Jennifer Kenyon scite author profile

Abstract-Intimal masses develop in the human coronary arteries of all humans, becoming atherosclerotic in later life either because of focal accumulation of lipid or the resulting response to injury. We evaluated the time course of formation of the intimal mass in the proximal left anterior descending coronary artery in autopsy specimens from 91 patients between 17 weeks' gestation and 23 months of postnatal age. Intima was rarely found before 30 weeks' gestation; however, the frequency with which at least some intimal cells were observed increased to 35% between 36 weeks' gestation and birth. By 3 months after birth, all patients had an intimal mass at this coronary location. The mean intima/media ratio was 0.1 just after birth and increased continuously to the second postnatal year. Replication of medial smooth muscle cells, indicated by proliferating cell nuclear antigen staining, was high before birth and decreased between birth and 2 years of age. However, the replication index of the intima remained at 2% to 5%. Thus, coronary intimal cells appearing in the perinatal period may arise by migration after replication of medial smooth muscle, as is seen in models of carotid artery balloon injury. In conclusion, formation of the coronary artery intima is a rapid process, beginning in the peripartum or postpartum period. Given the clonality of the adult lesion and the lack of proliferation in later stages of lesion formation, it is intriguing to speculate that this event may form the basis for atherosclerosis in later life. Key Words: intima Ⅲ proliferating cell nuclear antigen Ⅲ monoclonality Ⅲ infants Ⅲ left anterior descending coronary artery D espite studies of the mechanisms involved in the formation of intima in injured rat carotid arteries, there is no evidence that this model is valid either for the spontaneous formation of intima or for the accelerated intimal process characteristic of atherogenesis in our species. In contrast, it is difficult to explain the clonality of intimal lesions seen in adults if these lesions begin as different proliferative responses. 1,2 The intima, especially in portions of the left anterior descending coronary artery, appears in childhood at sites where atherosclerosis becomes evident in later life. Stary, [3][4][5][6] among others, has suggested that lipid accumulation deep in these masses may be the earliest step in the vessel wall injury of atherosclerotic lesions. Although several histological studies have focused on coronary development, only a limited number of studies have addressed the processes leading to formation of the neonatal intima. 3,[7][8][9][10][11][12] As reported herein, intimal formation is a rapid process beginning just before birth and appears to be associated with a period when cell proliferation is abundant. We speculate that this process may be the first event in a clonal expansion accounting for the monoclonality of advanced lesions. 1,2 Moreover, the rapid time course of intimal expansion may make the process amenable to experimental manipulation...

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Probing airway conditions governing ventilation defects in asthma via hyperpolarized MRI image functional modeling

Campana

Kenyon²,

Zhalehdoust-Sani³

et al. 2009

Journal of Applied Physiology

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Image functional modeling (IFM) has been introduced as a method to simultaneously synthesize imaging and mechanical data with computational models to determine the degree and location of airway constriction in asthma. Using lung imaging provided by hyperpolarized (3)He MRI, we advanced our IFM method to require matching not only to ventilation defect location but to specific ventilation throughout the lung. Imaging and mechanical data were acquired for four healthy and four asthmatic subjects pre- and postbronchial challenge. After provocation, we first identified maximum-size airways leading exclusively to ventilation defects and highly constricted them. Constriction patterns were then found for the remaining airways to match mechanical data. Ventilation images were predicted for each pattern, and visual and statistical comparisons were done with measured data. Results showed that matching of ventilation defects requires severe constriction of small airways. The mean constriction of such airways leading to the ventilation defects needed to be 70-80% rather than fully closed. Also, central airway constriction alone could not account for dysfunction seen in asthma, so small airways must be involved.

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Xenografts of primary human gynecological tumors grown under the renal capsule of NOD/SCID mice show genetic stability during serial transplantation and respond to cytotoxic chemotherapy

Press

Kenyon

Xue

et al. 2008

Gynecologic Oncology

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Airway resistance at maximum inhalation as a marker of asthma and airway hyperresponsiveness

et al. 2011

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BackgroundAsthmatics exhibit reduced airway dilation at maximal inspiration, likely due to structural differences in airway walls and/or functional differences in airway smooth muscle, factors that may also increase airway responsiveness to bronchoconstricting stimuli. The goal of this study was to test the hypothesis that the minimal airway resistance achievable during a maximal inspiration (Rmin) is abnormally elevated in subjects with airway hyperresponsiveness.MethodsThe Rmin was measured in 34 nonasthmatic and 35 asthmatic subjects using forced oscillations at 8 Hz. Rmin and spirometric indices were measured before and after bronchodilation (albuterol) and bronchoconstriction (methacholine). A preliminary study of 84 healthy subjects first established height dependence of baseline Rmin values.ResultsAsthmatics had a higher baseline Rmin % predicted than nonasthmatic subjects (134 ± 33 vs. 109 ± 19 % predicted, p = 0.0004). Sensitivity-specificity analysis using receiver operating characteristic curves indicated that baseline Rmin was able to identify subjects with airway hyperresponsiveness (PC20 < 16 mg/mL) better than most spirometric indices (Area under curve = 0.85, 0.78, and 0.87 for Rmin % predicted, FEV1 % predicted, and FEF25-75 % predicted, respectively). Also, 80% of the subjects with baseline Rmin < 100% predicted did not have airway hyperresponsiveness while 100% of subjects with Rmin > 145% predicted had hyperresponsive airways, regardless of clinical classification as asthmatic or nonasthmatic.ConclusionsThese findings suggest that baseline Rmin, a measurement that is easier to perform than spirometry, performs as well as or better than standard spirometric indices in distinguishing subjects with airway hyperresponsiveness from those without hyperresponsive airways. The relationship of baseline Rmin to asthma and airway hyperresponsiveness likely reflects a causal relation between conditions that stiffen airway walls and hyperresponsiveness. In conjunction with symptom history, Rmin could provide a clinically useful tool for assessing asthma and monitoring response to treatment.

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Jennifer Kenyon

Neonatal Intima Formation in the Human Coronary Artery

Probing airway conditions governing ventilation defects in asthma via hyperpolarized MRI image functional modeling

Xenografts of primary human gynecological tumors grown under the renal capsule of NOD/SCID mice show genetic stability during serial transplantation and respond to cytotoxic chemotherapy

Airway resistance at maximum inhalation as a marker of asthma and airway hyperresponsiveness

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