# PET-CT standardized uptake values are increased in focal nodular marrow hyperplasia: a review of indeterminate marrow lesions at a large teaching hospital

**Authors:** Alexander Pearce, Michael Thomas, Fiona Witham

PMC · DOI: 10.1093/bjrcr/uaag004 · BJR | Case Reports · 2026-02-03

## TL;DR

This study shows that focal nodular marrow hyperplasia can have high PET-CT uptake values, which may be mistaken for cancer, leading to the need for better imaging techniques to distinguish benign from malignant lesions.

## Contribution

The study reports higher PET standardized uptake values in focal nodular marrow hyperplasia than previously documented, challenging current diagnostic thresholds.

## Key findings

- 7 out of 8 patients with focal nodular marrow hyperplasia had PET-CT SUVs exceeding 3.6.
- High SUV values in focal nodular marrow hyperplasia can overlap with metastatic lesions, causing diagnostic confusion.
- Most cases were managed conservatively, highlighting the importance of accurate imaging to avoid unnecessary treatment.

## Abstract

Focal nodular marrow hyperplasia (FNMH) is a benign entity that can create diagnostic uncertainty for the radiologist and, if not recognized, can lead to unnecessary intervention or cause interruption in potential treatment due to the need for follow-up imaging for clarification. Current research suggests lesions with a standardized uptake value over 3.6 on fluorodeoxyglucose positron emission tomography and CT scans should be considered metastatic rather than benign. The aims of this study are to analyze the multimodality characteristics of FNMH, educate the reader, and recommend imaging techniques to improve specificity in the absence of histological analysis. Patients who underwent cross-sectional imaging and nuclear medicine studies between 2018 and 2023 were collected, after concerns were raised as to the nature of indeterminate bone marrow lesions. Data were collected on demographics, malignancy, site of index lesion, imaging characteristics, and follow-up. A total of 9 eligible patients were collected. All patients underwent CT and MRI scanning. 8 of the 9 had Positron emission tomography CT (PETCT), of which 7 had standardized uptake values for PETCT exceeding 3.6 using different radiotracers. All but one of the cases were conservatively managed; the remaining case received radiotherapy to their lesion. FNMH can demonstrate higher PET standardized uptake values (SUV) than previously reported in the literature. This has important implications for treatment as the SUV overlaps with those of metastatic bony lesions. Work is needed to improve the distinction between benign and malignant lesions that lie at this threshold of uptake level.

## Full-text entities

- **Genes:** FOLH1 (folate hydrolase 1) [NCBI Gene 2346] {aka FGCP, FOLH, GCP2, GCPII, NAALAD1, PSM}, NPEPPS (aminopeptidase puromycin sensitive) [NCBI Gene 9520] {aka AAP-S, MP100, PSA}
- **Diseases:** breast malignancy (MESH:D001943), obesity (MESH:D009765), sclerosis (MESH:D012598), pelvic lesions (MESH:D034161), mediastinal lymphadenopathy (MESH:D008477), anaemia (MESH:D000743), Haematopoietic marrow hyperplasia (MESH:D006965), rib (MESH:C537613), prostate malignancy (MESH:D011472), FNMH (MESH:D020518), T8 vertebral body lesion (MESH:C536543), humeral lesion (MESH:D006810), prostate cancer (MESH:D011471), bony metastases (MESH:D009362), back pain (MESH:D001416), laryngeal malignancy (MESH:D007827), lung lesion (MESH:D008171), Bone marrow lesion (MESH:D001855), Vertebral lesion (MESH:C535781), cancer (MESH:D009369), UBU (MESH:C536778), bony lesions (MESH:D000070896), lung malignancy (MESH:D008175), medullary sclerosis (MESH:D018276), pubic body lesion (MESH:C566735), bone lesions (MESH:D001847)
- **Chemicals:** Gadolinium (MESH:D005682), PMSA (MESH:C043250), indium chloride (MESH:C020758), Choline (MESH:D002794), FDG (MESH:D019788)
- **Species:** Homo sapiens (human, species) [taxon 9606]

## Full text

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## Figures

9 figures with captions in the complete paper: https://tomesphere.com/paper/PMC12927411/full.md

## References

11 references — full list in the complete paper: https://tomesphere.com/paper/PMC12927411/full.md

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Source: https://tomesphere.com/paper/PMC12927411