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Erin joins David Rintell, Head of Patient Advocacy at BridgeBio, and Mandy Rohrig, Director of Patient Advocacy at BridgeBio Gene Therapy, to share her experience living with hypochondroplasia. Erin also has two sons living with hypochondroplasia and one son of average height. Raised in a loving and supportive family with a can-do attitude, her father told her that she may be of short stature but that she could do everything she wanted to do, just maybe in a slightly different way.
Erin shares her diagnostic journey with hypochondroplasia in the third grade. Even though her diagnosis was upsetting to her, her friends and family never treated her any differently. She describes her decision to undergo limb-lengthening surgery, how she manages her condition, and discusses how her two sons navigate living with hypochondroplasia in very different ways. While there were times when Erin would have preferred to be just like everyone else, she has learned the value of embracing individuality and the importance of family and finding fulfillment in life.
Elena Muslimova, Medical Director of the hypochondroplasia program at QED Therapeutics, a BridgeBio affiliate, provides a medical overview. She explains that hypochondroplasia is a rare genetic bone condition causing short stature with an average-sized trunk but shorter arms and legs. It often arises from de novo (spontaneous) mutations, yet it can also be inherited. Hypochondroplasia is typically diagnosed in children aged 2 to 5 years old.
While short stature is the primary characteristic, individuals may experience other complications although the severity of these issues varies greatly among individuals.âŻ
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In todayâs episode of On Rare, David Rintell, Head of Patient Advocacy at BridgeBio, and Mandy Rohrig, Director of Patient Advocacy at BridgeBio Gene Therapy, speak with Misty about her experience living with limb-girdle muscular dystrophy, type2I/R9 (LGMD2I/R9). Misty details the suffering she experienced in her childhood from bullying for the symptoms she now realizes are connected to LGMD2I/R9 and shares the many frustrations and significant challenges that resulted from her delayed diagnosis. Despite noticing alarming symptoms as early as junior high school, Misty was dismissed by medical professionals for years. Finally, and only after both her younger twin sisters were diagnosed with LGMD2I/R9, Misty received her own genetic confirmation of LGMD2I/R9. She was 32 years old. Receiving her diagnosis was like an emotional tornado, and immediately, Misty feared that she may have passed LGMD2I/R9 on to her children. Throughout her journey, Misty has tried to hold on to the positives. She talks about the creative ways she has adapted to life with a progressive disease and emphasizes the importance of showing oneself grace and finding community.
Ada Lee, M.D., Medical Director at ML Bio Solutions, a BridgeBio company developing BBP-418 for LGMD2I/R9, provides an overview of the genetic condition. She explains that limb-girdle muscular dystrophy (LGMD) is an umbrella of diseases associated with progressive muscular weakness in the girdle muscles, some of the central muscles that support limbs. LGMD2I/R9 (also called âLGMD R9 FKRP-relatedâ) is a genetic disease caused by a mutation in the FKRP gene. The FKRP gene is involved in helping muscles build a glycoprotein called alpha-dystroglycan. When the gene doesnât work correctly, it causes damage to muscle tissue, and over time, develops into scar-like, fibrotic tissue. As fibrotic tissue overtakes healthy muscle tissue, muscle strength and function declines, and people living with LGMD2I/R9 lose the ability to perform routine daily activities unassistedâsuch as walking or standing up. Many people with LGMD2I/R9 have prolonged pathways to diagnosis because it is a rare disease with an early onset of symptoms.
To learn more about LGMD2I/R9 and the LGMD community, visit the LGMD Awareness Foundation, the CureLGMD2i Foundation, and The Speak Foundation.
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In this emotional episode of On Rare, David Rintell, Head of Patient Advocacy at BridgeBio, and Mandy Rohrig, Director of Patient Advocacy at BridgeBio Gene Therapy, speak with Dawn, the single parent of Vayle, a 5-year-old girl living with Canavan Disease. Dawn shares how she came to realize that Vayle was not meeting developmental milestones at 3-4 months old. Despite initial reassurance from her pediatrician, Dawnâs maternal intuition proved correct, leading to a diagnosis of Canavan Disease during Valeâs 6-month checkup. Dawn was told that Vayle might not live beyond the age of ten.
Dawn recounts the emotional challenges of adapting to the diagnosis, while learning how to manage Vayleâs increasingly complex medical and care needs. Even with the expectation of a shortened life, Dawn emphasizes the profound love and quality of life she and Vayle share, underscoring her deep commitment to making Vayle's life as comfortable and joyful as possible. Dawn hopes that telling Vayleâs story can bring awareness to this rare disease and help other families going through similar circumstances. This, she hopes, will be part of Vayleâs legacy.
Dr. Dominic Gessler, a physician and researcher who has extensively studied Canavan Disease explains that Canavan Disease is an autosomal recessive genetic disorder caused by mutations in the ASPA gene, leading to the accumulation of a chemical called N-acetyl-L-aspartic acid, or NAA, throughout the body. The accumulation of NAA is thought to damage the white matter in the brain. Symptoms of Canavan disease become apparent as children fail to meet developmental milestones. As always, questions about your healthcare and the healthcare of your family should be discussed with your physician.
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Sean joins David Rintell, Head of Patient Advocacy at BridgeBio, and Mandy Rohrig, Director of Patient Advocacy at BridgeBio Gene Therapy to share his journey with ATTR. In this episode, Sean describes his initial symptoms, which included carpal tunnel syndrome and numbness in his foot and ankle, the misdiagnosis he experienced, and his eventual diagnosis at the Cleveland Clinic in Abu Dhabi. While the diagnosis was a relief it was also difficult to accept and took an emotional toll on him and those around him. Sean has found this to be a common experience of many diagnosed with ATTR. Since Seanâs form of ATTR is hereditary, various members of his family have also been tested. Sean also highlights the positive changes in his life, including meeting his wife, Robin, discovering a talent for drawing, and becoming a public speaker about ATTR.
Jonathan Fox, President and Chief Medical Officer of cardiorenal programs at BridgeBio, joins us again to give a medical introduction to ATTR. On this episode, Jonathan highlights the differences of the ATTR T80 variant. Previously, we learned that ATTR amyloidosis is caused by the dissociation of a protein called transthyretin, or TTR, that changes its shape and forms into fibrous clumps. These clumps of misshapen protein are deposited into various organs and peripheral nerves, including the heart, which can cause them to function abnormally. Jonathan explains the possible origin of the T80 variant and how the T80 variant symptoms can differ from ATTR-CM.
To learn more about living with amyloidosis visit Mackenzie's Mission, www.mm713.org
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Alex joins David Rintell, Head of Patient Advocacy at BridgeBio, and Mandy Rohrig, Director of Patient Advocacy at BridgeBio Gene Therapy, to speak about her son, Hudson. Before Hudsonâs birth, Alex and her husband learned that Hudson would be born with hypochondroplasia. A genetic counselor helped her to understand the diagnosis. Although Alex is a medical professional, she had never heard of this condition, and the many unknowns of this new diagnosis left Alex feeling scared. However, all these fears were put aside when she held Hudson for the first time. At five days old, Hudson had breathing problems and Alex had to perform CPR on him. Hudson was later diagnosed with severe obstructive sleep apnea and needed to be on oxygen therapy. Alex describes the learning curve that she and her husband experience as they learned to care for Hudson and anticipate some of his early medical needs. Now at 20-months-old, Hudson is a happy little boy who loves to read, walk, and babble, and is adored by his older sister.
Teja Reddi, Ph.D., a Senior Director of Strategy and Operations of Skeletal Dysplasias at BridgeBio, explains that although hypochondroplasia is a milder form of dwarfism than achondroplasia, the condition can cause some medical complications. Hypochondroplasia is a skeletal dysplasia characterized by short stature; stocky build; disproportionately short arms and legs; broad, short hands and feet; mild joint laxity; and macrocephaly. Teja also talks about the challenges of underdiagnosis and the hope for more research to improve the lives of people with hypochondroplasia.
Please note, the views and opinions expressed in this episode of On Rare are those of Alexandra and do not necessarily reflect the official policy or position of BOLDSCIENCE.
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In part two, Eric continues talking about his experience living with Transthyretin Amyloidosis (ATTR) with David Rintell, Head of Patient Advocacy at BridgeBio, and Mandy Rohrig, Director of Patient Advocacy at BridgeBio Gene Therapy. Eric recalls the surprise he experienced when a routine doctorâs visit led to him, within hours, to undergoing a heart transplant. Though the surgery was successful, Eric describes his complex recovery from the transplant. Age, old sports injuries, and lingering ATTR symptoms all contributed to a year-long recovery process, which included a two-week stay in the hospital, followed by an acute rehabilitation facility, a few weeks in a hotel, and several more months of recovery at home. Eric ends the conversation by stressing the importance of community â strong connections with other people were not only crucial to his recovery, but also opened doors for mentorship, activism, and his current involvement with the Northern California Amyloidosis Support Group.
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Eric joins David Rintell, Head of Patient Advocacy at BridgeBio and Mandy Rohrig, Director of Patient Advocacy at BridgeBio Gene Therapy in a two-part conversation to talk about his experience of living with Transthyretin Amyloidosis (ATTR). Eric was an extremely active person who enjoyed sports, riding horses and working on his 20-acre property when he began to have issues which he now attributes to ATTR. Ericâs diagnostic journey took 14 years and as the disease progressed, he experienced two carpal tunnel surgeries, and several other cardiac procedures. In fact, by the time he was diagnosed, Eric could not walk the length of his home (60 feet) without getting out of breath. Four years after his diagnosis he received a heart transplant. Despite the difficulties, Eric highlights the positives of this diagnosis and how living with ATTR and engaging with the ATTR community has taught him to be intellectually curious, empathetic, grateful for the care he has received and happy to be alive.
Jonathan Fox, President and Chief Medical Officer of cardiorenal programs at BridgeBio gives a medical introduction to ATTR-CM. Jonathan explains the causes of ATTR and what happens to people living with it. ATTR amyloidosis is caused by the dissociation of a protein called transthyretin, or TTR, that changes its shape and forms into fibrous clumps. These clumps of misshapen protein are deposited into various organs and peripheral nerves, including the heart, which can cause them to function abnormally.
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Join David Rintell, Head of Patient Advocacy at BridgeBio and Mandy Rohrig, Director of Patient Advocacy at BridgeBio Gene Therapy as they recognize Rare Disease Day, February 29, 2024, by speaking with siblings of people living with rare conditions. It is often said that a rare condition or disease impacts the entire family, and this is particularly true for rare siblings. Due to the extra care needed by a child living with a rare condition, rare siblings may sometimes miss out on time or attention from their parents. Rare siblings often contribute to caregiving in their families. Though being a rare sibling can be challenging, rare siblings are often more mature, empathic, and aware of what others around them are going through than typical children their age.
Marina, a nineteen-year-old, is a sister to Sammy, who is living with Limb-girdle Muscular Dystrophy Type 2I/R9 (LGMD2I/R9), a rare condition caused by changes in the FKRP gene and is associated with weakness and wasting of arm and leg muscles. In her conversation with David and Mandy, Marina describes what it was like to first learn about LGMD2I/R9 and what it was like to watch Sammy live with a progressive muscle wasting disease. Marina speaks with love as she describes their bond as sisters and how sheâs looked out for Sammy. When Sammy started going to the same high school, Marina took calls from Sammy or her teachers anytime Sammy fell or needed other assistance. Even though Marina is now miles away at college, sheâs always thinking about Sammy and hoping that sheâs getting help at school, if she needs it.
Michael, a thirteen-year-old, is the eldest of six siblings. Two of his brothers are living with Canavan disease, a genetic neurodegenerative disorder. Michael is wise beyond his years. He has a special ability enabling him to understand his brothers, who are non-verbal but always trying to communicate. Michael acknowledges that it is sometimes hard and there have been times when he has wanted more attention from his parents, but he also recognizes that he wouldnât be who he is today without the challenges heâs experienced. Michael shares his personal experience that that sometimes a rare sibling might seem fine but not truly doing well.
Sydney, a nineteen-year-old, is a triplet and also the younger sister of Sean who is living with achondroplasia, the most common cause of dwarfism. Sometimes when she was younger, Sydney would get upset by the attention Sean received and she would miss her parents as they would be away supporting Sean through surgery. As she has grown up, Sydney has realized that it was necessary for her family to put extra attention and resources into supporting Sean and she is proud of who he has become. Sheâs inspired by his mantra, âHeart over height, 24/7.â
These rare siblings are incredibly resilient. They demonstrate that living with challenges or adversity is not only not harmful, but it is the cause for a lot of personal growth.
For additional information or resources for rare siblings visit The Courage Parents Network https://courageousparentsnetwork.org/topics/siblings or the Rare Siblings Project, http://raresiblingsproject.org/
To learn more about LGMD2I/R9 and the LGMD community visit the CureLGMD2i Foundation, https://curelgmd2i.com/about/ LGMD Awareness Foundation, https://www.lgmd-info.org/ and The Speak Foundation https://thespeakfoundation.com/
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Becoming a parent to a child with a rare disease was extremely isolating for Effie. In the second episode of our two-part series with Effie, she shares that finding the world of podcasts, documenting similar experiences to her own, was magical. Effie explains how important it is to find others who "get it" and how this feeling of belonging changed everything for her. As Effie explains, âIn this community of rare disease families, every story matters, every effort counts, and every heart is connected. We are stronger together and are empowered by the love that guides us.â She describes her secret to conducting a compelling interview and reminds us to remember who we are here to serve â patients and caregivers.
To learn more about Effie, her son Ford, his amazing laugh and CTNNB1 go back and listen to the first episode of the two-part series.
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Effie Parks, a rare mom, a patient advocate, a podcaster, and host of âOnce Upon a Geneâ joins David Rintell, Head of Patient Advocacy at BridgeBio to share her story. Recorded during the 2023 Global Genes Conference in San Diego, Effie talks about her journey into motherhood and into the rare community. Effieâs son, Ford, was born with CTNNB1 syndrome, an extremely rare genetic condition. Isolated and trying to navigate her new life as a rare mom, Effie stumbled across Two Disabled Dudes and on first listen, realized she now had a community who understood her experiences. With this new understanding, Effie dove into the world of advocacy.
CTNNB1 Syndrome is the result of a change to the CTNNB1 gene, which contributes to production of a protein called beta-catenin that has a role in cellular growth and development. While symptoms experienced by individuals with CTNNB1 Syndrome vary and are unique to each person, many individuals experience cognitive challenges, speech, swallowing or feeding difficulties, behavioral issues, motor developmental delays, or impaired vision.
In the first episode of this two-part series, Effie shares the story of Fordâs birth and diagnosis, the founding of her rare community, and her personal journey to becoming a patient advocate and podcaster. Her mission is to learn, lift the voices of the rare community, connect people to resources and to leave the world better than she found it.
*Reference: https://www.curectnnb1.org/ctnnb1-syndrome/
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In our final episode of 2023, On Rare looks back at the wonderful, rare conversations with our extraordinary guests and David Rintell, Global Head of Patient Advocacy at BridgeBio. Mandy Rohrig, Director of Patient Advocacy at BridgeBio Gene Therapy and host of On Rare, walks us through highlights from the year. We listened, we learned, we laughed and we cried. Join us for a look back at 2023 and donât forget to subscribe to learn more from our guests in 2024.
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Jay joins David Rintell, Head of Patient Advocacy at BridgeBio to talk about his experience of living with erythropoietic protoporphyria (EPP). When Jay was very young, it was difficult to receive a diagnosis for his condition. It took a series of visits to various doctors, including psychiatrists, before a pediatric dermatologist diagnosed him at six years old. The symptoms of EPP are often invisible, which can make diagnosis quite difficult. With vulnerability and clarity, Jay explains that although he may look like everyone else, part of his daily mental energy is utilized managing and planning how to limit his exposure to the sun. Beyond the physical pain, Jay describes the deeper psychological impact of living with an isolating condition which forces him to avoid the sun while others seek it.
Bhavik Shah, Vice-President of Research for Genetic Medicine at Portal, a BridgeBio affiliate working on an investigational treatment for EPP, provides a medical overview of the condition. He explains that EPP is an inherited cutaneous porphyria characterized by extremely painful, non-blistering photosensitivity which is often first noted in childhood, occurs acutely after sunlight exposure and often causes residual skin damage.
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Dan joins David Rintell, Head of Patient Advocacy at BridgeBio to share the story of his long diagnostic odyssey and how ultimately a cancer scare attributed to his LGMD2I/R9 diagnosis. Dan shares that, during this time, he felt relief receiving a diagnosis, but it was quickly paired with the fear of facing the unknown of a progressive neuromuscular disease.
Dan describes the challenges of traveling, living alone and developing the constant fear of falling. Fiercely independent, Dan is concerned about the future. Living with a progressive condition means that you are always forced to adapt and plan â as daily life gets harder and harder. Dan talks about the importance of connecting with others who are living with the same condition and how he looks for the blessings in life. Even though the prognosis of LGMD2I/R9 is scary, Dan remains hopeful that at some point there may be something that will help him with the progression of his disease.
Divya Reddy, M.D., the Medical Director at ML Bio Solutions, a BridgeBio company, describes how LGMD2I/R9 (also called âLGMD R9 FKRP-relatedâ in the new proposed nomenclature) is an inherited disease caused by a mutation in the FKRP gene. The FKRP gene is involved in helping muscles build a glycoprotein called alpha-dystroglycan. When the gene doesnât work correctly, it causes damage to muscle tissue and over time develops into scar-like, fibrotic tissue. As fibrotic tissue overtakes healthy muscle tissue, muscle strength and function declines, and LGMD2I/R9 patients lose the ability to perform routine daily activities unassisted â such as walking or standing up.
To learn more about LGMD2I/R9 and the LGMD community visit the LGMD Awareness Foundation, the CureLGMD2i Foundation, and The Speak Foundation.
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32 seconds. Thatâs how much time Brady could tolerate exposure to light on his skin before the onset of deep burning, itching pain. Brady is living with erythropoietic protoporphyria, EPP, a rare inherited disorder that causes the skin to become painful when exposed to sunlight. Seconds, minutes, or hours beyond 32 seconds, for Brady, could result in intense, prolonged pain, which would require hours or days in darkness to recover.
Kristen, Bradyâs mother, shares with David Rintell, Head of Patient Advocacy at BridgeBio, how Brady was diagnosed, and how he manages the effects of the condition. EPP affects every aspect of Bradyâs life, forcing him to calculate his cumulative exposure to sunlight while outdoors, through windows, or from reflections. Now 18-years-old, Brady has creatively learned how to navigate the condition through protective clothing and jumping from shadow to shadow.
Morgan Paull, Head of Strategy at Portal, a BridgeBio program working on EPP, provides a medical overview of the condition. He explains that EPP is caused by the deficiency of an enzyme called ferrochelatase. When there is not enough ferrochelatase, the body is unable to convert the compound protoporphyrin into heme, a molecule that enables blood to carry oxygen. As a result, protoporphyrin builds up in the blood, skin, and liver. Sunlight exposure activates the protoporphyrin, generating a reaction that leads to inflammation and severe pain. Accumulated protoporphyrin can also cause liver damage leading to liver disease.
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Anne and Mike continue their conversation with David Rintell, Head of Patient Advocacy at BridgeBio, in part two of our autosomal dominant polycystic kidney disease (ADPKD) episode. Anne describes her recovery from the first kidney transplant along with the complications she attributes to her two native kidneys which were not removed during the initial surgery and issues with polycystic liver disease. In the 11 years following, Anne endured an operation to remove her native kidneys, followed by a double organ transplant, giving her both a new liver and kidney. Her first kidney transplant was generously gifted by a friend. However, Anne received her new liver and second kidney from a deceased donor, a distinctly different process. Anne and Mike express their gratitude for their good fortune while acknowledging the courage of the donor family to make the decision to give an extension on life to another human, when their loved one could no longer live.
Check out Anne and Mike's journey in their video, "The Search and the Gift" https://vimeo.com/33405248 . For more information about organ donation, visit http://donatelife.net/
To learn more about ADPKD, listen to Part 1 to hear Rachel Groth, Ph.D., Vice President of Research at BridgeBio X, explain why ADPKD develops, how it affects the kidneys, what complications may arise from ADPKD and why individuals with end-stage kidney disease receive dialysis or kidney transplants.
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Anne joins David Rintell, Head of Patient Advocacy at BridgeBio to talk about how autosomal dominant polycystic kidney disease (ADPKD) has impacted her and the lives of her family members. ADPKD weaves through the branches of Anneâs family tree for generations. When Anne was only six years old, her father died at 46 of ADPKD related kidney failure, dialysis, and kidney transplantation. Two of Anneâs five siblings have ADPKD. One had a successful kidney transplant, but another sibling died while on the waiting list for a new kidney. Anne wasnât surprised by her ADPKD diagnosis at age 25 and was hopeful for a better outcome than experienced by her father and her sibling since she received the diagnosis at a younger age. Progress was not reassuring to Mike, Anneâs husband, when Anneâs kidney function declined to less than 30%. Anne needed a kidney transplant, and soon. Motivated to find a donor and save her life, Mike created a robust campaign to locate a kidney for Anne. After many months of social posts, connections, conversations, prayers, and a documentary, a donor was discovered â a perfect match. The surgery was much quicker than the campaign. Anne left the hospital with her new kidney, appropriately named âbean,â just three days after her surgery.
Rachel Groth, Ph.D., Vice President of Research at BridgeBio X, the companyâs dedicated lab space focused on cutting-edge early research discovery, provides an overview of ADPKD, a genetic condition that causes small fluid-filled sacs called cysts to develop in the kidneys. She explains why ADPKD develops, how it affects the kidneys, what complications may arise from ADPKD and why individuals with end-stage kidney disease receive dialysis or kidney transplants.
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Lacey joins David Rintell, Head of Patient Advocacy at BridgeBio to talk about how LGMD2I/R9 has impacted her life. When Lacey was 16, she was diagnosed with a progressive neuromuscular disease, known as LGMD. The only question she had for the doctor was whether she could one day become a mother. Without additional explanation, she was told that LGMD2I would keep her from having children. For years, Lacey lived in denial. Despite the limitations of her disease, she charged ahead with her life. She runs a business with her husband. She is a wife, mother, and foster parent. And in 2007, when she received the diagnosis of LGMD type 2I, she became an advocate for her LGMD2I community when she formed an LGMD2I Facebook group so that people with LGMD2I could connect and share information.
Anna Wade, Ph.D., Chief Operating Officer at ML Bio Solutions, a BridgeBio company, provides an overview of LGMD2I. She explains how LGMD2I, a neuromuscular disease, progresses and how it damages the muscles throughout the body.
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Kristen joins David Rintell, Head of Patient Advocacy at BridgeBio to tell her personal story about living with achondroplasia and how she became an advocate at just six years old. By third grade, Kristen was speaking to classrooms about what it is like to live with achondroplasia. In the episode, Kristen shares how she has dealt with health issues, overcame adversity and even published her story in the book, Little Legs, Big Heart. She explains that achondroplasia isnât just about height â there are other important quality of life concerns which she has learned to address, while also helping other families navigate the condition.
Anne Lee, Senior Director of Global Patient Advocacy at BridgeBio, provides an overview of achondroplasia, the most common form of dwarfism. She explains how achondroplasia affects a protein in the body called the fibroblast grown factors receptor 3 or FGFR3, which results in slowing down bone growth. Achondroplasia is the most common cause of disproportionate short stature, affecting approximately 55,000 people in the United States and European Union, including up to 10,000 children and adolescents with open growth plates. Anne talks about her work in patient advocacy and what she has learned by listening to people and families living with achondroplasia.
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Veronica joins David Rintell, Head of Patient Advocacy at BridgeBio to tell her son Brentâs story. When Brent was nine, his family discovered that he had a rare genetic disease called Pantothenate Kinase-Associated Neurodegeneration (PKAN), a condition without any available treatments. Veronica shares how she and her family have supported Brent as he has stubbornly and victoriously succeeded in giving his valedictorian speech in high school, attended community college, and started a local gelato business.
Mallory Harden, Ph.D., Director of Business and Operations at CoA Therapeutics, a BridgeBio company, provides an overview of PKAN. She explains how PKAN is a progressive and fatal neurodegenerative disease which is often diagnosed in childhood. As it progresses, people are faced with uncontrolled movements, walking and balance challenges, and cognitive changes.
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