Paula Lindholm

18F-EF5: A New PET Tracer for Imaging Hypoxia in Head and Neck Cancer

The aim of this study was to evaluate 2-(2-nitro-1H-imidazol-1-yl)-N-(2,2,3,3,3-pentafluoropropyl)-acetamide (EF5) labeled with 18F-fluorine to image hypoxia in patients with squamous cell carcinoma of the head and neck (HNSCC). Methods: Fifteen patients with HNSCC were studied. Measurement of tumor blood flow was followed by an 18F-EF5 PET/CT scan. On a separate day, 18F-FDG PET/CT was performed to determine the metabolically active tumor volume. In 6 patients, dynamic 18F-EF5 images of the head and neck area were acquired, followed by static images acquired at 1, 2, and 3 h after injection. In the remaining 9 patients, only static images were obtained. 18F-EF5 uptake in tumors was compared with that in neck muscle, and the 18F-EF5 findings were correlated with the 18F-FDG PET/CT studies. Results: A total of 13 primary tumors and 5 lymph node metastases were evaluated for their uptake of 18F-EF5. The median tumor-to-muscle 18F-EF5 uptake ratio (T/M) increased over time and was 1.38 (range, 1.1–3.2) 3 h after tracer injection. The median blood flow in tumors was 36.7 mL/100 g/min (range, 23.3–78.6 mL/100 g/min). Voxel-by-voxel analysis of coregistered blood flow and 18F-EF5 images revealed a distinct pattern, resulting in a T/M of 1.5 at 3 h to be chosen as a cutoff for clinically significant hypoxia. Fourteen of 18 tumors (78%) had subvolumes within the metabolically active tumor volumes with T/M greater than or equal to 1.5. Conclusion: On the basis of these data, the potential of 18F-EF5 to detect hypoxia in HNSCC is encouraging. Further development of 18F-EF5 for eventual targeting of antihypoxia therapies is warranted.

Experience in qualitative and quantitative FDG PET in follow-up of patients with suspected recurrence from head and neck cancer

We evaluated positron emission tomography (PET) with 2-[fluorine-18]fluoro-2-deoxy-D-glucose (FDG) in the detection of recurrent head and neck cancer, and compared visual and quantitative interpretation of PET images for their accuracy in the identification of tumour recurrence. Sixty-two FDG PET studies were performed in 56 patients having a total of 81 lesions, which were clinically suspected for recurrent carcinoma of the head and neck. The PET images were interpreted visually, and tracer uptake was quantitated as the standardised uptake value adjusted to body weight (SUV). Sensitivity of visual interpretation of the PET images for the presence of malignancy ranged from 84 to 95%, and specificity from 84 to 93%, respectively, depending on the selected scheme for grading of the lesions. Malignant lesions accumulated significantly more FDG than the benign ones (the median SUVs were 6.8 and 3.3, respectively, P<0.001). However, there was a wide overlap of the FDG uptake values between these two groups. Hence, the highest accuracy of quantitative analysis in correct identification of tumour recurrence (75% at Receiver Operating Curve analysis) was inferior to that of visual analysis (89%). FDG PET is feasible for the detection of recurrent head and neck cancer. Although quantitation of FDG uptake using SUV shows significantly higher tracer concentrations for malignant than benign lesions, the wide overlap of individual SUVs between these two groups is a serious concern in diagnostic evaluation. Therefore, in clinical practice it may be preferable to identify the presence of tumour recurrence within this patient group by qualitative interpretation of the PET images.

[18F]fluorodeoxyglucose uptake in tumors: kinetic vs. steady-state methods with reference to plasma insulin.

[18F]Fluorodeoxyglucose (FDG) uptake in noncerebral tumors is commonly reported as tissue radioactivity concentration normalized to injected dose and body weight. We studied the feasibility of this approach by imaging 68 tumors in 46 oncologic patients with dynamic FDG-PET and compared kinetic and static methods of quantitation of FDG uptake. Further, the effect of plasma glucose and insulin concentration on the obtained quantitative indexes was analyzed in all patients. The metabolic rate for FDG was strongly associated with normalized uptake value adjusted for injected dose (r = 0.92, p < 0.0001), dose and patient weight (r = 0.91, p < 0.0001), and dose and body surface area (r = 0.94, p < 0.0001). The FDG uptake was not related to plasma glucose concentration under euglycemic (≤6.5 mmol/L) conditions, but was low in two diabetic patients with overt hyperglycemia. Hyperinsulinemia was associated with a low to moderate FDG uptake, probably exerting its action through a metabolic shift of tracer influx to muscle and fat. Our results show that a single scan in the steady-state phase, e.g., 45–60 min from the injection, can be used for assessment of FDG uptake in tumors, making frequent blood sampling during imaging unnecessary. However, glucose concentration in blood must be monitored in patients with known or suspected abnormalities in glucose metabolism.

Evaluation of response to radiotherapy in head and neck cancer by positron emission tomography and [11C]methionine

PURPOSE To evaluate the usefulness of positron emission tomography (PET) and L-[methyl-11C]methionine in assessing treatment response to radiotherapy in head and neck cancer. METHODS AND MATERIALS Fifteen patients with head and neck cancer (13 with squamous cell carcinoma, 1 with adenocystic carcinoma, and 1 with paranasal plasmocytoma) underwent a PET study with [11C]-methionine both before and after preoperative radiotherapy to the total tumor dose of 61-73 Gy. Twelve primary and 12 metastatic tumor sites were within the field of view. Nineteen of the 24 tumor sites were surgically explored after radiotherapy, and the tumor standardized uptake values (SUVs) of [11C]methionine were compared with histological findings. RESULTS All 24 malignant lesions were detectable in the pretreatment study. In all but one case, the tumor SUV decreased after radiotherapy. The median SUV of the tumor site was smaller (1.9, range, 1.3-3.1, n = 7) in cases with histologically verified complete response than in cases with persistent cancer (median 4.1, range, 2.8-7.6, n = 12, p = 0.0008). A complete histological response was verified in none of the 9 cases with a postirradiation SUV larger than the median (3.1), whereas 7 of the 10 cases with a SUV of 3.1 or smaller had complete response (p = 0.003). The preirradiation uptake of [11C]methionine in tumors did not have significant association with histological response (p = 0.45). The PET findings correlated well with follow-up data in five cases with unoperated tumor sites. The [11C]methionine uptake of the submandibular salivary glands decreased after radiotherapy (p = 0.04). CONCLUSION PET with [11C]methionine as a tracer may be useful in assessing response to radiotherapy in head and neck cancer. High uptake of [11C]methionine in the postirradiation scan suggests the presence of persistent disease.

Carbon-11 acetate PET/CT based dose escalated IMRT in prostate cancer

PURPOSE To demonstrate the theoretical feasibility of [(11)C]acetate PET/CT in delineating the malignant intraprostatic lesions (IPLs) in prostate cancer and to use the data in external beam radiotherapy to boost the biologically defined target volume (BTV). METHODS AND MATERIALS Twelve men with intracapsular prostate carcinoma were imaged with [(11)C]acetate PET/CT and the data were used to delineate the BTV. Six dynamic IMRT plans were generated to each patient: a standard IMRT (sIMRT) plan with a 77.9 Gy dose to PTV (prostate gland with a 6-mm margin) and a simultaneous integrated boost IMRT (SIB(IMRT)) plan to deliver 77.9 Gy, 81 Gy, 84 Gy, 87 Gy and 90 Gy to the BTV and 72 Gy to the rest of PTV. To study the theoretical dose escalation based on the delineation of BTV, tumor control probabilities (TCPs) and normal tissue complication probabilities (NTCPs) of bladder and rectum were calculated and compared between the treatment plans. RESULTS [(11)C]Acetate was used to delineate the IPLs of all 12 patients. With every patient the TCP was increased with SIB(IMRT) without increasing the NTCP of the bladder or rectum. The probability of uncomplicated control (PUC) was increased on average by 28% with the SIB(IMRT) treatment plans. The highest PUC was achieved with an average dose of 82.1 Gy to the BTV. CONCLUSIONS Our study indicates that [(11)C]acetate can be used to define the IPLs and in combination with SIB(IMRT) the defined areas can theoretically be treated to ultra high doses without increasing the treatment toxicity. These results motivate the formal validation of [(11)C]acetate PET for biological dose planning in prostate cancer.

Evaluation of early response to radiotherapy in head and neck cancer measured with [11C]methionine-positron emission tomography

PURPOSE To evaluate whether positron emission tomography (PET) with carbon-11-methionine (MET) can be used for detection of early response to external beam radiotherapy (RT) in untreated head and neck cancer using locoregional control and survival as study endpoints. MATERIALS Fifteen patients with head and neck cancer underwent a MET PET study before RT and after a median dose of 24 Gy. Fractionation was standard (n = 6) or hyperfractionated (n = 9), and 13 out of 15 patients had planned surgery after RT. SUV was calculated for primary tumor (n = 13) or largest lymph node metastasis in two patients of whom one had his primary excised before study enrollment and one presented with unknown primary tumor syndrome. METHODS Attenuation corrected PET scans acquired 20-40 min from tracer injection were used for evaluation of MET uptake in tumors. A quantitative MET uptake index was expressed as standardized uptake value (SUV) or SUV(lean) (corrected for lean body mass). The PET results were correlated with clinical follow-up data. The median follow-up time is currently 28 months (range 22-34). RESULTS A total of 13 primary tumors and 12 metastatic lymph nodes were visually identified in MET PET. In the first PET study the median SUV in tumor was 8.6 (range, 5.5-14.0). In the second PET study performed during RT the median SUV decreased to 5.7 (range, 3.1-8.2, P = 0.001). Two out of 15 patients showed no radiation-induced decrease in SUV. The median tumor SUV ratio of patients remaining in local control (CR) after RT was 0.7 (range 0.6-0.8, n = 6), and that of relapsing patients similarly 0.7 (range 0.5-1.0, n = 9, NS). The SUV ratio was not associated with survival time. The MET uptake of submandibular salivary glands decreased in all patients during the first two or three weeks of RT (P = 0.03). CONCLUSIONS MET uptake in tumor shows a significant decrease during the first two to three weeks of RT of head and neck cancer. It appears that the rate of decrease in tracer uptake is comparable in relapsing patients and those who remain locally controlled and thus the use of MET PET for prediction of response to RT is limited.

Imaging of head and neck tumors with positron emission tomography and [11C]methionine

PURPOSE To evaluate the value of positron emission tomography and [11C]methionine in imaging of malignant tumors of the head and neck region. METHODS AND MATERIALS Forty-seven tumors of the head and neck were investigated with 11C-labeled methionine and positron emission tomography before treatment. Because of the resolution limits of the positron emission tomography scanner, all tumors selected for the study were larger than 1 cm in diameter. RESULTS Forty-two (91%) of the 46 malignant tumors were clearly visible in the positron emission tomography image (squamous cell carcinoma, n = 26; lymphoma, n = 9; adenocystic carcinoma, n = 2; lymphoepithelioma, n = 1; adenocarcinoma, n = 1; transitional cell carcinoma, n = 1; esthesioneuroblastoma, n = 1; plasmocytoma, n = 1), while three (7%) squamous cell carcinomas were visible, but less easy to detect due to physiological accumulation of the tracer in the area under observation. Only one (2%) squamous cell carcinoma could not be delineated from the positron emission tomography image, and there was no uptake of [11C]methionine in a benign pleomorphic adenoma. No correlation was found between the uptake of [11C]methionine and the histological grade in the subset of squamous cell carcinoma (n = 30). High physiological uptake of [11C]methionine was observed in the salivary glands and the bone marrow. CONCLUSIONS Malignant head and neck tumors can be effectively imaged with positron emission tomography using [11C]methionine as the tracer.

Primary metastatic Ewing's family tumors: results of the Italian Sarcoma Group and Scandinavian Sarcoma Group ISG/SSG IV Study including myeloablative chemotherapy and total-lung irradiation

BACKGROUND The Italian Sarcoma Group and the Scandinavian Sarcoma Group designed a joint study to improve the prognosis for patients with Ewings family tumors and synchronous metastatic disease limited to the lungs, or the pleura, or a single bone. PATIENTS AND METHODS The study was opened in 1999 and closed to the enrollment in 2008. The program consisted of intensive five-drug combination chemotherapy, surgery and/or radiotherapy as local treatment, and consolidation treatment with high-dose busulfan/melphalan plus autologous stem cell rescue and total-lung irradiation. RESULTS During the study period, 102 consecutive patients were enrolled. The median follow-up was 62 months (range 24-124). The 5-year event-free survival probability was 0.43 [standard deviation (SD) = 0.05] and the 5-year overall survival probability was 0.52 (SD = 0.052). Unfavorable prognostic factors emerging on multivariate analysis were a poor histological/radiological response at the site of the primary tumor [relative risk (RR) = 3.4], and incomplete radiological remission of lung metastases after primary chemotherapy (RR = 2.6). One toxic death and one secondary leukemia were recorded. CONCLUSIONS This intensive approach is feasible and long-term survival is achievable in ∼50% of patients. New treatment approaches are warranted for patients responding poorly to primary chemotherapy.BACKGROUND The Italian Sarcoma Group and the Scandinavian Sarcoma Group designed a joint study to improve the prognosis for patients with Ewings family tumors and synchronous metastatic disease limited to the lungs, or the pleura, or a single bone. PATIENTS AND METHODS The study was opened in 1999 and closed to the enrollment in 2008. The program consisted of intensive five-drug combination chemotherapy, surgery and/or radiotherapy as local treatment, and consolidation treatment with high-dose busulfan/melphalan plus autologous stem cell rescue and total-lung irradiation. RESULTS During the study period, 102 consecutive patients were enrolled. The median follow-up was 62 months (range 24-124). The 5-year event-free survival probability was 0.43 [standard deviation (SD) = 0.05] and the 5-year overall survival probability was 0.52 (SD = 0.052). Unfavorable prognostic factors emerging on multivariate analysis were a poor histological/radiological response at the site of the primary tumor [relative risk (RR) = 3.4], and incomplete radiological remission of lung metastases after primary chemotherapy (RR = 2.6). One toxic death and one secondary leukemia were recorded. CONCLUSIONS This intensive approach is feasible and long-term survival is achievable in ∼50% of patients. New treatment approaches are warranted for patients responding poorly to primary chemotherapy.

A method to improve target dose homogeneity of craniospinal irradiation using dynamic split field IMRT

PURPOSE Craniospinal irradiation (CSI) is technically very challenging and field edge matching is needed because of the mechanical limitations of standard linear accelerators. We assessed the feasibility of intensity-modulated radiotherapy (IMRT) in CSI to overcome the standard feathering and dose inhomogeneities associated with the standard feathering technique in the junction areas. MATERIALS AND METHODS The use of IMRT in CSI was studied with five patients CT scanned in the supine position. Isocentric treatment plans of three dimensional conventional radiotherapy (3D-CRT) and split field IMRT (sfIMRT) with dynamic intrafractional feathering were created with the same field setup and the resulted dose distributions were compared. The effect of treatment inaccuracy was simulated with an intentional shift of +/-3mm with both treatment plans. Dosimetric verification of the sfIMRT treatment plan was performed with radiographic films placed in a phantom. RESULTS The sfIMRT treatment plans resulted in a better dose coverage and uniformity in the target volume. The +/-3mm shift had only a minor effect on the dose distribution of the sfIMRT treatment plan whereas with the 3D-CRT the shift resulted in an error of +/-38% of the calculated dose in the spinal cord. The measured dose distribution of the sfIMRT treatment plan correlated well with the calculations. CONCLUSIONS Improved dose homogeneity in the target volume was achieved with the sfIMRT compared to the conventional 3D-CRT treatment plan. With the sfIMRT technique only a single treatment plan is required to deliver the total treatment dose and the resulting dose distribution is also less volatile for technical uncertainties of the treatment.

Use of carbon-11 methionine positron emission tomography to assess malignancy grade and predict survival in patients with lymphomas

Abstract. The aim of this study was to investigate whether uptake of carbon-11 methionine (MET) is associated with histological grade of malignancy and survival in patients with newly diagnosed or recurrent lymphoma. Thirty-two patients with histologically confirmed lymphoma participated in the study. Twenty-six (81%) were studied before any therapy and six before treatment for recurrent disease. Twenty-eight patients had non-Hodgkin’s lymphoma and four had Hodgkin’s disease. An ECAT 931/08-12 positron emission tomography (PET) scanner was used for PET imaging. After the transmission scan, a median dose of 293 MBq of MET was injected intravenously and dynamic images were acquired for 40 min. The uptake of MET in tumour was measured as the standardized uptake value (SUV) and influx constant (Ki). The SUV formula was also adjusted to the predicted value of lean body mass (SUVlean) and body surface area (SUVBSA). The PET results were correlated with the clinical follow-up data. The median SUV in 32 malignant lesions was 6.6 (range, 1.9–12.4) and the median Ki was 0.116 min−1 (range, 0.025–0.201, n=23). The median SUV was 7.0 (range, 5.4–12.4, n=9) in high, 6.2 (range, 1.9–10.4, n=11) in intermediate and 5.7 (range, 3.8–8.3, n=8) in low grade lymphomas. One intermediate grade lymphoma of the skin was visually negative (SUV 1.9). In Hodgkin’s disease the median SUV was 7.0 (range, 3.2–7.9, n=4). The median Ki value was 0.162 min−1 (range, 0.147–0.197, n=7) in high, 0.099 (range, 0.025–0.152, n=10) in intermediate, and 0.078 (range, 0.056–0.152, n=4) in low grade lymphomas and 0.149 (range, 0.096–0.201, n=2) in Hodgkin’s disease. The difference between high and other grade non-Hodgkin’s lymphomas was significant when using Ki (P<0.001), but not with SUV, SUVlean or SUVBSA. The final outcome of the patients was not related to MET uptake. Lymphomas with a high Ki value tended to have a high S-phase fraction (r2=0.46, P=0.043). It is concluded that MET PET is highly sensitive for the detection of untreated and recurrent lymphomas. Differentation of high grade lymphomas from lower malignancy grades seems to be possible if graphical analysis is applied to calculate Ki for MET. However, prediction of survival is not possible with MET PET.