Research Funded (Full Impact)

2024

Neonatal Ependymoma Injection Pilot Experiment @ Children’s National Hospital

Under the leadership of Dr. Brian Rood at Children’s National Hospital, this project aims to create better pre-clinical models for studying ependymoma. The approach involves using mice with fully functioning immune systems to develop models. By injecting tumor cells into neonatal mice, researchers hypothesize that the cells will grow without rejection, allowing for a more accurate study of tumor-immune system interactions. In honor of LBF Hero Cameron.

Grant Amount: $135,000

Advancing Pediatric Brain Tumor Research Through Comprehensive Data Integration and AI @ Children’s Brain Tumor Network (CBTN)

A 2-year grant to CBTN includes a focus on data harmonization and optimization, AI pipeline development and refinement, and project management.

Grant Amount: $500,000

Expansion of CBTN Organoid Program

LBF’s investment will help accelerate organoid development, enhance molecular characterization, and establish real-time drug testing platforms. Organoids offer a novel, safe, and groundbreaking approach to understanding the way a child’s unique cancer cells respond to targeted drugs. In collaboration with leading researchers at Michigan Medicine, UCSF, and CHOP, this initiative is pioneering the use of 3D tumor organoids - patient-specific "avatars" - that more accurately replicate tumor behavior and treatment responses. By scaling organoid research across multiple sites, researchers aim to improve drug testing capabilities, identify new therapeutic targets, and create a more precise framework for developing personalized treatments.

Grant Amount: $75,000

Revolutionizing Ependymoma Treatment with CAR T-Cells and Focused Ultrasound

Researcher Dr. Dalia Haydar and her team at Children’s National Hospital are combining Chimeric Antigen Receptor (CAR) T-cell therapy—an immunotherapy that harnesses a patient’s own immune cells to fight cancer—with low-frequency focused ultrasound (LF-FUS). This novel combination aims to overcome key challenges, including the tumor’s ability to suppress immune responses and the blood-brain barrier, which often prevents treatments from reaching the tumor.

By optimizing the combination of CAR T-cells and LF-FUS in advanced preclinical models, researchers are laying the foundation for safer, more effective therapies that could be translated into clinical trials that could help children with ependymoma. Ultimately, the findings may also have broader implications for treating other pediatric brain cancers. In honor of LBF Hero Cameron.

Grant Amount: $179,000

LBF Helps to Fund PNOC027 Trial for Ependymoma 

When the Pediatric Neuro-Oncology Consortium Foundation (PNOC) needed additional funding in order to get the clinical trial PNOC027 over the finish line, LBF jumped in to fund the remaining portion needed to support the expansion of PNOC027 into ependymoma. This trial, initially focusing on medulloblastoma, uses real-time drug screening and genomic testing to develop customized treatment plans for children and young adults with relapsed ependymoma. By testing each patient's tumor against hundreds of drugs, the trial aims to identify the most effective and least toxic treatment strategies, setting a new standard in targeted cancer care. In honor of LBF Hero Cameron Corno.

2023

Liquid Biopsy Fund @ Children’s National Hospital

This 3-year grant supports research to advance the understanding of liquid biopsy as a platform to transform diagnostic capabilities and care for children with brain tumors. The goal is to develop tests that can be used to measure extremely small amounts of tumor in the brain in order to better guide treatment intensity and duration as well as to detect early disease recurrences.

Grant Amount: $300,000

Translational Imaging Acquisition for Medulloblastoma 

This grant supports the CBTN’s efforts to focus on pairing existing medulloblastoma imaging with clinical records, leading to a significant increase in the collection of files available to researchers globally. In honor of LBF Hero Kasey Zachmann.

Grant Amount: $40,000

Advancing Preclinical Research for Diffuse Hemispheric Glioma (DHG)

In 2023, DHG was discovered as a new subtype of high-grade glioma. This grant supports the development and research of several preclinical models in the lab at the Children’s Brain Tumor Network using DHG cell lines. In honor of LBF Hero Max Pound.

Grant Amount: $50,000

Translation of Clinical Trial Documents for CBTN and PNOC

LBF funded the translation of consent forms and clinical documents for patients enrolled in a clinical trial. In honor of LBF Hero Maddie Highfill.

Grant Amount: $10,000

2022

DMG/DIPG Research Lab Manager @ Children’s National Hospital

LBF made a 3-year grant to the DMG/DIPG Nazarian Research Laboratory at Children’s National Hospital. The funding supported the infrastructure for administration which allowed researchers to focus entirely on science and dedicate their time to finding and sharing breakthroughs for children affected by DMG/DIPG. This investment directly contributed to $8 million in additional funding for the Nazarian lab and the opening of three new clinical trials for childhood brain cancer.

Grant Amount: $460,000

2021

Project Accelerate @ Children’s Brain Tumor Network (CBTN)

LBF’s 3 year grant played a critical role in accelerating the pace of translational research for children with brain tumors. Project Accelerate provides the opportunity to unlock valuable molecular information in patient samples and to share this data with researchers worldwide. Highlights of Project Accelerate:

• 7,000+ Molecularly Characterized samples from participants and parents
• 23,000+ Imaging Subjects 
• 400+ total research projects
• 120+ total publications since the start of Project Accelerate
• Generating Crucial Data for AI
• Integration of clinical, imaging and molecular data.

Grant Amount: $675,000

2020

Discovering Unique Tumor Protein in Cerebrospinal Fluid @ Children’s National Hospital

This funding supported pioneering work to make use of protein fragments, called tumor specific peptides, as biomarkers to detect recurrence in children with brain tumors. This method of collection will also serve as a game-changing tool to customize therapy for an individual child’s needs.

Grant Amount: $143,000

Clinical Trial Testing Combination Therapy in Children with Refractory Gliomas @ Children’s National Medical Center

The Lilabean Foundation's support of this Phase I trial through the Pacific Pediatric Neuro-Oncology Consortium (PNOC) is helping Children's National Hospital and partner institutions find novel treatments for both low and high grade gliomas. Dr. Lindsay Kilburn, Director of Experimental Therapeutics at Children's National's Brain Tumor Institute, is the Chair of this national trial which combines two drugs, trametinib and everolimus, to treat resistant refractory gliomas. Each drug has shown promise independently as therapies that stop tumor growth. The hope is that their pairing will provide kids with a more effective treatment plan and prevent tumors from developing drug resistance. 

Grant Amount: $225,000

2018

Proteogenomics in Low Grade Gliomas

This grant advanced pediatric brain cancer research in the laboratory of Brian Rood, MD, by funding a new Proteogenomics Low Grade Glioma project. The goal of this project was to deliver high resolution spectral data representing peptides found in LGG and ganglioglioma and then upload this data to CAVATICA/CBTTC/Kids First for public access; to uncover the identity of all novel genomic events translated into the proteome; and to identify LGG specific peptides capable of activating T cells, the effector cells of the immune system.

Grant Amount: $150,000

2016

Liquid Biopsy- Detecting a Tumor’s Fingerprints in Cerebrospinal Fluid

This grant supported three research projects conducted in the Children's National Hospital laboratories of Brian Rood, MD and Javad Nazarian, PhD, as follows: SOMAmer® based protein biomarker screening in cerebrospinal fluid research project to be conducted in the laboratory of Dr. Rood. Using drugs targeting highly expressed proteins and upstream control elements of active functional pathways to alter brain tumor cellular biology research project to be conducted in the laboratory of Dr. Rood. Establishing targeted and clinically translational brain tumor research in diffuse intrinsic pontine glioma (DIPG) research project to be conducted in the laboratory of Dr. Nazarian.

Grant Amount: $143,000

Protein Biomarkers in the Cerebrospinal Fluid 

This grant funded a project in the laboratory of Brian Rood, MD at Children's National Hospital to integrate proteomics (protein sequencing) with genomics (DNA/RNA sequencing) for the purpose of identifying tumor-specific novel protein fusions in medulloblastoma. Dr. Rood’s laboratory generated a tumor specific protein database which can be used to map all proteins sequenced in the same tumor, creating the potential to identify new therapeutic targets as well as markers for early detection of tumor growth that would impact treatment planning and survival for children with medulloblastoma.

Grant Amount: $70,000

2013 - 2015

Brain Tumor Institute at Children’s National Hospital: 

Scientist and Lab Equipment Support and Funding 

• $75,000 to advance pediatric brain cancer research in the laboratory of Brian Rood, MD by funding a new High-performance liquid chromatography (HPLC) unit to increase mass spectrometry throughout the CNMC proteomics (protein sequencing) core. 
• $12,000 to support the purchase of a CellDrop Cell Counter 
• $16,578 for Freezer, Racks and Installation for Brain Tumor Institute
• $12,000 for Cooling Trap and Rotor for a Speed Vac
• $146,000 funding salary support for investigators, research supplies and analysis expenses, and other laboratory expenses specific to pediatric brain tumor research.
  

2012

First gift made to the Brain Tumor Institute at Children’s National Hospital.

Grant Amount: $19,500

Human Proteome Atlas Labeling

This grant supported pediatric brain tumor research at the Brain Tumor Institute at Children’s National Hospital and specifically, the Human Proteome Atlas Stable Isotope Labeling in Cell Culture (SILAC) Project. Funding supported laboratory equipment, to include: rainin pipettes and recalibration of a set of 8 pipettes, VWR Standard Orbital Shaker, a stipend to support a physician scientist and research to support the investigation of the role of a protein, targeted Mass Spectrometry to include labeled peptides and TMS reagents. 

Grant Amount: $50,000