Am. J. Primatol. 70:254–260, 2008. © 2007 Wiley-Liss, Inc. [ABSTRACT FROM AUTHOR]

Published

2008

22. Social Monitoring Reflects Dominance Relationships in a Small Captive Group of Brown Capuchin Monkeys ( Cebus apella).

Author

Pannozzo, Pamela L., Phillips, Kimberley A., Haas, Meghan E., and Mintz, Eric M.

Subjects

*CAPUCHIN monkeys, *CEBUS apella, *ANIMAL behavior, *ANIMAL aggression, *ANIMAL fighting, *HYPOTHESIS

Abstract

In several studies of social monitoring in primates, subordinate animals directed more visual attention toward dominant animals than vice versa. This behavior is thought to enable subordinate animals to avoid conflict. We sought to clarify whether visual attention behavior functions in this manner in a small captive group of brown capuchin monkeys, Cebus apella. We tested the hypothesis that social monitoring is related to dominance status. Dominance status was determined based on the directionality of aggressive behavior, and visual attention was quantified by using focal animal sampling. Subordinate animals directed significantly more visual attention toward others than dominant animals. Subordinate animals also looked more frequently at the animals that attacked them and others the most. The results indicate that social monitoring behavior in this captive group was driven by conflict-avoidance. [ABSTRACT FROM AUTHOR]

Published

2007

23. Cerebral petalias and their relationship to handedness in capuchin monkeys (Cebus apella)

Author

Phillips, Kimberley A. and Sherwood, Chet C.

Subjects

*DIAGNOSTIC imaging, *MAGNETIC resonance imaging, *TEAMS in the workplace, *CAPUCHIN monkeys

Abstract

Abstract: Cerebral asymmetries are thought to be associated with increased hemispheric specialization of function. We investigated cerebral petalias, the protrusion of one cerebral hemisphere relative to the other, and their relationship to lateralized behavior in capuchin monkeys (Cebus apella). Magnetic resonance images of the brain and behavioral data on a coordinated bimanual task were obtained from 13 capuchins. While a significant population-level left-frontal petalia was found, this was not related to handedness. The role of the morphologically asymmetric frontal cortex in capuchins is unclear, but may reflect developmental gradients or directional selection for various behavioral functions, such as extractive foraging or social group complexity. [Copyright &y& Elsevier]

Published

2007

24. Exploring the relationship between cerebellar asymmetry and handedness in chimpanzees (Pan troglodytes) and capuchins (Cebus apella)

Author

Phillips, Kimberley A. and Hopkins, William D.

Subjects

*DIAGNOSTIC imaging, *MAGNETIC resonance imaging, *BRAIN diseases, *NONINVASIVE diagnostic tests

Abstract

Abstract: A comparative study of chimpanzee (Pan troglodytes) and capuchin monkey (Cebus apella) cerebellar asymmetry and its relationship to handedness was conducted. Magnetic resonance images of the brain and behavioral data on a coordinated bimanual task were obtained from 16 chimpanzees and 11 capuchins. Chimpanzees displayed a greater rightward bias of the posterior cerebellum and capuchins displayed a greater leftward bias of the anterior cerebellum. Cerebellar asymmetries were significantly associated with handedness in capuchins but not chimpanzees, and this effect was most pronounced in right-handed capuchins. [Copyright &y& Elsevier]

Published

2007

25. Primary Motor Cortex Asymmetry Is Correlated With Handedness in Capuchin Monkeys (Cebus apella).

Author

Phillips, Kimberley A. and Sherwood, Chet C.

Subjects

*FRONTAL lobe, *MOTOR cortex, *HANDEDNESS, *MONKEYS, *MAMMALS, *PRIMATES

Abstract

Humans exhibit a population-wide tendency toward right-handedness, and structural asymmetries of the primary motor cortex are associated with hand preference. Reported are similar asymmetries correlated with hand preference in a New World monkey (Cebus apella) that does not display population-level handedness. Asymmetry of central sulcus depth is significantly different between left-handed and right-handed individuals as determined by a coordinated bimanual task. Left-handed individuals have a deeper central sulcus in the contralateral hemisphere; right-handed individuals have a more symmetrical central sulcus depth. Cerebral hemispheric specialization for hand preference is not uniquely human and may he more common among primates in general. [ABSTRACT FROM AUTHOR]

Published

2005

26. Keeping a Record of Life: Women and Art During World War II.

Author

Phillips, Kimberley L.

Subjects

*WORLD War II in art, *POPULAR culture, *ANTISEMITISM, *RACISM, *AFRICAN American social conditions, *JAPANESE Americans, *CONCENTRATION camps, *SOCIAL history, UNITED States history, 1933-1945

Abstract

Focuses on the feminist perspective of life in the U.S. home front during World War II through the examination of art produced by women that revealed the racial and ethnic prejudices in popular culture. Effort of radio personality Kate Smith to use wartime radio to assail Nazi anti-Semitic policies in Europe; Significance of the black protest literature of Ann Lane Petry in detailing accounts of African American life during the war; Exposition of the life of Japanese Americans in internment camps in Mine Okubo's autobiography "Citizen 13660."

Published

2005

27. Use of Visual, Acoustic, and Olfactory Information During Embedded Invertebrate Foraging in Brown Capuchins (Cebus apella).

Author

Phillips, Kimberley A., Shauver Goodchild, Lisa M., Haas, Meghan E., Ulyan, Marjorie J., and Petro, Stephanie

Subjects

*CAPUCHIN monkeys, *ANIMAL psychology, *ANIMAL behavior, *COMPARATIVE psychology, *FORAGING behavior, *INVERTEBRATES, *PSYCHOLOGY

Abstract

Experiments were conducted to investigate which sensory cues are used by brown capuchins (Cebus apella) in embedded invertebrate foraging. The importance of visual, olfactory, and acoustic cues in such foraging was determined by presenting subjects with a stimulus log modified to block out given sensory cues. Experiment I was designed to investigate whether subjects could locate an invertebrate embedded in wood when only visual, acoustic, or olfactory information was available. Experiments 2 and 3 were designed to investigate extractive foraging behavior when two sensory cues were provided. It was hypothesized that the combination of visual and acoustic information would be necessary for subjects to successfully locate embedded invertebrates. Results indicated that subjects' performance was most successful when both visual and acoustic information was available. [ABSTRACT FROM AUTHOR]

Published

2004

28. Evolutionary scaling and cognitive correlates of primate frontal cortex microstructure.

Author

Stimpson, Cheryl D., Smaers, Jeroen B., Raghanti, Mary Ann, Phillips, Kimberley A., Jacobs, Bob, Hopkins, William D., Hof, Patrick R., and Sherwood, Chet C.

Subjects

*PREFRONTAL cortex, *FRONTAL lobe, *PYRAMIDAL neurons, *SIZE of brain, *MOTOR cortex, *RAPHE nuclei

Abstract

Investigating evolutionary changes in frontal cortex microstructure is crucial to understanding how modifications of neuron and axon distributions contribute to phylogenetic variation in cognition. In the present study, we characterized microstructural components of dorsolateral prefrontal cortex, orbitofrontal cortex, and primary motor cortex from 14 primate species using measurements of neuropil fraction and immunohistochemical markers for fast-spiking inhibitory interneurons, large pyramidal projection neuron subtypes, serotonergic innervation, and dopaminergic innervation. Results revealed that the rate of evolutionary change was similar across these microstructural variables, except for neuropil fraction, which evolves more slowly and displays the strongest correlation with brain size. We also found that neuropil fraction in orbitofrontal cortex layers V–VI was associated with cross-species variation in performance on experimental tasks that measure self-control. These findings provide insight into the evolutionary reorganization of the primate frontal cortex in relation to brain size scaling and its association with cognitive processes. [ABSTRACT FROM AUTHOR]

Published

2024

29. Meatpackers: An Oral History of Black Packinghouse Workers and Their Struggle for Racial and Economic Equality.

Author

Phillips, Kimberley L.

Abstract

Reviewed: Meatpackers: An Oral History of Black Packinghouse Workers and Their Struggle for Racial and Economic Equality. Halpern, Rick and Horowitz, Roger.

Published

1999

30. "Negro and White, Unite and Fight!" A Social History of Industrial Unionism in Meatpacking, 1930-90.

Author

Phillips, Kimberley L.

Abstract

Reviewed: Negro and White, Unite and Fight!" A Social History of Industrial Unionism in Meatpacking, 1930-90. Horowitz, Roger.

Published

1999

31. Down on the Killing Floor: Black and White Workers in Chicago's Packinghouses, 1904-1954.

Author

Phillips, Kimberley L.

Abstract

Reviewed: Down on the Killing Floor: Black and White Workers in Chicago's Packinghouses, 1904-1954. Halpern, Rick.

Published

1999

32. Dismembering heroic unions.

Author

Phillips, Kimberley L.

Subjects

*LABOR unions, *PACKING-house workers, *RACISM, *WORKING class, *CRITICISM

Abstract

This article presents the author comments on the studies by Roger Horowitz and Rick Halpern on packing-house workers of the United States. The author says that by the late 1920's Midwestern packinghouses employed a diverse pool of white, black, and Mexican workers who performed some of the worst work. Despite the horrendous working conditions, graphically depicted in fascinating detail in these two books, workers found their differences and employers' tactics insurmountable. Between 1930 and 1960, however, packinghouse workers' organizational failures of the previous three decades gave way to a successful challenge of the unequal structural and cultural relations of power. By the end of the 1930's militant organizers and a highly disciplined rank-and-file had built the formidable United Packinghouse Workers of America. The author says that he heartily recommend the two books by Horowitz and Halpern. The author says that he heartily recommend the two books by Horowitz and Halpern. According to the author, each author posits that workers succeeded in overcoming those vexing differences of race, ethnicity, and gender because they sustained a militancy at the point of production.

Published

1999

33. Applying GPS to the study of primate ecology: A useful tool?

Author

Phillips, Kimberley A., Elvey, Carrie R., and Abercrombie, C. L.

Subjects

*GLOBAL Positioning System, *ANIMAL ecology, *ANIMAL populations, *ANIMAL ecophysiology, *ANIMAL communities, *ANIMAL societies, *ANIMAL social behavior, *FORAGING behavior, *ANIMAL behavior, *PRIMATES

Abstract

Data on the spatiotemporal distribution of resources can be collected and plotted using GPS (global positioning system) and GIS (geographical information system) technologies. By combining such data with information on foraging and ranging behavior of nonhuman primates, one can analyze the influence of resource distribution on social organization and group cohesion. We investigated the abilities of a three-channel GPS receiver to collect location data under varying canopy densities in both temperate and tropical forests. Eighty randomly selected points were sampled in a beech–maple forest in northeast Ohio, USA; 65 points also were sampled at several tropical forests in Costa Rica and Trinidad. At each point we attempted to obtain a GPS position fix; we also determined the speed of satellite acquisition and measured canopy density using a spherical densiometer. The ability to obtain a reading differed greatly between the two forest types (χ[sup 2] = 53.79, P < 0.001). Ninety-seven percent of all attempts were successful in the temperate forest, whereas only a 34% acquisition rate was obtained in the tropical forests. Logistic regression showed that the probability of obtaining a reading in Neotropical forests was 75% but only when canopy cover was less than 20%. Thus, these minimal-channel GPS units may be of limited utility for behavioral ecologists working in closed-canopy Neotropical forests. Am. J. Primatol. 46:167–172, 1998. © 1998 Wiley-Liss, Inc. [ABSTRACT FROM AUTHOR]

Published

1998

34. Behavioral and Cortisol Responses to Repeated Capture and Venipuncture in Cebus apella.

Author

Dettmer, Elizabeth L., Phillips, Kimberley A., Rager, Dawn R., Bernstein, Irwin S., and Fragaszy, Dorothy M.

Subjects

*CEBUS apella, *VENOUS puncture, *HYDROCORTISONE, *CAPUCHIN monkeys, *MONKEYS, *PRIMATES

Abstract

Eight capuchins were trained in a capture and venipuncture procedure. Samples taken immediately following capture indicated that subjects experienced rising cortisol levels over the first 5 weeks of training followed by a return to baseline (equivalent to day 1 levels) in the sixth and seventh weeks. After 7 weeks, samples taken 60 min after initial capture revealed that behaviorally habituated animals exhibited significantly lower cortisol levels in response to venipuncture as opposed to naive and experienced but nonbehaviorally habituated subjects. [ABSTRACT FROM AUTHOR]

Published

1996

35. `But it is a fine place to make money': Migration and African-American families in Cleveland...

Author

Phillips, Kimberley L.

Subjects

*AFRICAN Americans, *EMIGRATION & immigration

Abstract

Studies migration patterns of African Americans in Cleveland, Ohio between 1915 and 1930. Links with family and household reformation; Effect of migration and settlement on family and friend relationships and patterns of obligation; Factors behind black household formation; Process of reassembling family and friend networks in the city.

Published

1996

36. Tap-Scanning for Invertebrates by Capuchins (Cebus apella).

Author

Phillips, Kimberley A., Grafton, Brian, and Haas, Meghan E.

Published

2003

37. Myelin characteristics of the corpus callosum in capuchin monkeys (Sapajus [Cebus] apella) across the lifespan.

Author

Watson, Chase M., Sherwood, Chet C., and Phillips, Kimberley A.

Subjects

*CAPUCHIN monkeys, *CORPUS callosum, *MYELIN, *NEURAL development, *ELECTRON microscopy, *MYELIN proteins, *WHITE matter (Nerve tissue)

Abstract

The midsagittal area of the corpus callosum (CC) is frequently studied in relation to brain development, connectivity, and function. Here we quantify myelin characteristics from electron microscopy to understand more fully differential patterns of white matter development occurring within the CC. We subdivided midsagittal regions of the CC into: I—rostrum and genu, II—rostral body, III—anterior midbody, IV—posterior midbody, and V—isthmus and splenium. The sample represented capuchin monkeys ranging in age from 2 weeks to 35 years (Sapajus [Cebus] apella, n = 8). Measurements of myelin thickness, myelin fraction, and g-ratio were obtained in a systematic random fashion. We hypothesized there would be a period of rapid myelin growth within the CC in early development. Using a locally weighted regression analysis (LOESS), we found regional differences in myelin characteristics, with posterior regions showing more rapid increases in myelin thickness and sharper decreases in g-ratio in early development. The most anterior region showed the most sustained growth in myelin thickness. For all regions over the lifespan, myelin fraction increased, plateaued, and decreased. These results suggest differential patterns of nonlinear myelin growth occur early in development and well into adulthood in the CC of capuchin monkeys. [ABSTRACT FROM AUTHOR]

Published

2022

38. Tool use in wild capuchin monkeys (Cebus albifrons trinitatis ).

Author

Phillips, Kimberley A.

Subjects

*CAPUCHIN monkeys, *LEAVES, *DRINKING cups, *TREE cavities, *ANIMAL behavior, *PRIMATES

Abstract

White-fronted capuchins were observed to use leaves as cups to retrieve water from tree cavities. On multiple occasions several individuals performed this behavior. Thus, these capuchins engage in habitual tool use, as defined by McGrew's classificatory scheme of tool using behavior. Am. J. Primatol. 46:259–261, 1998. © 1998 Wiley-Liss, Inc. [ABSTRACT FROM AUTHOR]

Published

1998

39. Age‐related changes in myelin of axons of the corpus callosum and cognitive decline in common marmosets.

Author

Phillips, Kimberley A., Watson, Chase M., Bearman, Ari, Knippenberg, Anna R., Adams, Jessica, Ross, Corinna, and Tardif, Suzette D.

Subjects

*CALLITHRIX jacchus, *AXONS, *MYELIN, *CORPUS callosum, *MILD cognitive impairment, *AGING, *PRIMATES as laboratory animals, *ANIMAL models for aging

Abstract

Executive control is a higher‐level cognitive function that involves a range of different processes that are involved in the planning, coordination, execution, and inhibition of responses. Many of the processes associated with executive control, such as response inhibition and mental flexibility, decline with age. Degeneration of white matter architecture is considered to be the one of the key factors underlying cognitive decline associated with aging. Here we investigated how white matter changes of the corpus callosum were related to cognitive aging in common marmosets (Callithrix jacchus). We hypothesized that reduction in myelin thickness, myelin density, and myelin fraction of axonal fibers in the corpus callosum would be associated with performance on a task of executive function in a small sample of geriatric marmosets (n = 4) and young adult marmosets (n = 2). Our results indicated declines in myelin thickness, density, and myelin fraction with age. Considerable variability was detected on these characteristics of myelin and cognitive performance assessed via the detoured reach task. Age‐related changes in myelin in Region II of the corpus callosum were predictive of cognitive performance on the detoured reach task. Thus the detoured reach task appears to also measure aspects of corticostriatal function in addition to prefrontal cortical function. We investigated age‐related changes in the white matter of the corpus callosum, and if such changes were related to cognitive aging in common marmosets. Age‐related declines in myelin thickness, density, and myelin fraction were detected. Changes in white matter in Region II of the corpus callosum were associated with cognitive performance. [ABSTRACT FROM AUTHOR]

Published

2019

40. Age‐related changes in hematological biomarkers in common marmosets.

Author

Hickmott, Alexana J., Cervantes, Lidia, Arroyo, Juan Pablo, Brasky, Kathy, Bene, Michael, Salmon, Adam B., Phillips, Kimberley A., and Ross, Corinna N.

Subjects

*CALLITHRIX jacchus, *BLOOD cell count, *OLDER people, *ERYTHROCYTES, *MEAN platelet volume, *CLINICAL chemistry

Abstract

Researchers and veterinarians often use hematology and clinical chemistry to evaluate animal health. These biomarkers are relatively easy to obtain, and understanding how they change across healthy aging is critical to clinical care and diagnostics for these animals. We aimed to evaluate how clinical biomarkers from a chemistry profile and complete blood count (CBC) change with age in common marmosets (Callithrix jacchus). We assessed blood samples collected during routine physical exams at the Southwest National Primate Research Center and the University of Texas Health San Antonio marmoset colonies from November 2020–November 2021. We found that chemistry and CBC profiles varied based on facility, sex, and age. Significant changes in albumin, phosphorus/creatinine ratio, albumin/globulin ratio, amylase, creatinine, lymphocyte percent, hematocrit, granulocytes percent, lymphocytes, hemoglobin, red cell distribution width, and platelet distribution width were all reported with advancing age. Aged individuals also demonstrated evidence for changes in liver, kidney, and immune system function compared with younger individuals. Our results suggest there may be regular changes associated with healthy aging in marmosets that are outside of the range typically considered as normal values for healthy young individuals, indicating the potential need for redefined healthy ranges for clinical biomarkers in aged animals. Identifying animals that exhibit values outside of this defined healthy aging reference will allow more accurate diagnostics and treatments for aging colonies. Research Highlights: The parameters that were reduced in peri‐geriatric or geriatric marmosets compared with younger marmosets were albumin, phosphorus/creatinine ratio, albumin/globulin ratio, calcium, glucose, lymphocytes, red blood cells, red cell distribution width, mean platelet volume, red cell distribution standard deviation, plateletcrit, platelet distribution width, and platelet distribution standard deviation.The parameters that were increased in peri‐geriatric and geriatric compared with young marmosets were amylase, creatinine,anion gap, granulocytes percent, and platelets.Our results suggest normal changes associated with healthy aging marmosets indicating the potential need for refinement of normal ranges for clinical biomarkers in aged marmosets. [ABSTRACT FROM AUTHOR]

Published

2024

41. Introduction to Special Section on Primate Neuroethology.

Author

Phillips, Kimberley A.

Subjects

*PRIMATOLOGY, *ANIMAL behavior, *ANIMAL feeding behavior

Abstract

An introduction is presented in which the author discusses various reports within the issue on topics including primatology, animal behavior, and animal food.

Published

2013

42. African Americans and the Changing Views on Islam and Iraq.

Author

Phillips, Kimberley

Subjects

*TERRORISM, *IRAQ War, 2003-2011, *AFRICAN Americans, *MILITARISM, *ISLAM

Abstract

This paper examines how the American global war on terror. This focus of this paper examines the ways in which the war in Iraq has required African Americans to think, anew, about their ties to militarism and Islam. [ABSTRACT FROM AUTHOR]

Published

2008

43. Erratum to: Multi-region hemispheric specialization differentiates human from nonhuman primate brain function.

Author

Wey, Hsiao-Ying, Phillips, Kimberley, McKay, D., Laird, Angela, Kochunov, Peter, Davis, M., Glahn, David, Blangero, John, Duong, Timothy, and Fox, Peter

Subjects

*BRAIN physiology, *PRIMATES

Published

2014

44. Hedonic eating, obesity, and addiction result from increased neuropeptide Y in the nucleus accumbens during human brain evolution.

Author

Raghanti, Mary Ann, Miller, Elaine N., Jones, Danielle N., Smith, Heather N., Munger, Emily L., Edler, Melissa K., Phillips, Kimberley A., Hopkins, William D., Hof, Patrick R., Sherwood, Chet C., and Lovejoy, C. Owen

Subjects

*NEUROPEPTIDE Y, *NUCLEUS accumbens, *HUMAN evolution, *HOMINIDS, *SIZE of brain, *OVERWEIGHT children

Abstract

The nucleus accumbens (NAc) is central to motivation and action, exhibiting one of the highest densities of neuropeptide Y (NPY) in the brain. Within the NAc, NPY plays a role in reward and is involved in emotional behavior and in increasing alcohol and drug addiction and fat intake. Here, we examined NPY innervation and neurons of the NAc in humans and other anthropoid primates in order to determine whether there are differences among these various species that would correspond to behavioral or life history variables. We quantified NPY-immunoreactive axons and neurons in the NAc of 13 primate species, including humans, great apes, and monkeys. Our data show that the human brain is unique among primates in having denser NPY innervation within the NAc, as measured by axon length density to neuron density, even after accounting for brain size. Combined with our previous finding of increased dopaminergic innervation in the same region, our results suggest that the neurochemical profile of the human NAc appears to have rendered our species uniquely susceptible to neurophysiological conditions such as addiction. The increase in NPY specific to the NAc may represent an adaptation that favors fat intake and contributes to an increased vulnerability to eating disorders, obesity, as well as alcohol and drug dependence. Along with our findings for dopamine, these deeply rooted structural attributes of the human brain are likely to have emerged early in the human clade, laying the groundwork for later brain expansion and the development of cognitive and behavioral specializations. [ABSTRACT FROM AUTHOR]

Published

2023

45. Sex differences in white matter tracts of capuchin monkey brains.

Author

Reilly, Olivia T., Brosnan, Sarah F., Benítez, Marcela E., Phillips, Kimberley A., and Hecht, Erin E.

Abstract

Nonhuman primates exhibit sexual dimorphism in behavior, suggesting that there could be underlying differences in brain organization and function. Understanding this neuroanatomical variation is critical for enhancing our understanding of the evolution of sex differences in the human brain. Tufted capuchin monkeys (Sapajus [Cebus] apella) represent a phylogenetically diverse taxa of neotropical primates that converge on several behavioral characteristics with humans relevant to social organization, making them an important point of comparison for studying the evolution of sex differences in primates. While anatomical sex differences in gray matter have previously been found in capuchin monkeys, the current study investigates sex differences in white matter tracts. We carried out tract‐based spatial statistical analysis on fractional anisotropy images of tufted capuchin monkeys (15 female, 5 male). We found that females showed significantly higher fractional anisotropy than males in regions of frontal‐parietal white matter in the right cerebral hemisphere. Paralleling earlier findings in gray matter, male and female fractional anisotropy values in these regions were nonoverlapping. This complements prior work pointing toward capuchin sex differences in limbic circuitry and higher‐order visual regions. We propose that these sex differences are related to the distinct socioecological niches occupied by male and female capuchins. Capuchin neuroanatomical sex differences appear to be more pronounced than in humans, which we suggest may relate to human adaptations for prolonged neurodevelopmental trajectories and increased plasticity. [ABSTRACT FROM AUTHOR]

Published

2023

46. Old Testament Tales.

Author

Phillips, Kimberley L.

Subjects

*AFRICAN Americans, *NONFICTION

Abstract

Reviews the book 'Exodus! Religion, Race, and Nation in Early Nineteenth-Century Black America,' by Eddie S. Glaude Jr.

Published

2002

47. Neuroscience Core Concepts: Implementation in Varied Courses at Varied Institution Types.

Author

Schaefer, Jennifer E., Chen, Audrey, Phillips, Kimberley A., and Sonner, Patrick M.

Abstract

R5341 --> 774.9 --> Consensus core concepts are overarching principles that provide a framework for organizing facts and understanding in higher education curricula. Physiology educators have long benefitted from published core concepts in physiology (Michael and McFarland, 2011; Michael et al., 2017), but neuroscience core concepts were only recently developed (Chen et al., in press). The need for core concepts to structure neuroscience education is particularly pressing given the rapid expansion of neuroscience knowledge, programs, and curricula in recent years. The eight empirically‐developed, consensus neuroscience core concepts are labeled as communication modalities, emergence, evolution, gene‐environment interactions, information processing, nervous system functions, plasticity, and structure‐function. This presentation will review these neuroscience core concepts and demonstrate how they can be implemented in different courses (Human Anatomy and Physiology, Introductory Neuroscience, Advanced Neuroscience, Neuroethics, and Sensation and Perception), for different levels (non‐majors, lower‐division majors, upper‐division majors), and at different institution types (small liberal arts, large state institution). [ABSTRACT FROM AUTHOR]

Published

2022

48. Do dogs ( Canis familiaris) show contagious yawning?

Author

Harr, Aimee L., Gilbert, Valerie R., and Phillips, Kimberley A.

Subjects

*DOGS, *YAWNING, *ANIMAL behavior, *VIDEOS, *CHIMPANZEES

Abstract

We report an experimental investigation into whether domesticated dogs display contagious yawning. Fifteen dogs were shown video clips of (1) humans and (2) dogs displaying yawns and open-mouth expressions (not yawns) to investigate whether dogs showed contagious yawning to either of these social stimuli. Only one dog performed significantly more yawns during or shortly after viewing yawning videos than to the open-mouth videos, and most of these yawns occurred to the human videos. No dogs showed significantly more yawning to the open-mouth videos (human or dog). The percentage of dogs showing contagious yawning was less than chimpanzees and humans showing this behavior, and considerably less than a recently published report investigating this behavior in dogs (Joly-Mascheroni et al. in Biol Lett 4:446–448, 2008). [ABSTRACT FROM AUTHOR]

Published

2009

49. Recently Integrated Alu Elements in Capuchin Monkeys: A Resource for Cebus / Sapajus Genomics.

Author

Storer, Jessica M., Walker, Jerilyn A., Rockwell, Catherine E., Mores, Grayce, Beckstrom, Thomas O., Orkin, Joseph D., Melin, Amanda D., Phillips, Kimberley A., Roos, Christian, and Batzer, Mark A.

Subjects

*CAPUCHIN monkeys, *GENOMICS, *RETROTRANSPOSONS, *MONKEYS, *OLIGONUCLEOTIDES

Abstract

Capuchins are platyrrhines (monkeys found in the Americas) within the Cebidae family. For most of their taxonomic history, the two main morphological types of capuchins, gracile (untufted) and robust (tufted), were assigned to a single genus, Cebus. Further, all tufted capuchins were assigned to a single species, Cebus apella, despite broad geographic ranges spanning Central and northern South America. In 2012, tufted capuchins were assigned to their genus, Sapajus, with eight currently recognized species and five Cebus species, although these numbers are still under debate. Alu retrotransposons are a class of mobile element insertion (MEI) widely used to study primate phylogenetics. However, Alu elements have rarely been used to study capuchins. Recent genome-level assemblies for capuchins (Cebus imitator; [Cebus_imitator_1.0] and Sapajus apella [GSC_monkey_1.0]) facilitated large scale ascertainment of young lineage-specific Alu insertions. Reported here are 1607 capuchin specific and 678 Sapajus specific Alu insertions along with candidate oligonucleotides for locus-specific PCR assays for many elements. PCR analyses identified 104 genus level and 51 species level Alu insertion polymorphisms. The Alu datasets reported in this study provide a valuable resource that will assist in the classification of archival samples lacking phenotypic data and for the study of capuchin phylogenetic relationships. [ABSTRACT FROM AUTHOR]

Published

2022

50. The nucleus accumbens and ventral pallidum exhibit greater dopaminergic innervation in humans compared to other primates.

Author

Hirter, Kristen N., Miller, Elaine N., Stimpson, Cheryl D., Phillips, Kimberley A., Hopkins, William D., Hof, Patrick R., Sherwood, Chet C., Lovejoy, C. Owen, and Raghanti, Mary Ann

Subjects

*NUCLEUS accumbens, *INNERVATION, *GLOBUS pallidus, *HOMINIDS, *BASAL ganglia

Abstract

Recent evidence suggests that increased dopaminergic signaling within the dorsal striatum played a central role in the evolution of the human brain. This increase has been linked to human prosociality and language in what has been described as a dopamine-dominated striatum personality style. Increased striatal dopamine is associated with an increase in ventral striatal activity and promotes externally driven behaviors, including cooperation and social conformity. In contrast, decreased striatal dopamine is associated with increased dorsal striatal activity and favors internally driven and goal-oriented behaviors. Previous comparative studies have focused on the dorsal striatum, measuring dopaminergic innervation in the dorsal and medial caudate nucleus and putamen. Here, we add to this knowledge by examining regions of the ventral striatum. We quantified the density of tyrosine hydroxylase–immunoreactive axons, as a measure of dopaminergic innervation, in the nucleus accumbens and ventral pallidum of humans, great apes, platyrrhine and cercopithecid monkeys. Our data show that humans have a significantly greater dopaminergic innervation in both structures, supporting the hypothesis that selection for a prosocial neurochemistry in the human basal ganglia may have contributed to the evolution of our uniquely social behavior profile. [ABSTRACT FROM AUTHOR]

Published

2021