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Introduction: The prognosis of medullary thyroid carcinoma (MTC) is poor using common chemotherapeutic approaches. However, during the last years encouraging results of recently introduced tyrosine kinase inhibitors (TKI) such as vandetanib have been published. In this study we aimed to correlate the results of \(^{18}\)F-fluorodeoxyglucose ([\(^{18}\)F]FDG) positron emission tomography (PET) imaging with treatment outcome.
Methods: Eighteen patients after thyroidectomy with recurrent/advanced MTC lesions receiving vandetanib (300 mg orally/day) could be analysed. A baseline \(^{18}\)F-FDG PET prior to and a follow-up \(^{18}\)F-FDG PET 3 months after TKI initiation were performed. During follow-up, tumor progression was assessed every 3 months including computed tomography according to RECIST. Progression-free survival (PFS) was correlated with the maximum standardized uptake value of \(^{18}\)F-FDG in lymph nodes (SUV(LN)max) or visceral metastases (SUV(MTS)max) as well as with clinical parameters using ROC analysis.
Results: Within median 3.6 years of follow-up, 9 patients showed disease progression at median 8.5 months after TKI initiation. An elevated glucose consumption assessed by baseline \(^{18}\)F-FDG PET (SUV(LN)max > 7.25) could predict a shorter PFS (2 y) with an accuracy of 76.5% (SUV(LN)max <7.25, 4.3 y; p=0.03). Accordingly, preserved tumor metabolism in the follow-up PET (SUV(MTS)max >2.7) also demonstrated an unfavorable prognosis (accuracy, 85.7%). On the other hand, none of the clinical parameters reached significance in response prediction.
Conclusions: In patients with advanced and progressive MTC, tumors with higher metabolic activity at baseline are more aggressive and more prone to progression as reflected by a shorter PFS; they should be monitored more closely. Preserved glucose consumption 3 months after treatment initiation was also related to poorer prognosis.
Purpose: Early identification of aggressive disease could improve decision-support in pancreatic neuroendocrine tumor (pNET) patients prior to peptide receptor radionuclide therapy (PRRT). The prognostic value of intratumoral textural features (TF) determined by baseline somatostatin receptor (SSTR)-PET before PRRT was analyzed.
Procedures: 31 patients with G1/G2 pNET were enrolled (G2, n=23/31). Prior to PRRT with [\(^{177}\)Lu]DOTATATE (mean, 3.6 cycles), baseline SSTR-PET/CT was performed. By segmentation of 162 (median per patient, 5) metastases, intratumoral TF were computed. The impact of conventional PET parameters (SUV\(_{mean/max}\)), imaging-based TF as well as clinical parameters (Ki67, CgA) for prediction of both progression-free (PFS) and overall survival (OS) after PRRT was evaluated.
Results: Within a median follow-up of 3.7y, tumor progression was detected in 21 patients (median, 1.5y) and 13/31 deceased (median, 1.9y). In ROC analysis, the TF Entropy, reflecting derangement on a voxel-by-voxel level, demonstrated predictive capability for OS (cutoff=6.7, AUC=0.71, p=0.02). Of note, increasing Entropy could predict a longer survival (>6.7, OS=2.5y, 17/31), whereas less voxel-based derangement portended inferior outcome (<6.7, OS=1.9y, 14/31). These findings were supported in a G2 subanalysis (>6.9, OS=2.8y, 9/23 vs. <6.9, OS=1.9y, 14/23). Kaplan-Meier analysis revealed a significant distinction between high- and low-risk groups using Entropy (n=31, p<0.05). For those patients below the ROC-derived threshold, the relative risk of death after PRRT was 2.73 (n=31, p=0.04). Ki67 was negatively associated with PFS (p=0.002); however, SUVmean/max failed in prognostication (n.s.).
Conclusions: In contrast to conventional PET parameters, assessment of intratumoral heterogeneity demonstrated superior prognostic performance in pNET patients undergoing PRRT. This novel PET-based strategy of outcome prediction prior to PRRT might be useful for patient risk stratification.
Purpose: Early identification of aggressive disease could improve decision-support in pancreatic neuroendocrine tumor (pNET) patients prior to peptide receptor radionuclide therapy (PRRT). The prognostic value of intratumoral textural features (TF) determined by baseline somatostatin receptor (SSTR)-PET before PRRT was analyzed.
Procedures: 31 patients with G1/G2 pNET were enrolled (G2, n=23/31). Prior to PRRT with [\(^{177}\)Lu]DOTATATE (mean, 3.6 cycles), baseline SSTR-PET/CT was performed. By segmentation of 162 (median per patient, 5) metastases, intratumoral TF were computed. The impact of conventional PET parameters (SUV\(_{mean/max}\)), imaging-based TF as well as clinical parameters (Ki67, CgA) for prediction of both progression-free (PFS) and overall survival (OS) after PRRT was evaluated.
Results: Within a median follow-up of 3.7y, tumor progression was detected in 21 patients (median, 1.5y) and 13/31 deceased (median, 1.9y). In ROC analysis, the TF Entropy, reflecting derangement on a voxel-by-voxel level, demonstrated predictive capability for OS (cutoff=6.7, AUC=0.71, p=0.02). Of note, increasing Entropy could predict a longer survival (>6.7, OS=2.5y, 17/31), whereas less voxel-based derangement portended inferior outcome (<6.7, OS=1.9y, 14/31). These findings were supported in a G2 subanalysis (>6.9, OS=2.8y, 9/23 vs. <6.9, OS=1.9y, 14/23). Kaplan-Meier analysis revealed a significant distinction between high- and low-risk groups using Entropy (n=31, p<0.05). For those patients below the ROC-derived threshold, the relative risk of death after PRRT was 2.73 (n=31, p=0.04). Ki67 was negatively associated with PFS (p=0.002); however, SUVmean/max failed in prognostication (n.s.).
Conclusions: In contrast to conventional PET parameters, assessment of intratumoral heterogeneity demonstrated superior prognostic performance in pNET patients undergoing PRRT. This novel PET-based strategy of outcome prediction prior to PRRT might be useful for patient risk stratification.
Objective: Radiotracers targeting prostate-specific membrane antigen (PSMA) have increasingly been recognized as showing uptake in a number of normal structures, anatomic variants, and non-prostate-cancer pathologies. We aimed to explore the frequency and degree of uptake in peripheral ganglia in patients undergoing PET with the PSMA-targeted agent \(^{18}\)F-DCFPyL.
Methods: A total of 98 patients who underwent \(^{18}\)F-DCFPyL PET/CT imaging were retrospectively analyzed. This included 76 men with prostate cancer (PCa) and 22 patients with renal cell carcinoma (RCC; 13 men, 9 women). Scans were evaluated for uptake in the cervical, stellate, celiac, lumbar and sacral ganglia. Maximum standardized uptake value corrected to body weight (SUV\(_{max}\)), and maximum standardized uptake value corrected to lean body mass (SUL\(_{max}\)) were recorded for all ganglia with visible uptake above background. Ganglia-to-background ratios were calculated by dividing the SUV\(_{max}\) and SUL\(_{max}\) values by the mean uptake in the ascending aorta (Aortamean) and the right gluteus muscle (Gluteusmean).
Results: Overall, 95 of 98 (96.9%) patients demonstrated uptake in at least one of the evaluated peripheral ganglia. With regard to the PCa cohort, the most frequent sites of radiotracer accumulation were lumbar ganglia (55/76, 72.4%), followed by the cervical ganglia (51/76, 67.1%). Bilateral uptake was found in the majority of cases [lumbar 44/55 (80%) and cervical 30/51 (58.8%)]. Additionally, discernible radiotracer uptake was recorded in 50/76 (65.8%) of the analyzed stellate ganglia and in 45/76 (59.2%) of the celiac ganglia, whereas only 5/76 (6.6%) of the sacral ganglia demonstrated \(^{18}\)F-DCFPyL accumulation. Similar findings were observed for patients with RCC, with the most frequent locations of radiotracer uptake in both the lumbar (20/22, 90.9%) and cervical ganglia (19/ 22, 86.4%). No laterality preference was found in mean PSMA-ligand uptake for either the PCa or RCC cohorts.
Conclusion: As PSMA-targeted agents become more widely disseminated, the patterns of uptake in structures that are not directly relevant to patients’ cancers must be understood. This is the first systematic evaluation of the uptake of \(^{18}\)F-DCFPyL in ganglia demonstrating a general trend with a descending frequency of radiotracer accumulation in lumbar, cervical, stellate, celiac, and sacral ganglia. The underlying biology that leads to variability of PSMA-targeted radiotracers in peripheral ganglia is not currently understood, but may provide opportunities for future research.
The heart failure (HF) epidemic continues to rise with coronary artery disease (CAD) as one of its main causes. Novel concepts for risk stratification to guide the referring cardiologist towards revascularization procedures are of significant value. Myocardial perfusion imaging (MPI) using single-photon emission computed tomography (SPECT) agents has demonstrated high accuracy for the detection of clinically relevant stenoses. With positron emission tomography (PET) becoming more widely available, mainly due to its diagnostic performance in oncology, perfusion imaging with that modality is more practical than in the past and overcomes existing limitations of SPECT MPI. Advantages of PET include more reliable quantification of absolute myocardial blood flow, the routine use of computed tomography for attenuation correction, a higher spatiotemporal resolution and a higher count sensitivity. Current PET radiotracers such as rubidium-82 (half-life, 76 sec), oxygen-15 water (2 min) or nitrogen-13 ammonia (10 min) are labeled with radionuclides with very short half-lives, necessitating that stress imaging is performed under pharmacological vasodilator stress instead of exercise testing. However, with the introduction of novel 18F-labeled MPI PET radiotracers (half-life, 110 min), the intrinsic advantages of PET can be combined with exercise testing. Additional advantages of those radiotracers include, but are not limited to: potentially improved cost-effectiveness due to the use of pre-existing delivery systems and superior imaging qualities, mainly due to the shortest positron range among available PET MPI probes. In the present review, widely used PET MPI radiotracers will be reviewed and potential novel 18F-labeled perfusion radiotracers will be discussed.
Motivation and Aim:
Cardiovascular disease has been the leading cause of mortality and morbidity throughout the world. In developed countries, cardiovascular diseases are already responsible for a majority of deaths and will become the pre-eminent health problem worldwide (1,2). Rupture of atherosclerotic plaque accounts for approximately 70% of fatal acute myocardial infarction and sudden heart deaths. Conventional criterias for the diagnosis of “vulnerable plaques” are calcified nodules, yellow appearance of plaque, a thin cap, a large lipid core, severe luminal stenosis, intraplaque hemorrhage, inflammation, thrombogenicity, and plaque injury (3-5).
Noninvasive diagnosis of vulnerable plaque still remains a great challenge and a huge research prospect, which triggered us to investigate the feasibility of PET imaging on the evaluation of atherosclerosis. Nuclear imaging of atherosclerosis, especially co-registered imaging modalities, could provide a promising diagnostic tool including both anatomy and activities to identify vulnerable atherosclerotic plaque or early detection of inflammatory endothelium at risk. Furthermore, the development of specific imaging tracers for clinical applications is also a challenging task. The aim of this work was to assess the potential of novel PET imaging probes associated with intra-plaque inflammation on animal models and in human respectively.
Methods
In this work, several molecular imaging modalities were employed for evaluation of atherosclerosis. They included Positron emission tomography / Computed tomography (PET/CT) for human studies, and micro-PET, autoradiography and high-resolution magnetic resonance imaging (MRI) for animal studies. Radiotracers for PET imaging included the glucose analogue 18F-Fluorodeoxyglucose (18F-FDG), the somatostatin receptor avide tracer 68Ga-DOTATATE, and the Gallium-68 labeled fucoidan (68Ga-Fucoidan), which was developed as a PET tracer to detect endothelial P-selectin, which overexpressed at early stage of atherosclerosis and endothelial overlying activated plaque. Tracer’s capabilities were firstly assessed on cellular level in vitro. Subsequently, Animal studies were conducted in two animal models: 1, Apolipoprotein E (ApoE-/-) mice having severe atherosclerotic plaque; 2, Lipopolysaccharide (LPS) -induced mice for receiving acute vascular inflammation. Corresponding analyses on protein and histological level were conducted as well to confirm our results.
In human study, 16 patients with neuroendocrine tumors (NETs) were investigated on imaging vascular inflammation. These patients had undergone both 68Ga-DOTATATE PET/CT and 18F-FDG PET/CT for staging or restaging within 6 weeks. 16 patients were randomized into two groups: high-risk group and low-risk group. Uptake ratio of both tracers from two groups were compared and correlated with common cardiovascular risk factors.
Results and Conclusion
In murine study, the expression of somatostatin receptor 2, which is the main bio-target of 68Ga-DOTATATE on macrophage/monocyte was confirmed by flow cytometry and immunohistochemistry. Prospectively, high specific accumulation of 68Ga-DOTATATE to the macrophage within the plaques was observed in aorta lesions by autoradiography and by micro-PET. In study with 68Ga-fucoidan, a strong expression of P-selectin on active endothelium overlying on inflamed plaque but weaker on inactive plaques was confirmed. Specific focal uptake of 68Ga-fucoidan were detected at aorta segments by micro-PET, and correlated with high-resolution magnetic resonance imaging (MRI), which was used to characterize the morphology of plaques. 68Ga-fucoidan also showed a greater affinity to active inflamed plaque in comparison of inactive fibrous plaque, which was assessed by autoradiography. Specificity of 68Ga-DOTATATE and 68Ga-fucoidan were confirmed by ex-vivo blocking autoradiography and in vivo blocking PET imaging respectively.
In human study, focal uptake of both 18F-FDG and 68Ga-DOTATATE was detected. Analyzing concordance of two tracers’ uptake ratio, Out of the 37 sites with highest focal 68Ga-DOTATATE uptake, 16 (43.2%) also had focal 18F-FDG uptake. Of 39 sites with highest 18F-FDG uptake, only 11 (28.2%) had a colocalized 68Ga-DOTATATE accumulation. Correlated tracers’ uptake and calcium burden and risk factors, Mean target-to-background ratio (TBR) of 68Ga-DOTATATE correlated significantly with the presence of calcified plaques (r=0.52), hypertension (r=0.60), age (r=0.56) and uptake of 18F-FDG (r=0.64). TBRmean of 18F-FDG correlated significantly only with hypertension (r=0.58; p<0.05). Additionally, TBRmean of 68Ga-DOTATATE is significant higher in the high risk group while TBRmean of 18F-FDG is not.
In conclusion, we evaluated vascular inflammation of atherosclerosis non-invasively using the two PET tracers: 68Ga-DOTATATE and 68Ga-Fucoidan. 68Ga-DOTATATE show specific affinity to infiltrated macrophage within the plaques. 68Ga-Fucoidan may hold the potential to discriminate between active and inactive atherosclerotic plaques in terms of variant accumulation on different-types of plaques. PET as leading molecular imaging technique provides superiority in assessing cellular activity, which is pivotal for understanding internal activity of atherosclerotic plaques. Since diagnosis of atherosclerosis is a complex and multi-dimensional task. More integrated imaging technology such as PET/MRI, faster imaging algorithm, more efficient radiotracer are required for further development of atherosclerosis imaging,
Both prostate-specific membrane antigen (PSMA)- and somatostatin receptor (SSTR)-targeted positron emission tomography (PET) imaging agents for staging and restaging of prostate carcinoma or neuroendocrine tumors, respectively, are seeing rapidly expanding use. In addition to diagnostic applications, both classes of radiotracers can be used to triage patients for theranostic endoradiotherapy. While interpreting PSMA- or SSTR-targeted PET/computed tomography (CT) scans, the reader has to be aware of certain pitfalls. Adding to the complexity of the interpretation of those imaging agents, both normal biodistribution, and also false-positive and -negative findings differ between PSMA- and SSTR-targeted PET radiotracers. Herein summarized under the umbrella term molecular imaging reporting and data systems (MI-RADS), two novel RADS classifications for PSMA- and SSTR-targeted PET imaging are described (PSMA- and SSTR-RADS). Both framework systems may contribute to increase the level of a reader’s confidence and to navigate the imaging interpreter through indeterminate lesions, so that appropriate workup for equivocal findings can be pursued. Notably, PSMA- and SSTR-RADS are structured in a reciprocal fashion, i.e. if the reader is familiar with one system, the other system can readily be applied as well. In the present review we will discuss the most common pitfalls on PSMA- and SSTR-targeted PET/CT, briefly introduce PSMA- and SSTR-RADS, and define a future role of the umbrella framework MI-RADS compared to other harmonization systems.
Aims: Although mortality rate is very high, diagnosis of acute myocarditis remains challenging with conventional tests. We aimed to elucidate the potential role of longitudinal 2-Deoxy-2-\(^{18}\)F-fluoro-D-glucose (\(^{18}\)F-FDG) positron emission tomography (PET) inflammation monitoring in a rat model of experimental autoimmune myocarditis.
Methods and results: Autoimmune myocarditis was induced in Lewis rats by immunizing with porcine cardiac myosin emulsified in complete Freund’s adjuvant. Time course of disease was assessed by longitudinal \(^{18}\)F-FDG PET imaging. A correlative analysis between in- and ex vivo \(^{18}\)F-FDG signalling and macrophage infiltration using CD68 staining was conducted. Finally, immunohistochemistry analysis of the cell-adhesion markers CD34 and CD44 was performed at different disease stages determined by longitudinal \(^{18}\)F-FDG PET imaging. After immunization, myocarditis rats revealed a temporal increase in 18F-FDG uptake (peaked at week 3), which was followed by a rapid decline thereafter. Localization of CD68 positive cells was well correlated with in vivo \(^{18}\)F-FDG PET signalling (R\(^2\) = 0.92) as well as with ex vivo 18F-FDG autoradiography (R\(^2\) = 0.9, P < 0.001, respectively). CD44 positivity was primarily observed at tissue samples obtained at acute phase (i.e. at peak 18F-FDG uptake), while CD34-positive staining areas were predominantly identified in samples harvested at both sub-acute and chronic phases (i.e. at \(^{18}\)F-FDG decrease).
Conclusion: \(^{18}\)F-FDG PET imaging can provide non-invasive serial monitoring of cardiac inflammation in a rat model of acute myocarditis.
In diabetic cardiomyopathy, left ventricular (LV) diastolic dysfunction is one of the earliest signs of cardiac involvement prior to the definitive development of heart failure (HF). We aimed to explore the LV diastolic function using electrocardiography (ECG)-gated \(^{18}\)F-fluorodeoxyglucose positron emission tomography (\(^{18}\)F-FDG PET) imaging beyond the assessment of cardiac glucose utilization in a diabetic rat model. ECG-gated \(^{18}\)F-FDG PET imaging was performed in a rat model of type 2 diabetes (ZDF fa/fa) and ZL control rats at age of 13 weeks (n=6, respectively). Under hyperinsulinemic-euglycemic clamp to enhance cardiac activity, \(^{18}\)F-FDG was administered and subsequently, list-mode imaging using a dedicated small animal PET system with ECG signal recording was performed. List-mode data were sorted and reconstructed into tomographic images of 16 frames per cardiac cycle. Left ventricular functional parameters (systolic: LV ejection fraction (EF), heart rate (HR) vs. diastolic: peak filling rate (PFR)) were obtained using an automatic ventricular edge detection software. No significant difference in systolic function could be obtained (ZL controls vs. ZDF rats: LVEF, 62.5±4.2 vs. 59.4±4.5%; HR: 331±35 vs. 309±24 bpm; n.s., respectively). On the contrary, ECG-gated PET imaging showed a mild but significant decrease of PFR in the diabetic rats (ZL controls vs. ZDF rats: 12.1±0.8 vs. 10.2±1 Enddiastolic Volume/sec, P<0.01). Investigating a diabetic rat model, ECG-gated \(^{18}\)F-FDG PET imaging detected LV diastolic dysfunction while systolic function was still preserved. This might open avenues for an early detection of HF onset in high-risk type 2 diabetes before cardiac symptoms become apparent.
Objectives: Recently, the standardized reporting and data system for prostate-specific membrane antigen (PSMA)-targeted positron emission tomography (PET) imaging studies, termed PSMA-RADS version 1.0, was introduced. We aimed to determine the interobserver agreement for applying PSMA-RADS to imaging interpretation of 18F-DCFPyL PET examinations in a prospective setting mimicking the typical clinical work-flow at a prostate cancer referral center.
Methods: Four readers (two experienced readers (ER, > 3 years of PSMA-targeted PET interpretation experience) and two inexperienced readers (IR, < 1 year of experience)), who had all read the initial publication on PSMA-RADS 1.0, assessed 50 18F-DCFPyL PET/computed tomography (CT) studies independently. Per scan, a maximum of 5 target lesions were selected by the observers and a PSMA-RADS score for every target lesion was recorded. No specific pre-existing conditions were placed on the selection of the target lesions, although PSMA-RADS 1.0 suggests that readers focus on the most highly avid or largest lesions. An overall scan impression based on PSMA-RADS was indicated and interobserver agreement rates on a target lesion-based, on an organ-based, and on an overall PSMA-RADS score-based level were computed.
Results: The number of target lesions identified by each observer were as follows: ER 1, 123; ER 2, 134; IR 1, 123; and IR 2, 120. Among those selected target lesions, 125 were chosen by at least two individual observers (all four readers selected the same target lesion in 58/125 (46.4%) instances, three readers in 40/125 (32%) and two observers in 27/125 (21.6%) instances). The interobserver agreement for PSMA-RADS scoring among identical target lesions was good (intraclass correlation coefficient (ICC) for four, three and two identical target lesions, ≥0.60, respectively). For lymph nodes, an excellent interobserver agreement was derived (ICC=0.79). The interobserver agreement for an overall scan impression based on PSMA-RADS was also excellent (ICC=0.84), with a significant difference for ER (ICC=0.97) vs. IR (ICC=0.74, P=0.005).
Conclusions: PSMA-RADS demonstrates a high concordance rate in this study, even among readers with different levels of experience. This suggests that PSMA-RADS can be effectively used for communication with clinicians and can be implemented in the collection of data for large prospective trials.
Background
CXCR4-directed positron emission tomography/computed tomography (PET/CT) has been used as a diagnostic tool in patients with solid tumors. We aimed to determine a potential correlation between tumor burden and radiotracer accumulation in normal organs.
Methods
Ninety patients with histologically proven solid cancers underwent CXCR4-targeted [\(^{68}\)Ga]Ga-PentixaFor PET/CT. Volumes of interest (VOIs) were placed in normal organs (heart, liver, spleen, bone marrow, and kidneys) and tumor lesions. Mean standardized uptake values (SUV\(_{mean}\)) for normal organs were determined. For CXCR4-positive tumor burden, maximum SUV (SUV\(_{max}\)), tumor volume (TV), and fractional tumor activity (FTA, defined as SUV\(_{mean}\) x TV), were calculated. We used a Spearman's rank correlation coefficient (ρ) to derive correlative indices between normal organ uptake and tumor burden.
Results
Median SUV\(_{mean}\) in unaffected organs was 5.2 for the spleen (range, 2.44 – 10.55), 3.27 for the kidneys (range, 1.52 – 17.4), followed by bone marrow (1.76, range, 0.84 – 3.98), heart (1.66, range, 0.88 – 2.89), and liver (1.28, range, 0.73 – 2.45). No significant correlation between SUV\(_{max}\) in tumor lesions (ρ ≤ 0.189, P ≥ 0.07), TV (ρ ≥ -0.204, P ≥ 0.06) or FTA (ρ ≥ -0.142, P ≥ 0.18) with the investigated organs was found.
Conclusions
In patients with solid tumors imaged with [\(^{68}\)Ga]Ga-PentixaFor PET/CT, no relevant tumor sink effect was noted. This observation may be of relevance for therapies with radioactive and non-radioactive CXCR4-directed drugs, as with increasing tumor burden, the dose to normal organs may remain unchanged.
Kisspeptins (KPs, KISS1) and their receptor (KISS1R) play a pivotal role as metastasis suppressor for many cancers. Low or lost KP expression is associated with higher tumor grade, increased metastatic potential, and poor prognosis. Therefore, KP expression has prognostic relevance and correlates with invasiveness in cancers. Furthermore, KISS1R represents a very promising target for molecular imaging and therapy for KISS1R-expressing tumors. The goal of this study was to evaluate the developed KISS1-54 derivative, [\(^{68}\)Ga]KISS1-54, as a PET-imaging probe for KISS1R-expressing tumors. The NODAGA-KISS1-54 peptide was labeled by Gallium-68, and the stability of the resulting [\(^{68}\)Ga]KISS1-54 evaluated in injection solution and human serum, followed by an examination in different KISS1R-expressing tumor cell lines, including HepG2, HeLa, MDA-MB-231, MCF7, LNCap, SK-BR-3, and HCT116. Finally, [\(^{68}\)Ga]KISS1-54 was tested in LNCap- and MDA-MB-231-bearing mice, using µ-PET, assessing its potential as an imaging probe for PET. [\(^{68}\)Ga]KISS1-54 was obtained in a 77 ± 7% radiochemical yield and at a >99% purity. The [\(^{68}\)Ga]KISS1-54 cell uptake amounted to 0.6–4.4% per 100,000 cells. Moreover, the accumulation of [\(^{68}\)Ga]KISS1-54 was effectively inhibited by nonradioactive KISS1-54. In [\(^{68}\)Ga]KISS1-54-PET, KISS1R-positive LNCap-tumors were clearly visualized as compared to MDA-MB-231-tumor implant with predominantly intracellular KISS1R expression. Our first results suggest that [\(^{68}\)Ga]KISS1-54 is a promising candidate for a radiotracer for targeting KISS1R-expressing tumors via PET.
Background: Precise regional quantitative assessment of renal function is limited with conventional \(^{99m}\)Tc-labeled renal radiotracers. A recent study reported that the positron emission tomography (PET) radiotracer 2-deoxy-2-(\(^{18}\)F-fluorosorbitol (\(^{18}\)F-FDS) has ideal pharmacokinetics for functional renal imaging. Furthermore, (\(^{18}\)F-FDS is available via simple reduction from routinely used 2-deoxy-2-(\(^{18}\)F-fluoro-D-glucose ((\(^{18}\)F-FDG). We aimed to further investigate the potential of (\(^{18}\)F-FDS PET as a functional renal imaging agent using rat models of kidney diseases.
Methods: Two different rat models of renal impairment were investigated: Glycerol induced acute renal failure (ARF) by intramuscular administration of glycerol in hind legs and unilateral ureteral obstruction (UUO) by ligation of the left ureter. 24h after these treatments, dynamic 30 min 18F-FDS PET data were acquired using a dedicated small animal PET system. Urine 18F-FDS radioactivity 30 min after radiotracer injection was measured together with co-injected \(^{99m}\)Tc-diethylenetriaminepentaacetic acid (\(^{99m}\)Tc-DTPA) urine activity. Results: Dynamic PET imaging demonstrated rapid (\(^{18}\)F-FDS accumulation in the renal cortex and rapid radiotracer excretion via kidneys in control healthy rats. On the other hand, significantly delayed renal radiotracer uptake (continuous slow uptake) was observed in ARF rats and UUO-treated kidneys. Measured urine radiotracer concentrations of (\(^{18}\)F-FDS and \(^{99m}\)Tc-DTPA were well correlated (R=0.84, P<0.05).
Conclusions: (\(^{18}\)F-FDS PET demonstrated favorable kinetics for functional renal imaging in rat models of kidney diseases. Advantages of high spatiotemporal resolution of PET imaging and simple tracer production could potentially complement or replace conventional renal scintigraphy in select cases and significantly improve the diagnostic performance of renal functional imaging.
Die präklinische Forschung stellt den ersten wichtigen Meilenstein in der Klärung und Untersuchung klinisch-relevanter Erkrankungen dar. Darüber hinaus unterstützt die präklinische Forschung erheblich die Entwicklung von Therapien. Die Kleintier-Positronenemissionstomographie (µ-PET) spielt dabei eine wichtige Rolle, da sie in der Lage ist, funktionelle, physiologische und biochemische Prozesse in vivo darzustellen und zu quantifizieren. Trotz diverser etablierter PET-Datenauswertungs-Programme bleibt die Analyse von in vivo akquirierten Bilddaten aufgrund der Vielzahl an medizinischen Fragestellungen, der Komplexität der Krankheitsbilder, sowie der Etablierung neuer Radiotracer weiterhin eine große Herausforderung in der Medizin. Ziel dieser Doktorarbeit ist es daher, ein geeignetes, brauchbares Auswertungstool für eine einfache und effiziente Analyse von akquirierten µ-PET-Daten zu entwickeln und zu etablieren, welches das Spektrum bereits vorhandener Programme erweitert. Das entwickelte nuklearmedizinische Datenverarbeitungs-Analyseprogramm (engl. nuclear medicine data processing analysis tool, NU_DPA) wurde in Matlab implementiert und anhand dreier präklinischer Versuchs- bzw. Testreihen erprobt und etabliert. Bei den Datenreihen handelt es sich um µ-PET-Datensätze verschiedener Schlaganfall-Rattenhirnmodelle unter Verwendung folgender Radiotracer. Zum einen die im Gehirn homogen akkumulierende 2-[18F]Fluor-2-desoxy-glukose ([18F]FDG) zum anderen das spezifisch an P-Selektin anreichernde [68Ga]Fucoidan.
Das NU_DPA umfasst die automatische Selektion des Zielvolumens (volume-of-interest, VOI) aus dem vollständigen PET-Bild und die anschließende Ausrichtung des VOI mit Hilfe eines PET-Templates (gemittelter PET-Datensatz). Dieses PET Template wird aus den eigenen akquirierten PET-Daten erstellt. Durch das Einbinden eines geeigneten anatomischen MRT-Atlas‘ (anpassbar) können die ausgerichteten PET-Daten einzelnen, Atlas-spezifischen Teilregionen zugeordnet werden. Eine solche Subklassifikation des VOI erlaubt eine genauere Betrachtung und Auswertung der Radiotracer-Akkumulation.
Des Weiteren bietet NU_DPA die Möglichkeit einer semiquantitativen Auswertung der PET-Bilddaten anhand von drei unterschiedlichen Parametern, der normalisierten Aktivität, dem Standardized Uptake Value und der Uptake Ratio. Durch die Matlab-integrierten Statistik-Algorithmen ist zusätzlich eine Möglichkeit der statistischen Auswertung der zuvor berechneten Parameter gegeben. Das NU_DPA-Programm stellt somit ein semi-automatisiertes Datenauswertungs-Programm dar, das sowohl die Registrierung als auch die semiquantitative Auswertung von PET-Bilddaten innerhalb einer Versuchsreihe ermöglicht und bereits erfolgreich für die Radiotracer [18F]FDG und [68Ga]Fucoidan in Tiermodellen getestet wurde. Nach derzeitigem Kenntnisstand ist kein Datenauswertungs-Programm bekannt, das PET-Bilddaten unter Verwendung des hinzugefügten Atlas‘ semi-automatisiert analysieren kann und potenziell für homogene und Target-spezifisch akkumulierende Radiotracer geeignet ist.
Einleitung: Ultraschall wird seit mehr als 50 Jahren in der Medizin eingesetzt und ist mittlerweile ein unverzichtbares diagnostisches Verfahren, es erlaubt eine nicht-invasive Darstellung der Morphologie und Funktion von Organen in Echtzeit. In der Kleintierbildgebung dominieren bisher zur morphologischen Bildgebung Computertomographie (CT) und Magnetresonanztomographie (MRT). Daher wurde in der vorliegenden Arbeit die Idee entwickelt, die morphologischen Informationen des 3D-Ultraschalls (3D-US) für Untersuchungen an Kleintieren zu verwenden, außerdem sollten Methoden zur multimodalen Bildgebung und Bildfusion von 3D-US und Kleintier-Positronenemissionstomographie (PET) entwickelt werden. Der Vorteil des Ultraschalls gegenüber dem Kleintier-CT liegt in der fehlenden Strahlenbelastung und der guten Verfügbarkeit, was besonders für Verlaufsstudien von Interesse ist. Methoden und Ergebnisse: Zur Bildoptimierung wurde ein Fadenphantom entwickelt, welches aufgrund der feinen Strukturen die qualitative als auch quantitative Bestimmung der Auflösung ermöglicht. Die Vorarbeiten am Fadenphantom konnten exzellent die Probleme des 3D-Ultraschalls mit der achsenabhängigen Auflösung zeigen und ermöglichten eine schnelle Beurteilung der Bildqualität. Hier bestehen Einsatzmöglichkeiten in der Bewertung verschiedener Ultraschallgeräte bezüglich der Tauglichkeit für 3D-Datenaquisition. Zur reproduzierbaren Lagerung von Mäusen wurde eine Schallkopfführung ein sowohl für 3D-US als auch Kleintier-PET kompatibler Tierhalter entwickelt. Die Maus lag zur Untersuchung im angewärmten Wasserbad auf dem Tierhalter fixiert, mit Inhalationsanästhesie und Sauerstoff über eine Atemmaske versorgt. Der Zeitaufwand für eine 3D-US-Untersuchung betrug für die Akquisition etwa eine Minute. Die generierten Ultraschalldatensätze waren von guter Qualität, Strukturen wie Leber, Nieren, Blase, Wirbelsäule und Lunge konnten selbst bei kleinen Mäusen von unter 20 Gramm Körpergewicht gut dargestellt werden. Zur Validierung des 3D-Ultraschalls wurde das Volumen verschiedener Organe und Tumore bestimmt und mit dem Goldstandard verglichen. Um die Koregistrierung mit der Kleintier-PET zu ermöglichen, wurden auf dem Tierhalter drei „fiducial markers“ angebracht, die Position und Orientierung eindeutig definieren. Die Kleintier-PET-Untersuchungen wurden nach standardisierten Protokollen durchgeführt. Die anschließende Bildfusion erfolgte mittels der frei verfügbaren Software "Amide". Diskussion: Mit dem in dieser Arbeit beschriebenen Verfahren ist eine standardisierte Gewinnung von 3D-US-Datensätzen an Kleintieren möglich; zusätzlich konnte die Machbarkeit der Bildfusion mit PET-Datensätzen gezeigt werden. Der Einsatz des 3D-Ultraschalls in longitudinalen Studien, zum Beispiel zur Beurteilung der Tumorprogression, ist vorstellbar. Die Zuverlässigkeit der volumetrischen Berechnungen ist für größere Organvolumina gut, bei kleineren Volumina besteht noch Optimierungsbedarf. Weitere Verbesserungen könnten durch den Einsatz von speziellen Schallköpfen und höheren Schallfrequenzen erzielt werden.
Das Multiple Myelom (MM) ist eine maligne hämatologische Erkrankung, die trotz großer Fortschritte in der Therapie immer noch eine schlechte Prognose hat.
Bisher ist es nicht möglich, mit einem bildgebenden Verfahren alle Fragen der Diagnostik, der Stadieneinteilung, des Therapiemonitorings und der Evaluation der Prognose des Multiplen Myeloms zu klären. Da es sich beim Multiplen Myelom aber um eine stark heterogene Erkrankung handelt, die eine frühzeitige individuelle Therapie erfordert, ist es unbedingt nötig Verfahren zu entwickeln, die eine spezifische Charakterisierung der Erkrankung bei jedem einzelnen Patienten ermöglichen.
In der vorliegenden Arbeit wurden die MM-Zelllinien INA-6, MM.1S und OPM-2 mit dem Proteasominhibitor MLN9708 behandelt. Behandelte und unbehandelte Zellen wurden mit dem Standardtracer 2-[18F]-Fluoro-2-Desoxy-D-Glukose (18F-FDG) oder dem in der Anwendung beim Multiplen Myelom neuen Aminosäuretracer [11C]-Methionin (11C-MET) inkubiert und die Aufnahme der Tracer zu bestimmten Zeitpunkten gemessen. Des Weiteren wurde die Ausprägung biologischer Merkmale der MM-Pathogenese bei behandelten und unbehandelten Zellen untersucht. Anschließend wurde ermittelt, ob ein Zusammenhang zwischen der Höhe der Traceraufnahme und der Ausprägung biologischer Merkmale der MM-Pathogenese bei behandelten und unbehandelten Zellen besteht.
Hierdurch soll geklärt werden, ob 11C-MET besser zur Diagnostik, dem Therapiemonitoring und der Evaluation der Prognose des Multiplen Myeloms geeignet ist als der Standardtracer 18F-FDG.
Es zeigte sich eine signifikant höhere 11C-MET-Aufnahme sowohl unbehandelter als auch behandelter Zellen im Vergleich zu 18F-FDG. Außerdem war eine Unterscheidung zwischen behandelten und unbehandelten Zellen mit 11C-MET besser möglich als mit 18F-FDG. Zwischen Traceraufnahme und biologischen Merkmalen der MM-Pathogenese, wie Proliferation, Expression von intrazellulären Leichtketten, CXCR4 und CD138, ergaben sich für behandelte und unbehandelte Zellen variable Zusammenhänge.
Die Ergebnisse legen nahe, dass 11C-MET besser zur Diagnostik und zum Therapiemonitoring des Multiplen Myeloms geeignet ist als der Standardtracer 18F-FDG.
Ob 11C-MET auch zur Stadieneinteilung und zur Evaluation der Prognose des Multiplen Myeloms besser geeignet ist als 18F-FDG, muss in weiteren Studien untersucht werden.
Das orale Plattenepithelkarzinom zählt zu den häufigen Krebserkrankungen in Deutschland. Das Vorhandensein von zervikalen Lymphknotenmetastasen ist dabei einer der wichtigsten prognostischen Faktoren.
Für die Therapieplanung ist eine zuverlässige präoperative Diagnostik unerlässlich. Etablierte bildgebende Stagingverfahren (Sonographie, MRT, CT) orientieren sich allein an morphologischen Kriterien. Die PET/CT verspricht durch die Kombination funktioneller und morphologischer Verfahren die Detektion lymphoregionärer Metastasen. Ein weiterer Vorteil scheint der Nachweis simultaner Zweitmalignome und Fernmetastasen zu sein.
135 Patienten mit einem primären oralen Plattenepithelkarzinom erhielten im Rahmen der präoperativen Staginguntersuchungen eine PET/CT-Untersuchung. Untersucht wurde der korrekte Nachweis (Sensitivität) bzw. Ausschluss (Spezifität) zervikaler Lymphknotenmetastasen sowie die Detektion (Trefferquote) von simultanen Zweitmalignomen durch die PET/CT.
Die PET/CT zeigte eine Sensitivität von 82,9 % und eine Spezifität von 84 %. Simultane Zweitmalignome wurden mit einer Trefferquote von 62,5 % durch die PET/CT erkannt.
Das diagnostische Potenzial konnte in unserer Studie bestätigt werden. Vergleichende Studien zu den etablierten bildgebenden Verfahren wären wünschenswert.
AimIn PET imaging, the different types of radiotracers and accumulations, as well as the diversity of disease patterns, make the analysis of molecular imaging data acquired in vivo challenging. Here, we evaluate and validate a semi-automated MRI template-based data analysis tool that allows preclinical PET images to be aligned to a self-created PET template. Based on the user-defined volume-of-interest (VOI), image data can then be evaluated using three different semi-quantitative parameters: normalized activity, standardized uptake value, and uptake ratio.
Materials and MethodsThe nuclear medicine Data Processing Analysis tool (NU_DPA) was implemented in Matlab. Testing and validation of the tool was performed using two types of radiotracers in different kinds of stroke-related brain diseases in rat models. The radiotracers used are 2-[\(^{18}\)F]fluoro-2-deoxyglucose ([\(^{18}\)F]FDG), a metabol\(^{68}\)Ga]Ga-Fucoidan, a target-selective radioligand specifically binding to p-selectin. After manual image import, the NU_DPA tool automatically creates an averaged PET template out of the acquired PET images, to which all PET images are then aligned onto. The added MRI template-based information, resized to the lower PET resolution, defines the VOI and also allows a precise subdivision of the VOI into individual sub-regions. The aligned PET images can then be evaluated semi-quantitatively for all regions defined in the MRI atlas. In addition, a statistical analysis and evaluation of the semi-quantitative parameters can then be performed in the NU_DPA tool.
ResultsUsing ischemic stroke data in Wistar rats as an example, the statistical analysis of the tool should be demonstrated. In this [\(^{18}\)F]FDG-PET experiment, three different experimental states were compared: healthy control state, ischemic stroke without electrical stimulation, ischemic stroke with electrical stimulation. Thereby, statistical data evaluation using the NU_DPA tool showed that the glucose metabolism in a photothrombotic lesion can be influenced by electrical stimulation.
ConclusionOur NU_DPA tool allows a very flexible data evaluation of small animal PET data in vivo including statistical data evaluation. Using the radiotracers [\(^{18}\)F]FDG and [\(^{68}\)Ga]Ga-Fucoidan, it was shown that the semi-automatic MRI-template based data analysis of the NU_DPA tool is potentially suitable for both metabolic radiotracers as well as target-selective radiotracers.
C-X-C-motif chemokine receptor 4 (CXCR4) is a key factor for tumor growth and metastasis in several types of human cancer. We have recently reported promising first-in-man experience with CXCR4-directed endoradiotherapy (ERT) in multiple myeloma (MM).
Eight heavily pretreated MM patients underwent a total of 10 ERT cycles (7 patients with 1 cycle and a single patient with 3 cycles). ERT was administered in combination with chemotherapy and autologous stem cell support. End points were occurrence and timing of adverse events, progression-free and overall survival.
ERT was overall well tolerated without any unexpected acute adverse events or changes in vital signs. With absorbed tumor doses >30-70 Gy in intra- or extramedullary lesions, significant anti-myeloma activity was observed with 1 patient achieving complete remission and 5/8 partial remission. Directly after ERT major infectious complications were seen in one patient who died from sepsis 22 days after ERT, another patient with high tumor burden experienced lethal tumor lysis syndrome. Median progression-free survival was 54 days (range, 13-175), median overall survival was 223 days (range, 13-313). During follow-up (6 patients available), one patient died from infectious complications, 2/8 from disease progression, the remaining 3/8 patients are still alive.
CXCR4-directed ERT was well-tolerated and exerted anti-myeloma activity even at very advanced stage MM with presence of extramedullary disease. Further assessment of this novel treatment option is highly warranted.
Objective: We investigated cerebral opioid receptor binding potential in patients with fibromyalgia syndrome (FMS) using positron-emission-tomography (PET) and correlated our results with patients’ systemic interleukin-4 (IL-4) gene expression.
Methods: In this pilot study, seven FMS patients (1 man, 6 women) agreed to participate in experimental PET scans. All patients underwent neurological examination, were investigated with questionnaires for pain, depression, and FMS symptoms. Additionally, blood for IL-4 gene expression analysis was withdrawn at two time points with a median latency of 1.3 years. Patients were investigated in a PET scanner using the opioid receptor ligand F-18-fluoro-ethyl-diprenorphine ([18F]FEDPN) and results were compared with laboratory normative values.
Results: Neurological examination was normal in all FMS patients. Reduced opioid receptor binding was found in mid cingulate cortex compared to healthy controls (p < 0.005). Interestingly, three patients with high systemic IL-4 gene expression had increased opioid receptor binding in the fronto-basal cortex compared to those with low IL-4 gene expression (p < 0.005).
Conclusion: Our data give further evidence for a reduction in cortical opioid receptor availability in FMS patients as another potential central nervous system contributor to pain in FMS.
Durch die Verwendung radioaktiver Substanzen mit ihrer schädigenden Wirkung auf den menschlichen Körper besteht in der Positronen-Emissions-Tomographie (PET) ein fortwährendes Interesse an der Reduktion der applizierten Dosis bei gleichbleibender Qualität der Ergebnisse. Zusätzlich ist im Hinblick auf die Wirtschaftlichkeit der Systeme eine Reduktion sowohl der Akquisitions- als auch der Rekonstruktionszeit erstrebenswert. In dieser Arbeit werden zwei Möglichkeiten vorgestellt, diese Ziele durch den Einsatz von Compressed Sensing (CS) zu erreichen.
Neben der Entwicklung neuartiger Rekonstruktionsalgorithmen können Filtertechniken eingesetzt werden, um eine qualitative Verbesserung rekonstruierter Bilder zu erzielen. Der Vorteil eines Filters besteht unter anderem darin, dass diese retrospektiv angewandt werden können. Es ist folglich möglich, die Qualität eines Bildes zu überprüfen und lediglich im Bedarfsfall einen Filter einzusetzen.
Die Technik des CS war in den letzten Jahren Gegenstand zahlreicher Forschungsarbeiten im Bereich der Bildgebung, insbesondere in der Magnetresonanztomographie und der Computertomographie (CT). Mit CS könnten bildgebende Verfahren wie die CT oder die PET mit weniger Messungen durchgeführt werden, wodurch sich die Messzeit und die Strahlenexposition reduziert. In der molekularen Bildgebung mit der PET ist CS jedoch weitgehend unbekannt.
Im ersten Teil dieser Dissertation wird eine Methode vorgestellt, welche CS als Filtertechnik in der PET einsetzt. Den Ausgangspunkt stellt ein vollständiger, analytisch rekonstruierter Datensatz dar. Dieser wird mit einer Reihe unterschiedlicher Abtastmuster retrospektiv unterabgetastet und jeweils erneut, unter Verwendung von CS rekonstruiert. Im rauschfreien Fall würde CS stets das Originalbild liefern. Das überlagerte Rauschen führt jedoch zu Artefakten und einer Verschlechterung des Ergebnisses. CS kann nun einerseits das Rauschen vermindern. Andererseits ist es durch die Mittelung mehrerer unterschiedlicher Rekonstruktionen möglich, die Artefakte zu reduzieren. Auf diesem Weg kann die Bildqualität signifikant verbessert werden. Es konnte gezeigt werden, dass die Technik sowohl für 2D, als auch für 3D Datensätze verwendet werden kann. Die größten qualitativen Verbesserungen werden erzielt, wenn der Datensatz lediglich aus wenigen Ereignissen besteht. In diesem Fall ist die Bildqualität der analytischen Rekonstruktionen extrem schlecht, die Verbesserung durch die Filtertechnik mit CS und die damit verbundene Erhöhung des Signal-Rausch-Verhältnisses jedoch am größten. Bei diesen Datensätzen können die Ergebnisse iterativer Rekonstruktionen übertroffen werden. In der Praxis wäre damit ein Einsatz speziell bei dynamischen oder getriggerten Aufnahmen denkbar. In beiden Fällen basieren die Rekonstruktionen nicht selten auf wenigen Ereignissen. Die resultierenden Bilder sind häufig von schlechter Qualität, womit eine Verbesserung durch Filterung sinnvoll ist.
Der zweite Teil dieser Arbeit beschäftigt sich mit der Rohdaten-basierten Triggerung am Kleintier-PET sowie mit dem Einsatz von CS zur Reduktion der Rekonstruktionszeit. Frühere Veröffentlichungen zeigten bereits die Anwendbarkeit Rohdaten-basierter Triggermethoden bei humanen Datensätzen. Im Hinblick auf eine präklinische Anwendung, speziell bei Datensätzen mit dem Fokus auf Mäuseherzen, existieren jedoch nur wenige Studien. In dieser Arbeit wird gezeigt, dass die segmentierte Methode des Massenschwerpunkts (COMseg) eine Technik darstellt, welche die kardiale Triggerung sowohl bei Datensätzen von Ratten, als auch von Mäusen erlaubt.
Ein nicht zu unterschätzender Nachteil der COMseg besteht darin, dass vor deren Anwendung die List-Mode Datei in kleine Zeitframes unterteilt und in Sinogramme sortiert werden muss. Auf jedes Sinogramm wird im Anschluss ein Rebinning Algorithmus angewandt. Dies stellt einen enormen Zeitaufwand dar, wodurch sich eine Anwendung bei größeren Studien in der Praxis als schwierig erweist. Ziel der Triggermethoden ist die Gewinnung eines Triggersignals, durch welches beispielsweise der Herzschlag in mehrere Phasen aufgeteilt werden kann. Das Triggersignal hat für gewöhnlich eine dünnbesetzte Repräsentation im Frequenzraum. Dieses Vorwissen ermöglicht den Einsatz von CS. Anstelle des vollständigen Datensatzes wurde lediglich ein Teil der Daten in kleine Zeitframes sortiert und mit der COMseg ausgewertet. Aus diesem unterabgetasteten Datensatz wird mit Hilfe von CS das vollständige Triggersignal rekonstruiert. Die Stärke der Unterabtastung entspricht in etwa dem Faktor der Reduktion der Rekonstruktionszeit. Auf diesem Weg ist es möglich, eine signifikante Beschleunigung zu erzielen. Die Anwendung dieser Technik ist jedoch nicht auf die COMseg beschränkt. Prinzipiell kann das Verfahren bei allen Methoden der Rohdaten-basierten Triggerung angewandt werden, welche es erlauben, die Abtastpunkte des Signals separat zu berechnen. Damit werden Algorithmen interessant, deren Einsatz aufgrund aufwändiger Berechnungen bislang in der Praxis nicht sinnvoll war.
Zusammenfassend legen die in dieser Arbeit vorgestellten Daten nahe, dass CS ein neuartiges Werkzeug in der PET darstellen könnte, mit welchem eine Filterung von Bildern sowie eine Reduktion der Rekonstruktionszeit möglich ist.
Background
Traumatic brain injury (TBI) is a major cause of death and disability. Neuroinflammation contributes to acute damage after TBI and modulates long-term evolution of degenerative and regenerative responses to injury. The aim of the present study was to evaluate the relationship of microglia activation to trauma severity, brain energy metabolism, and cellular reactions to injury in a mouse closed head injury model using combined in vivo PET imaging, ex vivo autoradiography, and immunohistochemistry.
Methods
A weight-drop closed head injury model was used to produce a mixed diffuse and focal TBI or a purely diffuse mild TBI (mTBI) in C57BL6 mice. Lesion severity was determined by evaluating histological damage and functional outcome using a standardized neuroscore (NSS), gliosis, and axonal injury by immunohistochemistry. Repeated intra-individual in vivo μPET imaging with the specific 18-kDa translocator protein (TSPO) radioligand [\(^{18}\)F]DPA-714 was performed on day 1, 7, and 16 and [\(^{18}\)F]FDG-μPET imaging for energy metabolism on days 2–5 after trauma using freshly synthesized radiotracers. Immediately after [\(^{18}\)F]DPA-714-μPET imaging on days 7 and 16, cellular identity of the [\(^{18}\)F]DPA-714 uptake was confirmed by exposing freshly cut cryosections to film autoradiography and successive immunostaining with antibodies against the microglia/macrophage marker IBA-1.
Results
Functional outcome correlated with focal brain lesions, gliosis, and axonal injury. [\(^{18}\)F]DPA-714-μPET showed increased radiotracer uptake in focal brain lesions on days 7 and 16 after TBI and correlated with reduced cerebral [\(^{18}\)F]FDG uptake on days 2–5, with functional outcome and number of IBA-1 positive cells on day 7. In autoradiography, [\(^{18}\)F]DPA-714 uptake co-localized with areas of IBA1-positive staining and correlated strongly with both NSS and the number of IBA1-positive cells, gliosis, and axonal injury. After mTBI, numbers of IBA-1 positive cells with microglial morphology increased in both brain hemispheres; however, uptake of [\(^{18}\)F]DPA-714 was not increased in autoradiography or in μPET imaging.
Conclusions
[\(^{18}\)F]DPA-714 uptake in μPET/autoradiography correlates with trauma severity, brain metabolic deficits, and microglia activation after closed head TBI.
Serotonin (5-hydroxytryptamine, 5-HT) as well as noradrenaline (NA) are key modulators of various fundamental brain functions including the control of appetite. While manipulations that alter brain serotoninergic signaling clearly affect body weight, studies implicating 5-HT transporters and NA transporters (5-HTT and NAT, respectively) as a main drug treatment target for human obesity have not been conclusive. The aim of this positron emission tomography (PET) study was to investigate how these central transporters are associated with changes of body weight after 6 months of dietary intervention or Roux-en-Y gastric bypass (RYGB) surgery in order to assess whether 5-HTT as well as NAT availability can predict weight loss and consequently treatment success. The study population consisted of two study cohorts using either the 5-HTT-selective radiotracer [\(^{11}\)C]DASB to measure 5-HTT availability or the NAT-selective radiotracer [\(^{11}\)C]MRB to assess NAT availability. Each group included non-obesity healthy participants, patients with severe obesity (body mass index, BMI, >35 kg/m\(^2\)) following a conservative dietary program (diet) and patients undergoing RYGB surgery within a 6-month follow-up. Overall, changes in BMI were not associated with changes of both 5-HTT and NAT availability, while 5-HTT availability in the dorsal raphe nucleus (DRN) prior to intervention was associated with substantial BMI reduction after RYGB surgery and inversely related with modest BMI reduction after diet. Taken together, the data of our study indicate that 5-HTT and NAT are involved in the pathomechanism of obesity and have the potential to serve as predictors of treatment outcomes.
Einleitung: Die linksventrikuläre diastolische Dysfunktion (LVDD) ist bei Diabetikern noch vor Entwicklung einer klinisch apparenten Herzinsuffizienz eines der ersten Anzeichen einer kardialen Beteiligung. Daher soll in dieser Studie untersucht werden, ob die LVDD mit ECG-gated F-18-FDG PET in einem Diabetes-Rattenmodell dargestellt werden kann.
Methodik: Es wurden F-18-FDG PET Scans in einem Typ-2-Diabetes Rattenmodell (ZDF fa/fa, n=6) und in ZL Kontrollen (n=6) vorgenommen (Alter, jeweils 13 Wochen). Unter Hyperinsulinemic-Euglycemic Clamp-Technik wurden 37 MBq 18F-FDG über die Schwanzvene appliziert. 15-35 Minuten nach Tracergabe wurden mittels eines Kleintier-PET-Scanners sowie unter EKG-Ableitung PET Scans angefertigt (16 frames/cardiac cycle). Die linksventrikuläre Ejektionsfraktion (EF) und die Peak Füllrate (PFR) wurden mittels einer geeigneten Software (Heart Function View) gemessen, wobei die Software an die Größe des Rattenherzes angepasst wurde.
Ergebnisse: Im Alter von 13 Wochen entwickeln ZDF Diabetes-Ratten eine im Vergleich zu Kontrolltieren eine signifikante myokardiale Hypertrophie, bestätigt durch post-mortem Analyse des Herzgewichtes (994±78mg vs. 871±44mg in ZDF Diabetes-Ratten vs. ZL Kontrollen, p<0.01). ECG-gated PET zeigte eine signifikante Abnahme der LV diastolischen PFR (10.4±0.5 vs. 11.8±0.4 EDV/sec in ZDF Diabetes-Ratten vs. ZL Kontrollen, p<0.001), jedoch zeigte sich kein signifikanter Unterschied zwischen LVEF und der Herzfrequenz in den untersuchten ZDF Diabetes-Ratten und Kontrollen (LVEF: 60.0±4.5 vs. 63.7±4.1%, n.s. und HR: 305±25 vs. 323±24 bpm, n.s.).
Schlussfolgerung: Im Diabetes-Ratten-Modell kann unter Verwendung eines ECG-gated FDG-PET Protokolls die diastolische Dysfunktion als Parameter der frühen diabetischen Kardiomyopathie nachgewiesen werden.
(1) Background: We aimed to quantitatively investigate [\(^{68}\)Ga]Ga-FAPI-04 uptake in normal organs and to assess a relationship with the extent of FAPI-avid tumor burden. (2) Methods: In this single-center retrospective analysis, thirty-four patients with solid cancers underwent a total of 40 [\(^{68}\)Ga]Ga-FAPI-04 PET/CT scans. Mean standardized uptake values (SUV\(_{mean}\)) for normal organs were established by placing volumes of interest (VOIs) in the heart, liver, spleen, pancreas, kidneys, and bone marrow. Total tumor burden was determined by manual segmentation of tumor lesions with increased uptake. For tumor burden, quantitative assessment included maximum SUV (SUV\(_{max}\)), tumor volume (TV), and fractional tumor activity (FTA = TV × SUV\(_{mean}\)). Associations between uptake in normal organs and tumor burden were investigated by applying Spearman's rank correlation coefficient. (3) Results: Median SUV\(_{mean}\) values were 2.15 in the pancreas (range, 1.05–9.91), 1.42 in the right (range, 0.57–3.06) and 1.41 in the left kidney (range, 0.73–2.97), 1.2 in the heart (range, 0.46–2.59), 0.86 in the spleen (range, 0.55–1.58), 0.65 in the liver (range, 0.31–2.11), and 0.57 in the bone marrow (range, 0.26–0.94). We observed a trend towards significance for uptake in the myocardium and tumor-derived SUV\(_{max}\) (ρ = 0.29, p = 0.07) and TV (ρ = −0.30, p = 0.06). No significant correlation was achieved for any of the other organs: SUV\(_{max}\) (ρ ≤ 0.1, p ≥ 0.42), TV (ρ ≤ 0.11, p ≥ 0.43), and FTA (ρ ≤ 0.14, p ≥ 0.38). In a sub-analysis exclusively investigating patients with high tumor burden, significant correlations of myocardial uptake with tumor SUV\(_{max}\) (ρ = 0.44; p = 0.03) and tumor-derived FTA with liver uptake (ρ = 0.47; p = 0.02) were recorded. (4) Conclusions: In this proof-of-concept study, quantification of [\(^{68}\)Ga]Ga-FAPI-04 PET showed no significant correlation between normal organs and tumor burden, except for a trend in the myocardium. Those preliminary findings may trigger future studies to determine possible implications for treatment with radioactive FAP-targeted drugs, as higher tumor load or uptake may not lead to decreased doses in the majority of normal organs.
Background and Objectives
To analyze the impact of humidity and temperature on excimer laser ablation of polyethylene terephthalate (PET), polymethylmethacrylate (PMMA) and porcine corneal tissue, and an ablation model to compensate for the temperature and humidity changes on ablation efficiency.
Study Design/Materials and Methods
The study was conducted using an AMARIS 1050RS (Schwind eye‐tech‐solutions) placed inside a climate chamber at ACTS. Ablations were performed on PET, PMMA, and porcine cornea. The impact of a wide range of temperature (~18°C to ~30°C) and relative humidity (~25% to ~80%) on laser ablation outcomes was tested using nine climate test settings. For porcine eyes, change in defocus was calculated from the difference of post‐ablation to pre‐ablation average keratometry readings. Laser scanning deflectometry was performed to measure refractive change achieved in PMMA. Multiple linear regression was performed using the least square method with predictive factors: temperature, relative humidity, time stamp. Influence of climate settings was modeled for pulse energy, pulse fluence, ablation efficiency on PMMA and porcine cornea tissue.
Results
Temperature changes did not affect laser pulse energy, pulse fluence (PET), and ablation efficiency (on PMMA or porcine corneal tissue) significantly. Changes in relative humidity were critical and significantly affected laser pulse energy, high fluence and low fluence. The opposite trend was observed between the ablation performance on PMMA and porcine cornea.
Conclusions
The proposed well‐fitting multi‐linear model can be utilized for compensation of temperature and humidity changes on ablation efficiency. Based on this model, a working window for optimum operation has been found (temperature 18°C to 28°C and relative humidity 25% to 65%) for a maximum deviation of ±2.5% in ablation efficiency in PMMA and porcine corneal tissue.
Chemokine (C-X-C motif) receptor 4 (CXCR4) is a key factor for tumor growth and metastasis in several types of human cancer including multiple myeloma (MM). Proof-of-concept of CXCR4-directed radionuclide therapy in MM has recently been reported. This study assessed the diagnostic performance of the CXCR4-directed radiotracer [\(^{68}\)Ga]Pentixafor in MM and a potential role for stratifying patients to CXCR4-directed therapies.
Thirty-five patients with MM underwent [\(^{68}\)Ga]Pentixafor-PET/CT for evaluation of eligibility for endoradiotherapy. In 19/35 cases, [\(^{18}\)F]FDG-PET/CT for correlation was available. Scans were compared on a patient and on a lesion basis. Tracer uptake was correlated with standard clinical parameters of disease activity.
[\(^{68}\)Ga]Pentixafor-PET detected CXCR4-positive disease in 23/35 subjects (66%). CXCR4-positivity at PET was independent from myeloma subtypes, cytogenetics or any serological parameters and turned out as a negative prognostic factor. In the 19 patients in whom a comparison to [\(^{18}\)F]FDG was available, [\(^{68}\)Ga]Pentixafor-PET detected more lesions in 4/19 (21%) subjects, [\(^{18}\)F]FDG proved superior in 7/19 (37%). In the remaining 8/19 (42%) patients, both tracers detected an equal number of lesions. [\(^{18}\)F]FDG-PET positivity correlated with [\(^{68}\)Ga]Pentixafor-PET positivity (p=0.018).
[\(^{68}\)Ga]Pentixafor-PET provides further evidence that CXCR4 expression frequently occurs in advanced multiple myeloma, representing a negative prognostic factor and a potential target for myeloma specific treatment. However, selecting patients for CXCR4 directed therapies and prognostic stratification seem to be more relevant clinical applications for this novel imaging modality, rather than diagnostic imaging of myeloma.