Meeting ID
5375-19
Series ID
2019
Display Conference Events In Series
Tier-1 Meeting
Allow Teaser Image

Families face challenges of gene therapy

Article Type
Changed
Wed, 11/06/2019 - 15:49

 

– Gene therapy for the treatment of rare diseases continues to develop and new products are entering the pipeline; however, more work is needed to make the gene therapy experience easier on patients and their families, according to members of a panel at the NORD Rare Diseases & Orphan Product Breakthrough Summit, held by the National Organization for Rare Disorders.

Companies developing gene therapy cite their main challenges as identifying patients, developing clinical trials, coordinating treatment and supporting families, managing reimbursement, and manufacturing the treatment, said Mark Rothera, president and CEO of Orchard Therapeutics, developer of ex vivo autologous hematopoietic stem cell gene therapy.

For families of patients with rare diseases who are undergoing gene therapy, challenges include struggles such as language barriers, lack of wifi, and separation from other family members for extended periods, according to Amy Price, mother of a gene therapy recipient, as well as principal consultant to Rarallel and an advocate for metachromatic leukodystrophy.

Ms. Price cited a survey she conducted of families with children who underwent gene therapy. She collected data from 16 families about their initial visit as part of a gene therapy trial; the trials included 14 families in Milan; 1 in Bethesda, Md.; and 1 in Paris. The average age of the patients at the start of the trial was 3 years, with a range of 8 months to 11 years. The trials were conducted between 1990 and 2018.

Families participating in the trials spent an average of 5.5 months in the city where the trial was conducted, and an average of 48 days in an isolation ward with their child at the start of the study.

The five biggest challenges were financial well-being (cited by 60% of survey respondents), social isolation/being away from support system (60%), fear of the unknown/long-term treatment diagnosis (73%), family separation (67%), and caring for other children simultaneous during the trial period (60%).

In addition, patients averaged 12 follow-up visits, and the most common secondary challenges cited in the survey included time spent at the hospital, emotional and physical stress on the patient, fear of test results and outcomes, exhaustion, time away from work and school, and travel logistics.

Other stressors include language barriers and not being in children’s hospital, Ms. Price said.

Ms. Price proposed patient-focused solutions such as addressing cultural challenges, connecting families to local resources, and providing clinical follow-up locally to reduce the burden of travel to the trial site.

Meeting/Event
Publications
Topics
Sections
Meeting/Event
Meeting/Event

 

– Gene therapy for the treatment of rare diseases continues to develop and new products are entering the pipeline; however, more work is needed to make the gene therapy experience easier on patients and their families, according to members of a panel at the NORD Rare Diseases & Orphan Product Breakthrough Summit, held by the National Organization for Rare Disorders.

Companies developing gene therapy cite their main challenges as identifying patients, developing clinical trials, coordinating treatment and supporting families, managing reimbursement, and manufacturing the treatment, said Mark Rothera, president and CEO of Orchard Therapeutics, developer of ex vivo autologous hematopoietic stem cell gene therapy.

For families of patients with rare diseases who are undergoing gene therapy, challenges include struggles such as language barriers, lack of wifi, and separation from other family members for extended periods, according to Amy Price, mother of a gene therapy recipient, as well as principal consultant to Rarallel and an advocate for metachromatic leukodystrophy.

Ms. Price cited a survey she conducted of families with children who underwent gene therapy. She collected data from 16 families about their initial visit as part of a gene therapy trial; the trials included 14 families in Milan; 1 in Bethesda, Md.; and 1 in Paris. The average age of the patients at the start of the trial was 3 years, with a range of 8 months to 11 years. The trials were conducted between 1990 and 2018.

Families participating in the trials spent an average of 5.5 months in the city where the trial was conducted, and an average of 48 days in an isolation ward with their child at the start of the study.

The five biggest challenges were financial well-being (cited by 60% of survey respondents), social isolation/being away from support system (60%), fear of the unknown/long-term treatment diagnosis (73%), family separation (67%), and caring for other children simultaneous during the trial period (60%).

In addition, patients averaged 12 follow-up visits, and the most common secondary challenges cited in the survey included time spent at the hospital, emotional and physical stress on the patient, fear of test results and outcomes, exhaustion, time away from work and school, and travel logistics.

Other stressors include language barriers and not being in children’s hospital, Ms. Price said.

Ms. Price proposed patient-focused solutions such as addressing cultural challenges, connecting families to local resources, and providing clinical follow-up locally to reduce the burden of travel to the trial site.

 

– Gene therapy for the treatment of rare diseases continues to develop and new products are entering the pipeline; however, more work is needed to make the gene therapy experience easier on patients and their families, according to members of a panel at the NORD Rare Diseases & Orphan Product Breakthrough Summit, held by the National Organization for Rare Disorders.

Companies developing gene therapy cite their main challenges as identifying patients, developing clinical trials, coordinating treatment and supporting families, managing reimbursement, and manufacturing the treatment, said Mark Rothera, president and CEO of Orchard Therapeutics, developer of ex vivo autologous hematopoietic stem cell gene therapy.

For families of patients with rare diseases who are undergoing gene therapy, challenges include struggles such as language barriers, lack of wifi, and separation from other family members for extended periods, according to Amy Price, mother of a gene therapy recipient, as well as principal consultant to Rarallel and an advocate for metachromatic leukodystrophy.

Ms. Price cited a survey she conducted of families with children who underwent gene therapy. She collected data from 16 families about their initial visit as part of a gene therapy trial; the trials included 14 families in Milan; 1 in Bethesda, Md.; and 1 in Paris. The average age of the patients at the start of the trial was 3 years, with a range of 8 months to 11 years. The trials were conducted between 1990 and 2018.

Families participating in the trials spent an average of 5.5 months in the city where the trial was conducted, and an average of 48 days in an isolation ward with their child at the start of the study.

The five biggest challenges were financial well-being (cited by 60% of survey respondents), social isolation/being away from support system (60%), fear of the unknown/long-term treatment diagnosis (73%), family separation (67%), and caring for other children simultaneous during the trial period (60%).

In addition, patients averaged 12 follow-up visits, and the most common secondary challenges cited in the survey included time spent at the hospital, emotional and physical stress on the patient, fear of test results and outcomes, exhaustion, time away from work and school, and travel logistics.

Other stressors include language barriers and not being in children’s hospital, Ms. Price said.

Ms. Price proposed patient-focused solutions such as addressing cultural challenges, connecting families to local resources, and providing clinical follow-up locally to reduce the burden of travel to the trial site.

Publications
Publications
Topics
Article Type
Sections
Article Source

EXPERT ANALYSIS FROM NORD 2019

Disallow All Ads
Content Gating
No Gating (article Unlocked/Free)
Alternative CME
Disqus Comments
Default
Use ProPublica
Hide sidebar & use full width
render the right sidebar.

Experts address barriers to genetic screening

Article Type
Changed
Tue, 11/26/2019 - 16:33

 

– Early diagnosis and intervention for genetic diseases using the latest carrier screening can allow families to be prepared and informed prior to pregnancy, said Aishwarya Arjunan, MS, MPH, a clinical product specialist for carrier screening at Myriad Women’s Health, part of a diagnostic testing company based in Salt Lake City, Utah.

Piolinfax/Wikimedia Commons/GNU Free Documentation License

“Rare diseases are responsible for 35% of deaths in the first year of life,” she said in a panel discussion at the Rare Diseases and Orphan Products Breakthrough Summit sponsored by the National Organization for Rare Disorders.

Most patients with rare diseases go through a “diagnostic odyssey” lasting an average of 8 years before they receive an accurate diagnosis, she said. During this time, data suggest that they have likely been misdiagnosed three times and have seen more than 10 specialists, she added.

Barriers to genetic screening include limited access to genetics professionals, lack of patient and provider education about screening, issues of insurance coverage and reimbursement, coding challenges, and misperceptions about the perceived impact of screening, noted Jodie Vento, manager of the Center for Rare Disease Therapy at the Children’s Hospital of Pittsburgh.

The genetic carrier screening options, often referred to as panethnic expanded carrier screening, represents a change from previous screening protocols based on ethnicity, said Ms. Arjunan. However, guidelines for screening based on ethnicity “misses a significant percentage of pregnancies affected by serious conditions and widens the health disparity gap,” she said.

By contrast, expanded carrier screening allows for standardization of care that gives couples and families information to make decisions and preparations.

Current genetic testing strategies include single gene testing, in which a single gene of interest is tested; multigene panel testing, in which a subset of clinically important genes are tested; whole-exome sequencing, in which the DNA responsible for coding proteins is tested; and whole-genome sequencing, in which the entire human genome is tested for genetic disorders.

Improving access to genetic testing involves a combination of provider education, changes in payer policies, action by advocacy groups, and adjustment of societal guidelines, said Ms. Arjunan. However, the advantages of expanded carrier screening are many and include guiding patients to expert care early and setting up plans for long-term care and follow-up, she noted. In addition, early identification through screening can help patients reduce or eliminate the diagnostic odyssey and connect with advocacy and community groups for support, she concluded.

The presenters had no financial conflicts to disclose.

Meeting/Event
Issue
Neurology Reviews- 27(12)
Publications
Topics
Sections
Meeting/Event
Meeting/Event

 

– Early diagnosis and intervention for genetic diseases using the latest carrier screening can allow families to be prepared and informed prior to pregnancy, said Aishwarya Arjunan, MS, MPH, a clinical product specialist for carrier screening at Myriad Women’s Health, part of a diagnostic testing company based in Salt Lake City, Utah.

Piolinfax/Wikimedia Commons/GNU Free Documentation License

“Rare diseases are responsible for 35% of deaths in the first year of life,” she said in a panel discussion at the Rare Diseases and Orphan Products Breakthrough Summit sponsored by the National Organization for Rare Disorders.

Most patients with rare diseases go through a “diagnostic odyssey” lasting an average of 8 years before they receive an accurate diagnosis, she said. During this time, data suggest that they have likely been misdiagnosed three times and have seen more than 10 specialists, she added.

Barriers to genetic screening include limited access to genetics professionals, lack of patient and provider education about screening, issues of insurance coverage and reimbursement, coding challenges, and misperceptions about the perceived impact of screening, noted Jodie Vento, manager of the Center for Rare Disease Therapy at the Children’s Hospital of Pittsburgh.

The genetic carrier screening options, often referred to as panethnic expanded carrier screening, represents a change from previous screening protocols based on ethnicity, said Ms. Arjunan. However, guidelines for screening based on ethnicity “misses a significant percentage of pregnancies affected by serious conditions and widens the health disparity gap,” she said.

By contrast, expanded carrier screening allows for standardization of care that gives couples and families information to make decisions and preparations.

Current genetic testing strategies include single gene testing, in which a single gene of interest is tested; multigene panel testing, in which a subset of clinically important genes are tested; whole-exome sequencing, in which the DNA responsible for coding proteins is tested; and whole-genome sequencing, in which the entire human genome is tested for genetic disorders.

Improving access to genetic testing involves a combination of provider education, changes in payer policies, action by advocacy groups, and adjustment of societal guidelines, said Ms. Arjunan. However, the advantages of expanded carrier screening are many and include guiding patients to expert care early and setting up plans for long-term care and follow-up, she noted. In addition, early identification through screening can help patients reduce or eliminate the diagnostic odyssey and connect with advocacy and community groups for support, she concluded.

The presenters had no financial conflicts to disclose.

 

– Early diagnosis and intervention for genetic diseases using the latest carrier screening can allow families to be prepared and informed prior to pregnancy, said Aishwarya Arjunan, MS, MPH, a clinical product specialist for carrier screening at Myriad Women’s Health, part of a diagnostic testing company based in Salt Lake City, Utah.

Piolinfax/Wikimedia Commons/GNU Free Documentation License

“Rare diseases are responsible for 35% of deaths in the first year of life,” she said in a panel discussion at the Rare Diseases and Orphan Products Breakthrough Summit sponsored by the National Organization for Rare Disorders.

Most patients with rare diseases go through a “diagnostic odyssey” lasting an average of 8 years before they receive an accurate diagnosis, she said. During this time, data suggest that they have likely been misdiagnosed three times and have seen more than 10 specialists, she added.

Barriers to genetic screening include limited access to genetics professionals, lack of patient and provider education about screening, issues of insurance coverage and reimbursement, coding challenges, and misperceptions about the perceived impact of screening, noted Jodie Vento, manager of the Center for Rare Disease Therapy at the Children’s Hospital of Pittsburgh.

The genetic carrier screening options, often referred to as panethnic expanded carrier screening, represents a change from previous screening protocols based on ethnicity, said Ms. Arjunan. However, guidelines for screening based on ethnicity “misses a significant percentage of pregnancies affected by serious conditions and widens the health disparity gap,” she said.

By contrast, expanded carrier screening allows for standardization of care that gives couples and families information to make decisions and preparations.

Current genetic testing strategies include single gene testing, in which a single gene of interest is tested; multigene panel testing, in which a subset of clinically important genes are tested; whole-exome sequencing, in which the DNA responsible for coding proteins is tested; and whole-genome sequencing, in which the entire human genome is tested for genetic disorders.

Improving access to genetic testing involves a combination of provider education, changes in payer policies, action by advocacy groups, and adjustment of societal guidelines, said Ms. Arjunan. However, the advantages of expanded carrier screening are many and include guiding patients to expert care early and setting up plans for long-term care and follow-up, she noted. In addition, early identification through screening can help patients reduce or eliminate the diagnostic odyssey and connect with advocacy and community groups for support, she concluded.

The presenters had no financial conflicts to disclose.

Issue
Neurology Reviews- 27(12)
Issue
Neurology Reviews- 27(12)
Publications
Publications
Topics
Article Type
Sections
Article Source

EXPERT ANALYSIS FROM NORD 2019

Citation Override
Publish date: November 4, 2019
Disallow All Ads
Content Gating
No Gating (article Unlocked/Free)
Alternative CME
Disqus Comments
Default
Use ProPublica
Hide sidebar & use full width
render the right sidebar.