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1. Nanopatterned Monolayers of Bioinspired, Sequence-Defined Polypeptoid Brushes for Semiconductor/Bio Interfaces

Author

Yu, Beihang, Chang, Boyce S, Loo, Whitney S, Dhuey, Scott, O’Reilly, Padraic, Ashby, Paul D, Connolly, Michael D, Tikhomirov, Grigory, Zuckermann, Ronald N, and Ruiz, Ricardo

Subjects
Engineering, Materials Engineering, Chemical Sciences, Biotechnology, Generic health relevance, nanopatterned polymer brushes, selective immobilization of biomolecules, semiconductor/bio interfaces, sequence-defined polymers, surface modification, Nanoscience & Nanotechnology
Abstract

The ability to control and manipulate semiconductor/bio interfaces is essential to enable biological nanofabrication pathways and bioelectronic devices. Traditional surface functionalization methods, such as self-assembled monolayers (SAMs), provide limited customization for these interfaces. Polymer brushes offer a wider range of chemistries, but choices that maintain compatibility with both lithographic patterning and biological systems are scarce. Here, we developed a class of bioinspired, sequence-defined polymers, i.e., polypeptoids, as tailored polymer brushes for surface modification of semiconductor substrates. Polypeptoids featuring a terminal hydroxyl (-OH) group are designed and synthesized for efficient melt grafting onto the native oxide layer of Si substrates, forming ultrathin (∼1 nm) monolayers. By programming monomer chemistry, our polypeptoid brush platform offers versatile surface modification, including adjustments to surface energy, passivation, preferential biomolecule attachment, and specific biomolecule binding. Importantly, the polypeptoid brush monolayers remain compatible with electron-beam lithographic patterning and retain their chemical characteristics even under harsh lithographic conditions. Electron-beam lithography is used over polypeptoid brushes to generate highly precise, binary nanoscale patterns with localized functionality for the selective immobilization (or passivation) of biomacromolecules, such as DNA origami or streptavidin, onto addressable arrays. This surface modification strategy with bioinspired, sequence-defined polypeptoid brushes enables monomer-level control over surface properties with a large parameter space of monomer chemistry and sequence and therefore is a highly versatile platform to precisely engineer semiconductor/bio interfaces for bioelectronics applications.

Published
2024

3. Performing Hazard Analyses and Setting Triggers for Reevaluation in Lab-Scale Chemical Reactions

Author

Mattox, Tracy M, Pham, Anne L, Connolly, Michael D, Klivansky, Liana M, Dhall, Rohan, and Urban, Jeffrey J

Subjects
Education, Chemical Sciences, Safety, Hazards, Laboratory Management, Safety Culture, Laboratory Safety, Safety Practices, Best Practices, Hazard Evaluation, Communication, Writing, Chemical sciences
Abstract

Laboratory chemical synthesis research typically lacks the preplanned hazard responses found in production-scale industrial laboratories. Chemical safety management is a known challenge in education-based facilities, which is concerning for academic and national laboratory environments working with inexperienced student researchers. At the Molecular Foundry, a U.S. Department of Energy (DOE) user facility, a chemical safety management form has been developed that follows DOE’s Integrated Safety Management (ISM) process, which evaluates the risks and hazards associated with all forms of work. An ISM form for chemical synthesis is described here in detail. It is regularly used to guide chemical safety discussions between researchers and supervisors, to plan accident responses, and to establish triggers, at which point a reevaluation of the work is needed. The form makes it straightforward to know what limits researchers may work within and makes it clear which procedure changes will require a new safety assessment and discussion before work continues. The ISM form for synthesis is being successfully used in three fields of chemistry: Inorganic, Organic, and Biological. The form has also been adapted for liquid sample preparation in electron microscopy. Upper management, supervisors, students, and general users are engaged in this process. It is hoped that sharing this knowledge will enable educational institutions and other laboratories to develop similar methods to help researchers and supervisors understand the hazards as well as the working limits of any protocol, helping researchers to work more independently and safely within the laboratory.

Published
2023

4. Probabilistic rounding error analysis for numerical linear algebra

Author

Connolly, Michael, Higham, Nicholas, and Tisseur, Francoise

Abstract

This thesis presents new results on probabilistic error analysis. By freeing ourselves of the burden of having to account for every possible worst-case scenario, we provide error bounds that are more informative than the long standing worst-case bounds. We also see in practice how these new bounds can guide the development of new algorithms. We begin by studying stochastic rounding, a rounding mode which rounds a computed result to the next larger or smaller floating-point number randomly. We compare stochastic rounding with round-to-nearest, finding some similarities but also a large number of properties that hold for round-to-nearest but fail to hold for stochastic rounding. Importantly, we show that the rounding errors produced by stochastic rounding are mean zero, mean independent random variables. Using this fact, we build on earlier probabilistic error analysis to show that for a wide range of inner product based linear algebra computations, stochastic rounding provides backward error bounds where we can take the square root of the dimensional constants in the worst-case bounds. This has been a well known rule of thumb for some time, but we show it to be a rule for stochastic rounding. Expanding on this work for inner-product based algorithms, we investigate orthogonal transformations. Using the same model of rounding errors as that which stochastic rounding satisfies, we show that for Householder QR factorization, and other related algorithms, we see the same square rooting of the dimensional constant in the backward error bound. The analysis makes use of a matrix concentration inequality, where previous probabilistic error analyses employed scalar concentration inequalities. We also derive a new backward error formula for QR factorization, used in our numerical experiments which validate our bounds. Finally, we consider the randomized SVD, a well known method for computing low rank matrix approximations. We perform a complete rounding error analysis of the fixed-rank problem, the most straightforward version of the randomized SVD where we have a priori specified a target rank. This is complementary to the existing literature providing error bounds on this procedure in exact arithmetic. While our initial analysis is worst-case, we use our previous probabilistic results to refine these error bounds. Using these refined bounds, we propose a mixed-precision version of the algorithm that offers potential speedups by gradually reducing the precision during the execution of the algorithm.

Published
2023

8. Analysis of enzyme dynamics and calculation of activation heat capacity from simulation

Author

Connolly, Michael S. and Mulholland, Adrian

Abstract

Enzymes are biological catalysts which are crucial for life and are fundamental in many important processes in organisms. The temperature dependence of enzyme-catalysed reactions is important for homeostasis, and until recently the drop-off in enzyme-catalysed reaction rates at higher temperatures has been attributed to protein denaturation. It has been shown experimentally that rate drop-off occurs in the absence of denaturation. Macromolecular rate theory (MMRT) does not assume that enthalpy and entropy changes are independent of temperature, introducing an activation heat capacity term, ∆C_p^‡ to understand the curvature of reaction rates, even in the absence of protein denaturation. Molecular dynamics (MD) simulations can provide insight into dynamical behaviours of proteins and have previously been used for the calculation of thermodynamic properties including heat capacities. In this thesis, MD simulations are used to calculate ∆C_p^‡ for two different enzyme-substrate complexes. The results show that a negative ∆C_p^‡ value is generally obtained from MD calculations for these enzymes, which agrees with the experimentally observed curvature for the enzyme-catalysed reaction rates. Principal component analysis, Kullback-Leibler divergence and hidden Markov state modelling techniques are all utilised to analyse the origin of the dynamical changes in the protein chain leading to a negative ∆C_p^‡ term. The work in this thesis shows that MD simulations can be used to provide insight into MMRT and the dynamical properties of enzymes, and points to potential future work in understanding how the optimum temperature for enzyme-catalysed reactions is influenced by the dynamics of the protein chain of an enzyme.

Published
2022

9. Broad-spectrum CRISPR-mediated inhibition of SARS-CoV-2 variants and endemic coronaviruses in vitro

Author

Zeng, Leiping, Liu, Yanxia, Nguyenla, Xammy Huu, Abbott, Timothy R, Han, Mengting, Zhu, Yanyu, Chemparathy, Augustine, Lin, Xueqiu, Chen, Xinyi, Wang, Haifeng, Rane, Draven A, Spatz, Jordan M, Jain, Saket, Rustagi, Arjun, Pinsky, Benjamin, Zepeda, Adrianna E, Kadina, Anastasia P, Walker, John A, Holden, Kevin, Temperton, Nigel, Cochran, Jennifer R, Barron, Annelise E, Connolly, Michael D, Blish, Catherine A, Lewis, David B, Stanley, Sarah A, La Russa, Marie F, and Qi, Lei S

Subjects
Medical Microbiology, Biomedical and Clinical Sciences, Biological Sciences, Emerging Infectious Diseases, Pneumonia & Influenza, Prevention, Infectious Diseases, Vaccine Related, Immunization, Pneumonia, Lung, Biotechnology, Biodefense, 5.1 Pharmaceuticals, Development of treatments and therapeutic interventions, Infection, Good Health and Well Being, Antiviral Agents, Humans, Liposomes, Nanoparticles, SARS-CoV-2, COVID-19 Drug Treatment
Abstract

A major challenge in coronavirus vaccination and treatment is to counteract rapid viral evolution and mutations. Here we demonstrate that CRISPR-Cas13d offers a broad-spectrum antiviral (BSA) to inhibit many SARS-CoV-2 variants and diverse human coronavirus strains with >99% reduction of the viral titer. We show that Cas13d-mediated coronavirus inhibition is dependent on the crRNA cellular spatial colocalization with Cas13d and target viral RNA. Cas13d can significantly enhance the therapeutic effects of diverse small molecule drugs against coronaviruses for prophylaxis or treatment purposes, and the best combination reduced viral titer by over four orders of magnitude. Using lipid nanoparticle-mediated RNA delivery, we demonstrate that the Cas13d system can effectively treat infection from multiple variants of coronavirus, including Omicron SARS-CoV-2, in human primary airway epithelium air-liquid interface (ALI) cultures. Our study establishes CRISPR-Cas13 as a BSA which is highly complementary to existing vaccination and antiviral treatment strategies.

Published
2022

10. How much has the Sun influenced Northern Hemisphere temperature trends? An ongoing debate

Author

Connolly, Ronan, Soon, Willie, Connolly, Michael, Baliunas, Sallie, Berglund, Johan, Butler, C. J., Cionco, Rodolfo Gustavo, Elias, Ana G., Fedorov, Valery M., Harde, Hermann, Henry, Gregory W., Hoyt, Douglas V., Humlum, Ole, Legates, David R., Lüning, Sebastian, Scafetta, Nicola, Solheim, Jan-Erik, Szarka, László, van Loon, Harry, Herrera, Víctor M. Velasco, Willson, Richard C., Yan, Hong, and Zhang, Weijia

Subjects
Physics - Atmospheric and Oceanic Physics, Astrophysics - Solar and Stellar Astrophysics
Abstract

To evaluate the role of Total Solar Irradiance (TSI) on Northern Hemisphere (NH) surface air temperature trends it is important to have reliable estimates of both quantities. 16 different TSI estimates were compiled from the literature. 1/2 of these estimates are low variability and 1/2 are high variability. 5 largely-independent methods for estimating NH temperature trends were evaluated using: 1) only rural weather stations; 2) all available stations whether urban or rural (the standard approach); 3) only sea surface temperatures; 4) tree-ring temperature proxies; 5) glacier length temperature proxies. The standard estimates using urban as well as rural stations were anomalous as they implied a much greater warming in recent decades than the other estimates. This suggests urbanization bias might still be a problem in current global temperature datasets despite the conclusions of some earlier studies. Still, all 5 estimates confirm it is currently warmer than the late 19th century, i.e., there has been some global warming since 1850. For the 5 estimates of NH temperatures, the contribution from direct solar forcing for all 16 estimates of TSI was evaluated using simple linear least-squares fitting. The role of human activity in recent warming was then calculated by fitting the residuals to the UN IPCC's recommended anthropogenic forcings time series. For all 5 NH temperature series, different TSI estimates implied everything from recent global warming being mostly human-caused to it being mostly natural. It seems previous studies (including the most recent IPCC reports) that had prematurely concluded the former failed to adequately consider all the relevant estimates of TSI and/or to satisfactorily address the uncertainties still associated with NH temperature trend estimates. Several recommendations are provided on how future research could more satisfactorily resolve these issues., Comment: 71 pages, 18 figures. To be published in Research in Astronomy and Astrophysics

Published
2021
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11. K’yip Nah (Listen Up!): We Are Still a Coastal People

Author

Connolly, Michael

Subjects
Sociolinguistics, Native American studies, History, Dispossession, Kumeyaay, La Jolla, San Diego, Sovereignty, Spirituality
Abstract

ABSTRACT OF THE THESIS K’yip Nah (Listen Up!): We Are Still a Coastal People by Michael L. Connolly Master of Arts in Anthropology University of California San Diego, 2024 Professor Paul Goldstein, Chair After 275 years of domination and disenfranchisement from the coast of the San Diego – Tijuana region, the tenuous threads of Kumeyaay coastal identity, spirituality and community are reinvigorated through nested acts of participation and public speaking in non-Indigenous ceremonies. But how is this done without undermining the equally important sovereign identity that underlies the reality of Indigenous existence as political states within the United States? What appears to be simple acts of participation and sharing can also represent a complex effort to reforge a relationship with a place that holds tremendous spiritual importance. The type and level of each Kumeyaay contribution in such a setting represents both collective and individual expressions of sovereignty and individual expressions of personal identity. Representations of the Kumeyaay by urban populations have often been orchestrated by interests hostile to Kumeyaay and, at times, the physical existence of Kumeyaay people, since the earliest Spanish settlements. Only recently have challenges to many of the historical truisms of Indigenous identity been able to find expression within the dominant culture. A public event can provide an opportunity to confront aspects of historical subjugation while finding common ground and teaming up with other groups over shared values. This formation of identity and cultural allegiance can also serve to educate the public regarding the nature of Kumeyaay sovereignty and identity as a modern people.

Published
2024

12. Faith, community and football : the life of Brother Walfrid

Author

Connolly, Michael J., Morrow, Stephen, and Henning, April

Subjects
Brother Walfrid, Celtic Football Club, Marist Brothers, Catholic Education, Irish History, Scottish History, UK Sport, History of Education, Soccer, Nineteenth Century, Charity, Catholicism, Andrew Kerins, Sligo, Male Religious, Ireland, An Gorta Mor, Immigration, London, Glasgow
Abstract

This thesis critically explores the life of Brother Walfrid (Andrew Kerins), one of the most significant Irish immigrants to Britain, in relation to his contribution to Catholic education and charity, as well as organised sport in Scotland in the late nineteenth century. Despite knowledge around him as a prime founder of Celtic FC, Walfrid's story remains largely untold. This research investigates the 'real' Brother Walfrid - the man separated from myth - along with his legacy among the multi-generational Irish Catholic community in Scotland, and elsewhere. This study analyses the origins of Andrew Kerins beginning with his Sligo birth and departure for Glasgow. Drawing on surviving historical and archived documents, the effects of An Gorta Mor (the Great Hunger in Irish) on Kerins and his family are reflected upon. Further, new information drawn from contemporaneous publications and interviews provided the source material on this epochal figure for the Irish Catholic diaspora. The socio-economic circumstances that provided the conditions for the emergence of Celtic FC - a unique representation of the Irish diaspora in world sport - are explicated through this biography of Brother Walfrid's lived experience. Critically, it also seeks to understand and explore Walfrid's role, motivations and achievements as a Marist Brother: especially with respect to his importance to Catholic religious, educational, charitable and cultural identities in Scotland. Walfrid's integral role in the creation of Celtic FC is critically reappraised along with his faith and charity work amongst the poor and marginalised in Glasgow. By producing a full account of the life of Brother Walfrid, what emerges is a more substantive insight into a figure of totemic historical significance for the Irish Catholic diaspora, in Scotland and beyond. Through the combination of faith, charity and football, Walfrid's life illustrates a historic contribution to Irish Catholicism in nineteenth century Britain.

Published
2021

13. A mixed methods investigation into Autism Plus and the impact of co-occurring conditions on the outcomes and support needs amongst adults with autism spectrum conditions

Author

Connolly, Michael and Boyle, Jim

Abstract

'Autism Plus' is a concept which relates to individuals with Autism Spectrum Condition (ASC) and co-occurring conditions (Gillberg & Fernell, 2014). Three studies reported in this thesis examined evidence for a key premise of Autism Plus, namely that individuals with Autism Plus experience poorer social and independent living outcomes and greater support needs compared to those with 'Autism Only' (i.e. those with ASC but no co-occurring diagnoses). Study One was a secondary analysis of survey data from secondary data analysis of 404 adults with autistic disorder (n = 82), Asperger's/High-Functioning Autism (n = 236) and other ASCs (n = 86). A series of chi-square analyses comparing employment, relationship, residential and independent travel outcomes and service pattern use between those with Autism Plus and Autism Only. No group differences were found in employment or travel outcomes, though contrary to the premise of interest here, those with Autism Plus were found to be more likely to live independently and to be in long-term relationships. However, in line with the premise, those with Autism Plus were more likely to have used support services in the six months prior to data collection. In Study Two, logistic regression analyses focusing on the same sample explored whether Autism Plus may better predict poorer adult outcomes as part of a larger model accounting for age and autistic symptom severity. Findings indicated that Autism Plus was not a useful predictor of employment or independent travel outcomes as part of this model, though again indicated that those with Autism Plus were more likely to live independently and to be in long-term relationships. Other key findings indicated that outcomes were better amongst older individuals and those with milder autistic symptoms. Study Three aimed to gain greater insight into the ways in which co-occurring diagnoses could influence the lives of those with ASC through interviews with adults with Autism Plus. Analysis of accounts of lived experience using Interpretative Phenomenological Analysis (IPA) supported the view that the participants' co-occurring symptoms added considerable disruption and difficulty to their lives, and at times could have a greater impact than their ASC symptoms. There was also evidence that within the context of Autism Plus, the severity of a co-occurring condition may be as important as its presence. Overall, the evidence reported here indicates that current conceptualisation of Autism Plus is limited in the extent to which it can predict those with ASC most likely to experience poor outcomes, though may be helpful in establishing those most likely to require support. Given the findings from Study Two and Three, it is recommended that a modified version of Autism Plus, which considers Autism Plus as an important component of a larger model and acknowledges co-occurring symptom severity, should be explored further.

Published
2021
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14. Discovery of Stable and Selective Antibody Mimetics from Combinatorial Libraries of Polyvalent, Loop-Functionalized Peptoid Nanosheets

Author

Kim, Jae Hong, Kim, Samuel C, Kline, Mark A, Grzincic, Elissa M, Tresca, Blakely W, Cardiel, Joshua, Karbaschi, Mohsen, Dehigaspitiya, Dilani C, Chen, Yulin, Udumula, Venkatareddy, Jian, Tengyue, Murray, Daniel J, Yun, Lisa, Connolly, Michael D, Liu, Jianfang, Ren, Gang, Chen, Chun-Long, Kirshenbaum, Kent, Abate, Adam R, and Zuckermann, Ronald N

Subjects
Biochemistry and Cell Biology, Biological Sciences, Medicinal and Biomolecular Chemistry, Organic Chemistry, Chemical Sciences, Biotechnology, Bioengineering, Antibodies, Combinatorial Chemistry Techniques, Drug Discovery, Fluorescence Resonance Energy Transfer, Molecular Structure, Nanostructures, Particle Size, Peptoids, Protein Engineering, Surface Properties, protein-mimetic materials, multivalent molecular recognition, combinatorial display, two-dimensional nanomaterials, bioinspired polymers, Nanoscience & Nanotechnology
Abstract

The ability of antibodies to bind a wide variety of analytes with high specificity and high affinity makes them ideal candidates for therapeutic and diagnostic applications. However, the poor stability and high production cost of antibodies have prompted exploration of a variety of synthetic materials capable of specific molecular recognition. Unfortunately, it remains a fundamental challenge to create a chemically diverse population of protein-like, folded synthetic nanostructures with defined molecular conformations in water. Here we report the synthesis and screening of combinatorial libraries of sequence-defined peptoid polymers engineered to fold into ordered, supramolecular nanosheets displaying a high spatial density of diverse, conformationally constrained peptoid loops on their surface. These polyvalent, loop-functionalized nanosheets were screened using a homogeneous Förster resonance energy transfer (FRET) assay for binding to a variety of protein targets. Peptoid sequences were identified that bound to the heptameric protein, anthrax protective antigen, with high avidity and selectivity. These nanosheets were shown to be resistant to proteolytic degradation, and the binding was shown to be dependent on the loop display density. This work demonstrates that key aspects of antibody structure and function-the creation of multivalent, combinatorial chemical diversity within a well-defined folded structure-can be realized with completely synthetic materials. This approach enables the rapid discovery of biomimetic affinity reagents that combine the durability of synthetic materials with the specificity of biomolecular materials.

Published
2020

15. Easy cases making bad law : the English judiciary, discrimination law, and the statutory interpretation

Author

Connolly, Michael

Subjects
340
Abstract

The definitions of discrimination provided by equality legislation are a measure of how far a society is willing to challenge deep-seated assumptions, attitudes, and patterns of inequality. The judiciary has a major role in shaping these definitions. This is evident from the antecedent American cases and those of the Court of Justice of the European Union, which worked with more aspirational than detailed legislative provisions. One might conclude that the legislation coming before the English courts was thus ‘ready-made’, presenting the judiciary with few interpretive difficulties. But on many occasions this has proved not to be the case, with the senior English courts producing a number of highly contentious decisions. Commentators, heavily critical of many of these cases, tend to analyse them by reference to external understandings of concept, theory, or policy. This work offers a unique internal critique of the process producing the cases subject to such academic scrutiny. It makes a textual analysis of leading English judgments on the definitions of discrimination, and does so through the lens of statutory interpretation - the judge’s primary function. The scrutiny finds that these judgments are technically flawed in terms of the process of statutory interpretation and the definitions produced; it also finds them to be overcomplicated, excessively long, and often unduly restrictive. As such, the thesis is that these cases were better, and more easily, resolvable using conventional methods of interpretation, which would also shape the definitions better to reflect the policies underlying the legislation. Although highlighting inexpert reasoning, the textual scrutiny reveals other threads, particularly notable in the narrow interpretations. There is an adherence to the common law’s notion of binary litigation, envisaging just two individual litigants (e.g. a worker and employer) necessitating a harmed individual and fault-based liability; this is at odds with the societal and group-based purpose of the legislation. One can also detect a lingering historical negative or indifferent attitude to matters of equality, often realised nowadays with an assortment of personal predilections. Consequently, suggestions for reform are based around these findings.

Published
2018

16. Evidence for cis Amide Bonds in Peptoid Nanosheets

Author

Hudson, Benjamin C, Battigelli, Alessia, Connolly, Michael D, Edison, John, Spencer, Ryan K, Whitelam, Stephen, Zuckermann, Ronald N, and Paravastu, Anant K

Subjects
Chemical Sciences, Physical Chemistry, Biotechnology, Physical Sciences, Chemical sciences, Physical sciences
Abstract

Peptoid nanosheets are supramolecular protein-mimetic materials that form from amphiphilic polypeptoids with aromatic and ionic side chains. Nanosheets have been studied at the nanometer scale, but the molecular structure has been difficult to probe. We report the use of 13C-13C dipolar recoupling solid-state NMR measurements to reveal the configuration of backbone amide bonds selected by 13C isotopic labeling of adjacent α-carbons. Measurements on the same molecules in the amorphous state and in nanosheets revealed that amide bonds in the center of the amino block of peptoid (NaeNpe)7-(NceNpe)7 (B28) favor the trans configuration in the amorphous state and the cis configuration in the nanosheet. This unexpected result contrasts with previous NMR and theoretical studies of short solvated peptoids. Furthermore, examination of the amide bond at the junction of the two charged blocks within B28 revealed a mixture of both cis and trans configurational states, consistent with the previously predicted brickwork-like intermolecular organization.

Published
2018

19. Definition and recommendations for advance care planning: an international consensus supported by the European Association for Palliative Care

Author

Rietjens, Judith AC, Sudore, Rebecca L, Connolly, Michael, van Delden, Johannes J, Drickamer, Margaret A, Droger, Mirjam, van der Heide, Agnes, Heyland, Daren K, Houttekier, Dirk, Janssen, Daisy JA, Orsi, Luciano, Payne, Sheila, Seymour, Jane, Jox, Ralf J, Korfage, Ida J, and Care, European Association for Palliative

Subjects
Biomedical and Clinical Sciences, Oncology and Carcinogenesis, Good Health and Well Being, Advance Care Planning, Attitude of Health Personnel, Consensus, Delphi Technique, Humans, Palliative Care, European Association for Palliative Care, Oncology & Carcinogenesis, Oncology and carcinogenesis
Abstract

Advance care planning (ACP) is increasingly implemented in oncology and beyond, but a definition of ACP and recommendations concerning its use are lacking. We used a formal Delphi consensus process to help develop a definition of ACP and provide recommendations for its application. Of the 109 experts (82 from Europe, 16 from North America, and 11 from Australia) who rated the ACP definitions and its 41 recommendations, agreement for each definition or recommendation was between 68-100%. ACP was defined as the ability to enable individuals to define goals and preferences for future medical treatment and care, to discuss these goals and preferences with family and health-care providers, and to record and review these preferences if appropriate. Recommendations included the adaptation of ACP based on the readiness of the individual; targeting ACP content as the individual's health condition worsens; and, using trained non-physician facilitators to support the ACP process. We present a list of outcome measures to enable the pooling and comparison of results of ACP studies. We believe that our recommendations can provide guidance for clinical practice, ACP policy, and research.

Published
2017

21. Sexual satisfaction and its predictors in patients with advanced cancer and their family caregivers in six European countries:Baseline data from the DIAdIC study

Author

Matthys, Orphé, Dierickx, Sigrid, Van Goethem, Vincent, Deliens, Luc, Lapeire, Lore, De Pauw, Aglaja, Hudson, Peter, Vulsteke, Christof, Geboes, Karen, De Waele, Stefanie, Spoormans, Isabelle, Di Leo, Silvia, Guberti, Monica, Schmidt, Ulrik Sørensen, Scott, David, Harding, Richard, Witkamp, Erica, Connolly, Michael, De Vleminck, Aline, Cohen, Joachim, Matthys, Orphé, Dierickx, Sigrid, Van Goethem, Vincent, Deliens, Luc, Lapeire, Lore, De Pauw, Aglaja, Hudson, Peter, Vulsteke, Christof, Geboes, Karen, De Waele, Stefanie, Spoormans, Isabelle, Di Leo, Silvia, Guberti, Monica, Schmidt, Ulrik Sørensen, Scott, David, Harding, Richard, Witkamp, Erica, Connolly, Michael, De Vleminck, Aline, and Cohen, Joachim

Abstract

OBJECTIVE: To identify predictors of sexual satisfaction in patients with advanced cancer and their family caregivers.METHODS: Cross-sectional study using baseline survey data from a randomized controlled trial in six European countries. Patients with advanced cancer and their family caregiver completed measures on sexual satisfaction (one item from Functional Assessment of Cancer Therapy - General questionnaire for patients and Caregiver Quality of Life Index-Cancer scale for family caregivers) and health-related characteristics. Multivariable linear regressions were performed for all predictors (identified based on literature) with sexual satisfaction as dependent variable.RESULTS: The sample comprised 431 patient-family caregiver dyads. Patients with prostate or gynecological cancer reported lower sexual satisfaction (respectively B = -0.267 95% CI: -1.674, -0.594 and B = -0.196, 95% CI -2.103, -0.452). Higher emotional (B = 0.278, 95% CI 0.024, 0.057) physical (B = 0.305, 95% CI 0.012, 0.025) and social functioning (B = 0.151, 95% CI 0.001, 0.013), global health (B = 0.356, 95% CI 0.007, 0.013) and social wellbeing (B = 0.161, 95% CI 0.013, 0.082) among patients were associated with higher sexual satisfaction. Among family caregivers, sexual satisfaction was lower with increased age (B = -0.142, 95% CI -0.022, -0.004). Higher emotional functioning (B = 0.027, 95% CI 0.011, 0.043) and quality of life (B = 0.165, 95% CI -0.165, 0.716) were associated with higher sexual satisfaction in family caregivers.CONCLUSIONS: The results underscore that sexual wellbeing of patients and family caregivers is related to health related factors in physical, emotional, and social domains. Patients and family caregivers could benefit from a dyadic approach to address sexual wellbeing.

Published
2024

22. Guiding Manufacturers Through the Latest Energy Market Trends

Author

Connolly, Michael

Subjects
United States. Securities and Exchange Commission -- Laws, regulations and rules, Economic incentives -- Laws, regulations and rules, Greenhouse gases -- Laws, regulations and rules, Securities law, Alternative energy sources -- Laws, regulations and rules, Air pollution -- Laws, regulations and rules, Energy industry -- Laws, regulations and rules, Government regulation, Engineering and manufacturing industries, Metals, metalworking and machinery industries
Abstract

Amidst swift environmental changes and regulatory shifts, today's manufacturers encounter a twofold challenge: maintaining competitiveness in a dynamic market and embracing sustainability. In a shifting energy landscape, industry leaders must [...]

Published
2024

24. Morphology and Proton Transport in Humidified Phosphonated Peptoid Block Copolymers

Author

Sun, Jing, Jiang, Xi, Siegmund, Aaron, Connolly, Michael D, Downing, Kenneth H, Balsara, Nitash P, and Zuckermann, Ronald N

Subjects
Engineering, Materials Engineering, Chemical Sciences, Polymers, Chemical sciences
Abstract

Polymers that conduct protons in the hydrated state are of crucial importance in a wide variety of clean energy applications such as hydrogen fuel cells and artificial photosynthesis. Phosphonated and sulfonated polymers are known to conduct protons at low water content. In this paper, we report on the synthesis phosphonated peptoid diblock copolymers, poly-N-(2-ethyl)hexylglycine-block-poly-N-phosphonomethylglycine (pNeh-b-pNpm), with volume fractions of pNpm (ϕNpm) values ranging from 0.13 to 0.44 and dispersity (Đ) ≤ 1.0003. The morphologies of the dry block copolypeptoids were determined by transmission electron microscopy and in both the dry and hydrated states by synchrotron small-angle X-ray scattering. Dry samples with ϕNpm > 0.13 exhibited a lamellar morphology. Upon hydration, the lowest molecular weight sample transitioned to a hexagonally packed cylinder morphology, while the others maintained their dry morphologies. Water uptake of all of the ordered samples was 8.1 ± 1.1 water molecules per phosphonate group. In spite of this, the proton conductivity of the ordered pNeh-b-pNpm copolymers ranged from 0.002 to 0.008 S/cm. We demonstrate that proton conductivity is maximized in high molecular weight, symmetric pNeh-b-pNpm copolymers.

Published
2016

26. Effectiveness of a nurse-delivered (FOCUS+) and a web-based (iFOCUS) psychoeducational intervention for people with advanced cancer and their family caregivers (DIAdIC): study protocol for an international randomized controlled trial

Author

Matthys, Orphé, De Vleminck, Aline, Dierickx, Sigrid, Deliens, Luc, Van Goethem, Vincent, Lapeire, Lore, Groenvold, Mogens, Lund, Line, Arnfeldt, Caroline Moeller, Sengeloev, Lisa, Pappot, Helle, Johnsen, Anna Thit, Guerin, Suzanne, Larkin, Philip J., Jordan, Catherine, Connolly, Michael, D’Alton, Paul, Costantini, Massimo, Di Leo, Silvia, Guberti, Monica, Turola, Elena, van der Heide, Agnes, Witkamp, Erika, Rietjens, Judith, van der Wel, Maaike, Brazil, Kevin, Prue, Gillian, Reid, Joanne, Scott, David, Bristowe, Katherine, Harding, Richard, Normand, Charles, May, Peter, Cronin, Catherine, Northouse, Laurel, Hudson, Peter, and Cohen, Joachim

Published
2021
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30. Determination of the impact of wholegrain on intestinal and systemic markers of human health and disease

Author

Connolly, Michael Leo

Subjects
641.331
Abstract

Epidemiological studies have reported an inverse association between wholegrain and risk of cardiovascular disease, diabetes, obesity and some forms of cancer. However, the mechanisms of wholegrain protection against these diseases are poorly understood. Two characteristics of wholegrain that may impact on health are the glycaemic index (GI) and potential to modulate the colonic microbiota. A diverse population of microorganisms resides in our colon, known as the gut microbiota. These bacteria may play an important role in these diet-associated diseases and the diet microbe interaction is a topic of specific interest. Consumption of most wholegrains results in a low insulin response (low glycaemic index (GI)). Processing often leads to detrimental effects on this beneficial attribute and may in turn also alter potential to modulate the gut microbiota. A number of in vitro experiments were performed to investigate how processing and cooking of oat, wheat and wholegrain pasta impact on the ability of these foodstuffs to beneficially modulate the gut microbiota. Processing and cooking impacted negatively on favourable bacteria and short chain fatty acid profiles in the in vitro faecal microbiota fermentations. Using in vivo and in vitro methods, a low glycaemic index, potentially prebiotic whole grain oat (WGO) breakfast cereal was identified. Effects on markers of cardio-metabolic risk and colonic microbiota after 6-week daily consumption of WGO were explored in subjects, who had either or both, slightly elevated levels of fasting glucose and total cholesterol. Numbers of total bacteria, Bifidobacterium and Lactobacillus significantly increased, while a significant decrease in total cholesterol was observed after the WGO compared with a control cereal. This thesis shows that processing of wholegrain adversely affects GI and reduces their potential as prebiotic food. Furthermore, consumption of a low GI, prebiotic WGO cereal was observed to successfully modulated the gut microbiota towards a favorable composition and resulted in hypocholesterolaemic effects. This supports the hypothesis that microbiota modulation may confer cardio- metabolic health benefit.

Published
2011

31. Submonomer synthesis of sequence defined peptoids with diverse side-chains

Author

Connolly, Michael D, Xuan, Sunting, Molchanova, Natalia, and Zuckermann, Ronald N

Subjects
Biochemistry and Cell Biology, Biological Sciences, Biotechnology, Generic health relevance, Glycine, Macromolecular Substances, Peptides, Peptoids, Solid-Phase Synthesis Techniques, Automated solid-phase synthesis, Bioinspired polymers, Non-natural amino acids, Peptidomimetics, Sequence-defined peptoids, Submonomer synthesis, Biochemistry & Molecular Biology, Biochemistry and cell biology
Abstract

Peptoids are a diverse family of sequence-defined oligomers of N-substituted glycine monomers, that can be readily accessed by the solid-phase submonomer synthesis method. Due to the versatility and efficiency of this chemistry, and the easy access to hundreds of potential monomers, there is an enormous potential sequence space that can be explored. This has enabled researchers from many different fields to custom-design peptoid sequences tailored to a wide variety of problems in biomedicine, nanoscience and polymer science. Here we provide detailed protocols for the synthesis of peptoids, using optimized protocols that can be performed by non-chemists. The submonomer method is fully compatible with Fmoc-peptide synthesis conditions, so the method is readily automated on existing automated peptide synthesizers using protocols provided here. Although the submonomer synthesis for peptoids is well established, there are special considerations required in order to access many of the most useful and desirable sidechains. Here we provide methods to include most of the amino-acid-like side chains, some of the most important non-natural monomer classes, as well as the creation of peptoid conjugates and peptide-peptoid hybrids.

Published
2021

32. The Detection and Attribution of Northern Hemisphere Land Surface Warming (1850–2018) in Terms of Human and Natural Factors: Challenges of Inadequate Data

Author

Soon, Willie, primary, Connolly, Ronan, additional, Connolly, Michael, additional, Akasofu, Syun-Ichi, additional, Baliunas, Sallie, additional, Berglund, Johan, additional, Bianchini, Antonio, additional, Briggs, William M., additional, Butler, C. J., additional, Cionco, Rodolfo Gustavo, additional, Crok, Marcel, additional, Elias, Ana G., additional, Fedorov, Valery M., additional, Gervais, François, additional, Harde, Hermann, additional, Henry, Gregory W., additional, Hoyt, Douglas V., additional, Humlum, Ole, additional, Legates, David R., additional, Lupo, Anthony R., additional, Maruyama, Shigenori, additional, Moore, Patrick, additional, Ogurtsov, Maxim, additional, ÓhAiseadha, Coilín, additional, Oliveira, Marcos J., additional, Park, Seok-Soon, additional, Qiu, Shican, additional, Quinn, Gerré, additional, Scafetta, Nicola, additional, Solheim, Jan-Erik, additional, Steele, Jim, additional, Szarka, László, additional, Tanaka, Hiroshi L., additional, Taylor, Mitchell K., additional, Vahrenholt, Fritz, additional, Velasco Herrera, Víctor M., additional, and Zhang, Weijia, additional

Published
2023
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37. CONCERNS ABOUT THE SCHOLARLY DEVELOPMENT OF THE NURSING PROFESSION AND THE ACADEMIC NURSING PIPELINE

Author

Ryder, Mary, Connolly, Michael, Kitson, Alison L., Thompson, David R., and Timmins, Fiona

Subjects
Pesquisa em Enfermagem Clínica, Nursing, Practical, Enfermería Práctica, Nursing, Education, Práctica del Docente de Enfermería, Educação em Enfermagem, Nursing Faculty Practice, Investigación en Enfermería Clínica, Prática do Docente de Enfermagem, Clinical Nursing Research, Prática Avançada de Enfermagem, Educación en Enfermería, Advanced Practice Nursing, Enfermería de Práctica Avanzada, Enfermagem Prática
Published
2023

39. The perceived effects of COVID-19 while living with a chronic illness

Author

Ryder, Mary, Guerin, Suzanne, Forde, Rita, Lowe, Grainne, Jaarsma, Tiny, ONeill, Madeline, Halley, Carmel, Connolly, Michael, Ryder, Mary, Guerin, Suzanne, Forde, Rita, Lowe, Grainne, Jaarsma, Tiny, ONeill, Madeline, Halley, Carmel, and Connolly, Michael

Abstract

Introduction A diagnosis of chronic illness posed a serious threat to people during the recent COVID-19 pandemic. People with chronic illnesses were faced with increased mortality and reduced access to healthcare. Self-care is the process of maintaining health and managing a chronic illness. Nurses working in specialist services provide healthcare education to people with chronic illnesses. Access to these nurses was decreased during periods of the COVID-19 virus escalation due to the reconfiguration of services and redeployment of nurses. The purpose of the research was to learn from the experiences of people with a chronic illnesses in self-care behaviors and accessing altered healthcare services to inform future practices. Design A population survey design. Methods A mixed methods survey was designed, combining validated questionnaires and scales with open-ended questions. A convenience sample was utilized via using social media platforms. Data analysis included descriptive and inferential statistics. Content analysis was used to analyze open-ended responses. Results There were 147 responses, with approximately half reporting no changes in face-to-face healthcare contact, 41% reporting decreased contacts and 12% increased contacts. Non-face-to-face contacts were reduced by almost 9%, did not change by almost 60%, while 33% indicated an increase. Participants reported mixed perceptions in contact with healthcare providers during restrictions. In the Patient Assessment of Chronic Illness Care and the Self-Care of Chronic Illness scales, participants scored statistically lower scores than in previous studies. Participants indicated that public health restrictions negatively impacted their confidence, created challenges with re-engaging and that access to care was more difficult. Conclusion This research highlights the importance of providing continued support to people with chronic illness irrespective of other challenges to healthcare services. A structured approac, Funding Agencies|IReL

Published
2023
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40. The perceived effects of COVID-19 while living with a chronic illness

Author

Verplegingswetenschap, Circulatory Health, Ryder, Mary, Guerin, Suzanne, Forde, Rita, Lowe, Grainne, Jaarsma, Tiny, O'Neill, Madeline, Halley, Carmel, Connolly, Michael, Verplegingswetenschap, Circulatory Health, Ryder, Mary, Guerin, Suzanne, Forde, Rita, Lowe, Grainne, Jaarsma, Tiny, O'Neill, Madeline, Halley, Carmel, and Connolly, Michael

Published
2023

42. Reducing Aerodynamic Drag on Flatbed Trailers for Passenger Vehicles Using Novel Appendable Devices.

Author

Connolly, Michael Gerard, O'Rourke, Malachy J., and Ivankovic, Alojz

Subjects
DRAG (Aerodynamics), DRAG reduction, TRAILERS
Abstract

This article presents a study on the aerodynamic drag of a generic dual-axle flatbed trailer and explores ways to reduce the drag using appendable drag-reducing devices. The primary sources of drag originated from the van and trailer's rear, along with the trailer's wheels. The most-effective initial device for reducing drag was a full trailer underside cover, which offered a 7% drag reduction. Additionally, ladder racks, dropsides, and rear gates were studied, and it was found that protruding ladder racks significantly increased drag. Rear gates added large amounts of drag and should be removed and stored when not needed. The study also explored novel mid-section devices that increased the van's base pressure and reduced drag. An axle test revealed that drag for single-, dual-, and triple-axle trailers was very similar in direct flow, but different in yawed flow. A drawbar length test showed a near-linear relationship between drawbar length and drag, manifesting as a 1.7% change in drag per 250 mm change in drawbar length. Several novel modifications were made to the trailer, including fitting six unique appendable devices, which offered a total 7.3% drag reduction. A novel rear van device known as the multi-stage converging cavity was introduced, which reduced drag by nearly 18%. When all the devices were used together, a total 25% drag reduction was observed for the van–trailer combination. [ABSTRACT FROM AUTHOR]

Published
2023
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49. E-Learning: A Fresh Look

Author

Connolly, Michael, Jones, Norah, and Turner, David

Abstract

In this paper the authors describe the outline of an analysis of disruptive technologies presented by Christensen in his book, "The Innovator's Dilemma." They go on to argue that the analysis can be applied to the practice of e-learning as it has been developed in higher education in the United Kingdom, and possibly elsewhere. They suggest that current moves away from fully developed e-learning and towards "blended learning" can be understood in terms of Christensen's analysis, and that the move may be an indication that large, established organisations have difficulty in adjusting to disruptive technologies. They conclude that much research needs to be done in the area of e-learning, especially small scale studies of how e-learning can be used away from the established culture of formal education. This is an approach to market research that is also contained in Christensen's analysis. In summary, they argue that Christensen's analysis offers some important insights into the process of adopting e-learning solutions in higher education, and also suggests some fruitful directions for future research.

Published
2006
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50. Analysis of enzyme dynamics and calculation of activation heat capacity from simulation

Author

Connolly, Michael S and Connolly, Michael S

Abstract

Enzymes are biological catalysts which are crucial for life and are fundamental in many important processes in organisms. The temperature dependence of enzyme-catalysed reactions is important for homeostasis, and until recently the drop-off in enzyme-catalysed reaction rates at higher temperatures has been attributed to protein denaturation. It has been shown experimentally that rate drop-off occurs in the absence of denaturation. Macromolecular rate theory (MMRT) does not assume that enthalpy and entropy changes are independent of temperature, introducing an activation heat capacity term, ∆C_p^‡ to understand the curvature of reaction rates, even in the absence of protein denaturation. Molecular dynamics (MD) simulations can provide insight into dynamical behaviours of proteins and have previously been used for the calculation of thermodynamic properties including heat capacities. In this thesis, MD simulations are used to calculate ∆C_p^‡ for two different enzyme-substrate complexes. The results show that a negative ∆C_p^‡ value is generally obtained from MD calculations for these enzymes, which agrees with the experimentally observed curvature for the enzyme-catalysed reaction rates. Principal component analysis, Kullback-Leibler divergence and hidden Markov state modelling techniques are all utilised to analyse the origin of the dynamical changes in the protein chain leading to a negative ∆C_p^‡ term. The work in this thesis shows that MD simulations can be used to provide insight into MMRT and the dynamical properties of enzymes, and points to potential future work in understanding how the optimum temperature for enzyme-catalysed reactions is influenced by the dynamics of the protein chain of an enzyme.

Published
2022

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