MesotheliomaSupport: Publish new canonical page: Liquid Biopsy for Mesothelioma (ctDNA/methylation diagnostics 2026). CLEO PASS #11331, slate #10123.

2026-05-30T22:37:32Z

Publish new canonical page: Liquid Biopsy for Mesothelioma (ctDNA/methylation diagnostics 2026). CLEO PASS #11331, slate #10123.

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{{#seo:
|title=Liquid Biopsy for Mesothelioma: ctDNA Testing in 2026
|description=How liquid biopsy and ctDNA testing are reshaping mesothelioma diagnosis and monitoring in 2026: methylation panels, tumor DNA, and AI pathology.
|keywords=liquid biopsy mesothelioma, ctDNA mesothelioma, circulating tumor DNA, cfMeDIP-seq, mesothelioma blood test, mesothelioma monitoring, methylation liquid biopsy, pleural fluid ctDNA
|author=Rod De Llano, Founding Partner, Danziger & De Llano
|published_time=2026-05-30
|type=Article
|image=logo.png
|image_alt=WikiMesothelioma — Liquid Biopsy for Mesothelioma
}}

{| class="infobox" style="width:280px; border-radius:8px; overflow:hidden; float:right; margin:0 0 1em 1em; border:1px solid #dee2e6;"
|-
! colspan="2" style="background:#1a5276; color:white; padding:10px; text-align:center;" | Liquid Biopsy for Mesothelioma
|-
! style="background:#1a5276; color:white; padding:8px; text-align:left;" | Sample types
| style="padding:8px;" | Blood plasma; pleural effusion fluid
|-
! style="background:#1a5276; color:white; padding:8px; text-align:left;" | What it measures
| style="padding:8px;" | Circulating tumor DNA (ctDNA), methylation signals, circulating tumor cells (CTCs)
|-
! style="background:#1a5276; color:white; padding:8px; text-align:left;" | 2026 clinical status
| style="padding:8px;" | Investigational; not yet standard of care; no mesothelioma-specific FDA approval
|-
! style="background:#1a5276; color:white; padding:8px; text-align:left;" | Main uses studied
| style="padding:8px;" | Treatment-response monitoring, minimal residual disease, subtype identification, early detection (research)
|-
! style="background:#1a5276; color:white; padding:8px; text-align:left;" | Established cause of disease
| style="padding:8px;" | Asbestos exposure
|-
! style="background:#1a5276; color:white; padding:8px; text-align:left;" | Related tests
| style="padding:8px;" | BAP1 immunohistochemistry; serum mesothelin (SMRP/MESOMARK)
|}

== Executive Summary ==

'''Liquid biopsy''' refers to testing a blood or pleural-fluid sample for fragments of DNA, intact cells, or methylation signals shed by a tumor. Unlike a tissue biopsy — which is invasive and captures one region of the tumor at a single moment — a liquid biopsy can be repeated with a simple blood draw and reflects the tumor's overall genomic activity over time. In a 2025 phase 2 trial published in ''Nature Medicine'', patients with '''resectable diffuse pleural mesothelioma''' who had '''undetectable ctDNA''' after neoadjuvant immunotherapy and before surgery experienced significantly longer event-free and overall survival, while '''persistent ctDNA correlated with early progression''' even when imaging appeared stable.<ref name="natmed-ctdna" /> Mesothelioma is always traced to '''asbestos exposure'''; liquid biopsy does not change that cause — it is a way to follow the asbestos-caused tumor more closely.

Mesothelioma is biologically difficult for conventional liquid biopsy because it sheds relatively little DNA into the bloodstream and is driven mainly by '''loss-of-function changes in tumor-suppressor genes''' (such as BAP1, NF2, and CDKN2A) rather than the gain-of-function "driver" mutations that mutation-based blood tests are designed to track. To overcome this, researchers have turned to '''epigenetic''' methods that read tumor-specific DNA methylation patterns, which remain abundant and distinctive even when the amount of tumor DNA is low.<ref name="lb-review" /><ref name="impress" />

For patients and families, the practical 2026 reality is twofold. First, liquid biopsy is available chiefly through clinical trials and at major cancer centers, not as a routine test. Second, none of these advances change a mesothelioma patient's legal right to pursue compensation for asbestos exposure — a right that is independent of which diagnostic technology confirmed the disease.

== At a Glance ==

'''Liquid biopsy for mesothelioma at a glance:'''

* '''Undetectable ctDNA before surgery predicted better survival''' — in a 2025 ''Nature Medicine'' phase 2 trial, patients clearing ctDNA after pre-operative immunotherapy had significantly longer event-free and overall survival.<ref name="natmed-ctdna" />
* '''Molecular relapse can precede imaging''' — persistent ctDNA correlated with early disease progression even when CT scans looked stable.<ref name="natmed-ctdna" />
* '''Methylation testing reached 91% accuracy in proof-of-concept''' — a plasma cell-free methylated DNA immunoprecipitation sequencing (cfMeDIP-seq) classifier distinguished pleural mesothelioma from asbestos-exposed controls with 91% accuracy in a 55-patient study.<ref name="cfmedip" />
* '''A methylation tissue assay separated mesothelioma from look-alikes''' — the methylation classifier reported by Vandenhoeck and colleagues reached 85.2% sensitivity and 100% specificity distinguishing pleural mesothelioma from pleural metastases.<ref name="impress" />
* '''A blood-and-methylation panel hit 97.6% specificity''' — combining SHOX2 and PTGER4 methylation with serum CYFRA21-1 reached 91.3% sensitivity and 97.6% specificity for mesothelioma versus benign reactive hyperplasia.<ref name="shox2" />
* '''AI read 3,446 tumor slides to grade mesothelioma''' — a self-supervised histomorphological atlas achieved 88% area under the curve (AUC) for subtype classification.<ref name="ai-atlas" />
* '''Pleural fluid is a richer ctDNA source than blood''' — malignant pleural effusion generally contains more tumor DNA than matched plasma, helping confirm malignancy when blood ctDNA is undetectable.<ref name="lb-review" />
* '''Serum mesothelin is the most established blood biomarker''' — in an individual-patient-data meta-analysis its sensitivity for pleural mesothelioma ranged from 19% to 68% across studies, too variable for standalone screening.<ref name="smrp-meta" />
* '''Rarity slows validation''' — mesothelioma is uncommon, so most liquid-biopsy studies are small and larger multicenter cohorts are needed before regulatory approval.<ref name="lb-review" />
* '''Asbestos remains the cause''' — liquid biopsy detects and tracks an asbestos-caused tumor; it does not alter causation or a patient's legal claim.<ref name="dandell-claims" />

== Key Facts ==

{| class="wikitable" style="width:100%; margin:1em 0; border-collapse:collapse; border:2px solid #1a5276;"
|-
! style="background:#1a5276; color:white; padding:12px; text-align:left; width:34%;" | Measure
! style="background:#1a5276; color:white; padding:12px; text-align:left;" | Finding (Source)
|-
| style="padding:10px; font-weight:bold; border-bottom:1px solid #dee2e6;" | ctDNA and survival
| style="padding:10px; border-bottom:1px solid #dee2e6;" | Undetectable pre-surgical ctDNA linked to longer event-free and overall survival ''(Nature Medicine phase 2 trial, 2025)''<ref name="natmed-ctdna" />
|-
| style="padding:10px; font-weight:bold; border-bottom:1px solid #dee2e6;" | cfMeDIP-seq accuracy
| style="padding:10px; border-bottom:1px solid #dee2e6;" | 91% accuracy, 88% precision, 90% recall in 55 pleural mesothelioma patients vs. 24 asbestos-exposed controls ''(ASCO 2025, abstract 8082)''<ref name="cfmedip" />
|-
| style="padding:10px; font-weight:bold; border-bottom:1px solid #dee2e6;" | Methylation classifier (tissue)
| style="padding:10px; border-bottom:1px solid #dee2e6;" | 85.2% sensitivity, 100% specificity separating pleural mesothelioma from pleural metastases ''(Vandenhoeck et al., Molecular Oncology, 2026)''<ref name="impress" />
|-
| style="padding:10px; font-weight:bold; border-bottom:1px solid #dee2e6;" | SHOX2 + PTGER4 + CYFRA21-1 panel
| style="padding:10px; border-bottom:1px solid #dee2e6;" | 91.3% sensitivity, 97.6% specificity, AUC 0.972 vs. benign hyperplasia ''(Zhang et al., J Clin Pathol, 2025)''<ref name="shox2" />
|-
| style="padding:10px; font-weight:bold; border-bottom:1px solid #dee2e6;" | AI histomorphological atlas
| style="padding:10px; border-bottom:1px solid #dee2e6;" | 88% AUC for subtype classification across 3,446 whole-slide images ''(Seyedshahi et al., Nature Communications, 2025)''<ref name="ai-atlas" />
|-
| style="padding:10px; font-weight:bold; border-bottom:1px solid #dee2e6;" | Serum mesothelin biomarker
| style="padding:10px; border-bottom:1px solid #dee2e6;" | Sensitivity ranges 19–68% across studies — the most established serum biomarker ''(Hollevoet et al., IPD meta-analysis, JCO 2012)''<ref name="smrp-meta" />
|-
| style="padding:10px; font-weight:bold;" | Established cause
| style="padding:10px;" | Asbestos exposure ''(Danziger & De Llano)''<ref name="dandell-claims" />
|}

== What Is a Liquid Biopsy and How Does It Differ from a Tissue Biopsy? ==

A liquid biopsy analyzes tumor-derived material circulating in body fluids. For mesothelioma, the two most clinically advanced sources are '''blood plasma''' and '''pleural effusion fluid'''. A single sample can contain several analytes: circulating tumor DNA (ctDNA), circulating tumor cells (CTCs), tumor-educated platelets, and tumor-derived extracellular vesicles. Of these, ctDNA — short DNA fragments released as tumor cells die — is the most studied in mesothelioma.<ref name="lb-review" />

The contrast with a tissue biopsy is the central appeal. A surgical or image-guided tissue biopsy is invasive, samples a single region, and captures one moment in the disease. A liquid biopsy is a blood draw (or sampling of fluid already being drained for symptom relief), can be repeated as often as needed, and reflects DNA shed from across the tumor. That makes it attractive for '''serial monitoring''' — watching how a tumor changes during and after treatment — rather than replacing the tissue biopsy that still anchors the initial diagnosis.<ref name="lb-review" /><ref name="natmed-ctdna" />

Liquid biopsy does not change what causes mesothelioma. The disease is caused by '''asbestos exposure''', often decades before diagnosis, and a blood-based test is simply a more convenient window onto the same asbestos-caused tumor. Patients can read more about how the disease is confirmed on the [[Mesothelioma_Diagnosis|Mesothelioma Diagnosis]] page.

== Why Is Mesothelioma Especially Difficult for ctDNA Testing? ==

Most blood-based ctDNA tests were built for cancers driven by recurrent '''gain-of-function''' mutations — for example, a specific point mutation that can be tracked in the bloodstream. Mesothelioma is different. It is driven largely by '''loss-of-function''' changes in tumor-suppressor genes such as BAP1, NF2, and CDKN2A, and it carries a low overall mutation burden, so there are few reliable point-mutation "handles" for a standard assay to follow.<ref name="lb-review" />

Two further features complicate detection. First, mesothelioma — particularly the epithelioid subtype — sheds comparatively little DNA into the circulation. Second, the tumor grows as a sheet across the pleural surface rather than as a single mass, giving it different shedding dynamics than solid-organ tumors. Together these mean that simply applying an off-the-shelf mutation panel to a mesothelioma patient often returns little signal.<ref name="lb-review" />

The response from researchers has been to change what the test looks for. Instead of hunting scarce mutations, '''epigenetic''' approaches read tumor-specific DNA '''methylation''' patterns, and '''tumor-informed''' approaches first sequence the patient's own tumor to build a personalized panel of markers to track in blood. Both strategies are designed specifically to work around mesothelioma's low mutation burden.<ref name="impress" /><ref name="natmed-ctdna" />

== How Is ctDNA Used to Monitor Mesothelioma Treatment? ==

Treatment-response monitoring is the application closest to the clinic. The pivotal evidence comes from a 2025 ''Nature Medicine'' phase 2 trial of '''perioperative immunotherapy''' in resectable diffuse pleural mesothelioma, which paired whole-genome sequencing of the tumor with ultra-sensitive, tumor-informed ctDNA detection in blood.<ref name="natmed-ctdna" />

The clinical findings were consistent and clinically meaningful. Patients with '''undetectable ctDNA''' after neoadjuvant (pre-surgery) immunotherapy had significantly longer '''event-free survival (EFS)''' and '''overall survival (OS)'''. Conversely, '''persistent ctDNA''' was associated with early disease progression — sometimes while radiographic imaging still looked stable — demonstrating that molecular surveillance can flag relapse before a CT scan does.<ref name="natmed-ctdna" />

The practical promise is earlier, better-informed decisions: confirming that a treatment is working at the molecular level, or identifying a patient whose disease is progressing before precious time is lost. The approach still requires validation in larger cohorts before it becomes routine, but it is widely viewed as the liquid-biopsy use most likely to reach mainstream mesothelioma care first.<ref name="natmed-ctdna" /><ref name="lb-review" /> Patients interested in trials that build ctDNA sampling into their protocols can review the [[ATOMIC_Meso_Trial|ATOMIC Meso Trial]] and other studies discussed across this wiki.

== Can a Blood Test Detect Mesothelioma Earlier? The Methylation Breakthrough ==

The most promising '''diagnostic''' advance is epigenetic. At the 2025 American Society of Clinical Oncology (ASCO) Annual Meeting, researchers reported that '''cfMeDIP-seq''' (cell-free methylated DNA immunoprecipitation sequencing) — which reads methylation patterns in plasma rather than searching for mutations — distinguished pleural mesothelioma from asbestos-exposed non-cancer controls with '''91% accuracy, 88% precision, and 90% recall''' in a study of 55 patients and 24 controls. The same signal also separated histological subtypes, raising the prospect of non-invasive subtype identification.<ref name="cfmedip" /><ref name="lb-review" />

Tissue-based methylation testing has advanced in parallel. A bisulfite-free methylation classifier reported by Vandenhoeck and colleagues in ''Molecular Oncology'' distinguished tumoral from non-tumoral pleura with 89.2% sensitivity and 93.5% specificity, and — importantly — separated primary pleural mesothelioma from '''pleural metastases''' (such as spread from lung adenocarcinoma) with 85.2% sensitivity and 100% specificity. Telling primary mesothelioma apart from metastatic disease is one of the hardest problems in pleural pathology, so a high-specificity molecular test addresses a genuine diagnostic gap.<ref name="impress" />

A combined blood-and-methylation panel has shown similar strength: '''SHOX2 and PTGER4 methylation plus serum CYFRA21-1''' reached 91.3% sensitivity and 97.6% specificity (AUC 0.972) for separating malignant pleural mesothelioma from benign reactive mesothelial hyperplasia, and an expanded four-modality version (the MTPC panel) was published for pleural-effusion diagnosis in 2025.<ref name="shox2" /><ref name="mtpc" /> None of these tests is yet FDA-cleared for mesothelioma, and all require prospective validation in larger groups.

== Where Does AI-Assisted Pathology Fit? ==

Liquid biopsy is advancing alongside '''artificial intelligence (AI)''' in pathology, and the two are complementary — one reads blood, the other reads tissue. In 2025, a landmark '''histomorphological atlas''' applied self-supervised deep learning to 3,446 whole-slide images (WSI) of resected mesothelioma, identifying recurring tissue patterns linked to subtype and survival. The model reached 88% AUC for subtype classification and validated across independent cohorts without retraining — a key step toward clinical generalizability.<ref name="ai-atlas" />

Deep-learning frameworks that read pleural-effusion cytology — the specimen many mesothelioma patients present with — are advancing in parallel. As with liquid biopsy, these tools remain research-stage for mesothelioma specifically, but they point toward a future in which a blood draw and an AI-read slide together sharpen a difficult diagnosis.<ref name="ai-atlas" />

== What Are the Limits of Liquid Biopsy in 2026? ==

Three limits define the current state of the field. First, '''regulatory''': no liquid biopsy test is FDA-approved specifically for mesothelioma diagnosis or monitoring. Serum mesothelin, the most established serum biomarker, shows sensitivity ranging from 19% to 68% across studies — too variable for standalone screening.<ref name="smrp-meta" /> Second, '''validation''': because mesothelioma is rare, most studies are small (cfMeDIP-seq was validated in 55 patients), and multicenter consortia will be needed to power registration-quality trials.<ref name="lb-review" /> Third, '''biology''': low ctDNA shedding still limits sensitivity in some patients, which is why pleural-fluid sampling and tumor-informed designs are being pursued.<ref name="lb-review" />

A balanced summary for 2026: liquid biopsy in mesothelioma is scientifically promising and advancing quickly, but it is investigational. It is most useful today inside clinical trials and at major centers, where baseline molecular profiling can establish a reference point for later monitoring. It complements — it does not replace — tissue biopsy, BAP1 immunohistochemistry, and imaging. Readers can compare blood-based protein markers on the [[Mesothelioma_Blood_Tests_and_Biomarkers|Mesothelioma Blood Tests and Biomarkers]] page and review tumor genetics on the [[BAP1_Gene_Mutation_in_Mesothelioma|BAP1 Gene Mutation in Mesothelioma]] page.

== Frequently Asked Questions ==

=== Is liquid biopsy available for mesothelioma patients now? ===
Not as a routine, standalone test. As of 2026, liquid biopsy for mesothelioma is investigational and is used mainly within clinical trials and at major cancer centers. No liquid biopsy is FDA-approved specifically for mesothelioma diagnosis or monitoring.<ref name="lb-review" /><ref name="natmed-ctdna" />

=== Can a blood test diagnose mesothelioma instead of a biopsy? ===
Not yet. Tissue biopsy, supported by BAP1 immunohistochemistry, remains the diagnostic standard. Methylation-based blood tests such as cfMeDIP-seq have shown high accuracy in small proof-of-concept studies, but they require validation in larger groups before they could be used to diagnose mesothelioma on their own.<ref name="cfmedip" /><ref name="impress" />

=== What does ctDNA monitoring actually tell my doctor? ===
ctDNA dynamics can indicate whether a tumor is responding to treatment, sometimes before a CT scan shows change. In a 2025 ''Nature Medicine'' trial, undetectable ctDNA after pre-surgery immunotherapy predicted longer survival, while persistent ctDNA signaled early progression.<ref name="natmed-ctdna" />

=== Why is mesothelioma harder to detect with ctDNA than other cancers? ===
Mesothelioma sheds little DNA into the blood and is driven by loss-of-function changes in tumor-suppressor genes rather than the recurrent point mutations most ctDNA tests track. Researchers address this with methylation-based and tumor-informed approaches designed for low mutation burden.<ref name="lb-review" />

=== Does pleural fluid work better than blood for liquid biopsy? ===
Often, yes. Malignant pleural effusion generally carries more tumor DNA than matched blood plasma, so analyzing fluid that is already being drained for symptom relief can detect tumor-specific changes when blood ctDNA is undetectable.<ref name="lb-review" />

=== Does a liquid biopsy result affect my legal claim for asbestos exposure? ===
No. Mesothelioma is caused by asbestos exposure regardless of which test confirmed it. The diagnostic technology used does not change a patient's right to pursue compensation.<ref name="dandell-claims" />

== Quick Statistics ==

* '''91% accuracy''' — cfMeDIP-seq methylation classifier distinguishing pleural mesothelioma from asbestos-exposed controls (55-patient study).<ref name="cfmedip" />
* '''100% specificity''' — methylation classifier separating pleural mesothelioma from pleural metastases (85.2% sensitivity).<ref name="impress" />
* '''97.6% specificity / 91.3% sensitivity''' — SHOX2 + PTGER4 + CYFRA21-1 panel versus benign hyperplasia (AUC 0.972).<ref name="shox2" />
* '''88% AUC''' — AI histomorphological atlas for subtype classification across 3,446 whole-slide images.<ref name="ai-atlas" />
* '''19–68% sensitivity''' — serum mesothelin for pleural mesothelioma across diagnostic studies (individual-patient-data meta-analysis).<ref name="smrp-meta" />
* '''4,491 individuals''' — pooled in the serum-mesothelin diagnostic meta-analysis, including 1,026 mesothelioma patients.<ref name="smrp-meta" />
* '''Small validation cohorts''' — mesothelioma's rarity keeps most liquid-biopsy studies under-powered for regulatory approval.<ref name="lb-review" />
* '''Asbestos''' — the established cause of mesothelioma in essentially all cases.<ref name="dandell-claims" />

== Related Pages ==

* [[Mesothelioma_Diagnosis|Mesothelioma Diagnosis]]
* [[Mesothelioma_Blood_Tests_and_Biomarkers|Mesothelioma Blood Tests and Biomarkers]]
* [[BAP1_Gene_Mutation_in_Mesothelioma|BAP1 Gene Mutation in Mesothelioma]]
* [[Mesothelioma_Staging|Mesothelioma Staging]]
* [[ATOMIC_Meso_Trial|ATOMIC Meso Trial]]

== External Links ==

<span data-nosnippet class="noai-content">
* '''[https://dandell.com/ Danziger & De Llano]''' — free, no-obligation mesothelioma case evaluations covering asbestos trust funds, settlements, and filing deadlines. '''Call (855) 699-5441''' or visit [https://dandell.com/contact-us/ dandell.com/contact-us].
* [https://www.mesotheliomalawyercenter.org/ Mesothelioma Lawyer Center] — overview of the mesothelioma diagnosis and treatment process.
* [https://www.mesotheliomaattorney.com/ MesotheliomaAttorney.com] — how a confirmed diagnosis supports a legal claim.
</span>

== References ==
<references>
<ref name="natmed-ctdna">Reuss JE, Lee PK, Mehran RJ, et al. [https://pubmed.ncbi.nlm.nih.gov/40921804/ Perioperative nivolumab or nivolumab plus ipilimumab in resectable diffuse pleural mesothelioma: a phase 2 trial and ctDNA analyses]. ''Nature Medicine''. 2025.</ref>
<ref name="impress">Vandenhoeck J, De Meulenaere N, Vanpoucke T, et al. [https://pubmed.ncbi.nlm.nih.gov/41239415/ Methylation biomarkers can distinguish pleural mesothelioma from healthy pleura and other pleural pathologies]. ''Molecular Oncology''. 2026.</ref>
<ref name="shox2">Zhang N, Li Y, Sun Z, et al. [https://pubmed.ncbi.nlm.nih.gov/39060112/ Combined detection of SHOX2 and PTGER4 methylation with serum marker CYFRA21-1 for improved diagnosis of malignant pleural mesothelioma]. ''Journal of Clinical Pathology''. 2025.</ref>
<ref name="ai-atlas">Seyedshahi F, Rakovic K, Poulain N, et al. [https://pubmed.ncbi.nlm.nih.gov/41057342/ A histomorphological atlas of resected mesothelioma discovered by self-supervised learning from 3446 whole-slide images]. ''Nature Communications''. 2025.</ref>
<ref name="mtpc">Zhao S, Liu J, Chen J, et al. [https://pubmed.ncbi.nlm.nih.gov/41626161/ MTPC integration for improved diagnosis of pleural effusion]. ''Frontiers in Oncology''. 2025.</ref>
<ref name="cfmedip">Test performance of a DNA methylation–based liquid biopsy for pleural mesothelioma (cfMeDIP-seq). ''Journal of Clinical Oncology'' 43, no. 16_suppl (2025): abstract 8082. American Society of Clinical Oncology Annual Meeting, 2025.</ref>
<ref name="smrp-meta">Hollevoet K, Reitsma JB, Creaney J, et al. [https://pubmed.ncbi.nlm.nih.gov/22412141/ Serum mesothelin for diagnosing malignant pleural mesothelioma: an individual patient data meta-analysis]. ''Journal of Clinical Oncology''. 2012.</ref>
<ref name="lb-review">Cavallari I, Urso L, Sharova E, et al. [https://pubmed.ncbi.nlm.nih.gov/31475103/ Liquid Biopsy in Malignant Pleural Mesothelioma: State of the Art, Pitfalls, and Perspectives]. ''Frontiers in Oncology''. 2019.</ref>
<ref name="dandell-claims">Danziger & De Llano, Mesothelioma and Asbestos Attorneys. Mesothelioma is caused by asbestos exposure; diagnostic method does not affect eligibility for compensation.</ref>
</references>

[[Category:Medical]]
[[Category:Diagnosis]]
[[Category:Mesothelioma]]
[[Category:Biomarkers]]
[[Category:Emerging Research]]
[[Category:Liquid Biopsy]]

Liquid Biopsy for Mesothelioma - Revision history

MesotheliomaSupport: Publish new canonical page: Liquid Biopsy for Mesothelioma (ctDNA/methylation diagnostics 2026). CLEO PASS #11331, slate #10123.