Summary: A new 18F-MFBG LAFOV PET/CT scan offers faster, more sensitive detection of neuroblastoma in children without the need for sedation, potentially improving treatment decisions.

Key Takeaways

  1. 18F-MFBG LAFOV PET/CT is a highly sensitive imaging technique for detecting neuroblastoma in children, offering faster scans without the need for sedation or anesthesia.
  2. This new PET/CT method is more effective than the traditional 123I-MIBG SPECT/CT, revealing more lesions and providing more precise diagnostic information.
  3. The advanced technique could significantly improve treatment decisions and reduce the radiation exposure and procedural burden on young patients.

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A new molecular imaging technique that pairs a novel tracer with a next-generation PET/CT scanner can identify neuroblastoma in children with high sensitivity, requiring a scan time of only minutes and no sedation or anesthesia. With its ability to accurately diagnose neuroblastoma, this technique, known as 18F-MFBG LAFOV PET/CT, has the potential to impact therapeutic decision-making for children with this disease. This research was published in the August issue of The Journal of Nuclear Medicine.

Neuroblastoma: 70% Survival Rate in Kids

Neuroblastoma is the most common extracranial solid tumor in children, with an overall survival of 70%. For decades, 123I-MIBG SPECT/CT has been the standard of care for initial staging, response assessment, and frequently used follow-up of neuroblastoma. The 123I-MIBG SPECT/CT scanning procedure is a two-day protocol. Sedation or general anesthesia is frequently used because the patients are predominantly infants and due to the lengthy scan time, often more than two hours.

“For young children undergoing molecular imaging, less exposure to radiation and the avoidance of sedation or general anesthesia is very important,” says Lise Borgwardt, MD, PhD, senior consultant in pediatric nuclear medicine at Copenhagen University Hospital-Rigshospitalet, in Copenhagen, Denmark. “In our study, we used the tracer 18F-MFBG which requires only a one-day protocol, at the long-axial-field-of-view (LAFOV) PET/CT scanner, which has a sensitivity about 10 times higher than a digital PET/CT scanner. We then compared this technique with 123I-MIBG SPECT/CT to determine its diagnostic value and feasibility.”

PET/CT Outperforms Traditional Scans

The study included 10 children with neuroblastoma who received 123I-MIBG SPECT/CT followed by 18F-MFBG LAFOV PET/CT. Masked readers independently scored the 123I-MIBG and 18F-MFBG scans for the presence of any pathologic lesions. SIOPEN and Curie scores (semi-quantitative systems used to assess metastatic disease burden) were also calculated.

None of the children required sedation or general anesthesia with 18F-MFBG LAFOV PET/CT, whereas 80 percent had general anesthesia with 123I-MIBG SPECT/CT. In addition, a PET acquisition time of only two minutes without motion artifacts was required for reconstruction to provide a clinically useful image with 18F-MFBG LAFOV PET/CT.

Eighty percent of 18F-MFBG LAFOV PET/CT scans revealed more lesions than 123I-MIBG SPECT/CT scans and 20% revealed the same number of lesions. In 18F-MFBG LAFOV PET/CT scans, the SIOPEN score was higher in 50 percent of the cases, and the Curie score was higher in 70% of the cases. Intraspinal involvement, retroperitoneal lymph node involvement, and bone marrow involvement were diagnosed with much higher precision with 18F-MFBG LAFOV PET/CT.

“A scan with a much higher sensitivity can find very small lesions and the exact extension in the body and can be extremely beneficial in determining the right course of treatment,” says Borgwardt. “The fact that these scans can be performed without anesthesia or sedation, and at a lower radiation dose is a big step forward for the children, parents, and the healthcare system in general.”

Featured image:  [18F]MFBG LAFOV PET/ULD CT (top) and [123I]MIBG scintigraphy with SPECT/LD CT images (bottom) of 7-wk-old girl with neuroblastoma. [18F]MFBG image shows intraspinal and bone marrow involvement not seen on [123I]MIBG image. [18F]MFBG PET/ULD CT image shows uptake in tumor in right hemithorax with intraspinal involvement with direct extension into neural foramina and spinal canal between thoracic vertebrae 4/5 and 5/6 (top red arrow), several liver lesions (middle red arrow), and in bone marrow of right tibia (bottom red arrow). [123I]MIBG scintigraphy with SPECT/LD CT image shows only large thoracic tumor (top purple arrow) and liver metastases (bottom purple arrow). Spinal involvement and bone marrow involvement could not be identified on [123I]MIBG scintigraphy with SPECT/LD CT.