Short-axis Size Research Articles

Whole-genome sequence analysis of morphological changes in Haemophilus influenzae after beta-lactam exposure

This report describes mutations in genes responsible for cell deformities in haemophili under beta-lactam pressure in vitro. Light and transmission electron microscopy confirmed a hypothesis regarding changes in the shape of haemophili that had become more filamentous in the presence of ampicillin (2 mg/L) and cefuroxime (8 mg/L) after 30 days of serial passage. Short-axis size increased by 28% (from 0.767 to 1.06 µm) and long-axis length increased by 54% (from 1 to 2.175 µm). Additionally, whole-genome sequencing analysis (Illumina platform, software PROKKA) revealed a variety of mutations in genes responsible for cell morphology in isolates examined in this study: ftsI (A1576 → C; G1154 → C; T986 → C; G1684 → C), mreB (C476 → T), mreC (A5 → G), mrdA (A1148 → G; C179 → T; G1613 → T), mrdB (T668 → G), mltC (C1016 → T) and rodA (T668 → G). The results of this study indicate that shifts in bacterial shape could play a role in the adaptation of haemophili to a new niche created by beta-lactams as a strategy of antibiotic therapy survival.

Preoperative factors associated with lateral lymph node metastasis in lower rectal cancer and the evaluation of the middle rectal artery.

This study aimed to identify cases in which lateral lymph node (LLN) dissection (LLND) can be excluded by clarifying preoperative factors, including an evaluation of the middle rectal artery (MRA), associated with LLN metastasis. Fifty-five consecutive patients who underwent preoperative positron emission tomography-computed tomography (PET/CT) and total mesorectal excision with LLND for rectal cancer were included. We retrospectively investigated the preoperative clinical factors associated with pathological LLN (pLLN) metastasis. We analyzed the regions of pLLN metastasis using MRA. pLLN metastasis occurred in 13 (23.6%) patients. According to a multivariate analysis, clinical LLN (cLLN) metastasis based on short-axis size and LLN status based on PET/CT were independent preoperative factors of pLLN metastasis. The negative predictive value (NPV) was high (97.1%) in patients evaluated as negative based on PET/CT and cLLN short-axis size. MRA was detected in 24 patients (43.6%) using contrast-enhanced CT, and there was a significant relationship between pLLN metastasis and the presence of MRA. pLLN metastasis in the internal iliac region but not in the obturator region was significantly correlated with the presence of MRA. Combined cLLN metastasis based on short-axis size and PET/CT showed a higher NPV, suggesting this to be a useful method for identifying cases in which LLND can be excluded.

PET-CT SUVmax and Endobronchial Ultrasound Features for Prediction of Malignancy: A Prospective Study

IntroductionAccurate and early staging of lung cancer has a critical impact on its prognosis. EBUS-TBNA is often the procedure of choice for mediastinal staging. Comprehension of the likelihood of malignancy of each lymph node (LN) can assist puncture decision-making during EBUS and offer insight of the procedure expected diagnostic yield. MethodsProspective analysis of mediastinal LN of patients undergoing EBUS-TBNA from April 2021 to May 2022. The relationship between PET-CT SUVmax levels, EBUS features, and malignancy on LN was investigated. For statistical analysis, patients were assigned to 3 groups: suspected malignancy (diagnosis and/or staging), confirmed malignancy (staging) or suspected benign disease. ResultsA total of 363 LN from 132 patients (71% male, mean 62 years old) were analyzed. Among those with suspected benign disease, no LN puncture resulted in a diagnosis of malignancy. PET-CT SUVmax and short axis size were independent factors for malignancy in LN of patients who underwent EBUS for suspected (p < .001 and p = .047, respectively) or confirmed malignancy (p < .001 and p < .001, respectively). All malignant LN presented SUVmax≥1.85 (≥2.85 for staging EBUS cases) and/or short axis size ≥4.28mm. Vascularized LN were more often malignant in either those with suspected (p = .087) or confirmed (p = .095) malignancy, although not statistically significant. LN that were simultaneously vascularized and lacked central hilar structure were also more commonly malignant (p = .013). ConclusionLN that has higher SUVmax and are larger should be prioritized for puncture, followed by those vascularized and lacking central hilar structure. In staging EBUS cases, a systematic sampling (N3-N2-N1) is required and must precede any malignancy yield rationale.

Retrospective evaluation of national MRI reporting quality for lateral lymph nodes in rectal cancer patients and concordance with prospective re-evaluation following additional training

ObjectivesThe presence and size of lateral lymph nodes (LLNs) are important factors influencing treatment decisions for rectal cancer. Awareness of the clinical relevance and describing LLNs in MRI reports is therefore essential. This study assessed whether LLNs were mentioned in primary MRI reports at a national level and investigated the concordance with standardised re-review.MethodsThis national, retrospective, cross-sectional cohort study included 1096 patients from 60 hospitals treated in 2016 for primary cT3-4 rectal cancer ≤ 8 cm from the anorectal junction. Abdominal radiologists re-reviewed all MR images following a 2-h training regarding LLNs.ResultsRe-review of MR images identified that 41.0% of enlarged (≥ 7 mm) LLNs were not mentioned in primary MRI reports. A contradictory anatomical location was stated for 73.2% of all LLNs and a different size (≥/< 7 mm) for 41.7%. In total, 49.4% of all cases did not mention LLNs in primary MRI reports. Reporting LLNs was associated with stage (cT3N0 44.3%, T3N+/T4 52.8%, p = 0.013), cN stage (N0 44.1%, N1 48.6%, N2 59.5%, p < 0.001), hospital type (non-teaching 34.6%, teaching 52.2%, academic 53.2% p = 0.006) and annual rectal cancer resection volumes (low 34.8%, medium 47.7%, high 57.3% p < 0.001). For LLNs present according to original MRI reports (n = 226), 64.2% also mentioned a short-axis size, 52.7% an anatomical location and 25.2% whether it was deemed suspicious.ConclusionsAlmost half of the primary MRI reports for rectal cancer patients treated in the Netherlands in 2016 did not mention LLNs. A significant portion of enlarged LLNs identified during re-review were also not mentioned originally, with considerable discrepancies for location and size. These results imply insufficient awareness and indicate the need for templates, education and training.

Metabolic and magnetic resonance imaging: complementary modalities for the preoperative assessment of lateral pelvic lymph nodes in rectal cancer.

The management of lateral pelvic lymph nodes for rectal cancer is a topical and controversial issue. The aim of this study was to assess the relationship between lateral pelvic lymph node features on magnetic resonance imaging (MRI) and positron emission tomography-computed tomography (PET-CT) with oncological outcomes in patients with rectal cancer. A retrospective analysis of 284 patients with primary locally advanced rectal cancer treated with neoadjuvant therapy and surgical resection with curative intent between January 2003 and Dec 2018 was undertaken. From this study population, a select cohort of 77 patients with abnormal lateral pelvic lymph nodes on preoperative imaging had imaging re-analysed by radiologists blinded to clinical outcomes. Pre and post neoadjuvant therapy MRI and PET-CT lateral pelvic lymph node features were correlated with oncological outcomes. A lateral pelvic lymph node short axis size ≥5 mm on post neoadjuvant therapy MRI was a significant predictor of worse 3-year local recurrence free survival (HR 8.35, P=0.001). Lateral pelvic lymph node avidity on post neoadjuvant therapy PET-CT was a significant predictor of worse 3-year distant recurrence free survival (HR 5.62, P=0.001). No correlation of oncological outcomes with overall survival was identified. Lateral pelvic lymph node imaging features on post-neoadjuvant therapy MRI and PET-CT predicted those at risk of rectal cancer recurrence. Further studies are required to confirm these findings that suggest restaging MRI and PET-CT are complementary modalities for the preoperative assessment of lateral pelvic lymph nodes in rectal cancer.

Significant improvement after training in the assessment of lateral compartments and short-axis measurements of lateral lymph nodes in rectal cancer

ObjectivesIn patients with rectal cancer, the size and location of lateral lymph nodes (LLNs) are correlated to increased lateral local recurrence rates. Sufficient knowledge and accuracy when measuring these features are therefore essential. The objective of this study was to evaluate the variation in measurements and anatomical classifications of LLNs before and after training.MethodsFifty-three Dutch radiologists examined three rectal MRI scans and completed a questionnaire. Presence, location, size, and suspiciousness of LLNs were reported. This assessment was repeated after a 2-hour online training by the same radiologists with the same three cases plus three additional cases. Three expert radiologists independently evaluated these 6 cases and served as the standard of reference.ResultsCorrect identification of the anatomical location improved in case 1 (62 to 77% (p = .077)) and in case 2 (46 to 72% (p = .007)) but decreased in case 3 (92 to 74%, p = .453). Compared to the first three cases, cases 4, 5, and 6 all had a higher initial consensus of 73%, 79%, and 85%, respectively. The mean absolute deviation of the short-axis measurements in cases 1–3 were closer—though not significantly—to the expert reference value after training with reduced ranges and standard deviations. Subjective determination of malignancy had a high consensus rate between participants and experts.ConclusionThough finding a high consensus rate for determining malignancy of LLNs, variation in short-axis measurements and anatomical location classifications were present and improved after training. Adequate training would support the challenges involved in evaluating LLNs appropriately.Key Points• Variation was present in the assessment of the anatomical location and short-axis size of lateral lymph nodes.• In certain cases, the accuracy of short-axis measurements and anatomical location, when compared to an expert reference value, improved after a training session.• Consensus before and after training on whether an LLN was subjectively considered to be suspicious for malignancy was high.

Diagnostic Value of Multimodal Magnetic Resonance Imaging in Discriminating Between Metastatic and Non-Metastatic Pelvic Lymph Nodes in Cervical Cancer.

BackgroundThe status of pelvic lymph node (PLN) metastasis affects treatment and prognosis plans in patients with cervical cancer. However, it is hard to be diagnosed in clinical practice.PurposeThe present study aimed to evaluate the diagnostic value of multimodal magnetic resonance imaging (MRI) in discriminating between metastatic and non-metastatic pelvic lymph nodes (PLNs) in cervical cancer.MethodsThis retrospective study analyzed MRIs of 209 PLNs in 25 women with pathologically proven cervical cancer. All PLNs had been assessed by pre-treatment multimodal MRIs, and their status was finally confirmed by histopathology. In conventional MRI, lymph node characteristics were compared between metastatic and non-metastatic PLNs. Signal intensity, time–intensity curve (TIC) patterns minimal and mean apparent diffusion coefficients (ADC) were compared between them in DWI. In DCE-MRI, quantitative (Ktrans, Kep and Ve) analyses were performed on DCE-MRI sequences, and their predictive values were analyzed by ROC curves.ResultsOf 209 PLNs, 22 (10.53%) were metastases and 187 (89.47%) were non-metastases at histopathologic examination. Considering a comparison of lymph node characteristics, the short axis size, the long axis size, and the boundary differed significantly between the two groups (P<0.05).The differences in ADCmin, TIC types, Ktrans and Ve between metastatic and non-metastatic PLNs were significant as well (P<0.05). The good diagnostic performance of multimodal MRI was shown in discriminating between metastatic and non-metastatic PLNs, with the sensitivity of 85.0% (17/20), specificity of 97.3% (184/189), and accuracy of 96.2% (201/209). ROC analyses showed that the diagnostic accuracy of ADCmin, Ktrans and Ve for discriminating between metastatic and non-metastatic PLNs in cervical cancer was 83.7%, 91.4%, and 92.4% with the cut-off values of 0.72 × 10−3mm2/s, 0.52 min−1, and 0.53 min−1, respectively.ConclusionMultimodal MRI showed good diagnostic performance in determining PLN status in cervical cancer.

A prospective ultrasonographic surveillance study on the incidence and recovery period of COVID-19 vaccination-related axillary lymphadenopathy following a booster shot.

575 Background: COVID-19 vaccination-related lymphadenopathy is a frequent imaging finding that may be indistinguishable from malignant nodes and can lead to diagnostic difficulties in patients with cancer or healthy individuals on cancer screening. However, no prospective trials regarding COVID-19 vaccination-related lymphadenopathy following a booster shot have been conducted. The purpose of this study was to determine the incidence and imaging characteristics of COVID-19 vaccination-related axillary lymphadenopathy and assess the recovery period following a booster shot. Methods: We prospectively enrolled healthy women working at St. Luke’s International Hospital, who would receive the third shot of the Pfizer-BioNTech COVID-19 vaccine between December 6 and 28, 2021. Women with a history of cancer, atopic dermatitis, auto-immune disease, or axillary surgery were excluded. All participants underwent ultrasound (US) examinations for the bilateral axilla at baseline (prior to the third shot), early phase (1–3 days after the shot), and late phase (6 weeks after the shot) if lymphadenopathy was detected at the early phase. We evaluated the incidence and US characteristics of lymphadenopathy. As for US characteristics mimicking a malignant node, focal cortical thickening, absence of the echogenic hilus, and vascularity were examined. In this study, abnormal lymphadenopathy was defined as [1] an increase in the short-axis size by more than 2 mm compared with the baseline, [2] an increase in the number of nodes with short-axis diameter more than 5 mm, and [3] demonstrating US characteristics mimicking malignant nodes. Results: A total of 100 women were enrolled in this study. The median age was 41 years (range 23–63). Abnormal axillary lymphadenopathy on the vaccinated side was observed in 59% of participants in the early phase and 8% in the late phase. In the contralateral axilla, abnormal lymphadenopathy was observed in 1% of participants in the early phase and 2% in the late phase. The median short-axis size of ipsilateral abnormal lymphadenopathy was 7.6 mm in the early phase and 5.7 mm in the late phase. In the early phase, US characteristics mimicking malignant nodes were observed, including focal cortical thickening in 54% of participants, absence of the echogenic hilus in 16%, and hypervascularity in 33%. Conclusions: COVID-19 vaccination-related axillary lymphadenopathy indistinguishable from malignant nodes was observed in more than half of the participants compared with the baseline, which improved in most cases within 6 weeks after the latest booster shot. To avoid a diagnostic conundrum, patients with breast cancer should be vaccinated on the arm contralateral to the cancer side. It is recommended that non-urgent imaging screening for the axilla should be scheduled after 6 weeks following the latest vaccination.

Oncologic impact of lateral lymph node metastasis at the distal lateral compartment in locally advanced low rectal cancer after neoadjuvant (chemo)radiotherapy

IntroductionThe frequency and oncologic outcomes of lateral lymph node (LLN) metastasis at the most distal lateral compartment (DLC) among clinical stage II-III low rectal cancer patients treated with neoadjuvant (chemo)radiotherapy (nCRT) are poorly understood. The aim was to investigate the oncologic impact of LLN metastasis in the DLC versus the proximal lateral compartment (PLC). Materials and methodsConsecutive patients with low rectal cancer treated with nCRT followed by total mesorectal excision and selective LLN dissection including the DLC were analyzed retrospectively. DLC was defined as the area distal to the infra–piriformis foramen on axial MRI images. Size and location of LLN metastasis on MRI, and survival were retrospectively assessed. ResultsOf the 718 patients, 72 (10.0%) had pathological LLN metastasis. Thirty-two (44.4%) had metastasis in the DLC (DLC group), while 40 (55.6%) had metastasis in the PLC without metastasis in the DLC (PLC group). The proportion of ypN2 category tended to be lower in the DLC group (15.6% vs 35.0%, P = 0.105). The median number of metastatic LLN was similar (1 vs. 1, P = 0.691). The median short-axis size of metastatic LLN was smaller in the DLC group than in the PLC group on pre-treatment (P < 0.001) and re-staging (P = 0.004) MRI. By multivariable analysis, LLN metastasis in the DLC was predictive of better disease-free survival (HR, 0.412; 95% CI, 0.159–0.958, P = 0.039). ConclusionLLN metastasis in the DLC is frequent and has favorable oncologic outcomes after surgical dissection with nCRT.

Accuracy and Reproducibility of Endoscopic Ultrasound B-Mode Features for Observer-Based Lymph Nodal Malignancy Prediction

Background: Endoscopic ultrasound routinely guides lymph node evaluation for the staging of a known or suspected lung cancer. Characteristics seen on B-mode imaging might help the observer decide on the lymph nodes of risk. The influence of nodal size on the predictivity of these characteristics and the agreement with which operators can combine these for malignancy risk prediction is to be determined. Objectives: We evaluated (1) if prospectively scored individual B-mode ultrasound features predict malignancy when further divided by size and (2) assessed if observers were able to reproducibly agree on still lymph node image malignancy risk. Methods: Lymph nodes as visualized by EBUS were prospectively scored for B-mode characteristics. Still B-mode images were furthermore collected. After collection, a repeated scoring of a subset of lymph nodes was retrospectively performed (n = 11 observers). Results: Analysis of 490 lymph nodes revealed the short axis size is an objective measure for stratifying risk of malignancy (ROC area under the curve 0.78). With ≥8-mm size, 210/237 malignant lymph nodes were correctly identified (89% sensitivity, 46% specificity, 61% PPV, and 81% NPV). Secondary addition of B-mode features in <8-mm nodes had limited value. Retrospective analysis of intra- and interobserver scoring furthermore revealed significant disagreement. Conclusions: Lymph nodes of ≥8-mm size and preferably even smaller should be aspirated regardless of other B-mode features. Observer disagreement in scoring both small and large lymph nodes suggests it is infeasible to include subjective features for stratification. Future research should focus on (integrating) other (semi)quantitative values for improving prediction.

The diagnostic utility of size and apparent diffusion coefficient values for cervical lymph nodes in patients with osteomyelitis of the jaw bone.

The purpose of this study was to (1) clarify the size and apparent diffusion coefficient (ADC) value of lymph nodes (LN) in each state in their quantitative evaluation diffusion-weighted imaging, and (2) to determine the diagnostic utility of size and ADC values in the quantitative evaluation of LNs using diffusion-weighted imaging. This was a retrospective cohort study at our hospital conducted between April 2017 and March 2019. A total of 50 patients (20 men, 30 women) with 118 LNs, aged 34-90years (mean age 61.18years), undergoing magnetic resonance imaging examination were included in the study. The predictor variable was disease status. The primary outcome variable was the mean size and ADC values of the LNs. The other variables were age and sex. Data were analyzed using a Kruskal-Wallis test, and hoc Mann-Whitney tests with Bonferroni adjustment and a receiver operating characteristic (ROC) curve. P < 0.05 was considered to indicate statistical significance. We analyzed the records of 50 patients (118 LNs) with and without osteomyelitis. Of these, 21 had acute osteomyelitis, and 16 had chronic osteomyelitis. The size and ADC values of LNs in the osteomyelitis group were significantly greater and higher, respectively, than those in the non-myelitis group (P < 0.01). ROC analysis revealed a cutoff short-axis size of 4.42 and 4.04mm for lymphadenopathy caused by osteomyelitis, corresponding to levels IB and level II, respectively. Moreover, the ADC cutoff values for the same were 0.85 and 0.86, respectively. The results suggest that size and ADC values are useful parameters for the quantitative evaluation of lymphadenopathy caused by osteomyelitis.

Abstract No. 76 ▪ FEATURED ABSTRACT Intravascular ultrasound-guided transvenous biopsy of retroperitoneal targets inaccessible by percutaneous iopsy: technique and initial clinical experience

Retroperitoneal lymph nodes and masses adjacent to the inferior vena cava (IVC) or iliac veins can be inaccessible by a conventional percutaneous needle biopsy (PNB) approach due to surrounding vascular and osseous structures. The purpose of this study was to report initial clinical experience with the use of intravascular ultrasound-guided transvenous biopsy (IVUS-TVB) of difficult to access extravascular lymph nodes and masses. From October 2018 to August 2020, 41 IVUS-TVB procedures were performed under fluoroscopy in 38 patients (n = 19 males, mean age = 63) using side viewing intracardiac echocardiography IVUS catheters (ViewFlex Xtra, St. Jude Medical) and 18-gauge transjugular liver biopsy kits (Argon) through separate 10 French sheaths. All cases were initially reviewed for feasibility by PNB but were deemed unacceptably high risk. Patient demographics, target locations and sizes, success rates, and 30-day complications were recorded. Forty biopsies were performed, and 1 lesion was determined to be a vascular malformation by IVUS. Lymph nodes were interaortocaval (n = 11), porta hepatis (n = 5), right paracaval (n = 3), retrocaval (n = 3), iliac chain (n = 3), and retrocrural (n = 2), and masses were in liver (caudate n = 2, dome n = 2, segment 6 n = 2), right adrenal (n = 3), pancreas (n = 2), aortic wall (n = 1) and IVC (n = 1). The average short axis size was 2.6 cm (range 1.0-6.8). IVUS access was jugular (n = 27) or femoral (n = 13), and biopsy access was jugular (n = 28), femoral (n = 11), or portal (n = 1) with passes made from the IVC (n = 37), iliac (n = 2), or portal vein (n = 1). In 32 procedures (80%) IVUS visualization was good. Final pathology was diagnostic of malignancy in 29 procedures (73%), correctly excluded malignancy in 4 (10%), and was non-diagnostic in 7 (18%) with subsequent diagnosis made via repeat IVUS-TVB (n = 3) or surgical biopsy (n = 2) or remaining unknown (n = 2). There were 3 minor complications requiring no treatment (hyperbilirubinemia attributed to hemobilia; contrast induced acute kidney injury; small non-occlusive IVC thrombus at the biopsy site). There was 1 major complication directly related to the biopsy (bleeding at the femoral vein access site requiring transfusion) and 1 other major complication (aortic pseudoaneurysm in a patient with preexisting salmonella aortitis). IVUS-TVB achieves high diagnostic yields similar to accepted thresholds for PNB. Complications rates may be higher but should be weighed relative to the risks of difficult PNB, surgical biopsy, or clinical management without biopsy.

Diagnostic performance of T2-weighted imaging and intravoxel incoherent motion diffusion-weighted MRI for predicting metastatic axillary lymph nodes in T1 and T2 stage breast cancer.

Non-invasive modalities for assessing axillary lymph node (ALN) are needed in clinical practice. To investigate the suspicious ALN on unenhanced T2-weighted (T2W) imaging and intravoxel incoherent motion diffusion-weighted imaging (IVIM DWI) for predicting ALN metastases (ALNM) in patients with T1-T2 stage breast cancer and clinically negative ALN. Two radiologists identified the most suspicious ALN or the largest ALN in negative axilla by T2W imaging features, including short axis (Size-S), long axis (Size-L)/S ratio, fatty hilum, margin, and signal intensity on T2W imaging. The IVIM parameters of these selected ALNs were also obtained. The Mann-Whitney U test or t-test was used to compare the metastatic and non-metastatic ALN groups. Finally, logistic regression analysis with T2W imaging and IVIM features for predicting ALNM was conducted. This study included 49 patients with metastatic ALNs and 50 patients with non-metastatic ALNs. Using the above conventional features on T2W imaging, the sensitivity and specificity in predicting ALNM were not high. Compared with non-metastatic ALNs, metastatic ALNs had lower pseudo-diffusion coefficient (D*) (P = 0.043). Logistic regression analysis showed that the most useful features for predicting ALNM were signal intensity and D*. The sensitivity and specificity predicting ALNM that satisfied abnormal signal intensity and lower D* were 73.5% and 84%, respectively. The abnormal signal intensity on T2W imaging and one IVIM feature (D*) were significantly associated with ALNM, with sensitivity of 73.5% and specificity of 84%.

Diffusion weighted imaging to predict nodal status in breast cancer: A systematic review and meta-analysis.

Diffusion weighted imaging is a functional imaging modality based upon Brownian water movement in tissues.1-3 This movement can be quantified by apparent diffusion coefficient (ADC). According to the literature, apparent diffusion coefficient (ADC) inversely correlates with histopathological features.1, 2 It was identified that benign breast lesions have significant higher ADC values compared to breast cancer (BC).5 Nodal status is one of the most important prognosis parameters in BC, which is assessed by axillary lymph node dissection.6 Our purpose was to systematically review the published literature regarding ADC values of BC in accordance with nodal status and the ADC values of axillary lymph nodes and perform a meta-analysis to establish, whether ADC values can reliably predict nodal status in BC. The literature was searched for suitable papers investigating the associations between ADC values and nodal status in BC. The meta-analysis was performed as previously described.5 The primary end point of the systematic review was association between nodal status of BC and ADC values of the primary tumor and axillary LN. In total, 23 studies were suitable for the analysis and were included into the present study. The acquired 23 studies comprised overall 1669 BC and 1423 LN. In total, 1025 nodal negative and 548 nodal positive BC were included into the analysis. The mean ADC of the primary tumor of the nodal positive BC was 0.89 × 10− 3 mm2/s [95% CI 0.84–0.94, I2 = 91%], and 0.96 × 10− 3 mm2/s [95% CI 0.91–1.01, I2 = 92%] of the nodal negative BC (Figure 1). In total, 876 benign and 547 malignant LN were included into the analysis. The mean ADC value of the malignant axillary LN was 0.90 × 10− 3 mm2/s [95% CI 0.80–1.01, I2 = 98%] and 1.17 × 10− 3 mm2/s [95% CI 1.02–1.32, I2 = 99%] of the benign LN (Figure 2). Three studies reported data regarding ADC values and LN size in large and short axis with overall 57 lymph nodes. Spearman's correlation coefficient for the large axis was r = −0.143, p = 0.29 and for the short axis was r = 0.024, p = 0.86. The present analysis showed that ADC values of the axillary LN are lower in malignant LN compared to benign LN and might aid in clinical decision-making. Similar findings were identified of the ADC values of primary tumors to predict nodal status in BC. Thus, the present analysis based upon a large sample size corroborates the results of previous single-center studies. Nodal status is one of the most important prognosis factors in BC, which leads to a worse outcome in patients with positive axillary lymph nodes compared to nodal negative patients.6 A precise definition of the status of axillary LN in BC patients is also important to select treatment modality or surgical method. Axillary LN dissection is the reference standard for evaluating nodal involvement. Several imaging modalities were used to predict LN status non-invasively. So, ultrasound was deemed to be unreliable.7 The cost expensive modality with radiation exposure, namely PET-CT, achieved only a pooled sensitivity of 56% in a recent meta-analysis, whereas morphological MRI achieved a sensitivity of 55% only.7 However, both modalities reached a high specificity of 91% and 86%, respectively. Yet, there is definite need for a better diagnostic modality to predict nodal status in BC. The present analysis tried to emphasize that DWI and ADC values might be able to fill this diagnostic gap with measurement of the primary tumor itself as well as with the measurement of the lymph nodes. Interestingly, ADC values are independent of the lymph node size, which is most often used in clinical routine as a sign for malignancy. The present analysis can state that ADC values are not correlated with the short and long axis size of the lymph nodes. Presumably, a primary tumor with nodal involvement has a more aggressive tumor biology with distinctive microstructure, which can be assessed by ADC values. Moreover, there is clear evidence that ADC values can aid in the discrimination between benign and malignant tumors, which was shown in a recent meta-analysis.5 So, the present analysis can harmonize the published results that ADC values of the primary tumor as well as of the axillary lymph nodes can aid to predict nodal status in BC. As a limitation to address, the meta-analysis is based upon published results in the literature. There might be a certain publication bias because there is a trend to report positive or significant results. In conclusion, ADC values of axillary LN and of primary tumors may aid in predict nodal status of BC in clinical routine. These results are based upon a large patient sample and can be considered representative.

Rectal cancer lateral lymph nodes: multicentre study of the impact of obturator and internal iliac nodes on oncological outcomes.

In patients with rectal cancer, enlarged lateral lymph nodes (LLNs) result in increased lateral local recurrence (LLR) and lower cancer-specific survival (CSS) rates, which can be improved with (chemo)radiotherapy ((C)RT) and LLN dissection (LLND). This study investigated whether different LLN locations affect oncological outcomes. Patients with low cT3-4 rectal cancer without synchronous distant metastases were included in this multicentre retrospective cohort study. All MRI was re-evaluated, with special attention to LLN involvement and response. More advanced cT and cN category were associated with the occurrence of enlarged obturator nodes. Multivariable analyses showed that a node in the internal iliac compartment with a short-axis (SA) size of at least 7 mm on baseline MRI and over 4 mm after (C)RT was predictive of LLR, compared with a post-(C)RT SA of 4 mm or less (hazard ratio (HR) 5.74, 95 per cent c.i. 2.98 to 11.05 vs HR 1.40, 0.19 to 10.20; P < 0.001). Obturator LLNs with a SA larger than 6 mm after (C)RT were associated with a higher 5-year distant metastasis rate and lowered CSS in patients who did not undergo LLND. The survival difference was not present after LLND. Multivariable analyses found that only cT category (HR 2.22, 1.07 to 4.64; P = 0.033) and margin involvement (HR 2.95, 1.18 to 7.37; P = 0.021) independently predicted the development of metastatic disease. Internal iliac LLN enlargement is associated with an increased LLR rate, whereas obturator nodes are associated with more advanced disease with increased distant metastasis and reduced CSS rates. LLND improves local control in persistent internal iliac nodes, and might have a role in controlling systemic spread in persistent obturator nodes.Members of the Lateral Node Study Consortium are co-authors of this study and are listed under the heading Collaborators.

CT for detection of malignant posterior intercostal lymph nodes in patients undergoing pre-operative staging for malignant pleural mesothelioma

IntroductionRecent evidence suggests that patients with malignant pleural mesothelioma (MPM)undergoing extended pleurectomy/decortication (eP/D) with metastasis to the posterior intercostal lymph nodes (PILN) have a worse prognosis. In this study, we determine if MPM PILN metastasis can be reliably detected on computed tomography (CT). Materials and MethodsPreoperative staging CT exams were reviewed for the presence of PILN in MPM patients undergoing eP/D between 2007–2013 with surgical sampling of their PILN. CT images were reviewed by two thoracic radiologists blinded to clinical records, including operative pathology reports. The number and short axis size of PILN were recorded and correlated with surgical pathology. Statistical analysis examined the value of preoperative CT to detect metastatic PILN. ResultsOf 36 patients that underwent eP/D with PILN sampling had preoperative CT images for review. At surgery, 22 of these patients had metastatic PILN and 14 had benign PILN. The positive and negative predictive values for one or more nodes seen on preoperative CT were 60 % and 38 % respectively. The number of PILN on preoperative CT did not predict metastasis (p = 0.40) with an average of 2 PILN seen, regardless of PILN pathology. The average nodal short axis size was 4.6 mm and 4.8 mm for benign and malignant PILN, respectively, and PILN short axis size did not predict metastasis (p = 0.39). There was little inter-observer variability between the size and number of nodes detected by each radiologist. ConclusionsCT does not reliably identify metastatic PILN on preoperative CT for patients with MPM undergoing extended pleurectomy/decortication.

What is the impact of systemic chemotherapy for lateral lymph nodes in patients with locally advanced low rectal cancer?

Systemic chemotherapy (SC) before surgery is a potential treatment to improve survival in patients with advanced rectal cancer. However, the impact of SC on lateral lymph nodes (LLNs) remains unclear. A total of 78 patients with stage II/III low rectal cancer, who received 3-month oxaliplatin-based SC followed by LLN dissection (LLND) in principle, were analysed retrospectively. "Total lateral lymph node metastases (tLLNMs)" was defined as having either pathological LLNMs (pLLNMs) or lateral local recurrences (LLRs). Patients with the maximum short-axis size of LLNs ≥ 7mm were classified into the swollen group (n = 21). In the total cohort, tLLNMs included 6 pLLNMs (7.7%) and 2 LLRs (2.6%). In the non-swollen group, no patients had pLLNMs, but one had LLR (1.8%). In the swollen group, pLLNMs and LLRs were detected in 6 (28.6%) and 1 (4.8%), respectively. The swollen group was an independent risk factor for tLLNMs (P < 0.001), leading to the significantly worse 5-year relapse-free survival (RFS) of 52.4% than the others. For patients without swollen LLNs, SC could allow for omission both of lateral irradiation and LLND. For patients with swollen LLNs, the lateral local control was favourable after SC and LLND without chemoradiotherapy (CRT); however, oxaliplatin-based SC might be insufficient to improve survival, requiring more intensive chemotherapy. CRT should be indicated according to the other risk factors of central local recurrence, although the swollen LLNs should be removed.

PD51-02 PLANNED SECONDARY ANALYSIS OF PURE-01

INTRODUCTION AND OBJECTIVE: FDG-PET/CT has limited utility in clinical N0 (cN0) patients (pts) with MIBC who receive neoadjuvant chemotherapy and RC or RC alone (Dason, AUA19). We present a secondary analysis aimed at evaluating the role of PET/CT in lymph node (LN) involvement assessment. METHODS: In PURE-01 (NCT02736266), 3 courses of 200 mg pembrolizumab, every 3 weeks, were administered prior to RC. Pts were assessed with thorax-abdomen CT scan and with PET/CT scan during screening and after treatment, before RC. Imaging review and analysis was performed by two experienced nuclear medicine physicians blinded to clinical information. Semiquantitative and volumetric analysis was performed. For each patient with LN increased uptake in abdomino-pelvic area, the SUVmax and the short-axis size of the most intense LN were recorded. All pts underwent templated pelvic LN dissection (LND) with packeted node submission. PET/TC diagnostic ability was assessed using sensitivity, specificity, negative predictive value (NPV), positive predictive value (PPV), and accuracy. RESULTS: From 02/17 to 06/2019, 114 pts were enrolled ad treated. 11 pts received additional chemotherapy post-pembrolizumab and were excluded from the analyses, resulting in 103 total evaluable pts (and 206 PET/TC scans). Six pts (5.8%) had positive nodes at baseline PET/CT: mean SUVmax=2.75; mean short axis: 6.2 mm. Eight pts (7.8%) had positive LN at PET/CT post-pembrolizumab: mean SUVmax=4.21; mean short axis: 7.2mm. The rate of pathologic LN positive (pN+) disease was 15.5% (16 pts). The performance of post-pembrolizumab PET/CT in predicting pN+ disease is indicated in the Table. 4/6 pts (66.7%) with baseline FDG uptake revealed as pN+ vs 12/97 (12.4%) with no baseline FDG uptakes (p=0.005). A total of 39 pts (37.9%) developed inflammatory FDG-uptakes post-pembrolizumab in several target organs/regions: top 5 sites were thyroid (N=21, 61.8%), stomach and mediastinum (13 pts each, 12.6%), lung (N=10, 9.7%), other lymph nodes (N=4, 3.9%). These changes were clinically evident (signs/symptoms or laboratory changes) in 15 pts (38.5%). CONCLUSIONS: Criteria for eligibility of cN0 pts to single-agent neoadjuvant pembrolizumab trials may be enhanced with PET/CT use. Three cycles of pembrolizumab determined profound inflammatory changes, whose long-term impact on safety is still to be determined.Source of Funding: None

Secondary analysis of PURE-01: Role of FDG-PET/CT in evaluating lymph node involvement of patients with muscle invasive bladder cancer (MIBC) receiving neoadjuvant pembrolizumab and radical cystectomy (RC).

445 Background: FDG-PET/CT has limited utility in clinical N0 (cN0) patients (pts) with MIBC who receive neoadjuvant chemotherapy and RC or RC alone (Dason, AUA19). Methods: In PURE-01 (NCT02736266), 3 courses of 200 mg pembrolizumab, q3 weeks, were administered prior to RC. Pts were assessed with thorax-abdomen CT scan and with PET/CT scan during screening and before RC. Imaging review and analysis was internally performed. For each pt with lymph node (LN) increased uptake in abdomino-pelvic area, the SUVmax and the short-axis size of the most intense LN were recorded. All pts underwent extended pelvic LN dissection (LND) with packeted node submission. Results: From 02/17 to 06/2019, 103 total evaluable pts (206 PET/TC scans) were enrolled ad treated. Six pts (5.8%) had LN uptake at baseline PET/CT: mean SUVmax=2.75; mean short axis: 6.2 mm. Eight pts (7.8%) had LN uptake at PET/CT post-pembrolizumab: mean SUVmax=4.21; mean short axis: 7.2mm. The rate of pathologic LN positive (pN+) disease was 15.5% (16 pts). The performance of post-pembrolizumab PET/CT in predicting pN+ disease is indicated in the Table. In total, 4/6 pts (66.7%) with baseline FDG uptake revealed as pN+ vs 12/97 (12.4%) with no baseline FDG uptakes (p=0.005). A total of 39 pts (37.9%) developed inflammatory FDG-uptakes post-pembrolizumab in several target organs/regions: top 5 sites were thyroid (N=21, 61.8%), stomach and mediastinum (13 pts each, 12.6%), lung (N=10, 9.7%), other lymph nodes (N=4, 3.9%). These changes were clinically evident (signs/symptoms or laboratory changes) in 15 pts (38.5%). Conclusions: Criteria for eligibility of cN0 pts to single-agent neoadjuvant pembrolizumab trials may be enhanced with PET/CT use. Three cycles of pembrolizumab determined profound inflammatory changes, whose long-term impact on safety is still to be determined. Clinical trial information: NCT02736266 . [Table: see text]

USING LYMPH NODE SIZE AND STANDARDIZED UPTAKE UNITS TO DETERMINE DIAGNOSTIC ACCURACY OF PET-CT IN DETECTING MALIGNANT MEDIASTINAL AND HILAR DISEASE IN A REGION ENDEMIC WITH HISTOPLASMOSIS

SESSION TITLE: Tuesday Abstract Posters SESSION TYPE: Original Investigation Posters PRESENTED ON: 10/22/2019 01:00 PM - 02:00 PM PURPOSE: Proper staging of the mediastinal and hilar lymph nodes is key to determining the best treatment options for patients with suspected lung cancer. Previously, two broad methods have been used in predicting malignant potential based on size and standardized uptake units (SUV) on positron emission tomography with computed tomography scans (PET-CT). Using a lymph node short axis size cut off greater than or equal to 10 mm alone may risk missing early or partially malignant nodes. While, an SUV of >2.5 has been generally accepted as being indicative of malignancy. However, this second predictive criterion is limited as lymphadenopathy secondary to inflammatory and infectious processes can also be PET-avid. Herein, we attempt to describe a method of analysis allowing greater distinction between inflammatory and malignant processes. METHODS: We retrospectively reviewed patients who had undergone endobronchial ultrasound with transbronchial needle aspiration (EBUS-TBNA), mediastinoscopy, or video assisted thoracoscopy in the heart of the Ohio River Valley Basin, a region endemic for Histoplasmosis. We identified 215 biopsied lymph node stations from 69 patients (average of 3.2 stations per patient, range 1 – 8 stations), with an average size of 14.88 mm and an SUV of 1.46 (Not avid to 14.4). 116 lymph node stations had both an SUV and their short axis measured. RESULTS: A PET avid parenchymal nodule was associated with 98.7% of the biopsied nodules. The diagnostic yield in which malignancy was found was as low as 29.3%. Using a short axis size of ≥10 mm alone, the sensitivity of lymph node size for malignancy is 91.43% (95% CI 76.94-98.2%), specificity 25.93% (95% CI 16.82-36.86%), positive predictive value 34.78% (95% CI 31.16-38.54%), negative predictive value 87.5% (95% CI 69.06-95.64%), with an accuracy of 45.69% (95% CI 36.41-55.19%). Using an SUV of ≥2.5 alone, the sensitivity for lymph node metastasis through PET avidity is 67.65% (95% CI 49.47-82.61%), specificity 79.52% (95% CI 69.24-87.59%), positive predictive value 57.50% (95% CI 45.48-68.69%), negative predictive value 85.71% (95% CI 78.48-90.80%), with an accuracy of 76.07% (95% CI 67.30-83.47%). Finally, using a combination of both a short axis ≥10 mm and an SUV ≥2.5, the sensitivity is 64.71% (95% CI 46.49-80.25%), specificity 84.15% (95% CI 74.42-91.28%), positive predictive value 62.86% (95% CI 49.23-74.71%), negative predictive value 85.19% (95% CI 78.32-90.15%), with an accuracy of 78.45% (95% CI 69.85-85.54%). Of the false positive lymph nodes, 53.85% had normal lymphoid tissue, reactive/inflammatory tissue, granulomatous disease and identifiable Histoplasmosis on GMS stain each made up 23.1% of the remainder. CONCLUSIONS: Diagnostic predictive value is increased when using the above methods. CLINICAL IMPLICATIONS: Our study addresses concerns regarding PET-CT specificity for diagnosis of inflammatory versus malignant lesions. DISCLOSURES: No relevant relationships by Yousef Ahmad, source=Web Response No relevant relationships by Arjan Flora, source=Web Response No relevant relationships by Miles Hagner, source=Web Response