Your search keyword '"Kanga-Parabia A"' showing total 20 results

1. Evaluation of a two-step model of opportunistic genomic screening

Author

Martyn, Melissa, Lee, Ling, Jan, Alli, Lynch, Elly, Weerasuriya, Rona, Kanga-Parabia, Anaita, and Gaff, Clara

Published

2024

2. Secondary use of genomic data: patients’ decisions at point of testing and perspectives to inform international data sharing

Author

Martyn, Melissa, Forbes, Emily, Lee, Ling, Kanga-Parabia, Anaita, Weerasuriya, Rona, Lynch, Elly, Gleeson, Penny, and Gaff, Clara

Published

2024

3. Prospective cohort study of genomic newborn screening: BabyScreen+ pilot study protocol

Author

John Christodoulou, Christopher Gyngell, Stephanie Best, Clara Gaff, Zornitza Stark, Ilias Goranitis, Marc Clausen, Yvonne Bombard, Lilian Downie, Sebastian Lunke, David J Amor, Alison Yeung, Simon Sadedin, Fiona Lynch, Sophie E Bouffler, Danya F Vears, Jade Caruana, Alison Archibald, Paul De Fazio, Ronda F Greaves, Sebastian Hollizeck, Anaita Kanga-Parabia, Nitzan Lang, Riccarda Peters, Erin Tutty, Stefanie Eggers, Crystle Lee, and Meaghan Wall

Subjects

Medicine

Abstract

Introduction Newborn bloodspot screening (NBS) is a highly successful public health programme that uses biochemical and other assays to screen for severe but treatable childhood-onset conditions. Introducing genomic sequencing into NBS programmes increases the range of detectable conditions but raises practical and ethical issues. Evidence from prospectively ascertained cohorts is required to guide policy and future implementation. This study aims to develop, implement and evaluate a genomic NBS (gNBS) pilot programme.Methods and analysis The BabyScreen+ study will pilot gNBS in three phases. In the preimplementation phase, study materials, including education resources, decision support and data collection tools, will be designed. Focus groups and key informant interviews will also be undertaken to inform delivery of the study and future gNBS programmes. During the implementation phase, we will prospectively recruit birth parents in Victoria, Australia, to screen 1000 newborns for over 600 severe, treatable, childhood-onset conditions. Clinically accredited whole genome sequencing will be performed following standard NBS using the same sample. High chance results will be returned by genetic healthcare professionals, with follow-on genetic and other confirmatory testing and referral to specialist services as required. The postimplementation phase will evaluate the feasibility of gNBS as the primary aim, and assess ethical, implementation, psychosocial and health economic factors to inform future service delivery.Ethics and dissemination This project received ethics approval from the Royal Children’s Hospital Melbourne Research Ethics Committee: HREC/91500/RCHM-2023, HREC/90929/RCHM-2022 and HREC/91392/RCHM-2022. Findings will be disseminated to policy-makers, and through peer-reviewed journals and conferences.

Published

2024

4. Genetic counseling workforce diversity, inclusion, and capacity in Australia and New Zealand

Author

Nisselle, Amy, Pearn, Amy, Kanga-Parabia, Anaita, Lundie, Ben, Wong, Claire, Health, N.S.W., Gaff, Clara, Genomics, Australian, Mountain, Helen, Duggal, Jaitika, Pinner, Jason, Hunt, Lauren, Gallacher, Lyndon, Williams, Rachel, Lunke, Sebastian, Burman, Yemima, Blackwell, Alex, Rakonjac, Ana, Courtney, Eliza, Edwards, Emma, Harrison, Emma, Hayward, Janette, Mitchell, Lucas, Bowman, Michelle, Cao, Michelle, Belekar, Mithila, Smyth, Renee, Hogan, Saraya, and Kapoor, Trisha

Published

2024

5. Prospective cohort study of genomic newborn screening: BabyScreen+ pilot study protocol

Author

Lunke, Sebastian, primary, Bouffler, Sophie E, additional, Downie, Lilian, additional, Caruana, Jade, additional, Amor, David J, additional, Archibald, Alison, additional, Bombard, Yvonne, additional, Christodoulou, John, additional, Clausen, Marc, additional, De Fazio, Paul, additional, Greaves, Ronda F, additional, Hollizeck, Sebastian, additional, Kanga-Parabia, Anaita, additional, Lang, Nitzan, additional, Lynch, Fiona, additional, Peters, Riccarda, additional, Sadedin, Simon, additional, Tutty, Erin, additional, Eggers, Stefanie, additional, Lee, Crystle, additional, Wall, Meaghan, additional, Yeung, Alison, additional, Gaff, Clara, additional, Gyngell, Christopher, additional, Vears, Danya F, additional, Best, Stephanie, additional, Goranitis, Ilias, additional, and Stark, Zornitza, additional

Published

2024

6. Genetic counseling workforce diversity, inclusion, and capacity in Australia and New Zealand

Author

Kanga-Parabia, A, Mitchell, L, Smyth, R, Kapoor, T, Duggal, J, Pearn, A, Williams, R, Courtney, E, Edwards, E, Bowman, M, Belekar, M, Nisselle, A, Lundie, B, Wong, C, Health, NSW, Gaff, C, Genomics, A, Mountain, H, Pinner, J, Hunt, L, Gallacher, L, Lunke, S, Burman, Y, Blackwell, A, Rakonjac, A, Harrison, E, Hayward, J, Cao, M, Hogan, S, Kanga-Parabia, A, Mitchell, L, Smyth, R, Kapoor, T, Duggal, J, Pearn, A, Williams, R, Courtney, E, Edwards, E, Bowman, M, Belekar, M, Nisselle, A, Lundie, B, Wong, C, Health, NSW, Gaff, C, Genomics, A, Mountain, H, Pinner, J, Hunt, L, Gallacher, L, Lunke, S, Burman, Y, Blackwell, A, Rakonjac, A, Harrison, E, Hayward, J, Cao, M, and Hogan, S

Published

2024

7. Discussions about predictive genetic testing for Lynch syndrome: the role of health professionals and families in decisions to decline

Author

Kanga-Parabia, Anaita, Gaff, Clara, Flander, Louisa, Jenkins, Mark, and Keogh, Louise A.

Published

2018

8. Correspondence on 'Screening for autosomal recessive and X-linked conditions during pregnancy and preconception: a practice resource of the American College of Medical Genetics and Genomics (ACMG)' by Gregg et al

Author

Sarah Righetti, Lisa Dive, Alison D. Archibald, Lucinda Freeman, Belinda McClaren, Anaita Kanga-Parabia, Martin B. Delatycki, Nigel G. Laing, Edwin P. Kirk, Ainsley J. Newson, Kristine Barlow-Stewart, Stephanie Best, Kirsten Boggs, Camron Ebzery, Samantha Edwards, Zoe Fehlberg, Lara Fitzgerald, Jane Halliday, Katrina Harrison, Jillian Kennedy, Janet Long, John Massie, Erin Tutty, Richard Allcock, Jade Caruana, Rachael Casella, Mark Davis, Tristan Hardy, Sarah Jelenich, Sebastian Lunke, Julie McGaughran, and Gina Ravenscroft

Subjects

Heredity, Pregnancy, Genetics, Medical, Humans, Mass Screening, Female, Genetic Testing, Genomics, United States, Genetics (clinical)

Published

2022

9. The Australian Reproductive Genetic Carrier Screening Project (Mackenzie's Mission): Design and Implementation

Author

Archibald, AD, McClaren, BJ, Caruana, J, Tutty, E, King, EA, Halliday, JL, Best, S, Kanga-Parabia, A, Bennetts, BH, Cliffe, CC, Madelli, EO, Ho, G, Liebelt, J, Long, JC, Braithwaite, J, Kennedy, J, Massie, J, Emery, JD, McGaughran, J, Marum, JE, Boggs, K, Barlow-Stewart, K, Burnett, L, Dive, L, Freeman, L, Davis, MR, Downes, MJ, Wallis, M, Ferrie, MM, Pachter, N, Scuffham, PA, Casella, R, Allcock, RJN, Ong, R, Edwards, S, Righetti, S, Lunke, S, Lewis, S, Walker, SP, Boughtwood, TF, Hardy, T, Newson, AJ, Kirk, EP, Laing, NG, and Delatycki, MB

Abstract

Reproductive genetic carrier screening (RGCS) provides people with information about their chance of having children with autosomal recessive or X-linked genetic conditions, enabling informed reproductive decision-making. RGCS is recommended to be offered to all couples during preconception or in early pregnancy. However, cost and a lack of awareness may prevent access. To address this, the Australian Government funded Mackenzie’s Mission—the Australian Reproductive Genetic Carrier Screening Project. Mackenzie’s Mission aims to assess the acceptability and feasibility of an easily accessible RGCS program, provided free of charge to the participant. In study Phase 1, implementation needs were mapped, and key study elements were developed. In Phase 2, RGCS is being offered by healthcare providers educated by the study team. Reproductive couples who provide consent are screened for over 1200 genes associated with >750 serious, childhood-onset genetic conditions. Those with an increased chance result are provided comprehensive genetic counseling support. Reproductive couples, recruiting healthcare providers, and study team members are also invited to complete surveys and/or interviews. In Phase 3, a mixed-methods analysis will be undertaken to assess the program outcomes, psychosocial implications and implementation considerations alongside an ongoing bioethical analysis and a health economic evaluation. Findings will inform the implementation of an ethically robust RGCS program.

Published

2022

10. The Australian Reproductive Genetic Carrier Screening Project (Mackenzie's Mission): Design and Implementation

Author

Alison D, Archibald, Belinda J, McClaren, Jade, Caruana, Erin, Tutty, Emily A, King, Jane L, Halliday, Stephanie, Best, Anaita, Kanga-Parabia, Bruce H, Bennetts, Corrina C, Cliffe, Evanthia O, Madelli, Gladys, Ho, Jan, Liebelt, Janet C, Long, Jeffrey, Braithwaite, Jillian, Kennedy, John, Massie, Jon D, Emery, Julie, McGaughran, Justine E, Marum, Kirsten, Boggs, Kristine, Barlow-Stewart, Leslie, Burnett, Lisa, Dive, Lucinda, Freeman, Mark R, Davis, Martin J, Downes, Mathew, Wallis, Monica M, Ferrie, Nicholas, Pachter, Paul A, Scuffham, Rachael, Casella, Richard J N, Allcock, Royston, Ong, Samantha, Edwards, Sarah, Righetti, Sebastian, Lunke, Sharon, Lewis, Susan P, Walker, Tiffany F, Boughtwood, Tristan, Hardy, Ainsley J, Newson, Edwin P, Kirk, Nigel G, Laing, Martin B, Delatycki, and The Mackenzie's Mission Study Team

Subjects

Medicine (miscellaneous)

Abstract

Reproductive genetic carrier screening (RGCS) provides people with information about their chance of having children with autosomal recessive or X-linked genetic conditions, enabling informed reproductive decision-making. RGCS is recommended to be offered to all couples during preconception or in early pregnancy. However, cost and a lack of awareness may prevent access. To address this, the Australian Government funded Mackenzie’s Mission—the Australian Reproductive Genetic Carrier Screening Project. Mackenzie’s Mission aims to assess the acceptability and feasibility of an easily accessible RGCS program, provided free of charge to the participant. In study Phase 1, implementation needs were mapped, and key study elements were developed. In Phase 2, RGCS is being offered by healthcare providers educated by the study team. Reproductive couples who provide consent are screened for over 1200 genes associated with >750 serious, childhood-onset genetic conditions. Those with an increased chance result are provided comprehensive genetic counseling support. Reproductive couples, recruiting healthcare providers, and study team members are also invited to complete surveys and/or interviews. In Phase 3, a mixed-methods analysis will be undertaken to assess the program outcomes, psychosocial implications and implementation considerations alongside an ongoing bioethical analysis and a health economic evaluation. Findings will inform the implementation of an ethically robust RGCS program.

Published

2022

11. Correspondence on “Screening for autosomal recessive and X-linked conditions during pregnancy and preconception: a practice resource of the American College of Medical Genetics and Genomics (ACMG)” by Gregg et al

Author

Barlow-Stewart, Kristine, Best, Stephanie, Boggs, Kirsten, Ebzery, Camron, Edwards, Samantha, Fehlberg, Zoe, Fitzgerald, Lara, Halliday, Jane, Harrison, Katrina, Kennedy, Jillian, Long, Janet, Massie, John, Tutty, Erin, Allcock, Richard, Caruana, Jade, Casella, Rachael, Davis, Mark, Hardy, Tristan, Jelenich, Sarah, Lunke, Sebastian, McGaughran, Julie, Ravenscroft, Gina, Righetti, Sarah, Dive, Lisa, Archibald, Alison D., Freeman, Lucinda, McClaren, Belinda, Kanga-Parabia, Anaita, Delatycki, Martin B., Laing, Nigel G., Kirk, Edwin P., and Newson, Ainsley J.

Published

2022

12. Correspondence on “Screening for autosomal recessive and X-linked conditions during pregnancy and preconception: a practice resource of the American College of Medical Genetics and Genomics (ACMG)” by Gregg et al

Author

Righetti, Sarah, primary, Dive, Lisa, additional, Archibald, Alison D., additional, Freeman, Lucinda, additional, McClaren, Belinda, additional, Kanga-Parabia, Anaita, additional, Delatycki, Martin B., additional, Laing, Nigel G., additional, Kirk, Edwin P., additional, Newson, Ainsley J., additional, Barlow-Stewart, Kristine, additional, Best, Stephanie, additional, Boggs, Kirsten, additional, Ebzery, Camron, additional, Edwards, Samantha, additional, Fehlberg, Zoe, additional, Fitzgerald, Lara, additional, Halliday, Jane, additional, Harrison, Katrina, additional, Kennedy, Jillian, additional, Long, Janet, additional, Massie, John, additional, Tutty, Erin, additional, Allcock, Richard, additional, Caruana, Jade, additional, Casella, Rachael, additional, Davis, Mark, additional, Hardy, Tristan, additional, Jelenich, Sarah, additional, Lunke, Sebastian, additional, McGaughran, Julie, additional, and Ravenscroft, Gina, additional

Published

2022

13. The Australian Reproductive Genetic Carrier Screening Project (Mackenzie's Mission): Design and Implementation.

Author

Archibald, Alison D., McClaren, Belinda J., Caruana, Jade, Tutty, Erin, King, Emily A., Halliday, Jane L., Best, Stephanie, Kanga-Parabia, Anaita, Bennetts, Bruce H., Cliffe, Corrina C., Madelli, Evanthia O., Ho, Gladys, Liebelt, Jan, Long, Janet C., Braithwaite, Jeffrey, Kennedy, Jillian, Massie, John, Emery, Jon D., McGaughran, Julie, and Marum, Justine E.

Abstract

Reproductive genetic carrier screening (RGCS) provides people with information about their chance of having children with autosomal recessive or X-linked genetic conditions, enabling informed reproductive decision-making. RGCS is recommended to be offered to all couples during preconception or in early pregnancy. However, cost and a lack of awareness may prevent access. To address this, the Australian Government funded Mackenzie's Mission—the Australian Reproductive Genetic Carrier Screening Project. Mackenzie's Mission aims to assess the acceptability and feasibility of an easily accessible RGCS program, provided free of charge to the participant. In study Phase 1, implementation needs were mapped, and key study elements were developed. In Phase 2, RGCS is being offered by healthcare providers educated by the study team. Reproductive couples who provide consent are screened for over 1200 genes associated with >750 serious, childhood-onset genetic conditions. Those with an increased chance result are provided comprehensive genetic counseling support. Reproductive couples, recruiting healthcare providers, and study team members are also invited to complete surveys and/or interviews. In Phase 3, a mixed-methods analysis will be undertaken to assess the program outcomes, psychosocial implications and implementation considerations alongside an ongoing bioethical analysis and a health economic evaluation. Findings will inform the implementation of an ethically robust RGCS program. [ABSTRACT FROM AUTHOR]

Published

2022

14. Discussions about predictive genetic testing for Lynch syndrome: the role of health professionals and families in decisions to decline

Author

Louise Keogh, Clara Gaff, Louisa Flander, Mark A. Jenkins, and A Kanga-Parabia

Subjects

Male, 0301 basic medicine, Cancer Research, medicine.medical_specialty, Genetic counseling, media_common.quotation_subject, Decision Making, Genetic Counseling, 030105 genetics & heredity, Article, Treatment Refusal, 03 medical and health sciences, Physicians, Genetics, medicine, Humans, Family, Genetic Testing, Predictive testing, Health communication, Genetics (clinical), Aged, Genetic testing, media_common, medicine.diagnostic_test, Middle Aged, Colorectal Neoplasms, Hereditary Nonpolyposis, Test (assessment), Oncology, Feeling, Family medicine, Medical genetics, Female, Psychology, Qualitative research

Abstract

Unaffected relatives of individuals with Lynch syndrome can be offered predictive genetic testing to guide surveillance recommendations. The decision-making process of those who decline testing, particularly those who do not attend a clinical genetics service, is poorly understood. We have addressed this gap by interviewing 33 individuals from Lynch syndrome mutation-carrying families, unaffected by cancer, who declined predictive genetic testing. Here, we analyse the data provided by 20 participants who unequivocally declined testing. Those who indicated they did not have enough information to make a decision or intended to undergo testing in the future were excluded. Analysis revealed that few decliners discussed their decision with general practitioners or genetic counsellors. Family members were commonly involved to varying degrees, with participants either (1) making group decisions with family members, (2) feeling persuaded by family members to either accept or decline testing, (3) discussing the test but making their own decision. A minority did not discuss testing with family members while making their decision. This research reveals the health communication activities of an understudied group, those declining predictive testing, and indicates that for many, health professionals play a minor role in the decision compared to family.

Published

2018

15. A novel approach to offering additional genomic findings-A protocol to test a two-step approach in the healthcare system.

Author

Lunke S., Jarmolowicz A., Goranitis I., Gaff C.L., Martyn M., Kanga-Parabia A., Lynch E., James P.A., Macciocca I., Trainer A.H., Halliday J., Keogh L., Wale J., Winship I., Bogwitz M., Valente G., Walsh M., Downie L., Amor D., Wallis M., Cunningham F., Burgess M., Brown N.J., Lunke S., Jarmolowicz A., Goranitis I., Gaff C.L., Martyn M., Kanga-Parabia A., Lynch E., James P.A., Macciocca I., Trainer A.H., Halliday J., Keogh L., Wale J., Winship I., Bogwitz M., Valente G., Walsh M., Downie L., Amor D., Wallis M., Cunningham F., Burgess M., and Brown N.J.

Abstract

Internationally, the practice of offering additional findings (AFs) when undertaking a clinically indicated genomic test differs. In the USA, the recommendation is to include analysis for AFs alongside diagnostic analysis, unless a patient opts-out, whereas European and Canadian guidelines recommend opt-in models. These guidelines all consider the offer of AFs as an activity concurrent with the offer of diagnostic testing. This paper describes a novel two-step model for managing AFs within the healthcare system in Victoria, Australia and presents the study protocol for its evaluation. Adults who have received results of diagnostic whole exome sequencing undertaken within the healthcare system are invited to attend a genetic counseling appointment to consider reanalysis of their stored genomic data for AFs. The evaluation protocol addresses uptake, decision-making, understanding, counseling challenges, and explores preferences for future models of care. Recruitment commenced in November 2017 and will cease when 200 participants have been approached. When the study is concluded, the evaluation results will contribute to the evidence base guiding approaches to counseling and models of care for AFs.Copyright © 2019 National Society of Genetic Counselors.

Published

2019

16. A novel approach for offering additional findings to patients: Separating this decision from diagnostic testing.

Author

Bogwitz M., Keogh L., Wale J., Winship I., Gaff C., Lynch E., Martyn M., Kanga-Parabia A., James P., Lunke S., Macciocca I., Wallis M., Hunter M., Trainer A., Halliday J., Brown N., Bogwitz M., Keogh L., Wale J., Winship I., Gaff C., Lynch E., Martyn M., Kanga-Parabia A., James P., Lunke S., Macciocca I., Wallis M., Hunter M., Trainer A., Halliday J., and Brown N.

Abstract

Genomic sequencing has the potential to reveal information unrelated to diagnostic indications for testing, including the presence of variants that may predict future health risks. Several studies are generating evidence regarding uptake and management of additional findings (AFs) in clinical settings, with consent for AFs at the time of diagnostic testing and focus on health outcomes. We evaluate a novel model, offering reanalysis for AFs to adults after they have received genomic sequencing results for their clinical indication. Adults who received exome sequencing results are later recontacted to offer reanalysis of their stored data for AFs. Those interested receive decision support materials and genetic counseling before deciding whether to consent. Evaluation focusses on aspects impacting on how AFs are provided, including patient decision-making, uptake, clinical/laboratory service impact, psychosocial impact and views on future service delivery. To date, 57 patients have been approached, with 14 opting to attend for genetic counseling. Of the 6 who have attended, all decided to receive additional findings. 6/57 actively opted-out, citing logistical reasons, preference to address health problems as they arise or being advised by family members to decline. Of those approached to date, 83% had earlier expressed hypothetical interest in receiving AFs. Recruitment will cease by end 2018. Results from this novel model will provide Australian data to complement international studies and enable comparison with studies in healthy adults and pediatric cohorts.

Published

2019

17. Discussions about predictive genetic testing for Lynch syndrome: the role of health professionals and families in decisions to decline

Author

Kanga-Parabia, A, Gaff, C, Flander, L, Jenkins, M, Keogh, LA, Kanga-Parabia, A, Gaff, C, Flander, L, Jenkins, M, and Keogh, LA

Abstract

Unaffected relatives of individuals with Lynch syndrome can be offered predictive genetic testing to guide surveillance recommendations. The decision-making process of those who decline testing, particularly those who do not attend a clinical genetics service, is poorly understood. We have addressed this gap by interviewing 33 individuals from Lynch syndrome mutation-carrying families, unaffected by cancer, who declined predictive genetic testing. Here, we analyse the data provided by 20 participants who unequivocally declined testing. Those who indicated they did not have enough information to make a decision or intended to undergo testing in the future were excluded. Analysis revealed that few decliners discussed their decision with general practitioners or genetic counsellors. Family members were commonly involved to varying degrees, with participants either (1) making group decisions with family members, (2) feeling persuaded by family members to either accept or decline testing, (3) discussing the test but making their own decision. A minority did not discuss testing with family members while making their decision. This research reveals the health communication activities of an understudied group, those declining predictive testing, and indicates that for many, health professionals play a minor role in the decision compared to family.

Published

2018

18. A novel approach to offering additional genomic findings—A protocol to test a two‐step approach in the healthcare system.

Author

Wale, Janney, Martyn, Melissa, Kanga‐Parabia, Anaita, Gaff, Clara L., Lynch, Elly, Keogh, Louise, Halliday, Jane, Goranitis, Ilias, Downie, Lilian, Brown, Natasha J., Amor, David, Macciocca, Ivan, Jarmolowicz, Anna, Lunke, Sebastian, Cunningham, Fiona, James, Paul A., Trainer, Alison H., Walsh, Maie, Winship, Ingrid, and Bogwitz, Michael

Abstract

Internationally, the practice of offering additional findings (AFs) when undertaking a clinically indicated genomic test differs. In the USA, the recommendation is to include analysis for AFs alongside diagnostic analysis, unless a patient opts‐out, whereas European and Canadian guidelines recommend opt‐in models. These guidelines all consider the offer of AFs as an activity concurrent with the offer of diagnostic testing. This paper describes a novel two‐step model for managing AFs within the healthcare system in Victoria, Australia and presents the study protocol for its evaluation. Adults who have received results of diagnostic whole exome sequencing undertaken within the healthcare system are invited to attend a genetic counseling appointment to consider reanalysis of their stored genomic data for AFs. The evaluation protocol addresses uptake, decision‐making, understanding, counseling challenges, and explores preferences for future models of care. Recruitment commenced in November 2017 and will cease when 200 participants have been approached. When the study is concluded, the evaluation results will contribute to the evidence base guiding approaches to counseling and models of care for AFs. [ABSTRACT FROM AUTHOR]

Published

2019

19. Nationwide, Couple-Based Genetic Carrier Screening.

Author

Kirk EP, Delatycki MB, Archibald AD, Tutty E, Caruana J, Halliday JL, Lewis S, McClaren BJ, Newson AJ, Dive L, Best S, Long JC, Braithwaite J, Downes MJ, Scuffham PA, Massie J, Barlow-Stewart K, Kulkarni A, Ruscigno A, Kanga-Parabia A, Rodrigues B, Bennetts BH, Ebzery C, Hunt C, Cliffe CC, Lee C, Azmanov D, King EA, Madelli EO, Zhang F, Ho G, Danos I, Liebelt J, Fletcher J, Kennedy J, Beilby J, Emery JD, McGaughran J, Marum JE, Scarff K, Fisk K, Harrison K, Boggs K, Giameos L, Fitzgerald L, Thomas L, Burnett L, Freeman L, Harris M, Berbic M, Davis MR, Cifuentes Ochoa M, Wallis M, Wall M, Chow MTM, Ferrie MM, Pachter N, Quayum N, Lang N, Kasi Pandy P, Casella R, Allcock RJN, Ong R, Edwards S, Sundercombe S, Jelenich S, Righetti S, Lunke S, Kaur S, Stock-Myer S, Eggers S, Walker SP, Theodorou T, Catchpool T, Clinch T, Roscioli T, Hardy T, Zhu Y, Fehlberg Z, Boughtwood TF, and Laing NG

Subjects

Adult, Female, Humans, Male, Pregnancy, Australia, Feasibility Studies, Patient Acceptance of Health Care statistics & numerical data, Decision Making, Heterozygote, Family Characteristics, Reproductive Behavior, Genetic Carrier Screening methods, Genetic Carrier Screening statistics & numerical data, Genetic Diseases, Inborn genetics, Genetic Diseases, Inborn prevention & control, Genetic Diseases, Inborn psychology

Abstract

Background: Genomic sequencing technology allows for identification of reproductive couples with an increased chance, as compared with that in the general population, of having a child with an autosomal recessive or X-linked genetic condition., Methods: We investigated the feasibility, acceptability, and outcomes of a nationwide, couple-based genetic carrier screening program in Australia as part of the Mackenzie's Mission project. Health care providers offered screening to persons before pregnancy or early in pregnancy. The results obtained from testing at least 1281 genes were provided to the reproductive couples. We aimed to ascertain the psychosocial effects on participants, the acceptability of screening to all participants, and the reproductive choices of persons identified as having an increased chance of having a child with a condition for which we screened., Results: Among 10,038 reproductive couples enrolled in the study, 9107 (90.7%) completed screening, and 175 (1.9%) were newly identified as having an increased chance of having a child with a genetic condition for which we screened. These conditions involved pathogenic variants in 90 different genes; 74.3% of the conditions were autosomal recessive. Three months after receiving the results, 76.6% of the couples with a newly identified increased chance had used or planned to use reproductive interventions to avoid having an affected child. Those newly identified as having an increased chance had greater anxiety than those with a low chance. The median level of decisional regret was low in all result groups, and 98.9% of participants perceived screening to be acceptable., Conclusions: Couple-based reproductive genetic carrier screening was largely acceptable to participants and was used to inform reproductive decision making. The delivery of screening to a diverse and geographically dispersed population was feasible. (Funded by the Medical Research Future Fund of the Australian government; ClinicalTrials.gov number, NCT04157595.)., (Copyright © 2024 Massachusetts Medical Society.)

Published

2024

20. A novel approach to offering additional genomic findings-A protocol to test a two-step approach in the healthcare system.

Author

Martyn M, Kanga-Parabia A, Lynch E, James PA, Macciocca I, Trainer AH, Halliday J, Keogh L, Wale J, Winship I, Bogwitz M, Valente G, Walsh M, Downie L, Amor D, Wallis M, Cunningham F, Burgess M, Brown NJ, Jarmolowicz A, Lunke S, Goranitis I, and Gaff CL

Subjects

Adult, Canada, Decision Making, Delivery of Health Care, Humans, Male, Practice Guidelines as Topic, Victoria, Genetic Counseling methods, Genomics

Abstract

Internationally, the practice of offering additional findings (AFs) when undertaking a clinically indicated genomic test differs. In the USA, the recommendation is to include analysis for AFs alongside diagnostic analysis, unless a patient opts-out, whereas European and Canadian guidelines recommend opt-in models. These guidelines all consider the offer of AFs as an activity concurrent with the offer of diagnostic testing. This paper describes a novel two-step model for managing AFs within the healthcare system in Victoria, Australia and presents the study protocol for its evaluation. Adults who have received results of diagnostic whole exome sequencing undertaken within the healthcare system are invited to attend a genetic counseling appointment to consider reanalysis of their stored genomic data for AFs. The evaluation protocol addresses uptake, decision-making, understanding, counseling challenges, and explores preferences for future models of care. Recruitment commenced in November 2017 and will cease when 200 participants have been approached. When the study is concluded, the evaluation results will contribute to the evidence base guiding approaches to counseling and models of care for AFs., (© 2019 National Society of Genetic Counselors.)

Published

2019