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1. Making Atomic-Level Magnetism Tunable with Light at Room Temperature

Author

Jimenez, V. O., Pham, Y. T. H., Zhou, D., Liu, M. Z., Nugera, F. A., Kalappattil, V., Eggers, T., Hoang, K., Duong, D. L., Terrones, M., Gutierrez, H. R., and Phan, M. H.

Subjects
Condensed Matter - Materials Science, Physics - Applied Physics
Abstract

The capacity to manipulate magnetization in two-dimensional dilute magnetic semiconductors (2D-DMSs) using light, specifically in magnetically doped transition metal dichalcogenide (TMD) monolayers (M-doped TX2, where M = V, Fe, Cr; T = W, Mo; X = S, Se, Te), may lead to innovative applications in spintronics, spin-caloritronics, valleytronics, and quantum computation. This Perspective paper explores the mediation of magnetization by light under ambient conditions in 2D-TMD DMSs and heterostructures. By combining magneto-LC resonance (MLCR) experiments with density functional theory (DFT) calculations, we show that the magnetization can be enhanced using light in V-doped TMD monolayers (e.g., V-WS2, V-WSe2, V-MoS2). This phenomenon is attributed to excess holes in the conduction and valence bands, as well as carriers trapped in magnetic doping states, which together mediate the magnetization of the semiconducting layer. In 2D-TMD heterostructures such as VSe2/WS2 and VSe2/MoS2, we demonstrate the significance of proximity, charge-transfer, and confinement effects in amplifying light-mediated magnetism. This effect is attributed to photon absorption at the TMD layer (e.g., WS2, MoS2) that generates electron-hole pairs mediating the magnetization of the heterostructure. These findings will encourage further research in the field of 2D magnetism and establish a novel direction for designing 2D-TMDs and heterostructures with optically tunable magnetic functionalities, paving the way for next-generation magneto-optic nanodevices.

Published
2023

3. Cooking Recipe Generation Based on Ingredients Using ViT5

Author

Lam, Khang Nhut, Pham, Y-Nhi Thi, Kalita, Jugal, Kacprzyk, Janusz, Series Editor, Gomide, Fernando, Advisory Editor, Kaynak, Okyay, Advisory Editor, Liu, Derong, Advisory Editor, Pedrycz, Witold, Advisory Editor, Polycarpou, Marios M., Advisory Editor, Rudas, Imre J., Advisory Editor, Wang, Jun, Advisory Editor, Nguyen, Thi Dieu Linh, editor, Verdú, Elena, editor, Le, Anh Ngoc, editor, and Ganzha, Maria, editor

Published
2023
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9. A Laboratory Study of the Effects of Size, Density, and Shape on the Wave‐Induced Transport of Floating Marine Litter.

Author

Calvert, R., Peytavin, A., Pham, Y., Duhamel, A., van der Zanden, J., van Essen, S. M., Sainte‐Rose, B., and van den Bremer, T. S.

Subjects
MARINE debris, DIAMETER, DENSITY, GRAVITY waves, POLLUTION
Abstract

Floating marine litter is transported by several mechanisms, including surface waves. In studies of marine litter transport, the wave‐induced drift is set to be equal to the Stokes drift, corresponding to the Lagrangian‐mean wave‐induced drift of an infinitesimally small tracer. Large‐scale experiments are used to show how the wave‐induced drift of objects of finite size depends on their size, density, and shape. We observe increases in drift of 95% compared to Stokes drift for discs with diameters of 13% of the wavelength, up to 23% for spheres with diameters of 3% of the wavelength, whereas drift is reduced for objects that become submerged such as nets. We investigate what these findings may imply for the transport of plastic pollution in realistic wave conditions and we predict an increase in wave‐induced drift for (very) large plastic pollution objects. The different extrapolation techniques we explore to make this prediction exhibit a large range of uncertainty. Plain Language Summary: In transport models for floating marine litter, surface wave effects are often included by simply superimposing their Stokes drift (the small net drift induced by waves) upon wind‐driven flows and currents. However, size and shape can be important factors determining a floating marine litter object's wave‐induced drift, which generally increases with object size. Large‐scale experiments are used to show how the wave‐induced drift of floating marine litter objects of finite size depends on their size, density and shape. We observe increases in drift of 95% compared to Stokes drift for discs with diameters of 13% of the wavelength, up to 23% for spheres with diameters of 3% of the wavelength, whereas drift is reduced for objects that become submerged such as nets. We investigate how these findings may affect the transport of plastic pollution in realistic wave conditions, where we believe there will be an increase in wave‐induced transport for (very) large plastic pollution objects, although further research is needed to reduce uncertainty. Key Points: For large objects, size and shape can determine a floating marine litter object's wave‐induced drift, which generally increases with sizeIncreases in drift of 95% compared to Stokes drift have been observed in experiments for discs with diameters of 13% of the wavelengthPlastic from the ocean exhibited an increase in drift with size unless objects become submerged, such as nets which had decreased drift [ABSTRACT FROM AUTHOR]

Published
2024
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10. Baseline characteristics and age-related macular degeneration in participants of the “ASPirin in Reducing Events in the Elderly” (ASPREE)-AMD trial

Author

Robman, Liubov D., Phuong Thao, Le Thi, Guymer, Robyn H., Wolfe, Rory, Woods, Robyn L., Hodgson, Lauren AB., Phung, James, Makeyeva, Galina A., Le-Pham, Y-Anh, Orchard, Suzanne G., Suleiman, Jewhara, Maguire, Emily, Trevaks, Ruth E., Ward, Stephanie A., Riaz, Moeen, Lacaze, Paul, Storey, Elsdon, Abhayaratna, Walter P., Nelson, Mark R., Ernst, Michael E., Reid, Christopher M., and McNeil, John J.

Published
2020
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15. Age-related macular degeneration in a randomized controlled trial of low-dose aspirin: Rationale and study design of the ASPREE-AMD study

Author

Robman, Liubov, Guymer, Robyn, Woods, Robyn, Ward, Stephanie, Wolfe, Rory, Phung, James, Hodgson, Lauren, Makeyeva, Galina, Aung, Khin Zaw, Gilbert, Tom, Lockery, Jessica, Le-Pham, Y-Anh, Orchard, Suzanne, Storey, Elsdon, Abhayaratna, Walter, Reid, Daniel, Ernst, Michael E., Nelson, Mark, Reid, Christopher, and McNeil, John

Published
2017
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16. Assessment of electronic states and local structure of Mn-atoms in nanometric-sized La0.7Ca0.3Mn1−xNixO3 manganites by means of X-ray-absorption fine structure measurements.

Author

Gómez, A., Chavarriaga, E., Coral, D., Bezzon, V. D. N., Pham, Y., Yu, S. C., and Morán, O.

Subjects
X-ray absorption near edge structure, EXTENDED X-ray absorption fine structure, X-ray absorption, X-ray powder diffraction, RIETVELD refinement, ABSORPTION spectra, BOND angles
Abstract

Single-phase, nanosized La0.7Ca0.3Mn1−xNixO3 (x = 0, 0.02, 0.07, 0.1) manganites were synthesized via the autocombustion route. Information on the local geometric structure and the charge state of the Mn ions in the nanosized samples was gleaned from extended X-ray absorption fine structure (EXAFS) and X-ray absorption near edge structure (XANES) data analysis, respectively. The experimental absorption spectra were recorded at room temperature at the K-edge of the Mn-ions. Analysis of the normalized XANES spectra showed that the Mn formal valence remained practically unchanged upon Ni2+ doping. Nevertheless, the observed broadening of the ruling absorption edge suggested that the repulsive nearest-neighbor potential, stemming from the shortening of the distances of Mn to the nearest-neighbor oxygen atoms (Mn–O bonds) in the coordination shell, was slightly modified. The values of the Mn–O distances were obtained from the Fourier transformed EXAFS spectra. A slight but sizeable decrease in the value of the Mn–O bond distances was verified, which pointed to a slight variation in the Mn3+/Mn4+ ratio sparked by the Ni2+ doping. Here, a generation of more Mn4+ ions with smaller radius (0.53 Å) was expected. The obtained Mn–O distances were compared with those resulting from the Rietveld refinement of the X-ray powder diffraction data. The variation of the 〈Mn–O–Mn〉 bond angle with Ni2+ doping was also determined from the analysis of the X-ray diffraction patterns, which allowed visualizing the small distortion of the MnO6 octahedra on substitution of Mn with Ni2+. [ABSTRACT FROM AUTHOR]

Published
2024
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22. Factors Affecting Gen Z Customers’ Satisfaction with Sales Promotions of Vietnam E-Commerce Platforms

Author

Dang Pham Y My, Nguyen Thi Lien, and Dao Cam Thuy

Abstract

The complicated epidemic situation has made e-commerce platforms grow vigorously because the demand for purchasing on the Internet is increasing day by day. In this paper, the authors aim to determine the factors affecting the satisfaction of Gen Z customers with the promotional programs of e-commerce platforms in Vietnam. Data was collected from 334 Gen Z customers. The analysis results show that there are three factors affecting service quality including security, responsiveness, and payment. Furthermore, these factors have an influence on customer satisfaction as well. Based on the research results, the authors also offer some recommendations for improving the quality of e-commerce platforms and increasing their competitiveness in the current context.

Published
2022
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24. Medizinisches Screening mittels flüchtiger Biomarker in der Ausatemluft

Author

Pham, Y Lan, Beauchamp, Jonathan, and Publica

Abstract

Die Analyse von Atemluft ist nicht neu. Um Alkohol am Steuer nachzuweisen, führt die Polizei beispielsweise einen Alkoholtest durch, bei dem die Konzentration von Ethanol in der Atemluft gemessen wird. Eine neuere Entwicklung ist die Verwendung von Atemgastests zur Überwachung des Krankheitsverlaufs und der Wirksamkeit von Therapeutika. Dabei sind verschiedene Biomarker in der Ausatemluft von Bedeutung.

Published
2022

25. Effect of expansion of human umbilical cord blood CD34 + cells on neurotrophic and angiogenic factor expression and function

Author

Watt, Ashalyn, Kirkland, M, Nekkanti, L, Pham, Y, McDonald, C, Malhotra, A, Moeneclaey, G, Miller, SL, Jenkin, G, Watt, Ashalyn, Kirkland, M, Nekkanti, L, Pham, Y, McDonald, C, Malhotra, A, Moeneclaey, G, Miller, SL, and Jenkin, G

Abstract

AbstractThe use of CD34 + cell-based therapies has largely been focused on haematological conditions. However, there is increasing evidence that umbilical cord blood (UCB) CD34 + -derived cells have neuroregenerative properties. Due to low cell numbers of CD34 + cells present in UCB, expansion is required to produce sufficient cells for therapeutic purposes, especially in adults or when frequent applications are required. However, it is not known whether expansion of CD34 + cells has an impact on their function and neuroregenerative capacity. We addressed this knowledge gap in this study, via expansion of UCB-derived CD34 + cells using combinations of LDL, UM171 and SR-1 to yield large numbers of cells and then tested their functionality. CD34 + cells expanded for 14 days in media containing UM171 and SR-1 resulted in over 1000-fold expansion. The expanded cells showed an up-regulation of the neurotrophic factor genes BDNF, GDNF, NTF-3 and NTF-4, as well as the angiogenic factors VEGF and ANG. In vitro functionality testing showed that these expanded cells promoted angiogenesis and, in brain glial cells, promoted cell proliferation and reduced production of reactive oxygen species (ROS) during oxidative stress. Collectively, this study showed that our 14-day expansion protocol provided a robust expansion that could produce enough cells for therapeutic purposes. These expanded cells, when tested in in vitro, maintained functionality as demonstrated through promotion of cell proliferation, attenuation of ROS production caused by oxidative stress and promotion of angiogenesis.

Published
2022

26. Ganaxolone versus Phenobarbital for Neonatal Seizure Management

Author

Miller, SL, Bennet, L, Sutherland, AE, Pham, Y, McDonald, C, Castillo-Melendez, M, Allison, BJ, Mihelakis, J, Nitsos, I, Boyd, BJ, Hirst, JJ, Walker, DW, Hunt, RW, Jenkin, G, Wong, F, Malhotra, A, Fahey, MC, Yawno, T, Miller, SL, Bennet, L, Sutherland, AE, Pham, Y, McDonald, C, Castillo-Melendez, M, Allison, BJ, Mihelakis, J, Nitsos, I, Boyd, BJ, Hirst, JJ, Walker, DW, Hunt, RW, Jenkin, G, Wong, F, Malhotra, A, Fahey, MC, and Yawno, T

Abstract

OBJECTIVE: Seizures are more common in the neonatal period than at any other stage of life. Phenobarbital is the first-line treatment for neonatal seizures and is at best effective in approximately 50% of babies, but may contribute to neuronal injury. Here, we assessed the efficacy of phenobarbital versus the synthetic neurosteroid, ganaxolone, to moderate seizure activity and neuropathology in neonatal lambs exposed to perinatal asphyxia. METHODS: Asphyxia was induced via umbilical cord occlusion in term lambs at birth. Lambs were treated with ganaxolone (5mg/kg/bolus then 5mg/kg/day for 2 days) or phenobarbital (20mg/kg/bolus then 5mg/kg/day for 2 days) at 6 hours. Abnormal brain activity was classified as stereotypic evolving (SE) seizures, epileptiform discharges (EDs), and epileptiform transients (ETs) using continuous amplitude-integrated electroencephalographic recordings. At 48 hours, lambs were euthanized for brain pathology. RESULTS: Asphyxia caused abnormal brain activity, including SE seizures that peaked at 18 to 20 hours, EDs, and ETs, and induced neuronal degeneration and neuroinflammation. Ganaxolone treatment was associated with an 86.4% reduction in the number of seizures compared to the asphyxia group. The total seizure duration in the asphyxia+ganaxolone group was less than the untreated asphyxia group. There was no difference in the number of SE seizures between the asphyxia and asphyxia+phenobarbital groups or duration of SE seizures. Ganaxolone treatment, but not phenobarbital, reduced neuronal degeneration within hippocampal CA1 and CA3 regions, and cortical neurons, and ganaxolone reduced neuroinflammation within the thalamus. INTERPRETATION: Ganaxolone provided better seizure control than phenobarbital in this perinatal asphyxia model and was neuroprotective for the newborn brain, affording a new therapeutic opportunity for treatment of neonatal seizures. ANN NEUROL 2022;92:1066-1079.

Published
2022

27. Tissue Engineering, Embryonic, Organ and Other Tissue Specific Stem Cells: Late Breaking Abstract: IS IMMUNOSUPPRESSION NECESSARY TO PREVENT NEURAL STEM CELL REJECTION IN PERINATAL BRAIN INJURY?

Author

Smith, M., primary, Penny, T., additional, Sutherland, A., additional, Pham, Y., additional, Jithoo, A., additional, Tsukamoto, A., additional, Uchinda, N., additional, Hill, R., additional, Dunn, A., additional, Paton, M., additional, Finch-Edmondson, M., additional, Jenkin, G., additional, Miller, S., additional, Fahey, M., additional, and McDonald, C., additional

Published
2022
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28. Additional file 1 of 3D-printed mouthpiece adapter for sampling exhaled breath in medical applications

Author

Pham, Y Lan, Beauchamp, Jonathan, Clement, Alexander, Wiegandt, Felix, and Holz, Olaf

Abstract

Additional file 1: Figure S1. (left) Lateral view of the ReCIVA breath sampler equipped with a commercially available facemask. (right) Cross-sectional view of the silicon mask for an improved visibility of nose and mouth placement above the assembled thermal desorption tubes.

Published
2022
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32. Electronic Structure and Magnetocaloric Effect of Sr-Doped SmCoO3 Perovskites.

Author

Manh, T. V., Pham, Y., Phan, T. L., Dang, N. T., Tran, N., Park, H. R., Lee, B. W., and Yu, S. C.

Subjects
MAGNETIC entropy, MAGNETOCALORIC effects, ELECTRONIC structure, X-ray absorption spectra, PEROVSKITE, CURIE temperature
Abstract

We present a study on the magnetic and magnetocaloric characters of Sm1-xSrxCoO3 (x = 0.4–0.6) synthesized by solid-state reactions. Recorded M(T) data at H = 100 Oe show an increase of the Curie temperature (TC) from 143 K for x = 0.4 to 153 K for x = 0.5, but a higher x value (x = 0.6) reduces TC to ~ 92 K. A singularity region sandwiched between the Griffiths and pure paramagnetic phases has been observed in x = 0.4, but it becomes invisible at x = 0.5 and 0.6. These properties are assigned to a competition between ferromagnetic and anti-ferromagnetic interactions induced by Co3+ and Co4+ ions. The Co3+/Co4+ mixed valence has been confirmed upon the analysis of Co K-edge x-ray absorption spectra. Using Maxwell's relations and M(H) data, we have calculated the absolute magnetic entropy change (|∆Sm|). Around TC, the maximum magnetic entropy changes (|∆Smax|) of x = 0.4, 0.5 and 0.6 are about 1.19, 1.22 and 0.81 J/kg K for H = 50 kOe, respectively. The values of the relative cooling power are in the range of 58 ~ 93 J/kg. Our analyses also indicate all |∆Sm (T, H)| data obeying the universal master curve as constructing the |∆Sm|/|∆Smax| vs. θ plots, where θ is defined as the reduced temperature. When considering exponential parameters N(T, H) and n associated with |∆Sm(T, H)| and |∆Smax(H)|, respectively, we have found their values are different from the mean-field theory value n = 2/3. These results prove the Sm1-xSrxCoO3 samples have the second-order nature and short-range magnetic order. [ABSTRACT FROM AUTHOR]

Published
2023
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35. Umbilical cord blood therapy modulates neonatal hypoxic ischemic brain injury in both females and males

Author

Penny, TR, Pham, Y, Sutherland, AE, Lee, J, Jenkin, G, Fahey, MC, Miller, SL, McDonald, CA, Penny, TR, Pham, Y, Sutherland, AE, Lee, J, Jenkin, G, Fahey, MC, Miller, SL, and McDonald, CA

Abstract

Preclinical and clinical studies have shown that sex is a significant risk factor for perinatal morbidity and mortality, with males being more susceptible to neonatal hypoxic ischemic (HI) brain injury. No study has investigated sexual dimorphism in the efficacy of umbilical cord blood (UCB) cell therapy. HI injury was induced in postnatal day 10 (PND10) rat pups using the Rice-Vannucci method of carotid artery ligation. Pups received 3 doses of UCB cells (PND11, 13, 20) and underwent behavioural testing. On PND50, brains were collected for immunohistochemical analysis. Behavioural and neuropathological outcomes were assessed for sex differences. HI brain injury resulted in a significant decrease in brain weight and increase in tissue loss in females and males. Females and males also exhibited significant cell death, region-specific neuron loss and long-term behavioural deficits. Females had significantly smaller brains overall compared to males and males had significantly reduced neuron numbers in the cortex compared to females. UCB administration improved multiple aspects of neuropathology and functional outcomes in males and females. Females and males both exhibited injury following HI. This is the first preclinical evidence that UCB is an appropriate treatment for neonatal brain injury in both female and male neonates.

Published
2021

37. Is Umbilical Cord Blood Therapy an Effective Treatment for Early Lung Injury in Growth Restriction?.

Author

Miller S.L., Jenkin G., Malhotra A., Allison B.J., Youn H., McDonald C.A., Castillo-Melendez M., Pham Y., Sutherland A.E., Polglase G.R., Miller S.L., Jenkin G., Malhotra A., Allison B.J., Youn H., McDonald C.A., Castillo-Melendez M., Pham Y., Sutherland A.E., and Polglase G.R.

Abstract

Fetal growth restriction (FGR) and prematurity are often co-morbidities, and both are risk factors for lung disease. Despite advances in early delivery combined with supportive ventilation, rates of ventilation-induced lung injury (VILI) remain high. There are currently no protective treatments or interventions available that target lung morbidities associated with FGR preterm infants. Stem cell therapy, such as umbilical cord blood (UCB) cell administration, demonstrates an ability to attenuate inflammation and injury associated with VILI in preterm appropriately grown animals. However, no studies have looked at the effects of stem cell therapy in growth restricted newborns. We aimed to determine if UCB treatment could attenuate acute inflammation in the first 24 h of ventilation, comparing effects in lambs born preterm following FGR with those born preterm but appropriately grown (AG). Placental insufficiency (FGR) was induced by single umbilical artery ligation in twin-bearing ewes at 88 days gestation, with twins used as control (appropriately grown, AG). Lambs were delivered preterm at ~126 days gestation (term is 150 days) and randomized to either immediate euthanasia (unventilated controls, AGUVC and FGRUVC) or commenced on 24 h of gentle supportive ventilation (AGV and FGRV) with additional cohorts receiving UCB treatment at 1 h (AGCELLS, FGRCELLS). Lungs were collected at post-mortem for histological and biochemical examination. Ventilation caused lung injury in AG lambs, as indicated by decreased septal crests and elastin density, as well as increased inflammation. Lung injury in AG lambs was attenuated with UCB therapy. Ventilated FGR lambs also sustained lung injury, albeit with different indices compared to AG lambs; in FGR, ventilation reduced septal crest density, reduced alpha smooth muscle actin density and reduced cell proliferation. UCB treatment in ventilated FGR lambs further decreased septal crest density and increased collagen deposition, howe

Published
2020

38. Neurovascular effects of umbilical cord blood-derived stem cells in growth-restricted newborn lambs.

Author

Malhotra A., Castillo-Melendez M., Allison B.J., Sutherland A.E., Nitsos I., Pham Y., McDonald C.A., Fahey M.C., Polglase G.R., Jenkin G., Miller S.L., Malhotra A., Castillo-Melendez M., Allison B.J., Sutherland A.E., Nitsos I., Pham Y., McDonald C.A., Fahey M.C., Polglase G.R., Jenkin G., and Miller S.L.

Abstract

Background: Neonatal ventilation exacerbates brain injury in lambs with fetal growth restriction (FGR), characterized by neuroinflammation and reduced blood-brain barrier integrity, which is normally maintained by the neurovascular unit. We examined whether umbilical cord blood stem cell (UCBC) treatment stabilized the neurovascular unit and reduced brain injury in preterm ventilated FGR lambs. Method(s): Surgery was performed in twin-bearing pregnant ewes at 88 days' gestation to induce FGR in one fetus. At 127 days, FGR and appropriate for gestational age (AGA) lambs were delivered, carotid artery flow probes and umbilical lines inserted, lambs intubated and commenced on gentle ventilation. Allogeneic ovine UCBCs (25 x 106 cells/kg) were administered intravenously to lambs at 1 h of life. Lambs were ventilated for 24 h and then euthanized. Result(s): FGR (n = 6) and FGR+UCBC (n = 6) lambs were growth restricted compared to AGA (n = 6) and AGA+UCBC (n = 6) lambs (combined weight, FGR 2.3 +/- 0.4 vs. AGA 3.0 +/- 0.3 kg; p = 0.0002). UCBC therapy did not alter mean arterial blood pressure or carotid blood flow but decreased cerebrovascular resistance in FGR+UCBC lambs. Circulating TNF-alpha cytokine levels were lower in FGR+UCBC vs. FGR lambs (p < 0.05). Brain histopathology showed decreased neuroinflammation and oxidative stress, increased endothelial cell proliferation, pericyte stability, and greater integrity of the neurovascular unit in FGR+UCBC vs. FGR lambs. Conclusion(s): Umbilical cord blood stem cell therapy mitigates perinatal brain injury due to FGR and ventilation, and the neuroprotective benefits may be mediated by stabilization of the neurovascular unit.Copyright © 2020 The Author(s).

Published
2020

41. Staff and resident perceptions of mental and behavioural health environments.

Author

Shepley, Mardelle McCuskey, Peditto, Kati, Sachs, Naomi A., Pham, Y., Barankevich, Ruth, Crouppen, Gary, and Dresser, Karyn

Subjects
MENTAL health, ENVIRONMENTAL quality, RESIDENTS, PATIENTS' attitudes
Abstract

The purpose of this study was to explore clinical staff and resident perceptions regarding the importance, as well as effectiveness, of environmental qualities and features in mental and behavioural health (MBH) facilities. The study evaluated inadequacies in environmental attributes, as perceived by staff and residents, in four MBH facilities in the United States. The Psychiatric Staff Environmental Design tool and the Psychiatric Patient Environmental Design tool were used to capture perceptions and facility assessments. We examined the importance of various environmental attributes, the differences between the importance and how effectively these attributes were achieved, and the differences between psychiatric staff and resident responses. The most important qualities for residents were a well-maintained environment and suicide resistance. For staff, the most important qualities were staff safety and security and suicide resistance. Rated across all facilities, staff reported significant differences between importance and effectiveness of environmental attributes (p <.0001) whereas residents did not report differences. Significant differences were found between staff and patient ratings of existing facilities (p =.004), with staff reporting more inadequacies than residents. Findings suggest a strong need for more supportive physical MBH environments, particularly from the perspective of staff. Though residents reported fewer inadequacies, more evidence-based design guidelines for MBH environments are needed. [ABSTRACT FROM AUTHOR]

Published
2022
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42. Advanced MRI analysis to detect white matter brain injury in growth restricted newborn lambs.

Author

Dhollander T., Wright D., Castillo-Melendez M., Sutherland A.E., Pham Y., Ditchfield M., Polglase G.R., de Veer M., Pannek K., Shishegar R., Miller S.L., Malhotra A., Jenkin G., Sepehrizadeh T., Dhollander T., Wright D., Castillo-Melendez M., Sutherland A.E., Pham Y., Ditchfield M., Polglase G.R., de Veer M., Pannek K., Shishegar R., Miller S.L., Malhotra A., Jenkin G., and Sepehrizadeh T.

Abstract

Background: Fetal growth restriction (FGR) is a serious pregnancy complication associated with increased risk of adverse neurodevelopment and neuromorbidity. Current imaging techniques, including conventional magnetic resonance imaging (MRI), are not sensitive enough to detect subtle structural abnormalities in the FGR brain. We examined whether advanced MRI analysis techniques have the capacity to detect brain injury (particularly white matter injury) caused by chronic hypoxia-induced fetal growth restriction in newborn preterm lambs. Method(s): Surgery was undertaken in twin bearing pregnant ewes at 88-90 days gestation (term = 150 days) to induce FGR in one fetus. At 127 days gestation (~32 weeks human brain development), FGR and control (appropriate for gestational age, AGA) lambs were delivered by caesarean section, intubated and ventilated. Conventional and advanced brain imaging was conducted within the first two hours of life using a 3T MRI scanner. T1-weighted (T1w) and T2-weighted (T2w) structural imaging, magnetic resonance spectroscopy (MRS), and diffusion MRI (dMRI) data were acquired. Diffusion tensor imaging (DTI) modelling and analysis of dMRI data included the following regions of interest (ROIs): subcortical white matter, periventricular white matter, cerebellum, hippocampus, corpus callosum and thalamus. Fixel-based analysis of 3-tissue constrained spherical deconvolution (CSD) of the dMRI data was performed and compared between FGR and AGA lambs. Lambs were euthanised immediately after the scans and brain histology performed in the regions of interest to correlate with imaging. Result(s): FGR and AGA lamb (body weight, mean (SD): 2.2(0.5) vs. 3.3(0.3) kg, p = .002) MRI brain scans were analysed. There were no statistically significant differences observed between the groups in conventional T1w, T2w or MRS brain data. Mean, axial and radial diffusivity, and fractional anisotropy indices obtained from DTI modelling also did not show any statistical

Published
2019

43. Neuropathology as a consequence of neonatal ventilation in premature growth-restricted lambs.

Author

Miller S.L., Malhotra A., Jenkin G., Castillo-Melendez M., Allison B.J., Sutherland A.E., Nitsos I., Pham Y., Alves de Alencar Rocha A.K., Fahey M.C., Polglase G.R., Miller S.L., Malhotra A., Jenkin G., Castillo-Melendez M., Allison B.J., Sutherland A.E., Nitsos I., Pham Y., Alves de Alencar Rocha A.K., Fahey M.C., and Polglase G.R.

Abstract

Fetal growth restriction (FGR) and prematurity are associated with high risk of brain injury and long-term neurological deficits. FGR infants born preterm are commonly exposed to mechanical ventilation, but it is not known whether ventilation differentially induces brain pathology in FGR infants compared with appropriate for gestational age (AGA) infants. We investigated markers of neuropathology in moderate-to late-preterm FGR lambs, compared with AGA lambs, delivered by caesarean birth and ventilated under standard neonatal conditions for 24 h. FGR was induced by single umbilical artery ligation in fetal sheep at 88-day gestation (term, 150 days). At 125-day gestation, FGR and AGA lambs were delivered, dried, intubated, and commenced on noninjurious ventilation, with surfactant administration at 10 min. A group of unventilated FGR and AGA lambs at the same gestation was also examined. Over 24 h, circulating pH, PO2, and lactate levels were similar between groups. Ventilated FGR lambs had lower cerebral blood flow compared with AGA lambs (P = 0.01). The brain of ventilated FGR lambs showed neuropathology compared with unventilated FGR, and unventilated and ventilated AGA lambs, with increased apoptosis (caspase-3), blood-brain barrier dysfunction (albumin extravasation), activated microglia (Iba-1), and increased expression of cellular oxidative stress (4-hydroxynonenal). The neuropathologies seen in the ventilated FGR brain were most pronounced in the periventricular and subcortical white matter but also evident in the subventricular zone, cortical gray matter, and hippocampus. Ventilation of preterm FGR lambs increased brain injury compared with AGA preterm lambs and unventilated FGR lambs, mediated via increased vascular permeability, neuroinflammation and oxidative stress.Copyright © 2018 the American Physiological Society.

Published
2019

44. Is umbilical cord blood therapy an effective treatment for early lung injury in growthrestricted newborn lambs?.

Author

Youn H., Miller S.L., Polglase G.R., Jenkin G., Sutherland A.E., Pham Y., Castillo-Melendez M., McDonald C., Malhotra A., Allison B.J., Youn H., Miller S.L., Polglase G.R., Jenkin G., Sutherland A.E., Pham Y., Castillo-Melendez M., McDonald C., Malhotra A., and Allison B.J.

Abstract

Background: Foetal growth restriction (FGR) and prematurity are often co-morbidities with both risk factors for lung disease. Despite advances in treatment, rates of ventilation-induced lung injury (VILI) remain high. Stem cell therapy can attenuate inflammation and injury associated with VILI in preterm animals. However, no studies have looked at the effects of stem cell therapy in FGR VILI. We aimed to determine if stem cell treatment could attenuate VILI in FGR lambs. Method(s): Preterm foetal sheep (0.6 gestation) underwent single umbilical artery ligation (SUAL) to induce FGR. Lambs were delivered preterm at ~126dGA (term 150d), and randomised to either immediate euthanasia (unventilated controls; AGUVC & FGRUVC) or 24hr ventilation (AGV & FGRV) with a cohort receiving umbilical cord blood (UCB) treatment (AGCELLS, FGRCELLS). Lungs were collected at post-mortem for histological and biochemical examination. Result(s): Ventilation caused lung injury in AG lambs which was attenuated with UCB therapy. Ventilated FGR lambs also had lung injury, albeit with different indices compared to AG lambs. Following ventilation septal crests, alpha smooth muscle actin and cell proliferation were all decreased (P<0.05) in FGR lungs. UCB treatment in ventilated FGR lambs further decreased septal crest density and increased collagen deposition, however also increased angiogenesis. Conclusion(s): Our data demonstrate that the uterine environment can impact on treatment efficacy. Our findings show potential differential pathways for therapeutic potential of UCB depending on the growth status of the newborn, and warrant further investigation to determine how growth status can modulate these effects.

Published
2019

45. The effects of ganaxolone on neonatal seizures in hypoxic ischemic term lambs.

Author

Bennet L., Sutherland A., Pham Y., McDonald C., Holt C., Mihelakis J., Nitsos I., Allison B., Castillo-Melendez M., Walker D., Miller S., Malhotra A., Jenkin G., Fahey M., Yawno T., Bennet L., Sutherland A., Pham Y., McDonald C., Holt C., Mihelakis J., Nitsos I., Allison B., Castillo-Melendez M., Walker D., Miller S., Malhotra A., Jenkin G., Fahey M., and Yawno T.

Abstract

Background: Seizures in neonates are relatively common, and are strong predictors of long-term cognitive and developmental impairment like cerebral palsy. Current anti-seizure therapies (phenobarbitone (pheno)) can be neurotoxic. We propose that ganaxolone (ganax), a GABAA agonist, will reduce seizures, and reduce markers of brain injury following hypoxia ischemia (HI). We investigated the effects of ganax or pheno on seizure burden and neuropathology in HI lambs. Method(s): HI was induced via umbilical cord occlusion in term lambs (n = 21; sham n = 7). HI lambs were treated with either ganax (5 mg/kg/bolus followed by 5 mg/kg/d for 2 days) or pheno (20mg/kg/bolus followed by 5 mg/kg/day for 2 days) at 6 h. Seizure burden was assessed using continuous amplitudeintegrated electroencephalogram (aEEG) recording. At 48 h, lambs were euthanized for brain collection and analysis of neuropathology. Result(s): At birth, HI lambs had a pH <7.0 and blood pressure was reduced to 16.4 +/- 1.2 mmHg, indicating severe birth asphyxia. All HI lambs demonstrated electrographic seizures; mean number of seizures/h (6-12 h) was 4.8 +/- 2.2. Ganax treatment reduced the number of seizures to 1.0 +/- 0.9/h compared to pheno (3.2 +/- 1.6/ h) (P = 0.02). Brain histology revealed improved neuronal survival (NeuN+ cell number) and reduced cell death (TUNEL+) in the cortex and basal ganglia after ganax treatment, compared to pheno (P = 0.048 and P = 0.03), respectively. Conclusion(s): Ganax treatment in lambs with HI decreased seizure activity, improved neuronal survival and reduced cell death. Ganax has a high margin of safety and proved to be a better therapy.

Published
2019

46. Advanced MRI analysis to detect white matter brain injury in growth restricted newborn lambs

Author

Malhotra, A, Sepehrizadeh, T, Dhollander, T, Wright, D, Castillo-Melendez, M, Sutherland, AE, Pham, Y, Ditchfield, M, Polglase, GR, de Veer, M, Jenkin, G, Pannek, K, Shishegar, R, Miller, SL, Malhotra, A, Sepehrizadeh, T, Dhollander, T, Wright, D, Castillo-Melendez, M, Sutherland, AE, Pham, Y, Ditchfield, M, Polglase, GR, de Veer, M, Jenkin, G, Pannek, K, Shishegar, R, and Miller, SL

Abstract

BACKGROUND: Fetal growth restriction (FGR) is a serious pregnancy complication associated with increased risk of adverse neurodevelopment and neuromorbidity. Current imaging techniques, including conventional magnetic resonance imaging (MRI), are not sensitive enough to detect subtle structural abnormalities in the FGR brain. We examined whether advanced MRI analysis techniques have the capacity to detect brain injury (particularly white matter injury) caused by chronic hypoxia-induced fetal growth restriction in newborn preterm lambs. METHODS: Surgery was undertaken in twin bearing pregnant ewes at 88-90 days gestation (term = 150 days) to induce FGR in one fetus. At 127 days gestation (~32 weeks human brain development), FGR and control (appropriate for gestational age, AGA) lambs were delivered by caesarean section, intubated and ventilated. Conventional and advanced brain imaging was conducted within the first two hours of life using a 3T MRI scanner. T1-weighted (T1w) and T2-weighted (T2w) structural imaging, magnetic resonance spectroscopy (MRS), and diffusion MRI (dMRI) data were acquired. Diffusion tensor imaging (DTI) modelling and analysis of dMRI data included the following regions of interest (ROIs): subcortical white matter, periventricular white matter, cerebellum, hippocampus, corpus callosum and thalamus. Fixel-based analysis of 3-tissue constrained spherical deconvolution (CSD) of the dMRI data was performed and compared between FGR and AGA lambs. Lambs were euthanised immediately after the scans and brain histology performed in the regions of interest to correlate with imaging. RESULTS: FGR and AGA lamb (body weight, mean (SD): 2.2(0.5) vs. 3.3(0.3) kg, p = .002) MRI brain scans were analysed. There were no statistically significant differences observed between the groups in conventional T1w, T2w or MRS brain data. Mean, axial and radial diffusivity, and fractional anisotropy indices obtained from DTI modelling also did not show any statistically s

Published
2019

47. Human Umbilical Cord Therapy Improves Long-Term Behavioral Outcomes Following Neonatal Hypoxic Ischemic Brain Injury

Author

Penny, TR, Sutherland, AE, Mihelakis, JG, Paton, MCB, Pham, Y, Lee, J, Jones, NM, Jenkin, G, Fahey, MC, Miller, SL, McDonald, CA, Penny, TR, Sutherland, AE, Mihelakis, JG, Paton, MCB, Pham, Y, Lee, J, Jones, NM, Jenkin, G, Fahey, MC, Miller, SL, and McDonald, CA

Abstract

Background: Hypoxic ischemic (HI) insult in term babies at labor or birth can cause long-term neurodevelopmental disorders, including cerebral palsy (CP). The current standard treatment for term infants with hypoxic ischemic encephalopathy (HIE) is hypothermia. Because hypothermia is only partially effective, novel therapies are required to improve outcomes further. Human umbilical cord blood cells (UCB) are a rich source of stem and progenitor cells making them a potential treatment for neonatal HI brain injury. Recent clinical trials have shown that UCB therapy is a safe and efficacious treatment for confirmed cerebral palsy. In this study, we assessed whether early administration of UCB to the neonate could improve long-term behavioral outcomes and promote brain repair following neonatal HI brain injury. Methods: HI brain injury was induced in postnatal day (PND) 7 rat pups via permanent ligation of the left carotid artery, followed by a 90 min hypoxic challenge. UCB was administered intraperitoneally on PND 8. Behavioral tests, including negative geotaxis, forelimb preference and open field test, were performed on PND 14, 30, and 50, following brains were collected for assessment of neuropathology. Results: Neonatal HI resulted in decreased brain weight, cerebral tissue loss and apoptosis in the somatosensory cortex, as well as compromised behavioral outcomes. UCB administration following HI improved short and long-term behavioral outcomes but did not reduce long-term histological evidence of brain injury compared to HI alone. In addition, UCB following HI increased microglia activation in the somatosensory cortex compared to HI alone. Conclusion: Administration of a single dose of UCB cells 24 h after HI injury improves behavior, however, a single dose of cells does not modulate pathological evidence of long-term brain injury.

Published
2019

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