Preparing for implantation

Model and theoretical seismicity

Bulletin of the Seismological Society of America ◽

10.1785/bssa0570030341 ◽

1967 ◽

Vol 57 (3) ◽

pp. 341-371 ◽

Cited By ~ 1

Author(s):

R. Burridge ◽

L. Knopoff

Keyword(s):

Numerical Model ◽

Potential Energy ◽

Main Sequence ◽

Magnitude Scale ◽

Laboratory Model ◽

Earthquake Mechanism

abstract A laboratory and a numerical model have been constructed to explore the role of friction along a fault as a factor in the earthquake mechanism. The laboratory model demonstrates that small shocks are necessary to the loading of potential energy into the focal structure; a large part, but not all, of the stored potential energy is later released in a major shock, at the end of a period of loading energy into the system. By the introduction of viscosity into the numerical model, aftershocks take place following a major shock. Both models have features which describe the statistics of shocks in the main sequence, the statistics of aftershocks and the energy-magnitude scale, among others.

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The zebrafish as a model for cardiac development and regeneration

10.1093/med/9780198757269.003.0029 ◽

2018 ◽

Cited By ~ 1

Author(s):

Bill Chaudhry ◽

José Luis de la Pompa ◽

Nadia Mercader

Keyword(s):

Heart Development ◽

Cardiac Development ◽

Model Organism ◽

Laboratory Model ◽

Developmental Studies ◽

Sequencing Technologies ◽

Technological Advances ◽

The Common ◽

Zebrafish Heart

The zebrafish has become an established laboratory model for developmental studies and is increasingly used to model aspects of human development and disease. However, reviewers and grant funding bodies continue to speculate on the utility of this Himalayan minnow. In this chapter we explain the similarities and differences between the heart from this distantly related vertebrate and the mammalian heart, in order to reveal the common fundamental processes and to prevent misleading extrapolations. We provide an overview of zebrafish including their husbandry, development, peculiarities of their genome, and technological advances, which make them a highly tractable laboratory model for heart development and disease. We discuss the controversies around morphants and mutants, and relate the development and structures of the zebrafish heart to mammalian counterparts. Finally, we give an overview of regeneration in the zebrafish heart and speculate on the role of the model organism in next-generation sequencing technologies.

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Early pregnancy factor in marsupials

Australian Journal of Zoology ◽

10.1071/zo05050 ◽

2006 ◽

Vol 54 (3) ◽

pp. 211 ◽

Cited By ~ 3

Author(s):

Y. P. Cruz ◽

H. Morton ◽

A. C. Cavanagh ◽

L. Selwood ◽

S. D. Wilson ◽

...

Keyword(s):

Early Pregnancy ◽

Luteal Phase ◽

Peripheral Circulation ◽

Monodelphis Domestica ◽

Laboratory Model ◽

Physiological Changes ◽

Early Pregnancy Factor ◽

Plasma Progesterone ◽

Sminthopsis Macroura

Maternal recognition of pregnancy in marsupials occurs in more subtle ways than it does in eutherians. For instance, unlike in eutherians, the plasma progesterone profiles of pregnant and non-pregnant animals are similar during the luteal phase. It is typically during the brief luteal phase that both gestation and parturition occur in marsupials. Yet histological and physiological changes have been documented between gravid and non-gravid uteri in certain monovular marsupials and between pregnant and non-pregnant animals in polyovular marsupials. Early pregnancy factor (EPF), a 10.8-kDa serum protein known to be homologous to chaperonin 10, is associated with maternal immunosuppression, embryonic development and pregnancy in eutherian mammals. It has been reported in two Australian marsupials: the dasyurid Sminthopsis macroura and the phalangerid Trichosurus vulpecula. This paper documents its occurrence in the New World didelphid Monodelphis domestica. EPF is detectable by rosette inhibition assay in the peripheral circulation of pregnant but not of non-pregnant or pseudopregnant animals. Our work focuses on the embryo–maternal signalling role of EPF during pregnancy. Because progesterone-driven changes are similar in pregnant and non-pregnant marsupials, these animals are an excellent laboratory model in which to investigate the role of EPF in orchestrating the physiological changes necessary to sustain pregnancy.

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Modeling the possible role of iodine oxides in atmospheric new particle formation

Atmospheric Chemistry and Physics ◽

10.5194/acp-6-505-2006 ◽

2006 ◽

Vol 6 (2) ◽

pp. 505-523 ◽

Cited By ~ 69

Author(s):

S. Pechtl ◽

E. R. Lovejoy ◽

J. B. Burkholder ◽

R. von Glasow

Keyword(s):

Marine Boundary Layer ◽

Hot Spot ◽

Coastal Region ◽

Particle Growth ◽

Particle Formation ◽

Surface Fluxes ◽

Laboratory Model ◽

New Particle Formation ◽

Iodine Oxides

Abstract. We studied the possible role of iodine oxides in atmospheric new particle formation with the one-dimensional marine boundary layer model MISTRA, which includes chemistry in the gas and aerosol phase as well as aerosol microphysics. The chemical reaction set focuses on halogen (Cl-Br-I) chemistry. We included a two-step nucleation parameterization, where in the first step, the "real" nucleation process is parameterized, i.e., the formation of cluster-sized nuclei via homogeneous condensation of gases. We considered both ternary sulfuric acid-ammonia-water nucleation and homomolecular homogeneous OIO nucleation. For the latter, we derived a parameterization based on combined laboratory-model studies. The second step of the nucleation parameterization treats the "apparent" nucleation rate, i.e., the growth of clusters into the model's lowest size bin by condensable vapors such as OIO. We compared different scenarios for a clean marine versus a polluted continental background atmosphere. In every scenario, we assumed the air to move, independent of its origin, first over a coastal region (where it is exposed to surface fluxes of different reactive iodine precursors) and later over the open ocean. According to these sensitivity studies, in the clean marine background atmosphere OIO can be responsible for both homogeneous nuclei formation and the subsequent growth of the clusters to detectable sizes. In contrast to this, in the continental case with its higher levels of pollutants, gas phase OIO mixing ratios, and hence related nucleation rates, are significantly lower. Compared to ternary H2SO4-NH3-H2O nucleation, homogeneous OIO nucleation can be neglected for new particle formation in this case, but OIO can contribute to early particle growth, i.e., to apparent nucleation rates. In general, we found OIO to be more important for the growth of newly formed particles than for the formation of new nuclei. According to our studies, observations of particle "bursts" can only be explained by hot spot-like, not by homogeneously distributed emissions.

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Modeling the possible role of iodine oxides in atmospheric new particle formation

Atmospheric Chemistry and Physics Discussions ◽

10.5194/acpd-5-9907-2005 ◽

2005 ◽

Vol 5 (5) ◽

pp. 9907-9952 ◽

Cited By ~ 2

Author(s):

S. Pechtl ◽

E. R. Lovejoy ◽

J. B. Burkholder ◽

R. von Glasow

Keyword(s):

Marine Boundary Layer ◽

Hot Spot ◽

Coastal Region ◽

Particle Growth ◽

Particle Formation ◽

Surface Fluxes ◽

Laboratory Model ◽

New Particle Formation ◽

Iodine Oxides

Abstract. We studied the possible role of iodine oxides in atmospheric new particle formation with the one-dimensional marine boundary layer model MISTRA, which includes chemistry in the gas and aerosol phase as well as aerosol microphysics. The chemical reaction set focuses on halogen (Cl-Br-I) chemistry. We included a two-step nucleation parameterization, where in the first step, the ''real'' nucleation process is parameterized, i.e., the formation of cluster-sized nuclei via homogeneous condensation of gases. We considered both ternary sulfuric acid-ammonia-water nucleation and homomolecular homogeneous OIO nucleation. For the latter, we derived a parameterization based on combined laboratory-model studies. The second step of the nucleation parameterization treats the ''apparent'' nucleation rate, i.e., the growth of clusters into the model's lowest size bin by condensable vapors such as OIO. We compared different scenarios for a clean marine versus a polluted continental background atmosphere. In every scenario, we assumed the air to move, independent of its origin, first over a coastal region (where it is exposed to surface fluxes of different reactive iodine precursors) and later over the open ocean. According to these sensitivity studies, in the clean marine background atmosphere OIO can be responsible for both homogeneous nuclei formation and the subsequent growth of the clusters to detectable sizes. In contrast to this, in the continental case with its higher levels of pollutants, gas phase OIO mixing ratios, and hence related nucleation rates, are significantly lower. Compared to ternary H2SO4-NH3-H2O nucleation, homogeneous OIO nucleation can be neglected for new particle formation in this case, but OIO can contribute to early particle growth, i.e., to apparent nucleation rates. In general, we found OIO to be more important for the growth of newly formed particles than for the formation of new nuclei itself. According to our studies, observations of particle ''bursts'' can only be explained by hot spot-like, not by homogeneously distributed emissions.

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Quantification of biomaterial dispersion during otologic procedures and role of barrier drapes in Covid 2019 era – a laboratory model

The Journal of Laryngology & Otology ◽

10.1017/s002221512000239x ◽

2020 ◽

pp. 1-6

Author(s):

P K Lokesh ◽

S Chowdhary ◽

S A Pol ◽

M Rajeswari ◽

S K Saxena ◽

...

Keyword(s):

Temporal Bone ◽

Particle Density ◽

Particulate Material ◽

Operating Theatre ◽

Laboratory Model ◽

Particle Count ◽

Bone Surgery ◽

Aerosol Generation ◽

Temporal Bone Surgery

Abstract Background Aerosol generation during temporal bone surgery caries the risk of viral transmission. Steps to mitigate this problem are of particular importance during the coronavirus disease 2019 pandemic. Objective To quantify the effect of barrier draping on particulate material dispersion during temporal bone surgery. Methods The study involved a cadaveric model in a simulated operating theatre environment. Particle density and particle count for particles sized 1–10 μ were measured in a simulated operating theatre environment while drilling on a cadaveric temporal bone. The effect of barrier draping to decrease dispersion was recorded and analysed. Results Barrier draping decreased counts of particles smaller than 5 μ by a factor of 80 in the operating theatre environment. Both particle density and particle count showed a statistically significant reduction with barrier draping (p = 0.027). Conclusion Simple barrier drapes were effective in decreasing particle density and particle count in the operating theatre model and can prevent infection in operating theatre personnel.

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Role of preovulatory concentrations of estradiol on timing of conception and regulation of the uterine environment in beef cattle

Systems Biology in Reproductive Medicine ◽

10.1080/19396368.2019.1695979 ◽

2019 ◽

Vol 66 (1) ◽

pp. 12-25 ◽

Cited By ~ 1

Author(s):

George A. Perry ◽

Robert A. Cushman ◽

Brandi L. Perry ◽

Amanda K. Schiefelbein ◽

Emmalee J. Northrop ◽

...

Keyword(s):

Beef Cattle ◽

Uterine Environment

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Characterization of Stress and Innate Immunity Resistance of Wild-Type and Δp66 Borrelia burgdorferi

Infection and Immunity ◽

10.1128/iai.00186-17 ◽

2017 ◽

Vol 86 (2) ◽

Cited By ~ 5

Author(s):

Michael W. Curtis ◽

Beth L. Hahn ◽

Kai Zhang ◽

Chunhao Li ◽

Richard T. Robinson ◽

...

Keyword(s):

Borrelia Burgdorferi ◽

Antimicrobial Peptide ◽

Membrane Integrity ◽

The United States ◽

Laboratory Model ◽

Wild Type ◽

Content Type ◽

Inoculation Site

ABSTRACTBorrelia burgdorferiis a causative agent of Lyme disease, the most common arthropod-borne disease in the United States.B. burgdorferievades host immune defenses to establish a persistent, disseminated infection. Previous work showed that P66-deficientB. burgdorferi(Δp66) is cleared quickly after inoculation in mice. We demonstrate that the Δp66strain is rapidly cleared from the skin inoculation site prior to dissemination. The rapid clearance of Δp66bacteria is not due to inherent defects in multiple properties that might affect infectivity: bacterial outer membrane integrity, motility, chemotactic response, or nutrient acquisition. This led us to the hypothesis that P66 has a role in mouse cathelicidin-related antimicrobial peptide (mCRAMP; a major skin antimicrobial peptide) and/or neutrophil evasion. Neither wild-type (WT) nor Δp66 B. burgdorferiwas susceptible to mCRAMP. To examine the role of neutrophil evasion, we administered neutrophil-depleting antibody anti-Ly6G (1A8) to C3H/HeN mice and subsequently monitored the course ofB. burgdorferiinfection. Δp66mutants were unable to establish infection in neutrophil-depleted mice, suggesting that the important role of P66 during early infection is through another mechanism. Neutrophil depletion did not affect WTB. burgdorferibacterial burdens in the skin (inoculation site), ear, heart, or tibiotarsal joint at early time points postinoculation. This was unexpected given that priorin vitrostudies demonstrated neutrophils phagocytose and killB. burgdorferi. These data, together with our previous work, suggest that despite thein vitroability of host innate defenses to killB. burgdorferi, individual innate immune mechanisms have limited contributions to controlling earlyB. burgdorferiinfection in the laboratory model used.

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