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1. Revealing the Nanostructure of Mesoporous Fuel Cell Catalyst Supports for Durable, High-Power Performance

Author

Ko, Matthew, Padgett, Elliot, Yarlagadda, Venkata, Kongkanand, Anusorn, and Muller, David A.

Subjects
Condensed Matter - Materials Science
Abstract

Achieving high power performance and durability with low Pt loadings are critical challenges for proton exchange membrane fuel cells. PtCo catalysts developed on new carbon black supports show promise by simultaneously providing good oxygen reduction kinetics and local oxygen transport. We investigate the role of nanoscale morphology in the performance of these catalysts supported on accessible (HSC-e and HSC-f) and conventional (Ketjen Black) porous carbons using 3D electron tomography, nitrogen sorption, and electrochemical performance measurements. We find that the accessible porous carbons have hollow interiors with mesopores that are larger and more numerous than conventional porous carbons. However, mesopore-sized openings (>2nm width) are too rare to account for significant oxygen transport. Instead we propose the primary oxygen transport pathway into the interior is through 1-2nm microporous channels permeating the carbon. The increased mesoporosity in the accessible porous carbons results in a shorter diffusion pathlength through constrictive, tortuous micropores in the support shell leading to lower local oxygen transport resistance. In durability testing, the accessible porous carbons show faster rates of electrochemical surface area loss, likely from fewer constrictive pores that would mitigate coarsening, but maintain superior high current density performance at end of life from the improved local oxygen transport., Comment: 26 pages, 7 figures, 1 table. Submitted to Journal of the Electrochemical Society

Published
2020

6. Mitigation of PEM Fuel Cell Catalyst Degradation with Porous Carbon Supports

Author

Padgett, Elliot, primary, Yarlagadda, Venkata, additional, Holtz, Megan E., additional, Ko, Matthew, additional, Levin, Barnaby D. A., additional, Kukreja, Ratandeep Singh, additional, Ziegelbauer, Joseph M., additional, Andrews, Ross N., additional, Ilavsky, Jan, additional, Kongkanand, Anusorn, additional, and Muller, David A., additional

Published
2019
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8. White blood cell count is associated with macro- and microvascular complications in chinese patients with type 2 diabetes.

Author

Tong, Peter C. Y., Ka-Fai Lee, Wing-Yee So, Ng, Margaret H., Wing-Bun Chan, Ko, Matthew k., Chan, Norman N., Chan, Juliana C., Tong, Peter C, Lee, Ka-Fai, So, Wing-Yee, Chan, Wing-Bun, and Lo, Matthew K

Subjects
LEUCOCYTES, CORONARY disease, METABOLIC manifestations of general diseases, TYPE 2 diabetes, DISEASE risk factors, DIABETES
Abstract

OBJECTIVES — There are close associations among raised white blood cell (WBC) count, coronary heart disease, and metabolic syndrome in the general population. The association between WBC count and vascular complications of diabetes has not been explored. We carried out a cross-sectional cohort study to determine the association between WBC count and the presence of macro- and microvascular complications in type 2 diabetes. RESEARCH DESIGN AND METHODS — In this study, 3,776 patients with type 2 diabetes and normal WBC count (3.5-12.5 × 10[sup 9]/l) underwent a comprehensive assessment of complications and cardiovascular risk factors based on the European DiabCare protocol. Demographic and anthropometric parameters were recorded. Metabolic profiles, including complete blood picture and urinary albumin excretion, were measured. RESULTS — Patients with higher WBC counts (categorized into quintiles) had adverse metabolic profiles as evidenced by higher blood pressure, BMI, HbA[sub 1c], fasting plasma glucose, LDL cholesterol, triglycerides, and urinary albumin excretion, but lower HDL cholesterol (all P <0.00l for trend). The prevalence of macro- and microvascular complications increased in a dosage-related manner with WBC count. After adjustments for smoking and other known cardiovascular risk factors, a 1-unit (1 × 10[sup 9]/l) increment of WBC count was associated with a 15.8% (95% CI 9.3-22.6; P < 0.001) and 12.3% increase (5.8-19.1; P < 0.001) in the prevalence of macro- and microvascular complications, respectively. CONCLUSIONS — Elevated WBC count, even within the normal range, is associated with both macro- and microvascular complications in type 2 diabetes. Chronic inflammation, as indicated by a higher WBC count, may play a linkage role in the development of macro- and microvascular complications in diabetes. [ABSTRACT FROM AUTHOR]

Published
2004
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9. Does patient-ventilator asynchrony really matter?

Author

Docci M, Rodrigues A, Dubo S, Ko M, and Brochard L

Abstract

Purpose of Review: Past observational studies have reported the association between patient-ventilator asynchronies and poor clinical outcomes, namely longer duration of mechanical ventilation and higher mortality. But causality has remained undetermined. During the era of lung and diaphragm protective ventilation, should we revolutionize our clinical practice to detect and treat dyssynchrony?, Recent Findings: Clinicians' ability to recognize asynchronies is typically low. Automatized softwares based on artificial intelligence have been trained to largely outperform human eyesight and are close to be implemented at the bedside. There is growing evidence that in susceptible patients, dyssynchrony may lead to ventilation-induced lung injury (or patient self-inflicted lung injury) and that clusters of such dyssynchronous events have the highest association with poor outcomes. Dyssynchrony may also be associated with harm indirectly when it reflects over-assistance or over-sedation. However, the occurrence of reverse triggering by means of low inspiratory efforts during passive ventilation may prevent diaphragm dysfunction and atrophy and be beneficial., Summary: Most recent evidence on the topic suggests that synchrony between the patient and the mechanical ventilator is a critical element for protecting lung and diaphragm during the time of invasive mechanical ventilation or may reflect inadequate settings or sedation. Therefore, it is a complex situation, and clinical trials are still needed to test the effectiveness of keeping patient-ventilator interaction synchronous on clinical outcomes., (Copyright © 2024 Wolters Kluwer Health, Inc. All rights reserved.)

Published
2024
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10. Towards an effective poliovirus laboratory containment strategy in Nigeria.

Author

Ticha JM, Matthew KO, Hamisu AW, Fiona B, Mkanda P, Nsubuga P, Tesfaye E, Craig K, Andrew E, Emelife O, Shuaib F, Folasade A, Adeniji J, Adamu U, Dallatu M, Oyeyinka G, Brown H, Nnamah N, Okwori J, Chinedu C, Anibijuwon I, Olubusuyi A, Emmanuel D, Bagana M, Baba M, Nicksy G, Banda R, Tegegne SG, Oyetunji A, Diop O, Tomori O, and Vaz RG

Subjects
Humans, Nigeria, Containment of Biohazards methods, Laboratories, Poliomyelitis prevention & control, Poliovirus
Abstract

Background: The Global Commission for the Certification of the Eradication of Poliomyelitis will declare the world free of wild poliovirus transmission when no wild virus has been found in at least 3 consecutive years, and all laboratories possessing wild poliovirus materials have adopted appropriate measures of containment. Nigeria has made progress towards poliomyelitis eradication with the latest reported WPV type 1 on 21 Aug 2016 after 2 years without any case. This milestone achievement was followed by an inventory of biomedical laboratories completed in November 2015 with the destruction of all identified infectious materials. This paper seeks to describe the poliovirus laboratory containment process in Nigeria on which an effective containment system has been built to minimize the risk of virus re-introduction into the population from the laboratories., Methods: A national survey of all biomedical facilities, as well as an inventory of laboratories from various sectors, was conducted from June-November 2015. National Task Force (NTF) members and staff working on polio administered an on-site questionnaire in each facility. Laboratory personnel were sensitized with all un-needed materials destroyed by autoclaving and incineration. All stakeholders were also sensitized to continue the destruction of such materials as a requirement for phase one activities., Results: A total of 20,638 biomedical facilities were surveyed with 9575 having laboratories. Thirty laboratories were found to contain poliovirus or potentially infectious materials. The 30 laboratories belonged to the ministries of health, education, defence and private organizations., Conclusions: This article is amongst the first in Africa that relates poliovirus laboratory containment in the context of the tOPV-bOPV switch in alignment with the Global Action Plan III. All identified infectious materials were destroyed and personnel trained to continue to destroy subsequent materials, a process that needs meticulous monitoring to mitigate the risk of poliovirus re-introduction to the population.

Published
2018
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