PET after Chemotherapy in Rhabdomyosarcoma
Connective Tissue Oncology SocietyNovember 19, 2005
Michelle L. Klem, Leonard H. Wexler, Ravinder Grewal, Heiko Schoder, Paul A. Meyers,
Suzanne L. Wolden
Memorial Sloan-Kettering Cancer Center
Background
• Rhabdomyosarcoma (RMS) is the most common soft tissue sarcoma of childhood.
• Staging system is clinical and radiographic.
• PET for initial staging– Identify involved LN, distant metastases– Determine involvement of CT/MRI equivocal
sites
Chest wall embryonal RMS (SUV 5.1)
Supraclavicular LN (SUV 2.8)
PET at Diagnosis
Hypothesis
• Initial treatment will result in a decreased SUV at the primary site of disease
• Study design- retrospective review of RMS patients who had PET scans at diagnosis and after receiving initial therapy
Methods
• PET scans performed on • Biograph PET/CT scanner (Siemens)
• Discovery LS PET/CT scanner (General Electric)
• GE ADVANCE PET scanner (General Electric)
• SUV at primary, regional, distant sites, and areas of clinical suspicion
• Scans obtained 1 hour after iv 18F-FDG
Patient Characteristics
• All patients with RMS treated at MSKCC from 2/02 till 12/04 were reviewed
• 20 had PET at the time of diagnosis and after receiving chemotherapy– 11 patients had PET prior to any chemo– 9 patients within first cycle of chemotherapy
(13 days)
Patient Characteristics
• 13 females, 7 males• Median age 12.3 years (range 2-38 years)• 10 embryonal, 10 alveolar• Stage
– Stage II: 1– Stage III: 14– Stage IV: 5
• Group– Group 3: 15– Group 4: 5
Primary Site
Parameningeal45%
GU8%
Head and neck13%
Trunk17%
Extremity17%
Treatment Prior to PET
• All patients received 2-8 cycles of chemotherapy prior to follow up PET
• 5 patients completed radiation prior to PET
Rapid Response of PET to Chemotherapy
Rapid Response of PET to Chemotherapy
Initial SUVMedian SUV
SUV range
All patients (n=20)
5.5 2.4-12.7
Baseline PET prior to chemo(n=11)
8.1 4.1-12.7
Baseline PET within 1 cycle of chemo (n=9)
4.1* 2.4-8.4*p=0.006
Results
• First follow up PET– median of 2.8 months after chemotherapy
(1.3-7.3m)
– median of 4 cycles of chemotherapy
• 18 patients had a decrease in SUV– Median decrease 3.7, range (0.2-11.7)
Results
• 12 patients with normal PET by first follow up– 3 had completed radiation
• 18 had eventual normalization of PET• No correlation of early normalization of PET with
– primary site of disease, histology, stage, group– gender, age at diagnosis– SUV at diagnosis
Time to Normalization
Pathologic correlation
Residual tumor6 (86%)
No residual tumor1 (14%)
Positive PET7
Residual tumor1 (33%)
No residual tumor2 (67%)
Negative PET3
10 patients with biopsy or 2nd look surgerywho had PET within 6 weeks prior to procedure
Response on PET
3 year old boy with alveolarRMS in the glutealand pelvic regions
Response on PET
Irinotecan/ Carboplatin
3 year old boy with alveolarRMS in the glutealand pelvic regions
Response on PET
14 year old female with an alveolarparanasal RMS
Response on PET
14 year old female with an alveolarparanasal RMS
Irinotecan/ Carboplatin
Conclusions
• PET has potential utility in monitoring response to treatment.
• SUV at primary site is higher when initial PET is prior to therapy. PET should be performed prior to chemotherapy when possible.
• A decrease in SUV was seen with therapy.• Most patients had normalization by first follow up PET. • Normalization of PET correlated with pathologic
response to therapy.• Further work is needed to assess if response on PET
can be used to guide therapy and predict response in RMS.