A Neuroblastoma Journey: From Diagnosis to MiNivAn Trial

Poppy was just shy of her fifth birthday when she started experiencing pain in her legs, increasing lethargy and a diminished appetite. As her leg pain worsened, her mother called Poppy’s primary care provider to request an appointment. The doctor ran blood tests and sent the family home. Days later, Poppy’s mom, Claire, received a phone call from the doctor explaining that Poppy’s results were alarming and they needed to return to the doctor’s office immediately. 

That day, everything changed. 

Poppy was sent to see a pediatrician in Bedford, a nearby town in England, where she lives with her mom, dad, and little brother. The hospital ran a slew of tests and imaging — finally revealing a large tumor at the back left-hand side of Poppy’s chest cavity. It was wrapped around her heart and pushing against her lung. Poppy was officially diagnosed with stage IV high-risk neuroblastoma.

“I remember she was diagnosed on a Friday, and the doctors said, because she had quite a lot of metastatic disease, they wanted to get started with treatment right away. They said, ‘We don’t normally start treatment on the weekends, but we have no time to lose,'” said Claire.

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The Initial Treatment for Poppy’s Neuroblastoma


That Saturday, Poppy started rapid COJEC induction chemotherapy — the “cycled administration of the chemotherapeutics cisplatin, vincristine, etoposide, cyclophosphamide and carboplatin” — and the standard protocol for neuroblastoma treatment in Europe. Poppy underwent eight cycles of treatment, every 10 days, in the fight of her life. 

As Poppy’s mom described, “It was very intense. The doctors told me that Poppy coped well, but I thought she was quite sick during the treatment.”



At the halfway point of Poppy’s initial treatment, urine tests that measure for the levels of VMA (vanillylmandelic acid) and HVA (homovanillic acid), two metabolites that are excreted from tumors like neuroblastoma, and computed tomography (CT) scans showed that Poppy’s body was responding well to treatment. 

“When we got to the end of treatment, it hadn’t done as much as we thought. But when you look at the big picture and how much metastasis Poppy had, I’d estimate we got rid of about 70%,” said Claire. 

But Poppy wasn’t ready to move on to the next stages of treatment and instead doctors recommended that she undergo two rounds of topotecan and cyclophosphamide in outpatient chemotherapy.

Claire explained, “When she had her scans, it hadn’t done much, so the nuclear radiologist suggested we do another two rounds. Again, it didn’t do much, but Poppy remained stable.” 

While Poppy’s family was waiting for her blood counts to recover, Poppy had an ovary removed — a common method of fertility preservation for cancer patients. And once she was well enough to resume treatment, she started two rounds of IT (irinotecan and temozolomide) chemotherapy. Irinotecan is administered intravenously, while temozolomide is an oral chemo. 

Shortly after that treatment ended, Poppy’s mother received a phone call about a potentially life-saving clinical trial to treat neuroblastoma — called the MiNivAn trial. 

Newfound Hope for Poppy With the MiNivAn Trial

Neuroblastoma cancer has a high relapse rate (over 50% in high-risk cases, like Poppy’s), and after relapse, fewer than 10% of children remain alive after five years. After Poppy’s initial treatment, her disease was categorized as refractory, meaning it was no longer responding to chemotherapy. In order for Poppy to move on to high-dose chemo and an autologous peripheral blood cell transplant, she needed to have a SIOPEN score, which scores the amount of disease across 12 body segments, of 3 or less (Poppy’s was 33). 

But for families like Poppy’s who have exhausted their options, there is newfound hope in the MiNivAn clinical trial at the University Hospital at Southampton. 

Helmed by Dr. Juliet Gray, Associate Professor and Consultant in Pediatric Oncology, the clinical trial is testing the safety and efficacy of a combination of three drugs in relapsed or refractory neuroblastoma. Two treatments of targeted radiotherapy I-131 meta-iodobenzylguanidine (MIBG), followed by five cycles of a combination of two antibodies, anti-GD2 (ch14.18/CHO or dinutuximab-beta) and anti-PD1 (nivolumab). Laboratory studies show that this combination could be effective in eradicating tumors.

Poppy received the last spot in the second cohort for the MiNivAn trial at Southampton and another chance at recovery. “Our doctors told us we don’t know how long it will be until the next cohort, so it’s now or never,” said Claire.

How the MiNivAn Trial Works

The MiNivAn clinical trial consists of patient cohorts that undergo a combination of inpatient and outpatient treatments for 30 weeks. Cancer Research UK outlines the MiNivAn trial design as follows: 

   • Three cohorts consisting of patients who receive: 
      ○ Cohort 1: MIBG and nivolumab
      ○ Cohort 2: MIBG, nivolumab, and a low dose of dinutuximab beta 
      ○ Cohort 3: MIBG, nivolumab, and a full dose of dinutuximab beta

 

   • Cohort 1: Undergoes two MIBG treatments, two weeks apart. Two weeks after the last MIBG treatment, patients start nivolumab (anti-PD1) every two weeks for 30 weeks to treat
    the neuroblastoma. 

 

During the MIBG therapy, Poppy had to isolate herself along with her family for two weeks. Patients can expect to do the same and will have to remain in the MIBG room due to the highly radioactive nature of the treatment. 

 

   • Cohorts 2 & 3: Undergo two MIBG treatments, two weeks apart. Two weeks after the last MIBG treatment, patients start nivolumab (anti-PD1) every two weeks for 30 weeks.
    Additionally, these cohorts start dinutuximab beta (anti-GD2 ch14.18/CHO) continuously for ten days beginning one day after starting nivolumab, and have it every six weeks for 30
    weeks.

 

During the MiNivAn trial, patients will either receive inpatient or outpatient care: 
   • Inpatient for initial MIBG therapy
   • Outpatient for nivolumab 
   • Inpatient for dinutuximab beta for the initial two treatments, then patients can finish subsequent treatments at home if their side effects are manageable. Therapeutics are
    delivered via a small pump connected to a central line. 

 

Poppy’s Response to the MiNivAn Trial

While every neuroblastoma patient undergoing MiNivAn treatment will respond differently, Poppy’s mother reports that the therapy was well-received overall. 

“It’s important to say that the MiNivAn trial was brilliant for Poppy — and all of us, really. When you’ve been stuck in a hospital with no visits, having horrendous chemo with the most terrible side effects, everyone can feel quite down.” 

And as Poppy’s mom went on to explain, the preliminary MIBG therapy was not as bad as she thought it would be, stating, “There weren’t really any side effects, and the isolation wasn’t as bad as I anticipated. I was very close to her and could see her all the time.” 

The minimal side effects continued with the immunotherapy. While Poppy did experience fevers with the dinutuximab treatment, she had little to no pain. In fact, during Poppy’s outpatient treatment for neuroblastoma, she and her family would go sightseeing, play at the parks and visit the zoo. The family stayed nearby at a Young Lives vs Cancer Home from Home — which offers cancer patients and their families a place to stay while receiving cancer treatment. 

Eventually, Poppy was able to go back to school and enjoy the carefree moments that a child her age should — without the debilitating side effects many children experience undergoing toxic treatment for neuroblastoma. “It almost felt like we were living quite a normal life. In my mind, the trial will always be a happy memory for us,” said Claire. 

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Poppy’s scans showed that she had 33 spots at the beginning of the trial. “I had never heard that number before, and I was quite shocked at how many there were,” explained Claire.


But several months into the trial, Poppy’s new scans demonstrated that treatment was working in her favor. As her mom reported, “The doctors had gotten down to nine spots, so we were pleased it was going in the right direction. My mom, Poppy’s grandmother, said, ‘quite simply, the trial saved Poppy’s life.'”

Since finishing the MiNivAn trial, Poppy completed one more round of IT chemotherapy as holding chemo while she waited to have surgery for the primary tumor in her chest in December 2021. 


After surgery, Poppy’s frontline treatment for her neuroblastoma continued with high-dose chemotherapy and autologous peripheral blood cell transplant, followed by radiation every weekday for three weeks. Then, just this May, Poppy started receiving additional immunotherapy with double the dose of dinutuximab beta (the same drug from the MiNivAn trial) in conjunction with isotretinoin (cisRA) — a vitamin A derivative. And for the next six months, Poppy will receive immunotherapy for 10 days every month.

Nothing about Poppy’s journey has been easy, but considering all she’s been through, her cognitive and physical abilities are fully intact, her weight is on track for a child her age, and her overall health remains stable. 

But as Poppy gets older, her mom said, “Poppy’s starting to question things a bit more, and it’s getting harder to keep up my morale as a parent in the midst of this battle.” 

Questions aside, Poppy is still the bright, funny, and talkative little girl her family knows so well. And after almost two years of cancer treatment for neuroblastoma, hope remains — because it has to. Because as Poppy’s mom said, “There is nothing you wouldn’t do to save your child.” 

How to Support Trials Like MiNivAn

The impact of childhood cancer is pervasive. It’s a part of every moment of every day. It’s a burden that parents like Poppy’s shoulder, hoping that their child will overcome this cruel disease one day.

At Solving Kids’ Cancer, we prioritize and fund innovative preclinical research and early phase clinical trials with a strong rationale for potential benefit to children with poor prognostic cancers — like high-risk neuroblastoma. 

We are proud of the collective work we have achieved alongside other nonprofit organizations to help fund Poppy’s MiNivAn trial in England and Greifswald University Medicine in Germany and the University of Wisconsin-Madison’s American Family Children’s Hospital in the United States. 

But clinical trials need funding in order to continue. In fact, the American Society of Clinical Oncology reported that “Additional investment to strengthen the conduct of trials funded by nonprofit organizations is essential.” They also highlight two key challenges that have to be overcome in order to realize long-term, mainstream treatment options for children with neuroblastoma:

   • Significant clinical trials have to continue 

   • The clinical trials have to lead to regulatory and reimbursement approvals — this will help establish successful clinical trial treatments as new standards of care throughout national
    healthcare systems

 

When you give to Solving Kids’ Cancer, you help support the development of more effective treatment options for children facing pediatric cancer like neuroblastoma and provide patients with another chance at discovering a life-saving cure — because Every Kid Deserves to Grow Up®. 

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Ahana’s Story of Strength

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Ahana’s Story of Strength with High-Risk Neuroblastoma Every day, over 1,000 children worldwide are diagnosed with cancer,1 and for many families, that diagnosis means facing an uncertain future. At just 20 months old, Ahana was diagnosed with a rare and aggressive cancer that had already spread through her small body. Her family’s search for life-saving childhood cancer treatments led them from South Africa to Spain and possibly toward a clinical trial in New York. Ahana’s journey shows the importance of supporting organizations like Solving Kids’ Cancer, which works to find, fund, and advocate for advanced treatments that give hope to families fighting against tough-to-treat rare pediatric cancers.
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Lace Up for Kids: Your Impact on Childhood Cancer Research At Solving Kids’ Cancer, our mission has always been driven by hope — hope for better treatments, hope for breakthroughs, and most importantly, hope for every child fighting cancer. This year’s Lace Up for Kids campaign was nothing short of inspiring. Together, we’ve raised over $264,000 across the entire campaign, funding innovative childhood cancer research and providing more treatment options for children in need.  From coast to coast, nearly 4,000 participants have stepped up to lace up their gold shoelaces and make a difference. Whether it was through schools, sports teams, or community groups, the show of support has been overwhelming throughout the years. Over 7,823 donations have been made to accelerate new treatments, and the hashtag #CareWearShare has been used 13,864 times, spreading the message far and wide!
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Jacob 's journey : a childhood cancer survivor 's story

National Cancer Survivors Month

May 10, 2024
Jacob’s Journey: A Childhood Cancer Survivor’s Story Every battle has its heroes, and among the bravest are young children like Jacob Mozer, who faced stage 4 high-risk neuroblastoma when he was barely old enough to walk. Diagnosed at only 16 months old, Jacob’s early years were filled with constant medical appointments and intense treatments. Despite these challenges, today, Jacob is a shining example of the remarkable progress in pediatric oncology. He’s not merely surviving; he’s thriving as a pharmacy resident, driven to give back to the medical community that gave him a second chance at life. During National Cancer Survivors Month this June, we honor and celebrate fighters like Jacob who have battled cancer and emerged stronger. This month also serves to amplify the conversation about pediatric cancer survivorship and push for vital research that continues to save lives. Solving Kids’ Cancer (SKC) plays an essential role in this effort, supporting children like Jacob by funding crucial clinical trials that enhance survival rates and improve the quality of life for those fighting fatal childhood cancers.
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May 2, 2024
Trailblazing Treatments for Pediatric Brain Tumors Picture a fortress built to guard precious treasure but accidentally also keeps out the very allies it needs in a time of crisis. This is the challenge faced by medical researchers when dealing with the brain’s natural defense — the blood-brain barrier — especially in children with brain tumors. At Columbia University Medical Center, Dr. Luca Szalontay is leading the charge to breach this fortress with groundbreaking approaches. Recently, Dr. Timothy Cripe from Solving Kids’ Cancer’s podcast, This Week in Pediatric Oncology (TWIPO) , interviewed Dr. Szalontay to delve deeper into these innovative treatments. This Brain Tumor Awareness Month, we’re shining a light on these important advances in treating children’s cancer. Understanding the Challenge Treating pediatric brain tumors like diffuse midline glioma (DMG) is especially tough because of the brain’s own protective shield, known as the blood-brain barrier. This barrier keeps out most chemotherapy drugs as well as large molecules, like antibodies, making it hard to treat the tumors effectively. Dr. Szalontay describes the dilemma: “Our field hasn’t been able to advance as quickly as it has with leukemias or other solid tumors because the drugs don’t penetrate the brain efficiently.” She adds on the nature of this blood-brain barrier, “It’s evolutionary, very important to protect us from different toxins and harmful agents, but this is a shield which protects the tumor as well.” Even when drugs work well in lab tests, they struggle to get to the tumor in strong enough doses without harming the body. Dr. Szalontay also points out that DMG tumors are found in very sensitive areas of the brain, making traditional surgery or radiation risky because they could damage vital brain functions. This makes finding safe and effective treatments for these tumors even more challenging. So, what’s being done to tackle these obstacles and help kids fight these tumors?
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World Health Day: Pediatric Cancer’s Global Divide Imagine this: Two children, born at the same moment, oceans apart. In a country brimming with medical resources, one child quickly gets top-notch treatment for cancer. Meanwhile, across the globe, the other child faces a drastically different reality, with limited access to basic care. This isn’t just a thought experiment — it’s the harsh truth of pediatric cancer treatment worldwide. Observed every year on April 7, World Health Day shines a light on the mission to make healthcare accessible for all. This day is particularly significant in the context of pediatric cancer, where vast disparities in treatment availability highlight the global challenge of ensuring every child has the opportunity for health and healing. The Stark Contrast in Survival Rates: A Look at Pediatric Cancer Statistics Every day, more than 1,000 children are diagnosed with cancer, and the chances of survival vary greatly depending on where they live.1 Pediatric cancer survival rates serve as a clear indicator of the disparities between high-income countries (HICs) and low- and middle-income countries (LMICs). In wealthier nations such as the United States and Western Europe, the 5-year survival rate for children with cancer is over 80%, thanks to advanced healthcare systems and access to the latest treatments.2 But, here’s a troubling childhood cancer statistic: in LMICs where 80% of children with cancer live, fewer than 20% survive.1 This gap is due to several factors, including late diagnoses or, tragically, no diagnosis at all. Many children succumb to the disease without access to pain medication, and the burdens of travel and the high costs force most families to abandon care. These challenges are compounded by limited access to necessary treatments,3 as well as a lack of specialized equipment and trained healthcare professionals needed for effective pediatric cancer treatment. Addressing this divide requires a concerted global effort to improve early detection, make treatments more affordable, and enhance healthcare infrastructures, giving every child a fair chance to beat cancer. Navigating the Access Maze Access to cancer care shouldn’t be a treasure hunt. Yet, for many in LMICs, it feels like that — a relentless search for something seemingly out of reach. Here’s the reality revealed in childhood cancer statistics worldwide: many areas lack enough doctors who specialize in children’s cancer4 and the prices of cancer drugs can be sky-high.2 Even getting to a hospital can be an ordeal, with some families traveling hundreds of miles. And the financial strain? Devastating. The cost of care can quickly add up to more than a year’s income, forcing households into deep financial distress. In many LMICs, the lack of comprehensive insurance coverage means families are often left to pay for pediatric cancer treatment entirely out-of-pocket.5 Families often face the impossible choice between their child’s health and their financial survival. Solving Kids’ Cancer: Bridging the Gap Solving Kids’ Cancer (SKC) isn’t standing by; we’re on the front lines, actively working to make a difference in the global pediatric cancer landscape. Beyond funding research, advocating for policy changes, and fostering global partnerships, SKC is committed to educating and empowering the community to take action. We understand that while we might not have a global foothold to address every aspect of the pediatric cancer divide directly, there’s power in collective action. Through our efforts, we aim to catalyze advancements in pediatric cancer treatments and care that could dramatically change outcomes for children worldwide. • Research: We direct funds into cutting-edge studies, searching for breakthrough treatments that promise a brighter future for all kids, regardless of where they live. • Advocacy: We advocate for children’s needs by steering research funding towards unmet challenges and collaborating with experts to prioritize all children, including expanding trials to international sites to maximize access.2 • Global Partnerships: We don’t do it alone. By teaming up with researchers, hospitals, and other organizations across the globe, we’ve helped fund clinical trials that have extended to over 250 institutions across 15 countries worldwide . Uniting for a Cause Solving Kids’ Cancer extends its mission beyond research by fostering community and collaboration. Our signature event, Lace Up for Kids , held annually during September Childhood Cancer Awareness Month, is a powerful testament to this mission, drawing communities together to stand in solidarity against childhood cancer. Additionally, supporters can create their own fundraiser and have a platform to engage their local communities, sparking crucial conversations and garnering support for the cause. These initiatives highlight an important fact: While the challenge of pediatric cancer is significant, each of us has a part to play. By working together and supporting each other, we can fund the research needed to possibly change the direction of pediatric cancer treatment and care worldwide. World Health Day: A Chance for Every Child The fight against pediatric cancer is a stark reminder of the work ahead of us.6 It’s a battle that Solving Kids’ Cancer is dedicated to, but we need more than just our efforts — we need a global movement. This World Health Day, let’s rally for every child’s right to fight cancer on an even playing field. Donate today to help fund more innovative research and one day find a cure for childhood cancer — because every child, no matter where they are born, deserves a chance — a chance to fight, a chance to survive, and a chance to thrive.
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