Correlation of 68Ga-FAPi-46 PET Biodistribution with FAP Expression by Immunohistochemistry in Patients with Solid Cancers: Interim Analysis of a Prospective Translational Exploratory Study
Fibroblast activation protein (FAP)–expressing cancer-associated fibroblasts confer treatment resistance and promote metastasis and immunosuppression. Because FAP is overexpressed in many cancers, radiolabeled molecules targeting FAP are studied for their use as pancancer theranostic agents. This st...
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| Veröffentlicht in: | The Journal of nuclear medicine (1978) 2022-07, Vol.63 (7), p.1021-1026 |
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| creator | Mona, Christine E Benz, Matthias R Hikmat, Firas Grogan, Tristan R Lueckerath, Katharina Razmaria, Aria Riahi, Rana Slavik, Roger Girgis, Mark D Carlucci, Giuseppe Kelly, Kimberly A French, Samuel W Czernin, Johannes Dawson, David W Calais, Jeremie |
| description | Fibroblast activation protein (FAP)–expressing cancer-associated fibroblasts confer treatment resistance and promote metastasis and immunosuppression. Because FAP is overexpressed in many cancers, radiolabeled molecules targeting FAP are studied for their use as pancancer theranostic agents. This study aimed to establish the spectrum of FAP expression across various cancers by immunohistochemistry and to explore whether 68Ga FAP inhibitor (FAPi)–46 PET biodistribution faithfully reflects FAP expression from resected cancer and non-cancer specimens. Methods: We conducted a FAP expression screening using immunohistochemistry on a pancancer human tissue microarray (141 patients, 14 different types of cancer) and an interim analysis of a prospective exploratory imaging trial in cancer patients. Volunteer patients underwent 1 whole-body 68Ga-FAPi-46 PET/CT scan and, subsequently, surgical resection of their primary tumor or metastasis. 68Ga-FAPi-46 PET SUVmax and SUVmean was correlated with FAP immunohistochemistry score in cancer and tumor-adjacent non-cancer tissues for each patient. Results: FAP was expressed across all 14 cancer types on tissue microarray with variable intensity and frequency, ranging from 25% to 100% (mean, 76.6% ± 25.3%). Strong FAP expression was observed in 50%–100% of cancers of the bile duct, bladder, colon, esophagus, stomach, lung, oropharynx, ovary, and pancreas. Fifteen patients with various cancer types (colorectal [n = 4], head and neck [n = 3], pancreas [n = 2], breast [n = 2], stomach [n = 1], esophagus [n = 2], and uterus [n = 1]) underwent surgery after their 68Ga-FAPi-46 PET/CT scan within a mean interval of 16.1 ± 14.4 d. 68Ga-FAPi-46 SUVs and immunohistochemistry scores were higher in cancer than in tumor-adjacent non-cancer tissue: mean SUVmax 7.7 versus 1.6 (P |
| doi_str_mv | 10.2967/jnumed.121.262426 |
| format | Article |
| fullrecord | <record><control><sourceid>proquest_pubme</sourceid><recordid>TN_cdi_pubmedcentral_primary_oai_pubmedcentral_nih_gov_9258565</recordid><sourceformat>XML</sourceformat><sourcesystem>PC</sourcesystem><sourcerecordid>2696510294</sourcerecordid><originalsourceid>FETCH-LOGICAL-p244t-7c66e9008865772b6ca63a4d053fbb3e22e9ff4c04b9bcfb54e1def06a5a09293</originalsourceid><addsrcrecordid>eNpVkEFu2zAQRYkiReOkPUB3BLKWQ1HkSOyigGM4qYEAMRB3LZASVdOQSIWk0upwvVvpOpusBpj58-b_QehrTpZUQHl7tNOg22VO8yUFyih8QIucFzzjAOUFWpAc8oxzwi_RVQhHQghUVfUJXRasZETwYoH-rp33upfROItdh6F6kNn9amcyBni32eM741oTojdq-q_5beIBJwHe_Bm9DuHUUzPeDsNk3SEpXXPQw2ljxsbiXSJrG8N579n1psVraRvtwze8tVF7M-CVlf0cTDgZkHjnXRh1E82rxnsvbTi7k_3pZO-8jC6xn-PUzp_Rx072QX95q9fo5_1mv_6RPT49bNerx2ykjMWsbAC0IKSqgJclVdBIKCRrCS86pQpNqRZdxxrClFBNpzjTeas7ApJLIqgortH3M3ecVPp4kxJ52ddjMi_9XDtp6vcTaw71L_daC8orDjwBbt4A3r1MOsT66CafMoWaggCeEypY8Q9hb5Oy</addsrcrecordid><sourcetype>Open Access Repository</sourcetype><iscdi>true</iscdi><recordtype>article</recordtype><pqid>2696510294</pqid></control><display><type>article</type><title>Correlation of 68Ga-FAPi-46 PET Biodistribution with FAP Expression by Immunohistochemistry in Patients with Solid Cancers: Interim Analysis of a Prospective Translational Exploratory Study</title><source>EZB-FREE-00999 freely available EZB journals</source><source>Alma/SFX Local Collection</source><creator>Mona, Christine E ; Benz, Matthias R ; Hikmat, Firas ; Grogan, Tristan R ; Lueckerath, Katharina ; Razmaria, Aria ; Riahi, Rana ; Slavik, Roger ; Girgis, Mark D ; Carlucci, Giuseppe ; Kelly, Kimberly A ; French, Samuel W ; Czernin, Johannes ; Dawson, David W ; Calais, Jeremie</creator><creatorcontrib>Mona, Christine E ; Benz, Matthias R ; Hikmat, Firas ; Grogan, Tristan R ; Lueckerath, Katharina ; Razmaria, Aria ; Riahi, Rana ; Slavik, Roger ; Girgis, Mark D ; Carlucci, Giuseppe ; Kelly, Kimberly A ; French, Samuel W ; Czernin, Johannes ; Dawson, David W ; Calais, Jeremie</creatorcontrib><description>Fibroblast activation protein (FAP)–expressing cancer-associated fibroblasts confer treatment resistance and promote metastasis and immunosuppression. Because FAP is overexpressed in many cancers, radiolabeled molecules targeting FAP are studied for their use as pancancer theranostic agents. This study aimed to establish the spectrum of FAP expression across various cancers by immunohistochemistry and to explore whether 68Ga FAP inhibitor (FAPi)–46 PET biodistribution faithfully reflects FAP expression from resected cancer and non-cancer specimens. Methods: We conducted a FAP expression screening using immunohistochemistry on a pancancer human tissue microarray (141 patients, 14 different types of cancer) and an interim analysis of a prospective exploratory imaging trial in cancer patients. Volunteer patients underwent 1 whole-body 68Ga-FAPi-46 PET/CT scan and, subsequently, surgical resection of their primary tumor or metastasis. 68Ga-FAPi-46 PET SUVmax and SUVmean was correlated with FAP immunohistochemistry score in cancer and tumor-adjacent non-cancer tissues for each patient. Results: FAP was expressed across all 14 cancer types on tissue microarray with variable intensity and frequency, ranging from 25% to 100% (mean, 76.6% ± 25.3%). Strong FAP expression was observed in 50%–100% of cancers of the bile duct, bladder, colon, esophagus, stomach, lung, oropharynx, ovary, and pancreas. Fifteen patients with various cancer types (colorectal [n = 4], head and neck [n = 3], pancreas [n = 2], breast [n = 2], stomach [n = 1], esophagus [n = 2], and uterus [n = 1]) underwent surgery after their 68Ga-FAPi-46 PET/CT scan within a mean interval of 16.1 ± 14.4 d. 68Ga-FAPi-46 SUVs and immunohistochemistry scores were higher in cancer than in tumor-adjacent non-cancer tissue: mean SUVmax 7.7 versus 1.6 (P < 0.001), mean SUVmean 6.2 versus 1.0 (P < 0.001), and mean FAP immunohistochemistry score 2.8 versus 0.9 (P < 0.001). FAP immunohistochemistry scores strongly correlated with 68Ga-FAPi 46 SUVmax and SUVmean: r = 0.781 (95% CI, 0.376–0.936; P < 0.001) and r = 0.783 (95% CI, 0.379–0.936; P < 0.001), respectively. Conclusion: In this interim analysis of a prospective exploratory imaging trial, 68Ga-FAPi-46 PET biodistribution across multiple cancers strongly correlated with FAP tissue expression. These findings support further exploration of FAPi PET as a pancancer imaging biomarker for FAP expression and as a stratification tool for FAP-targeted therapies.</description><identifier>ISSN: 0161-5505</identifier><identifier>EISSN: 1535-5667</identifier><identifier>DOI: 10.2967/jnumed.121.262426</identifier><identifier>PMID: 34740953</identifier><language>eng</language><publisher>New York: Society of Nuclear Medicine</publisher><subject>Bile ducts ; Biodistribution ; Biomarkers ; Breast ; Cancer ; Clinical Investigation ; Colon ; Computed tomography ; Esophagus ; Fibroblast activation protein ; Fibroblasts ; Human tissues ; Immunohistochemistry ; Immunosuppression ; Medical imaging ; Metastases ; Metastasis ; Oropharynx ; Pancreas ; Patients ; Positron emission ; Stomach ; Tissues ; Tomography ; Treatment resistance ; Tumors ; Uterus</subject><ispartof>The Journal of nuclear medicine (1978), 2022-07, Vol.63 (7), p.1021-1026</ispartof><rights>Copyright Society of Nuclear Medicine Jul 1, 2022</rights><rights>2022 by the Society of Nuclear Medicine and Molecular Imaging. 2022</rights><lds50>peer_reviewed</lds50><oa>free_for_read</oa><woscitedreferencessubscribed>false</woscitedreferencessubscribed></display><links><openurl>$$Topenurl_article</openurl><openurlfulltext>$$Topenurlfull_article</openurlfulltext><thumbnail>$$Tsyndetics_thumb_exl</thumbnail><link.rule.ids>230,314,776,780,881,27901,27902</link.rule.ids></links><search><creatorcontrib>Mona, Christine E</creatorcontrib><creatorcontrib>Benz, Matthias R</creatorcontrib><creatorcontrib>Hikmat, Firas</creatorcontrib><creatorcontrib>Grogan, Tristan R</creatorcontrib><creatorcontrib>Lueckerath, Katharina</creatorcontrib><creatorcontrib>Razmaria, Aria</creatorcontrib><creatorcontrib>Riahi, Rana</creatorcontrib><creatorcontrib>Slavik, Roger</creatorcontrib><creatorcontrib>Girgis, Mark D</creatorcontrib><creatorcontrib>Carlucci, Giuseppe</creatorcontrib><creatorcontrib>Kelly, Kimberly A</creatorcontrib><creatorcontrib>French, Samuel W</creatorcontrib><creatorcontrib>Czernin, Johannes</creatorcontrib><creatorcontrib>Dawson, David W</creatorcontrib><creatorcontrib>Calais, Jeremie</creatorcontrib><title>Correlation of 68Ga-FAPi-46 PET Biodistribution with FAP Expression by Immunohistochemistry in Patients with Solid Cancers: Interim Analysis of a Prospective Translational Exploratory Study</title><title>The Journal of nuclear medicine (1978)</title><description>Fibroblast activation protein (FAP)–expressing cancer-associated fibroblasts confer treatment resistance and promote metastasis and immunosuppression. Because FAP is overexpressed in many cancers, radiolabeled molecules targeting FAP are studied for their use as pancancer theranostic agents. This study aimed to establish the spectrum of FAP expression across various cancers by immunohistochemistry and to explore whether 68Ga FAP inhibitor (FAPi)–46 PET biodistribution faithfully reflects FAP expression from resected cancer and non-cancer specimens. Methods: We conducted a FAP expression screening using immunohistochemistry on a pancancer human tissue microarray (141 patients, 14 different types of cancer) and an interim analysis of a prospective exploratory imaging trial in cancer patients. Volunteer patients underwent 1 whole-body 68Ga-FAPi-46 PET/CT scan and, subsequently, surgical resection of their primary tumor or metastasis. 68Ga-FAPi-46 PET SUVmax and SUVmean was correlated with FAP immunohistochemistry score in cancer and tumor-adjacent non-cancer tissues for each patient. Results: FAP was expressed across all 14 cancer types on tissue microarray with variable intensity and frequency, ranging from 25% to 100% (mean, 76.6% ± 25.3%). Strong FAP expression was observed in 50%–100% of cancers of the bile duct, bladder, colon, esophagus, stomach, lung, oropharynx, ovary, and pancreas. Fifteen patients with various cancer types (colorectal [n = 4], head and neck [n = 3], pancreas [n = 2], breast [n = 2], stomach [n = 1], esophagus [n = 2], and uterus [n = 1]) underwent surgery after their 68Ga-FAPi-46 PET/CT scan within a mean interval of 16.1 ± 14.4 d. 68Ga-FAPi-46 SUVs and immunohistochemistry scores were higher in cancer than in tumor-adjacent non-cancer tissue: mean SUVmax 7.7 versus 1.6 (P < 0.001), mean SUVmean 6.2 versus 1.0 (P < 0.001), and mean FAP immunohistochemistry score 2.8 versus 0.9 (P < 0.001). FAP immunohistochemistry scores strongly correlated with 68Ga-FAPi 46 SUVmax and SUVmean: r = 0.781 (95% CI, 0.376–0.936; P < 0.001) and r = 0.783 (95% CI, 0.379–0.936; P < 0.001), respectively. Conclusion: In this interim analysis of a prospective exploratory imaging trial, 68Ga-FAPi-46 PET biodistribution across multiple cancers strongly correlated with FAP tissue expression. These findings support further exploration of FAPi PET as a pancancer imaging biomarker for FAP expression and as a stratification tool for FAP-targeted therapies.</description><subject>Bile ducts</subject><subject>Biodistribution</subject><subject>Biomarkers</subject><subject>Breast</subject><subject>Cancer</subject><subject>Clinical Investigation</subject><subject>Colon</subject><subject>Computed tomography</subject><subject>Esophagus</subject><subject>Fibroblast activation protein</subject><subject>Fibroblasts</subject><subject>Human tissues</subject><subject>Immunohistochemistry</subject><subject>Immunosuppression</subject><subject>Medical imaging</subject><subject>Metastases</subject><subject>Metastasis</subject><subject>Oropharynx</subject><subject>Pancreas</subject><subject>Patients</subject><subject>Positron emission</subject><subject>Stomach</subject><subject>Tissues</subject><subject>Tomography</subject><subject>Treatment resistance</subject><subject>Tumors</subject><subject>Uterus</subject><issn>0161-5505</issn><issn>1535-5667</issn><fulltext>true</fulltext><rsrctype>article</rsrctype><creationdate>2022</creationdate><recordtype>article</recordtype><recordid>eNpVkEFu2zAQRYkiReOkPUB3BLKWQ1HkSOyigGM4qYEAMRB3LZASVdOQSIWk0upwvVvpOpusBpj58-b_QehrTpZUQHl7tNOg22VO8yUFyih8QIucFzzjAOUFWpAc8oxzwi_RVQhHQghUVfUJXRasZETwYoH-rp33upfROItdh6F6kNn9amcyBni32eM741oTojdq-q_5beIBJwHe_Bm9DuHUUzPeDsNk3SEpXXPQw2ljxsbiXSJrG8N579n1psVraRvtwze8tVF7M-CVlf0cTDgZkHjnXRh1E82rxnsvbTi7k_3pZO-8jC6xn-PUzp_Rx072QX95q9fo5_1mv_6RPT49bNerx2ykjMWsbAC0IKSqgJclVdBIKCRrCS86pQpNqRZdxxrClFBNpzjTeas7ApJLIqgortH3M3ecVPp4kxJ52ddjMi_9XDtp6vcTaw71L_daC8orDjwBbt4A3r1MOsT66CafMoWaggCeEypY8Q9hb5Oy</recordid><startdate>20220701</startdate><enddate>20220701</enddate><creator>Mona, Christine E</creator><creator>Benz, Matthias R</creator><creator>Hikmat, Firas</creator><creator>Grogan, Tristan R</creator><creator>Lueckerath, Katharina</creator><creator>Razmaria, Aria</creator><creator>Riahi, Rana</creator><creator>Slavik, Roger</creator><creator>Girgis, Mark D</creator><creator>Carlucci, Giuseppe</creator><creator>Kelly, Kimberly A</creator><creator>French, Samuel W</creator><creator>Czernin, Johannes</creator><creator>Dawson, David W</creator><creator>Calais, Jeremie</creator><general>Society of Nuclear Medicine</general><scope>4T-</scope><scope>8FD</scope><scope>FR3</scope><scope>K9.</scope><scope>M7Z</scope><scope>NAPCQ</scope><scope>P64</scope><scope>5PM</scope></search><sort><creationdate>20220701</creationdate><title>Correlation of 68Ga-FAPi-46 PET Biodistribution with FAP Expression by Immunohistochemistry in Patients with Solid Cancers: Interim Analysis of a Prospective Translational Exploratory Study</title><author>Mona, Christine E ; Benz, Matthias R ; Hikmat, Firas ; Grogan, Tristan R ; Lueckerath, Katharina ; Razmaria, Aria ; Riahi, Rana ; Slavik, Roger ; Girgis, Mark D ; Carlucci, Giuseppe ; Kelly, Kimberly A ; French, Samuel W ; Czernin, Johannes ; Dawson, David W ; Calais, Jeremie</author></sort><facets><frbrtype>5</frbrtype><frbrgroupid>cdi_FETCH-LOGICAL-p244t-7c66e9008865772b6ca63a4d053fbb3e22e9ff4c04b9bcfb54e1def06a5a09293</frbrgroupid><rsrctype>articles</rsrctype><prefilter>articles</prefilter><language>eng</language><creationdate>2022</creationdate><topic>Bile ducts</topic><topic>Biodistribution</topic><topic>Biomarkers</topic><topic>Breast</topic><topic>Cancer</topic><topic>Clinical Investigation</topic><topic>Colon</topic><topic>Computed tomography</topic><topic>Esophagus</topic><topic>Fibroblast activation protein</topic><topic>Fibroblasts</topic><topic>Human tissues</topic><topic>Immunohistochemistry</topic><topic>Immunosuppression</topic><topic>Medical imaging</topic><topic>Metastases</topic><topic>Metastasis</topic><topic>Oropharynx</topic><topic>Pancreas</topic><topic>Patients</topic><topic>Positron emission</topic><topic>Stomach</topic><topic>Tissues</topic><topic>Tomography</topic><topic>Treatment resistance</topic><topic>Tumors</topic><topic>Uterus</topic><toplevel>peer_reviewed</toplevel><toplevel>online_resources</toplevel><creatorcontrib>Mona, Christine E</creatorcontrib><creatorcontrib>Benz, Matthias R</creatorcontrib><creatorcontrib>Hikmat, Firas</creatorcontrib><creatorcontrib>Grogan, Tristan R</creatorcontrib><creatorcontrib>Lueckerath, Katharina</creatorcontrib><creatorcontrib>Razmaria, Aria</creatorcontrib><creatorcontrib>Riahi, Rana</creatorcontrib><creatorcontrib>Slavik, Roger</creatorcontrib><creatorcontrib>Girgis, Mark D</creatorcontrib><creatorcontrib>Carlucci, Giuseppe</creatorcontrib><creatorcontrib>Kelly, Kimberly A</creatorcontrib><creatorcontrib>French, Samuel W</creatorcontrib><creatorcontrib>Czernin, Johannes</creatorcontrib><creatorcontrib>Dawson, David W</creatorcontrib><creatorcontrib>Calais, Jeremie</creatorcontrib><collection>Docstoc</collection><collection>Technology Research Database</collection><collection>Engineering Research Database</collection><collection>ProQuest Health & Medical Complete (Alumni)</collection><collection>Biochemistry Abstracts 1</collection><collection>Nursing & Allied Health Premium</collection><collection>Biotechnology and BioEngineering Abstracts</collection><collection>PubMed Central (Full Participant titles)</collection><jtitle>The Journal of nuclear medicine (1978)</jtitle></facets><delivery><delcategory>Remote Search Resource</delcategory><fulltext>fulltext</fulltext></delivery><addata><au>Mona, Christine E</au><au>Benz, Matthias R</au><au>Hikmat, Firas</au><au>Grogan, Tristan R</au><au>Lueckerath, Katharina</au><au>Razmaria, Aria</au><au>Riahi, Rana</au><au>Slavik, Roger</au><au>Girgis, Mark D</au><au>Carlucci, Giuseppe</au><au>Kelly, Kimberly A</au><au>French, Samuel W</au><au>Czernin, Johannes</au><au>Dawson, David W</au><au>Calais, Jeremie</au><format>journal</format><genre>article</genre><ristype>JOUR</ristype><atitle>Correlation of 68Ga-FAPi-46 PET Biodistribution with FAP Expression by Immunohistochemistry in Patients with Solid Cancers: Interim Analysis of a Prospective Translational Exploratory Study</atitle><jtitle>The Journal of nuclear medicine (1978)</jtitle><date>2022-07-01</date><risdate>2022</risdate><volume>63</volume><issue>7</issue><spage>1021</spage><epage>1026</epage><pages>1021-1026</pages><issn>0161-5505</issn><eissn>1535-5667</eissn><abstract>Fibroblast activation protein (FAP)–expressing cancer-associated fibroblasts confer treatment resistance and promote metastasis and immunosuppression. Because FAP is overexpressed in many cancers, radiolabeled molecules targeting FAP are studied for their use as pancancer theranostic agents. This study aimed to establish the spectrum of FAP expression across various cancers by immunohistochemistry and to explore whether 68Ga FAP inhibitor (FAPi)–46 PET biodistribution faithfully reflects FAP expression from resected cancer and non-cancer specimens. Methods: We conducted a FAP expression screening using immunohistochemistry on a pancancer human tissue microarray (141 patients, 14 different types of cancer) and an interim analysis of a prospective exploratory imaging trial in cancer patients. Volunteer patients underwent 1 whole-body 68Ga-FAPi-46 PET/CT scan and, subsequently, surgical resection of their primary tumor or metastasis. 68Ga-FAPi-46 PET SUVmax and SUVmean was correlated with FAP immunohistochemistry score in cancer and tumor-adjacent non-cancer tissues for each patient. Results: FAP was expressed across all 14 cancer types on tissue microarray with variable intensity and frequency, ranging from 25% to 100% (mean, 76.6% ± 25.3%). Strong FAP expression was observed in 50%–100% of cancers of the bile duct, bladder, colon, esophagus, stomach, lung, oropharynx, ovary, and pancreas. Fifteen patients with various cancer types (colorectal [n = 4], head and neck [n = 3], pancreas [n = 2], breast [n = 2], stomach [n = 1], esophagus [n = 2], and uterus [n = 1]) underwent surgery after their 68Ga-FAPi-46 PET/CT scan within a mean interval of 16.1 ± 14.4 d. 68Ga-FAPi-46 SUVs and immunohistochemistry scores were higher in cancer than in tumor-adjacent non-cancer tissue: mean SUVmax 7.7 versus 1.6 (P < 0.001), mean SUVmean 6.2 versus 1.0 (P < 0.001), and mean FAP immunohistochemistry score 2.8 versus 0.9 (P < 0.001). FAP immunohistochemistry scores strongly correlated with 68Ga-FAPi 46 SUVmax and SUVmean: r = 0.781 (95% CI, 0.376–0.936; P < 0.001) and r = 0.783 (95% CI, 0.379–0.936; P < 0.001), respectively. Conclusion: In this interim analysis of a prospective exploratory imaging trial, 68Ga-FAPi-46 PET biodistribution across multiple cancers strongly correlated with FAP tissue expression. These findings support further exploration of FAPi PET as a pancancer imaging biomarker for FAP expression and as a stratification tool for FAP-targeted therapies.</abstract><cop>New York</cop><pub>Society of Nuclear Medicine</pub><pmid>34740953</pmid><doi>10.2967/jnumed.121.262426</doi><tpages>6</tpages><oa>free_for_read</oa></addata></record> |
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| subjects | Bile ducts Biodistribution Biomarkers Breast Cancer Clinical Investigation Colon Computed tomography Esophagus Fibroblast activation protein Fibroblasts Human tissues Immunohistochemistry Immunosuppression Medical imaging Metastases Metastasis Oropharynx Pancreas Patients Positron emission Stomach Tissues Tomography Treatment resistance Tumors Uterus |
| title | Correlation of 68Ga-FAPi-46 PET Biodistribution with FAP Expression by Immunohistochemistry in Patients with Solid Cancers: Interim Analysis of a Prospective Translational Exploratory Study |
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