Your search keyword '"Radovic, Lara"' showing total 10 results

1. Evaluating the effectiveness of a multi-component lifestyle therapy program versus psychological therapy for managing mood disorders (HARMON-E): protocol of a randomised non-inferiority trial

Author

Davis, Jessica A, Connolly, Madeleine L, Young, Lauren M, Turner, Megan, Mahoney, Sophie, Saunders, Dean, John, Tayla, Fiddes, Rachel, Bryan, Marita, Berk, Michael, Davids, Indee, Barrand, Sanna, Jacka, Felice N, Murray, Greg, McDonald, Eileen, Chatterton, Mary Lou, Kaylor-Hughes, Catherine, Mihalopoulos, Catherine, Yung, Alison, Thomas, Neil, Osborne, Richard, Iyer, Ravi, Meyer, Denny, Radovic, Lara, Jabeen, Tabinda, Marx, Wolfgang, O’Shea, Melissa, Mundell, Niamh L, George, Elena S, Rocks, Tetyana, Ruusunen, Anu, Russell, Samantha, and O’Neil, Adrienne

Published

2024

2. Clinical and cost-effectiveness of remote-delivered, online lifestyle therapy versus psychotherapy for reducing depression: results from the CALM non-inferiority, randomised trial

Author

O’Neil, Adrienne, Perez, Joahna, Young, Lauren M., John, Tayla, Turner, Megan, Saunders, Dean, Mahoney, Sophie, Bryan, Marita, Ashtree, Deborah N., Jacka, Felice N., Bruscella, Courtney, Pilon, Megan, Mohebbi, Mohammadreza, Teychenne, Megan, Rosenbaum, Simon, Opie, Rachelle, Hockey, Meghan, Peric, Lucija, De Araugo, Samantha, Banker, Khyati, Davids, India, Tembo, Monica, Davis, Jessica A., Lai, Jerry, Rocks, Tetyana, O’Shea, Melissa, Mundell, Niamh L., McKeon, Grace, Yucel, Murat, Absetz, Pilvikki, Versace, Vincent, Manger, Sam, Morgan, Mark, Chapman, Anna, Bennett, Craig, Speight, Jane, Berk, Michael, Moylan, Steve, Radovic, Lara, and Chatterton, Mary Lou

Published

2024

3. Refining the evolutionary tree of the horse Y chromosome

Author

Bozlak, Elif, primary, Radovic, Lara, additional, Remer, Viktoria, additional, Rigler, Doris, additional, Allen, Lucy, additional, Brem, Gottfried, additional, Stalder, Gabrielle, additional, Castaneda, Caitlin, additional, Cothran, Gus, additional, Raudsepp, Terje, additional, Okuda, Yu, additional, Moe, Kyaw Kyaw, additional, Moe, Hla Hla, additional, Kounnavongsa, Bounthavone, additional, Keonouchanh, Soukanh, additional, Van, Nguyen Huu, additional, Vu, Van Hai, additional, Shah, Manoj Kumar, additional, Nishibori, Masahide, additional, Kazymbet, Polat, additional, Bakhtin, Meirat, additional, Zhunushov, Asankadyr, additional, Paul, Ripon Chandra, additional, Dashnyam, Bumbein, additional, Nozawa, Ken, additional, Almarzook, Saria, additional, Brockmann, Gudrun A., additional, Reissmann, Monika, additional, Antczak, Douglas F., additional, Miller, Donald C., additional, Sadeghi, Raheleh, additional, von Butler-Wemken, Ines, additional, Kostaras, Nikos, additional, Han, Haige, additional, Manglai, Dugarjaviin, additional, Abdurasulov, Abdugani, additional, Sukhbaatar, Boldbaatar, additional, Ropka-Molik, Katarzyna, additional, Stefaniuk-Szmukier, Monika, additional, Lopes, Maria Susana, additional, da Câmara Machado, Artur, additional, Kalashnikov, Valery V., additional, Kalinkova, Liliya, additional, Zaitev, Alexander M., additional, Novoa‐Bravo, Miguel, additional, Lindgren, Gabriella, additional, Brooks, Samantha, additional, Rosa, Laura Patterson, additional, Orlando, Ludovic, additional, Juras, Rytis, additional, Kunieda, Tetsuo, additional, and Wallner, Barbara, additional

Published

2023

4. Refining the evolutionary tree of the horse Y chromosome

Author

Bozlak, Elif, Radovic, Lara, Remer, Viktoria, Rigler, Doris, Allen, Lucy, Brem, Gottfried, Stalder, Gabrielle, Castaneda, Caitlin, Cothran, Gus, Raudsepp, Terje, Okuda, Yu, Moe, Kyaw Kyaw, Moe, Hla Hla, Kounnavongsa, Bounthavone, Keonouchanh, Soukanh, Van, Nguyen Huu, Vu, Van Hai, Shah, Manoj Kumar, Nishibori, Masahide, Kazymbet, Polat, Bakhtin, Meirat, Zhunushov, Asankadyr, Paul, Ripon Chandra, Dashnyam, Bumbein, Nozawa, Ken, Almarzook, Saria, Brockmann, Gudrun A., Reissmann, Monika, Antczak, Douglas F., Miller, Donald C., Sadeghi, Raheleh, Butler-Wemken, Ines von, Kostaras, Nikos, Han, Haige, Manglai, Dugarjaviin, Abdurasulov, Abdugani, Sukhbaatar, Boldbaatar, Ropka-Molik, Katarzyna, Stefaniuk-Szmukier, Monika, Lopes, Maria Susana, Machado, Artur da Câmara, Kalashnikov, Valery V., Kalinkova, Liliya, Zaitev, Alexander M., Novoa-Bravo, Miguel, Lindgren, Gabriella, Brooks, Samantha, Rosa, Laura Patterson, Orlando, Ludovic, Juras, Rytis, Kunieda, Tetsuo, Wallner, Barbara, Bozlak, Elif, Radovic, Lara, Remer, Viktoria, Rigler, Doris, Allen, Lucy, Brem, Gottfried, Stalder, Gabrielle, Castaneda, Caitlin, Cothran, Gus, Raudsepp, Terje, Okuda, Yu, Moe, Kyaw Kyaw, Moe, Hla Hla, Kounnavongsa, Bounthavone, Keonouchanh, Soukanh, Van, Nguyen Huu, Vu, Van Hai, Shah, Manoj Kumar, Nishibori, Masahide, Kazymbet, Polat, Bakhtin, Meirat, Zhunushov, Asankadyr, Paul, Ripon Chandra, Dashnyam, Bumbein, Nozawa, Ken, Almarzook, Saria, Brockmann, Gudrun A., Reissmann, Monika, Antczak, Douglas F., Miller, Donald C., Sadeghi, Raheleh, Butler-Wemken, Ines von, Kostaras, Nikos, Han, Haige, Manglai, Dugarjaviin, Abdurasulov, Abdugani, Sukhbaatar, Boldbaatar, Ropka-Molik, Katarzyna, Stefaniuk-Szmukier, Monika, Lopes, Maria Susana, Machado, Artur da Câmara, Kalashnikov, Valery V., Kalinkova, Liliya, Zaitev, Alexander M., Novoa-Bravo, Miguel, Lindgren, Gabriella, Brooks, Samantha, Rosa, Laura Patterson, Orlando, Ludovic, Juras, Rytis, Kunieda, Tetsuo, and Wallner, Barbara

Abstract

The Y chromosome carries information about the demography of paternal lineages, and thus, can prove invaluable for retracing both the evolutionary trajectory of wild animals and the breeding history of domesticates. In horses, the Y chromosome shows a limited, but highly informative, sequence diversity, supporting the increasing breeding influence of Oriental lineages during the last 1500 years. Here, we augment the primary horse Y-phylogeny, which is currently mainly based on modern horse breeds of economic interest, with haplotypes (HT) segregating in remote horse populations around the world. We analyze target enriched sequencing data of 5 Mb of the Y chromosome from 76 domestic males, together with 89 whole genome sequenced domestic males and five Przewalski's horses from previous studies. The resulting phylogeny comprises 153 HTs defined by 2966 variants and offers unprecedented resolution into the history of horse paternal lineages. It reveals the presence of a remarkable number of previously unknown haplogroups in Mongolian horses and insular populations. Phylogenetic placement of HTs retrieved from 163 archaeological specimens further indicates that most of the present-day Y-chromosomal variation evolved after the domestication process that started around 4200 years ago in the Western Eurasian steppes. Our comprehensive phylogeny significantly reduces ascertainment bias and constitutes a robust evolutionary framework for analyzing horse population dynamics and diversity.

Published

2023

5. Y Chromosome Haplotypes Enlighten Origin, Influence, and Breeding History of North African Barb Horses

Author

Radovic, Lara, Wallner, Barbara, Butler-Wemken, Ines von, Krischke, Diana, Piro, Mohammed, Machmoum, Mohamed, Benamar, Malak, Driss, Khadija, Rayane, Ahmed, Brem, Gottfried, Rigler, Doris, Krcal, Carina, and Remer, Viktoria

Subjects

North African horse, Barb, Arab-Barb, Y chromosome, haplotype, General Veterinary, Animal Science and Zoology, Mitochondrial-Dna, North African horse

Abstract

In horses, demographic patterns are complex due to historical migrations and eventful breeding histories. Particularly puzzling is the ancestry of the North African horse, a founding horse breed, shaped by numerous influences throughout history. A genetic marker particularly suitable to investigate the paternal demographic history of populations is the non-recombining male-specific region of the Y chromosome (MSY). Using a recently established horse MSY haplotype (HT) topology and KASP™ genotyping, we illustrate MSY HT spectra of 119 Barb and Arab-Barb males, collected from the Maghreb region and European subpopulations. All detected HTs belonged to the Crown haplogroup, and the broad MSY spectrum reflects the wide variety of influential stallions throughout the breed’s history. Distinct HTs and regional disparities were characterized and a remarkable number of early introduced lineages were observed. The data indicate recent refinement with Thoroughbred and Arabian patrilines, while 57% of the dataset supports historical migrations between North Africa and the Iberian Peninsula. In the Barb horse, we detected the HT linked to Godolphin Arabian, one of the Thoroughbred founders. Hence, we shed new light on the question of the ancestry of one Thoroughbred patriline. We show the strength of the horse Y chromosome as a genealogical tool, enlighten recent paternal history of North African horses, and set the foundation for future studies on the breed and the formation of conservation breeding programs.

Published

2022

6. Y-Chromosomal Insights into Breeding History and Sire Line Genealogies of Arabian Horses

Author

Kukekova, Anna V., Remer, Viktoria, Bozlak, Elif, Felkel, Sabine, Radovic, Lara, Rigler, Doris, Grilz-Seger, Gertrud, Stefaniuk-Szmukier, Monika, Bugno-Poniewierska, Monika, Brooks, Samantha, Miller, Donald C., Antczak, Douglas F., Sadeghi, Raheleh, Cothran, Gus, Juras, Rytis, Khanshour, Anas M., Rieder, Stefan, Penedo, Maria C., Waiditschka, Gudrun, Kalinkova, Liliya, Kalashnikov, Valery V., Zaitsev, Alexander M., Almarzook, Saria, Reißmann, Monika, Brockmann, Gudrun A, Brem, Gottfried, Wallner, Barbara, Kukekova, Anna V., Remer, Viktoria, Bozlak, Elif, Felkel, Sabine, Radovic, Lara, Rigler, Doris, Grilz-Seger, Gertrud, Stefaniuk-Szmukier, Monika, Bugno-Poniewierska, Monika, Brooks, Samantha, Miller, Donald C., Antczak, Douglas F., Sadeghi, Raheleh, Cothran, Gus, Juras, Rytis, Khanshour, Anas M., Rieder, Stefan, Penedo, Maria C., Waiditschka, Gudrun, Kalinkova, Liliya, Kalashnikov, Valery V., Zaitsev, Alexander M., Almarzook, Saria, Reißmann, Monika, Brockmann, Gudrun A, Brem, Gottfried, and Wallner, Barbara

Abstract

The Y chromosome is a valuable genetic marker for studying the origin and influence of paternal lineages in populations. In this study, we conducted Y-chromosomal lineage-tracing in Arabian horses. First, we resolved a Y haplotype phylogeny based on the next generation sequencing data of 157 males from several breeds. Y-chromosomal haplotypes specific for Arabian horses were inferred by genotyping a collection of 145 males representing most Arabian sire lines that are active around the globe. These lines formed three discrete haplogroups, and the same haplogroups were detected in Arabian populations native to the Middle East. The Arabian haplotypes were clearly distinct from the ones detected in Akhal Tekes, Turkoman horses, and the progeny of two Thoroughbred foundation sires. However, a haplotype introduced into the English Thoroughbred by the stallion Byerley Turk (1680), was shared among Arabians, Turkomans, and Akhal Tekes, which opens a discussion about the historic connections between Oriental horse types. Furthermore, we genetically traced Arabian sire line breeding in the Western World over the past 200 years. This confirmed a strong selection for relatively few male lineages and uncovered incongruences to written pedigree records. Overall, we demonstrate how fine-scaled Y-analysis contributes to a better understanding of the historical development of horse breeds., Peer Reviewed

Published

2022

7. Y-Chromosomal Insights into Breeding History and Sire Line Genealogies of Arabian Horses

Author

Remer, Viktoria, Stefaniuk-Szmukier, Monika, Wallner, Barbara, Brem, Gottfried, Brockmann, Gudrun A., Reißmann, Monika, Almarzook, Saria, Zaitsev, Alexander M., Kalashnikov, Valery V., Kalinkova, Liliya, Waiditschka, Gudrun, Penedo, Maria C., Rieder, Stefan, Khanshour, Anas M., Juras, Rytis, Cothran, Gus, Sadeghi, Raheleh, Antczak, Douglas F., Miller, Donald C., Brooks, Samantha, Bugno-Poniewierska, Monika, Grilz-Seger, Gertrud, Rigler, Doris, Radovic, Lara, Felkel, Sabine, Bozlak, Elif, and Kukekova, Anna V.

Subjects

Male, haplotype, Y chromosome, horse breeding, foundation sire, paternal lineage tracing, Arabian horse, pedigree, male genealogy, genotyping, Genetic Variation, Population-Structure, Genetic Diversity, Origin, 570 Biologie, humanities, eye diseases, Haplotypes, stomatognathic system, ddc:570, Genetics, Animals, Female, Horses, Genetics (clinical), Phylogeny

Abstract

The Y chromosome is a valuable genetic marker for studying the origin and influence of paternal lineages in populations. In this study, we conducted Y-chromosomal lineage-tracing in Arabian horses. First, we resolved a Y haplotype phylogeny based on the next generation sequencing data of 157 males from several breeds. Y-chromosomal haplotypes specific for Arabian horses were inferred by genotyping a collection of 145 males representing most Arabian sire lines that are active around the globe. These lines formed three discrete haplogroups, and the same haplogroups were detected in Arabian populations native to the Middle East. The Arabian haplotypes were clearly distinct from the ones detected in Akhal Tekes, Turkoman horses, and the progeny of two Thoroughbred foundation sires. However, a haplotype introduced into the English Thoroughbred by the stallion Byerley Turk (1680), was shared among Arabians, Turkomans, and Akhal Tekes, which opens a discussion about the historic connections between Oriental horse types. Furthermore, we genetically traced Arabian sire line breeding in the Western World over the past 200 years. This confirmed a strong selection for relatively few male lineages and uncovered incongruences to written pedigree records. Overall, we demonstrate how fine-scaled Y-analysis contributes to a better understanding of the historical development of horse breeds.

Published

2022

8. Y-Chromosomal Insights into Breeding History and Sire Line Genealogies of Arabian Horses

Author

Remer, Viktoria, primary, Bozlak, Elif, additional, Felkel, Sabine, additional, Radovic, Lara, additional, Rigler, Doris, additional, Grilz-Seger, Gertrud, additional, Stefaniuk-Szmukier, Monika, additional, Bugno-Poniewierska, Monika, additional, Brooks, Samantha, additional, Miller, Donald C., additional, Antczak, Douglas F., additional, Sadeghi, Raheleh, additional, Cothran, Gus, additional, Juras, Rytis, additional, Khanshour, Anas M., additional, Rieder, Stefan, additional, Penedo, Maria C., additional, Waiditschka, Gudrun, additional, Kalinkova, Liliya, additional, Kalashnikov, Valery V., additional, Zaitsev, Alexander M., additional, Almarzook, Saria, additional, Reißmann, Monika, additional, Brockmann, Gudrun A., additional, Brem, Gottfried, additional, and Wallner, Barbara, additional

Published

2022

9. The global spread of Oriental Horses in the past 1,500 years through the lens of the Y chromosome.

Author

Radovic L, Remer V, Rigler D, Bozlak E, Allen L, Brem G, Reissman M, Brockmann GA, Ropka-Molik K, Stefaniuk-Szmukier M, Kalinkova L, Kalashnikov VV, Zaitev AM, Raudsepp T, Castaneda C, von Butler-Wemken I, Patterson Rosa L, Brooks SA, Novoa-Bravo M, Kostaras N, Abdurasulov A, Antczak DF, Miller DC, Lopes MS, da Câmara Machado A, Lindgren G, Juras R, Cothran G, and Wallner B

Subjects

Horses genetics, Animals, Male, Breeding, Domestication, Phylogeny, Y Chromosome genetics, Haplotypes genetics

Abstract

Since their domestication, horses have accompanied mankind, and humans have constantly shaped horses according to their needs through stallion-centered breeding. Consequently, the male-specific portion of the Y chromosome (MSY) is extremely uniform in modern horse breeds. The majority of stallions worldwide carry MSY haplotypes (HT) attributed to an only ~1,500-y-old, so-called, "Crown" haplogroup. The predominance of the Crown in modern horse breeds is thought to represent a footprint of the vast impact of stallions of "Oriental origin" in the past millennium. Here, we report the results of a fine-scaled MSY haplotyping of large datasets of patrilines comprising 1,517 males of 189 modern horse breeds, covering a broad phenotypic and geographic spectrum. We can disentangle the multilayered influence of Oriental stallions over the last few hundred years, exposing the intense linebreeding and the wide-ranging impact of Arabian, English Thoroughbred, and Coldblood sires. Iberian and New World horse breeds contain a wide range of diversified Crown lineages. Their broad HT spectrum illustrates the spread of horses of Oriental origin via the Iberian Peninsula after the Middle Ages, which is commonly referred to as the "Spanish influence." Our survey also revealed a second major historical dissemination of horses from Western Asia, attributed to the expansion of the Ottoman Empire. Our analysis shows that MSY analysis can uncover the complex history of horse breeds and can be used to establish the paternal ancestry of modern horse breeds., Competing Interests: Competing interests statement:The authors declare no competing interest.

Published

2024

10. Clinical and cost-effectiveness of remote-delivered, online lifestyle therapy versus psychotherapy for reducing depression: results from the CALM non-inferiority, randomised trial.

Author

O'Neil A, Perez J, Young LM, John T, Turner M, Saunders D, Mahoney S, Bryan M, Ashtree DN, Jacka FN, Bruscella C, Pilon M, Mohebbi M, Teychenne M, Rosenbaum S, Opie R, Hockey M, Peric L, De Araugo S, Banker K, Davids I, Tembo M, Davis JA, Lai J, Rocks T, O'Shea M, Mundell NL, McKeon G, Yucel M, Absetz P, Versace V, Manger S, Morgan M, Chapman A, Bennett C, Speight J, Berk M, Moylan S, Radovic L, and Chatterton ML

Abstract

Background: We conducted the first non-inferiority, randomised controlled trial to determine whether lifestyle therapy is non-inferior to psychotherapy with respect to mental health outcomes and costs when delivered via online videoconferencing., Methods: An individually randomised, group treatment design with computer-generated block randomisation was used. Between May 2021-April 2022, 182 adults with a Distress Questionnaire-5 score = ≥8 (indicative depression) were recruited from a tertiary mental health service in regional Victoria, Australia and surrounds. Participants were assigned to six 90-min sessions over 8-weeks using group-based, online videoconferencing comprising: (1) lifestyle therapy (targeting nutrition, physical activity) with a dietitian and exercise physiologist (n = 91) or (2) psychotherapy (Cognitive Behavioural Therapy) with psychologists (n = 91). The primary outcome was Patient Health Questionnaire-9 (PHQ-9) depression at 8-weeks (non-inferiority margin ≤2) using Generalised Estimating Equations (GEE). Cost-minimisation analysis estimated the mean difference in total costs from health sector and societal perspectives. Outcomes were assessed by blinded research assistants using Computer Assisted Telephone Interviews. Results are presented per-protocol (PP) and Intention to Treat (ITT) using beta coefficients with 95% Confidence Intervals (CIs)., Findings: The sample was 80% women (mean: 45-years [SD:13.4], mean PHQ-9:10.5 [SD:5.7]. An average 4.2 of 6 sessions were completed, with complete data for n = 132. Over 8-weeks, depression reduced in both arms (PP: Lifestyle (n = 70) mean difference:-3.97, 95% CIs:-5.10, -2.84; and Psychotherapy (n = 62): mean difference:-3.74, 95% CIs:-5.12, -2.37; ITT: Lifestyle (n = 91) mean difference:-4.42, 95% CIs: -4.59, -4.25; Psychotherapy (n = 91) mean difference:-3.82, 95% CIs:-4.05, -3.69) with evidence of non-inferiority (PP GEE β:-0.59; 95% CIs:-1.87, 0.70, n = 132; ITT GEE β:-0.49, 95% CIs:-1.73, 0.75, n = 182). Three serious adverse events were recorded. While lifestyle therapy was delivered at lower cost, there were no differences in total costs (health sector adjusted mean difference: PP AUD$156 [95% CIs -$182, $611, ITT AUD$190 [95% CIs -$155, $651] ]; societal adjusted mean difference: PP AUD$350 [95% CIs:-$222, $1152] ITT AUD$ 408 [95% CIs -$139, $1157]., Interpretation: Remote-delivered lifestyle therapy was non-inferior to psychotherapy with respect to clinical and cost outcomes. If replicated in a fully powered RCT, this approach could increase access to allied health professionals who, with adequate training and guidelines, can deliver mental healthcare at comparable cost to psychologists., Funding: This trial was funded by the Australian Medical Research Future Fund (GA133346) under its Covid-19 Mental Health Research Grant Scheme., Competing Interests: This trial was funded by the National Health and Medical Research Council’s (NHMRC) Medical Research Future Fund–COVID-19 Mental Health Research Australian Government Department of Health (GA133346). AO is supported by a NHMRC Emerging Leader 2 Fellowship (2009295). FNJ is supported by an NHMRC Investigator Grant (#1194982). FNJ has received fellowship funding support from the National Health and Medical Research Council (#1194982) and payment or honorariums for lectures, presentations, speakers bureaus, manuscript writing, or educational events from the Malaysian Society of Gastroenterology and Hepatology, JNPN Congress, American Nutrition Association, Personalised Nutrition Summit, and American Academy of Craniofacial Pain, is a Scientific Advisory Board member of Dauten Family Centre for Bipolar Treatment Innovation (unpaid) and Zoe Nutrition (unpaid), has written two books for commercial publication on the topic of nutritional psychiatry and gut health, and is the principal investigator for the MicroFit Study. She is Director of the Food & Mood Centre, Deakin University, which has received research funding support from Be Fit Food, Bega Dairy and Drinks, and the a2 Milk Company and philanthropic research funding support from the Waterloo Foundation, Wilson Foundation, the JTM Foundation, the Serp Hills Foundation, the Roberts Family Foundation, and the Fernwood Foundation. SR is supported by an NHMRC Investigator Grant (2017506). MB is supported by a NHMRC Senior Principal Research Fellowship and Leadership 3 Investigator grant (1156072 and 2017131). MTey is supported by a NHMRC Emerging Leadership Fellowship (APP1195335). JS is supported by core funding to the Australian Centre for Behavioural Research in Diabetes provided by the collaboration between Diabetes Victoria and Deakin University. VV is supported by the Rural Health Multidisciplinary Training program. SMah has received funding from Education in Nutrition to provide a professional development presentation and Red Island Olive Oil for social media promotion. MMor has received research grants related to antimicrobial stewardship, discharge medication, consulting fees from Primary Health Networks of Gold Coast and Western Australia related to Primary Sense software. Australian Health Policy Collaboration, RACGP, Australian Department of Health and Aged Care (DoHAC), conference support from RACGP various as chair of Expert Committee for Quality Care, participation in DSMBs for Primary Sense and DoHAC and is a member of Arthritis Australia and Bond University Boards. The contents of the published material are solely the responsibility of the individual authors and do not reflect the views of the funding bodies. The authors have no interests to declare., (© 2024 The Authors.)

Published

2024