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Geometry.csv
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Geometry.csv
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Vessel,VesselID,Property,Sex,Value,StandardDeviation,RangeLow,RangeHigh,Units,Population,SampleSize,Method,ReferenceURL,Reference,ReferenceDOI,Notes
abdominal aorta,UBERON:0001516,length,Female,9.062,1.275,-1,-1,cm,Korean Study,1313,Computed tomography,https://www.ncbi.nlm.nih.gov/pmc/articles/PMC9071155/,Kim H, Kwon TW, Choi E, Jeong S, Kim HK, Han Y, Cho YP, Yoon HK, Choe J, Kim WH. Aortoiliac diameter and length in a healthy cohort. PLoS One. 2022 May 5;17(5):e0268077. doi: 10.1371/journal.pone.0268077. PMID: 35511926; PMCID: PMC9071155.,10.1371/journal.pone.0268077,
abdominal aorta,UBERON:0001516,length,Male,9.4271,1.362,-1,-1,cm,Korean Study,2379,Computed tomography,https://www.ncbi.nlm.nih.gov/pmc/articles/PMC9071155/,Kim H, Kwon TW, Choi E, Jeong S, Kim HK, Han Y, Cho YP, Yoon HK, Choe J, Kim WH. Aortoiliac diameter and length in a healthy cohort. PLoS One. 2022 May 5;17(5):e0268077. doi: 10.1371/journal.pone.0268077. PMID: 35511926; PMCID: PMC9071155.,10.1371/journal.pone.0268077,
abdominal aorta,UBERON:0001516,luminal diameter,Female,1.66,0.3,-1,-1,cm,Norwegian Study,80,Ultrasound,https://www.jvascsurg.org/article/0741-5214(93)90161-E/fulltext,Pedersen OM, Aslaksen A, Vik-Mo H. Ultrasound measurement of the luminal diameter of the abdominal aorta and iliac arteries in patients without vascular disease. J Vasc Surg. 1993 Mar;17(3):596-601. doi: 10.1067/mva.1993.39525. PMID: 8445758.,10.1016/0741-5214(93)90161-E,Proximal diameter
abdominal aorta,UBERON:0001516,luminal diameter,Male,1.84,0.33,-1,-1,cm,Norwegian Study,80,Ultrasound,https://www.jvascsurg.org/article/0741-5214(93)90161-E/fulltext,Pedersen OM, Aslaksen A, Vik-Mo H. Ultrasound measurement of the luminal diameter of the abdominal aorta and iliac arteries in patients without vascular disease. J Vasc Surg. 1993 Mar;17(3):596-601. doi: 10.1067/mva.1993.39525. PMID: 8445758.,10.1016/0741-5214(93)90161-E,Proximal diameter
abdominal aorta,UBERON:0001516,outer diameter,Female,1.5884,0.1464,-1,-1,cm,Korean Study,1313,Computed tomography,https://www.ncbi.nlm.nih.gov/pmc/articles/PMC9071155/,Kim H, Kwon TW, Choi E, Jeong S, Kim HK, Han Y, Cho YP, Yoon HK, Choe J, Kim WH. Aortoiliac diameter and length in a healthy cohort. PLoS One. 2022 May 5;17(5):e0268077. doi: 10.1371/journal.pone.0268077. PMID: 35511926; PMCID: PMC9071155.,10.1371/journal.pone.0268077,
abdominal aorta,UBERON:0001516,outer diameter,Male,1.8377,0.1766,-1,-1,cm,Korean Study,2379,Computed tomography,https://www.ncbi.nlm.nih.gov/pmc/articles/PMC9071155/,Kim H, Kwon TW, Choi E, Jeong S, Kim HK, Han Y, Cho YP, Yoon HK, Choe J, Kim WH. Aortoiliac diameter and length in a healthy cohort. PLoS One. 2022 May 5;17(5):e0268077. doi: 10.1371/journal.pone.0268077. PMID: 35511926; PMCID: PMC9071155.,10.1371/journal.pone.0268077,
aortic arch,UBERON:0001508,length,Unknown,2.514,0.711,-1,-1,cm,Chinese Study,534,Computed tomography,https://www.ncbi.nlm.nih.gov/pmc/articles/PMC7797824/,Qiu P, Liu J, Chen Y, Zha B, Ye K, Qin J, Hao P, Kang J, Zhang C, Zhu H, Lu X. Changes in aortic arch geometry and the risk for Stanford B dissection. J Thorac Dis. 2020 Dec;12(12):7193-7201. doi: 10.21037/jtd-20-1643. PMID: 33447408; PMCID: PMC7797824.,10.21037/jtd-20-1643,
aortic arch,UBERON:0001508,luminal diameter,Female,2.1512,-1,-1,-1,cm,American Study,1,Computed tomography,https://hubmapconsortium.github.io/ccf-releases/v1.2/docs/ref-organs/blood-vasculature-female.html,Browne K, Schlehlein H. 2022. 3D Reference Organ for Blood Vasculature, Female v1.2. https://doi.org/10.48539/HBM232.FSRK.728. Accessed on May 6, 2022.,10.48539/HBM232.FSRK.728,From 3D model (derived from Visible Human Project)
aortic arch,UBERON:0001508,luminal diameter,Male,1.84704,-1,-1,-1,cm,American Study,1,Computed tomography,https://hubmapconsortium.github.io/ccf-releases/v1.2/docs/ref-organs/blood-vasculature-male.html,Browne K, Schlehlein H. 2022. 3D Reference Organ for Blood Vasculature, Male v1.2. https://doi.org/10.48539/HBM686.LBDQ.998. Accessed on May 6, 2022.,10.48539/HBM686.LBDQ.998,From 3D model (derived from Visible Human Project)
aortic arch,UBERON:0001508,luminal diameter,Unknown,2.61,0.36,-1,-1,cm,Chinese Study,534,Computed tomography,https://www.ncbi.nlm.nih.gov/pmc/articles/PMC7797824/,Qiu P, Liu J, Chen Y, Zha B, Ye K, Qin J, Hao P, Kang J, Zhang C, Zhu H, Lu X. Changes in aortic arch geometry and the risk for Stanford B dissection. J Thorac Dis. 2020 Dec;12(12):7193-7201. doi: 10.21037/jtd-20-1643. PMID: 33447408; PMCID: PMC7797824.,10.21037/jtd-20-1643,
ascending aorta,UBERON:0001496,length,Female,7.96,-1,-1,-1,cm,Canadian Study,108,Computed tomography,https://www.ncbi.nlm.nih.gov/pmc/articles/PMC8403277/,Eliathamby D, Gutierrez M, Liu A, Ouzounian M, Forbes TL, Tan KT, Chung J. Ascending Aortic Length and Its Association With Type A Aortic Dissection. J Am Heart Assoc. 2021 Jul 6;10(13):e020140. doi: 10.1161/JAHA.120.020140. Epub 2021 Jun 14. PMID: 34121418; PMCID: PMC8403277.,10.1161/JAHA.120.020140,From 3D models
ascending aorta,UBERON:0001496,length,Male,8.8,-1,-1,-1,cm,Canadian Study,92,Computed tomography,https://www.ncbi.nlm.nih.gov/pmc/articles/PMC8403277/,Eliathamby D, Gutierrez M, Liu A, Ouzounian M, Forbes TL, Tan KT, Chung J. Ascending Aortic Length and Its Association With Type A Aortic Dissection. J Am Heart Assoc. 2021 Jul 6;10(13):e020140. doi: 10.1161/JAHA.120.020140. Epub 2021 Jun 14. PMID: 34121418; PMCID: PMC8403277.,10.1161/JAHA.120.020140,From 3D models
ascending aorta,UBERON:0001496,luminal diameter,Female,2.36294,-1,-1,-1,cm,American Study,1,Computed tomography,https://hubmapconsortium.github.io/ccf-releases/v1.2/docs/ref-organs/blood-vasculature-female.html,Browne K, Schlehlein H. 2022. 3D Reference Organ for Blood Vasculature, Female v1.2. https://doi.org/10.48539/HBM232.FSRK.728. Accessed on May 6, 2022.,10.48539/HBM232.FSRK.728,From 3D model (derived from Visible Human Project)
ascending aorta,UBERON:0001496,luminal diameter,Female,3.17,-1,-1,-1,cm,Canadian Study,108,Computed tomography,https://www.ncbi.nlm.nih.gov/pmc/articles/PMC8403277/,Eliathamby D, Gutierrez M, Liu A, Ouzounian M, Forbes TL, Tan KT, Chung J. Ascending Aortic Length and Its Association With Type A Aortic Dissection. J Am Heart Assoc. 2021 Jul 6;10(13):e020140. doi: 10.1161/JAHA.120.020140. Epub 2021 Jun 14. PMID: 34121418; PMCID: PMC8403277.,10.1161/JAHA.120.020140,From 3D models
ascending aorta,UBERON:0001496,luminal diameter,Male,2.11418,-1,-1,-1,cm,American Study,1,Computed tomography,https://hubmapconsortium.github.io/ccf-releases/v1.2/docs/ref-organs/blood-vasculature-male.html,Browne K, Schlehlein H. 2022. 3D Reference Organ for Blood Vasculature, Male v1.2. https://doi.org/10.48539/HBM686.LBDQ.998. Accessed on May 6, 2022.,10.48539/HBM686.LBDQ.998,From 3D model (derived from Visible Human Project)
ascending aorta,UBERON:0001496,luminal diameter,Male,3.61,-1,-1,-1,cm,Canadian Study,92,Computed tomography,https://www.ncbi.nlm.nih.gov/pmc/articles/PMC8403277/,Eliathamby D, Gutierrez M, Liu A, Ouzounian M, Forbes TL, Tan KT, Chung J. Ascending Aortic Length and Its Association With Type A Aortic Dissection. J Am Heart Assoc. 2021 Jul 6;10(13):e020140. doi: 10.1161/JAHA.120.020140. Epub 2021 Jun 14. PMID: 34121418; PMCID: PMC8403277.,10.1161/JAHA.120.020140,From 3D models
brachial artery,UBERON:0001398,length,Female,22.65,0.77,-1,-1,cm,Indian Study,50,Cadaveric study,https://www.scielo.cl/pdf/ijmorphol/v29n4/art59.pdf,Bidarkotimath S, Avadhani R, Arunachalam K. Primary pattern of arteries of upper limb with relevance to their variations. International Journal of Morphology. 2011;29(4):1422-1428.,,Sample size assumes 1:1 sex ratio
brachial artery,UBERON:0001398,length,Male,23,8.64,-1,-1,cm,Indian Study,50,Cadaveric study,https://www.scielo.cl/pdf/ijmorphol/v29n4/art59.pdf,Bidarkotimath S, Avadhani R, Arunachalam K. Primary pattern of arteries of upper limb with relevance to their variations. International Journal of Morphology. 2011;29(4):1422-1428.,,Sample size assumes 1:1 sex ratio
brachial artery,UBERON:0001398,luminal diameter,Both,0.436,0.087,-1,-1,cm,American Study,682,Ultrasound,https://www.ncbi.nlm.nih.gov/pmc/articles/PMC2956304/,Chami HA, Keyes MJ, Vita JA, Mitchell GF, Larson MG, Fan S, Vasan RS, O'Connor GT, Benjamin EJ, Gottlieb DJ. Brachial artery diameter, blood flow and flow-mediated dilation in sleep-disordered breathing. Vasc Med. 2009 Nov;14(4):351-60. doi: 10.1177/1358863X09105132. PMID: 19808720; PMCID: PMC2956304.,10.1177/1358863X09105132,355 female, 327 male
brachiocephalic artery,UBERON:0001529,length,Female,3.69,0.905,-1,-1,cm,Caucasian (Hellenic) origin,36,Cadaveric study,https://www.ncbi.nlm.nih.gov/pmc/articles/PMC7505533/,Panagouli E, Antonopoulos I, Tsoucalas G, Samolis A, Venieratos D, Troupis T. Morphometry of the Brachiocephalic Artery: A Cadaveric Anatomical Study. Cureus. 2020 Aug 20;12(8):e9897. doi: 10.7759/cureus.9897. PMID: 32968563; PMCID: PMC7505533.,10.7759/cureus.9897,Embalmed cadavers
brachiocephalic artery,UBERON:0001529,length,Male,3.94,0.98,-1,-1,cm,Caucasian (Hellenic) origin,38,Cadaveric study,https://www.ncbi.nlm.nih.gov/pmc/articles/PMC7505533/,Panagouli E, Antonopoulos I, Tsoucalas G, Samolis A, Venieratos D, Troupis T. Morphometry of the Brachiocephalic Artery: A Cadaveric Anatomical Study. Cureus. 2020 Aug 20;12(8):e9897. doi: 10.7759/cureus.9897. PMID: 32968563; PMCID: PMC7505533.,10.7759/cureus.9897,Embalmed cadavers
brachiocephalic artery,UBERON:0001529,luminal diameter,Female,1.11,0.17,-1,-1,cm,Indian Study,32,Computed tomography,https://www.ipinnovative.com/journal-article-file/2997,Kumar R, Kumar I, Singh AK, Kumar P, Sharma PK, Chandra N. Diameters of three major branches of arch of aorta and their correlation with each other, age and gender- A computed tomographic study. Indian Journal of Clinical Anatomy and Physiology. 2016 Oct-Dec;3(4):552-555. doi: 10.5958/2394-2126.2016.00126.2.,10.5958/2394-2126.2016.00126.2,
brachiocephalic artery,UBERON:0001529,luminal diameter,Male,0.799653,-1,-1,-1,cm,American Study,1,Computed tomography,https://hubmapconsortium.github.io/ccf-releases/v1.2/docs/ref-organs/blood-vasculature-male.html,Browne K, Schlehlein H. 2022. 3D Reference Organ for Blood Vasculature, Male v1.2. https://doi.org/10.48539/HBM686.LBDQ.998. Accessed on May 6, 2022.,10.48539/HBM686.LBDQ.998,From 3D model (derived from Visible Human Project)
brachiocephalic artery,UBERON:0001529,luminal diameter,Male,1.16,0.21,-1,-1,cm,Indian Study,52,Computed tomography,https://www.ipinnovative.com/journal-article-file/2997,Kumar R, Kumar I, Singh AK, Kumar P, Sharma PK, Chandra N. Diameters of three major branches of arch of aorta and their correlation with each other, age and gender- A computed tomographic study. Indian Journal of Clinical Anatomy and Physiology. 2016 Oct-Dec;3(4):552-555. doi: 10.5958/2394-2126.2016.00126.2.,10.5958/2394-2126.2016.00126.2,
celiac artery,UBERON:0001640,length,Male,1.9,0.08,-1,-1,cm,Unknown,90,Cadaveric study,https://pubmed.ncbi.nlm.nih.gov/20977083/,Malnar D, Klasan GS, Miletic D, Bajek S, Vranic TS, Arbanas J, Bobinac D, Coklo M. Properties of the celiac trunk--anatomical study. Coll Antropol. 2010 Sep;34(3):917-21. PMID: 20977083.,,
celiac artery,UBERON:0001640,outer diameter,Male,0.78,0.08,-1,-1,cm,Unknown,90,Cadaveric study,https://pubmed.ncbi.nlm.nih.gov/20977083/,Malnar D, Klasan GS, Miletic D, Bajek S, Vranic TS, Arbanas J, Bobinac D, Coklo M. Properties of the celiac trunk--anatomical study. Coll Antropol. 2010 Sep;34(3):917-21. PMID: 20977083.,,
celiac artery,UBERON:0001640,outer diameter,Unknown,0.72,0.139,-1,-1,cm,Mexican Study,140,Cadaveric study,https://www.ncbi.nlm.nih.gov/pmc/articles/PMC5827917/,Pinal-Garcia DF, Nuno-Guzman CM, Gonzalez-Gonzalez ME, Ibarra-Hurtado TR. The Celiac Trunk and Its Anatomical Variations: A Cadaveric Study. J Clin Med Res. 2018 Apr;10(4):321-329. doi: 10.14740/jocmr3356w. Epub 2018 Feb 18. PMID: 29511421; PMCID: PMC5827917.,10.14740/jocmr3356w,Fresh cadavers
common carotid artery,UBERON:0001530,luminal diameter,Female,0.61,0.08,-1,-1,cm,Unknown,306,Ultrasound,https://www.ahajournals.org/doi/10.1161/01.STR.0000206440.48756.f7,Krejza J, Arkuszewski M, Kasner SE, Weigele J, Ustymowicz A, Hurst RW, Cucchiara BL, Messe SR. Carotid artery diameter in men and women and the relation to body and neck size. Stroke. 2006 Apr;37(4):1103-5. doi: 10.1161/01.STR.0000206440.48756.f7. Epub 2006 Feb 23. PMID: 16497983.,10.1161/01.STR.0000206440.48756.f7,
common carotid artery,UBERON:0001530,luminal diameter,Male,0.652,0.098,-1,-1,cm,Unknown,194,Ultrasound,https://www.ahajournals.org/doi/10.1161/01.STR.0000206440.48756.f7,Krejza J, Arkuszewski M, Kasner SE, Weigele J, Ustymowicz A, Hurst RW, Cucchiara BL, Messe SR. Carotid artery diameter in men and women and the relation to body and neck size. Stroke. 2006 Apr;37(4):1103-5. doi: 10.1161/01.STR.0000206440.48756.f7. Epub 2006 Feb 23. PMID: 16497983.,10.1161/01.STR.0000206440.48756.f7,
common femoral artery,FMA:0323778,length,Both,5.09,1.255,-1,-1,cm,Malian Study,12,Cadaveric study,https://www.scirp.org/journal/paperinformation.aspx?paperid=95717,Ba B, Kanté A, Touré T, Koné M, Touré OI, Diallo CT, Kouamenou KD, Issa-Touré AL, Simpara G, Fofana AS, Daou M, Ongoïba N, Koumare AK. Dissection of the Common Femoral Artery at the Bamako Anatomy Laboratory. Forensic Medicine and Anatomy Research. 2019 October;7(4):68–75. doi:10.4236/fmar.2019.74011.,10.4236/fmar.2019.74011,3 female, 9 male
common femoral artery,FMA:0323778,luminal diameter,Female,0.82,-1,-1,-1,cm,Swedish Study,63,Ultrasound,https://www.sciencedirect.com/science/article/pii/S074152149970279X,Sandgren T, Sonesson B, Ahlgren R, Länne T. The diameter of the common femoral artery in healthy human: influence of sex, age, and body size. J Vasc Surg. 1999 Mar;29(3):503-10. doi: 10.1016/s0741-5214(99)70279-x. PMID: 10069915.,10.1016/S0741-5214(99)70279-X,
common femoral artery,FMA:0323778,luminal diameter,Male,0.98,-1,-1,-1,cm,Swedish Study,59,Ultrasound,https://www.sciencedirect.com/science/article/pii/S074152149970279X,Sandgren T, Sonesson B, Ahlgren R, Länne T. The diameter of the common femoral artery in healthy human: influence of sex, age, and body size. J Vasc Surg. 1999 Mar;29(3):503-10. doi: 10.1016/s0741-5214(99)70279-x. PMID: 10069915.,10.1016/S0741-5214(99)70279-X,
common hepatic artery,UBERON:0005436,luminal diameter,Female,0.551844,-1,-1,-1,cm,American Study,1,Computed tomography,https://hubmapconsortium.github.io/ccf-releases/v1.2/docs/ref-organs/blood-vasculature-female.html,Browne K, Schlehlein H. 2022. 3D Reference Organ for Blood Vasculature, Female v1.2. https://doi.org/10.48539/HBM232.FSRK.728. Accessed on May 6, 2022.,10.48539/HBM232.FSRK.728,From 3D model (derived from Visible Human Project)
common hepatic artery,UBERON:0005436,luminal diameter,Male,0.777164,-1,-1,-1,cm,American Study,1,Computed tomography,https://hubmapconsortium.github.io/ccf-releases/v1.2/docs/ref-organs/blood-vasculature-male.html,Browne K, Schlehlein H. 2022. 3D Reference Organ for Blood Vasculature, Male v1.2. https://doi.org/10.48539/HBM686.LBDQ.998. Accessed on May 6, 2022.,10.48539/HBM686.LBDQ.998,From 3D model (derived from Visible Human Project)
common hepatic artery,UBERON:0005436,outer diameter,Male,0.57,0.04,-1,-1,cm,Unknown,90,Cadaveric study,https://pubmed.ncbi.nlm.nih.gov/20977083/,Malnar D, Klasan GS, Miletic D, Bajek S, Vranic TS, Arbanas J, Bobinac D, Coklo M. Properties of the celiac trunk--anatomical study. Coll Antropol. 2010 Sep;34(3):917-21. PMID: 20977083.,,
common iliac artery,UBERON:0001191,length,Female,5.036,1.4269,-1,-1,cm,Korean Study,1313,Computed tomography,https://www.ncbi.nlm.nih.gov/pmc/articles/PMC9071155/,Kim H, Kwon TW, Choi E, Jeong S, Kim HK, Han Y, Cho YP, Yoon HK, Choe J, Kim WH. Aortoiliac diameter and length in a healthy cohort. PLoS One. 2022 May 5;17(5):e0268077. doi: 10.1371/journal.pone.0268077. PMID: 35511926; PMCID: PMC9071155.,10.1371/journal.pone.0268077,
common iliac artery,UBERON:0001191,length,Male,5.1478,1.447,-1,-1,cm,Korean Study,2379,Computed tomography,https://www.ncbi.nlm.nih.gov/pmc/articles/PMC9071155/,Kim H, Kwon TW, Choi E, Jeong S, Kim HK, Han Y, Cho YP, Yoon HK, Choe J, Kim WH. Aortoiliac diameter and length in a healthy cohort. PLoS One. 2022 May 5;17(5):e0268077. doi: 10.1371/journal.pone.0268077. PMID: 35511926; PMCID: PMC9071155.,10.1371/journal.pone.0268077,
common iliac artery,UBERON:0001191,luminal diameter,Female,0.88,0.12,-1,-1,cm,Norwegian Study,80,Ultrasound,https://www.jvascsurg.org/article/0741-5214(93)90161-E/fulltext,Pedersen OM, Aslaksen A, Vik-Mo H. Ultrasound measurement of the luminal diameter of the abdominal aorta and iliac arteries in patients without vascular disease. J Vasc Surg. 1993 Mar;17(3):596-601. doi: 10.1067/mva.1993.39525. PMID: 8445758.,10.1016/0741-5214(93)90161-E,Proximal diameter
common iliac artery,UBERON:0001191,luminal diameter,Male,0.99,0.16,-1,-1,cm,Norwegian Study,80,Ultrasound,https://www.jvascsurg.org/article/0741-5214(93)90161-E/fulltext,Pedersen OM, Aslaksen A, Vik-Mo H. Ultrasound measurement of the luminal diameter of the abdominal aorta and iliac arteries in patients without vascular disease. J Vasc Surg. 1993 Mar;17(3):596-601. doi: 10.1067/mva.1993.39525. PMID: 8445758.,10.1016/0741-5214(93)90161-E,
common iliac artery,UBERON:0001191,outer diameter,Female,0.9793,0.1464,-1,-1,cm,Korean Study,1313,Computed tomography,https://www.ncbi.nlm.nih.gov/pmc/articles/PMC9071155/,Kim H, Kwon TW, Choi E, Jeong S, Kim HK, Han Y, Cho YP, Yoon HK, Choe J, Kim WH. Aortoiliac diameter and length in a healthy cohort. PLoS One. 2022 May 5;17(5):e0268077. doi: 10.1371/journal.pone.0268077. PMID: 35511926; PMCID: PMC9071155.,10.1371/journal.pone.0268077,
common iliac artery,UBERON:0001191,outer diameter,Male,1.1436,0.1512,-1,-1,cm,Korean Study,2379,Computed tomography,https://www.ncbi.nlm.nih.gov/pmc/articles/PMC9071155/,Kim H, Kwon TW, Choi E, Jeong S, Kim HK, Han Y, Cho YP, Yoon HK, Choe J, Kim WH. Aortoiliac diameter and length in a healthy cohort. PLoS One. 2022 May 5;17(5):e0268077. doi: 10.1371/journal.pone.0268077. PMID: 35511926; PMCID: PMC9071155.,10.1371/journal.pone.0268077,
coronary sinus,UBERON:0005438,luminal diameter,Female,0.770782,-1,-1,-1,cm,American Study,1,Computed tomography,https://hubmapconsortium.github.io/ccf-releases/v1.2/docs/ref-organs/blood-vasculature-female.html,Browne K, Schlehlein H. 2022. 3D Reference Organ for Blood Vasculature, Female v1.2. https://doi.org/10.48539/HBM232.FSRK.728. Accessed on May 6, 2022.,10.48539/HBM232.FSRK.728,From 3D model (derived from Visible Human Project)
coronary sinus,UBERON:0005438,luminal diameter,Male,1.20912,-1,-1,-1,cm,American Study,1,Computed tomography,https://hubmapconsortium.github.io/ccf-releases/v1.2/docs/ref-organs/blood-vasculature-male.html,Browne K, Schlehlein H. 2022. 3D Reference Organ for Blood Vasculature, Male v1.2. https://doi.org/10.48539/HBM686.LBDQ.998. Accessed on May 6, 2022.,10.48539/HBM686.LBDQ.998,From 3D model (derived from Visible Human Project)
cystic artery,FMA:14835,luminal diameter,Female,0.841449,-1,-1,-1,cm,American Study,1,Computed tomography,https://hubmapconsortium.github.io/ccf-releases/v1.2/docs/ref-organs/blood-vasculature-female.html,Browne K, Schlehlein H. 2022. 3D Reference Organ for Blood Vasculature, Female v1.2. https://doi.org/10.48539/HBM232.FSRK.728. Accessed on May 6, 2022.,10.48539/HBM232.FSRK.728,From 3D model (derived from Visible Human Project)
cystic artery,FMA:14835,luminal diameter,Male,0.199634,-1,-1,-1,cm,American Study,1,Computed tomography,https://hubmapconsortium.github.io/ccf-releases/v1.2/docs/ref-organs/blood-vasculature-male.html,Browne K, Schlehlein H. 2022. 3D Reference Organ for Blood Vasculature, Male v1.2. https://doi.org/10.48539/HBM686.LBDQ.998. Accessed on May 6, 2022.,10.48539/HBM686.LBDQ.998,From 3D model (derived from Visible Human Project)
cystic vein,UBERON:0035392,luminal diameter,Male,0.16791,-1,-1,-1,cm,American Study,1,Computed tomography,https://hubmapconsortium.github.io/ccf-releases/v1.2/docs/ref-organs/blood-vasculature-male.html,Browne K, Schlehlein H. 2022. 3D Reference Organ for Blood Vasculature, Male v1.2. https://doi.org/10.48539/HBM686.LBDQ.998. Accessed on May 6, 2022.,10.48539/HBM686.LBDQ.998,From 3D model (derived from Visible Human Project)
descending aorta,UBERON:0001514,length,Unknown,7.069,1.639,-1,-1,cm,Chinese Study,534,Computed tomography,https://www.ncbi.nlm.nih.gov/pmc/articles/PMC7797824/,Qiu P, Liu J, Chen Y, Zha B, Ye K, Qin J, Hao P, Kang J, Zhang C, Zhu H, Lu X. Changes in aortic arch geometry and the risk for Stanford B dissection. J Thorac Dis. 2020 Dec;12(12):7193-7201. doi: 10.21037/jtd-20-1643. PMID: 33447408; PMCID: PMC7797824.,10.21037/jtd-20-1643,
descending aorta,UBERON:0001514,luminal diameter,Female,1.99129,-1,-1,-1,cm,American Study,1,Computed tomography,https://hubmapconsortium.github.io/ccf-releases/v1.2/docs/ref-organs/blood-vasculature-female.html,Browne K, Schlehlein H. 2022. 3D Reference Organ for Blood Vasculature, Female v1.2. https://doi.org/10.48539/HBM232.FSRK.728. Accessed on May 6, 2022.,10.48539/HBM232.FSRK.728,From 3D model (derived from Visible Human Project)
descending aorta,UBERON:0001514,luminal diameter,Male,1.28933,-1,-1,-1,cm,American Study,1,Computed tomography,https://hubmapconsortium.github.io/ccf-releases/v1.2/docs/ref-organs/blood-vasculature-male.html,Browne K, Schlehlein H. 2022. 3D Reference Organ for Blood Vasculature, Male v1.2. https://doi.org/10.48539/HBM686.LBDQ.998. Accessed on May 6, 2022.,10.48539/HBM686.LBDQ.998,From 3D model (derived from Visible Human Project)
descending aorta,UBERON:0001514,luminal diameter,Unknown,2.44,0.39,-1,-1,cm,Chinese Study,534,Computed tomography,https://www.ncbi.nlm.nih.gov/pmc/articles/PMC7797824/,Qiu P, Liu J, Chen Y, Zha B, Ye K, Qin J, Hao P, Kang J, Zhang C, Zhu H, Lu X. Changes in aortic arch geometry and the risk for Stanford B dissection. J Thorac Dis. 2020 Dec;12(12):7193-7201. doi: 10.21037/jtd-20-1643. PMID: 33447408; PMCID: PMC7797824.,10.21037/jtd-20-1643,Proximal diameter
diagonal branch of left anterior descending artery,FMA:3860,luminal diameter,Female,0.179961,-1,-1,-1,cm,American Study,1,Computed tomography,https://hubmapconsortium.github.io/ccf-releases/v1.2/docs/ref-organs/blood-vasculature-female.html,Browne K, Schlehlein H. 2022. 3D Reference Organ for Blood Vasculature, Female v1.2. https://doi.org/10.48539/HBM232.FSRK.728. Accessed on May 6, 2022.,10.48539/HBM232.FSRK.728,From 3D model (derived from Visible Human Project)
diagonal branch of left anterior descending artery,FMA:3860,luminal diameter,Male,0.102969,-1,-1,-1,cm,American Study,1,Computed tomography,https://hubmapconsortium.github.io/ccf-releases/v1.2/docs/ref-organs/blood-vasculature-male.html,Browne K, Schlehlein H. 2022. 3D Reference Organ for Blood Vasculature, Male v1.2. https://doi.org/10.48539/HBM686.LBDQ.998. Accessed on May 6, 2022.,10.48539/HBM686.LBDQ.998,From 3D model (derived from Visible Human Project)
femoral vein,UBERON:0001361,length,Both,8.07,-1,1.6,11.6,cm,Malian Study,12,Cadaveric study,https://www.scirp.org/journal/paperinformation.aspx?paperid=95722,Ba B, Kanté A, Touré T, Koné M, Touré OI, Diallo CT, Kouamenou KD, Issa-Touré AL, Simpara G, Fofana AS, Daou M, Ongoïba N, Koumare AK. Dissection of the Common Femoral Artery at the Bamako Anatomy Laboratory. Forensic Medicine and Anatomy Research. 2019 October;7(4):68–75. doi:10.4236/fmar.2019.74011.,10.4236/fmar.2019.74013,3 female, 9 male
femoral vein,UBERON:0001361,outer diameter,Both,1.395,-1,1.1,1.7,cm,Malian Study,12,Cadaveric study,https://www.scirp.org/journal/paperinformation.aspx?paperid=95722,Ba B, Kanté A, Touré T, Koné M, Touré OI, Diallo CT, Kouamenou KD, Issa-Touré AL, Simpara G, Fofana AS, Daou M, Ongoïba N, Koumare AK. Dissection of the Common Femoral Artery at the Bamako Anatomy Laboratory. Forensic Medicine and Anatomy Research. 2019 October;7(4):68–75. doi:10.4236/fmar.2019.74011.,10.4236/fmar.2019.74012,3 female, 9 male
great cardiac vein,UBERON:0006958,luminal diameter,Female,0.171047,-1,-1,-1,cm,American Study,1,Computed tomography,https://hubmapconsortium.github.io/ccf-releases/v1.2/docs/ref-organs/blood-vasculature-female.html,Browne K, Schlehlein H. 2022. 3D Reference Organ for Blood Vasculature, Female v1.2. https://doi.org/10.48539/HBM232.FSRK.728. Accessed on May 6, 2022.,10.48539/HBM232.FSRK.728,From 3D model (derived from Visible Human Project)
great cardiac vein,UBERON:0006958,luminal diameter,Male,0.179455,-1,-1,-1,cm,American Study,1,Computed tomography,https://hubmapconsortium.github.io/ccf-releases/v1.2/docs/ref-organs/blood-vasculature-male.html,Browne K, Schlehlein H. 2022. 3D Reference Organ for Blood Vasculature, Male v1.2. https://doi.org/10.48539/HBM686.LBDQ.998. Accessed on May 6, 2022.,10.48539/HBM686.LBDQ.998,From 3D model (derived from Visible Human Project)
hepatic portal vein,UBERON:0001639,length,Unknown,8,-1,-1,-1,cm,Unknown,-1,Not specified,https://radiopaedia.org/articles/portal-vein,Jones J, Yap J. Portal vein. Reference article, Radiopaedia.org. (accessed on 10 Nov 2022) https://doi.org/10.53347/rID-5732,10.53347/rID-5732,
hepatic portal vein,UBERON:0001639,luminal diameter,Female,0.85509,-1,-1,-1,cm,American Study,1,Computed tomography,https://hubmapconsortium.github.io/ccf-releases/v1.2/docs/ref-organs/blood-vasculature-female.html,Browne K, Schlehlein H. 2022. 3D Reference Organ for Blood Vasculature, Female v1.2. https://doi.org/10.48539/HBM232.FSRK.728. Accessed on May 6, 2022.,10.48539/HBM232.FSRK.728,From 3D model (derived from Visible Human Project)
hepatic portal vein,UBERON:0001639,luminal diameter,Male,1.21153,-1,-1,-1,cm,American Study,1,Computed tomography,https://hubmapconsortium.github.io/ccf-releases/v1.2/docs/ref-organs/blood-vasculature-male.html,Browne K, Schlehlein H. 2022. 3D Reference Organ for Blood Vasculature, Male v1.2. https://doi.org/10.48539/HBM686.LBDQ.998. Accessed on May 6, 2022.,10.48539/HBM686.LBDQ.998,From 3D model (derived from Visible Human Project)
hepatic portal vein,UBERON:0001639,luminal diameter,Unknown,1.3,-1,-1,-1,cm,Unknown,-1,Not specified,https://radiopaedia.org/articles/portal-vein,Jones J, Yap J. Portal vein. Reference article, Radiopaedia.org. (accessed on 10 Nov 2022) https://doi.org/10.53347/rID-5732,10.53347/rID-5732,Maximum diameter
ileocolic artery,UBERON:0001197,luminal diameter,Female,0.555811,-1,-1,-1,cm,American Study,1,Computed tomography,https://hubmapconsortium.github.io/ccf-releases/v1.2/docs/ref-organs/blood-vasculature-female.html,Browne K, Schlehlein H. 2022. 3D Reference Organ for Blood Vasculature, Female v1.2. https://doi.org/10.48539/HBM232.FSRK.728. Accessed on May 6, 2022.,10.48539/HBM232.FSRK.728,From 3D model (derived from Visible Human Project)
ileocolic artery,UBERON:0001197,luminal diameter,Male,0.256213,-1,-1,-1,cm,American Study,1,Computed tomography,https://hubmapconsortium.github.io/ccf-releases/v1.2/docs/ref-organs/blood-vasculature-male.html,Browne K, Schlehlein H. 2022. 3D Reference Organ for Blood Vasculature, Male v1.2. https://doi.org/10.48539/HBM686.LBDQ.998. Accessed on May 6, 2022.,10.48539/HBM686.LBDQ.998,From 3D model (derived from Visible Human Project)
ileocolic vein,UBERON:0001219,luminal diameter,Female,0.285178,-1,-1,-1,cm,American Study,1,Computed tomography,https://hubmapconsortium.github.io/ccf-releases/v1.2/docs/ref-organs/blood-vasculature-female.html,Browne K, Schlehlein H. 2022. 3D Reference Organ for Blood Vasculature, Female v1.2. https://doi.org/10.48539/HBM232.FSRK.728. Accessed on May 6, 2022.,10.48539/HBM232.FSRK.728,From 3D model (derived from Visible Human Project)
ileocolic vein,UBERON:0001219,luminal diameter,Male,0.289387,-1,-1,-1,cm,American Study,1,Computed tomography,https://hubmapconsortium.github.io/ccf-releases/v1.2/docs/ref-organs/blood-vasculature-male.html,Browne K, Schlehlein H. 2022. 3D Reference Organ for Blood Vasculature, Male v1.2. https://doi.org/10.48539/HBM686.LBDQ.998. Accessed on May 6, 2022.,10.48539/HBM686.LBDQ.998,From 3D model (derived from Visible Human Project)
inferior mesenteric artery,UBERON:0001183,length,Both,-1,-1,1,8.2,cm,Japanese Study,468,Computed tomography,https://pubmed.ncbi.nlm.nih.gov/25585080/,Murono K, Kawai K, Kazama S, Ishihara S, Yamaguchi H, Sunami E, Kitayama J, Watanabe T. Anatomy of the inferior mesenteric artery evaluated using 3-dimensional CT angiography. Dis Colon Rectum. 2015 Feb;58(2):214-9. doi: 10.1097/DCR.0000000000000285. PMID: 25585080.,10.1097/DCR.0000000000000285,174 female, 294 male
inferior mesenteric artery,UBERON:0001183,luminal diameter,Female,0.488376,-1,-1,-1,cm,American Study,1,Computed tomography,https://hubmapconsortium.github.io/ccf-releases/v1.2/docs/ref-organs/blood-vasculature-female.html,Browne K, Schlehlein H. 2022. 3D Reference Organ for Blood Vasculature, Female v1.2. https://doi.org/10.48539/HBM232.FSRK.728. Accessed on May 6, 2022.,10.48539/HBM232.FSRK.728,From 3D model (derived from Visible Human Project)
inferior mesenteric artery,UBERON:0001183,luminal diameter,Male,0.642242,-1,-1,-1,cm,American Study,1,Computed tomography,https://hubmapconsortium.github.io/ccf-releases/v1.2/docs/ref-organs/blood-vasculature-male.html,Browne K, Schlehlein H. 2022. 3D Reference Organ for Blood Vasculature, Male v1.2. https://doi.org/10.48539/HBM686.LBDQ.998. Accessed on May 6, 2022.,10.48539/HBM686.LBDQ.998,From 3D model (derived from Visible Human Project)
inferior mesenteric artery,UBERON:0001183,luminal diameter,Unknown,0.22,0.047,-1,-1,cm,Chinese Study,42,Computed tomography,https://www.archivesofmedicalscience.com/Relationship-between-inferior-mesenteric-artery-diameter-and-rectal-cancer,112531,0,2.html,Chi F, Zhou S, Bi T, Zhao W, Wang X. Relationship between inferior mesenteric artery diameter and rectal cancer. Archives of Medical Science. 2023;19(3). https://doi.org/10.5114/aoms/112531,10.5114/aoms/112531,
inferior mesenteric vein,UBERON:0001215,luminal diameter,Male,0.56224,-1,-1,-1,cm,American Study,1,Computed tomography,https://hubmapconsortium.github.io/ccf-releases/v1.2/docs/ref-organs/blood-vasculature-male.html,Browne K, Schlehlein H. 2022. 3D Reference Organ for Blood Vasculature, Male v1.2. https://doi.org/10.48539/HBM686.LBDQ.998. Accessed on May 6, 2022.,10.48539/HBM686.LBDQ.998,From 3D model (derived from Visible Human Project)
inferior vena cava,UBERON:0001072,length,Unknown,10,-1,-1,-1,cm,Unknown,-1,Not specified,https://my.clevelandclinic.org/health/body/22619-vena-cava,https://my.clevelandclinic.org/health/body/22619-vena-cava,,
inferior vena cava,UBERON:0001072,luminal diameter,Female,1.74367,-1,-1,-1,cm,American Study,1,Computed tomography,https://hubmapconsortium.github.io/ccf-releases/v1.2/docs/ref-organs/blood-vasculature-female.html,Browne K, Schlehlein H. 2022. 3D Reference Organ for Blood Vasculature, Female v1.2. https://doi.org/10.48539/HBM232.FSRK.728. Accessed on May 6, 2022.,10.48539/HBM232.FSRK.728,From 3D model (derived from Visible Human Project)
inferior vena cava,UBERON:0001072,luminal diameter,Female,1.64,0.38,-1,-1,cm,Indian Study,1790,Ultrasound,https://www.ncbi.nlm.nih.gov/pmc/articles/PMC5198879/,Patil S, Jadhav S, Shetty N, Kharge J, Puttegowda B, Ramalingam R, Cholenahally MN. Assessment of inferior vena cava diameter by echocardiography in normal Indian population: A prospective observational study. Indian Heart J. 2016 Dec;68 Suppl 3(Suppl 3):S26-S30. doi: 10.1016/j.ihj.2016.06.009. Epub 2016 Jul 1. PMID: 28038721; PMCID: PMC5198879.,10.1016/j.ihj.2016.06.009,During expiration
inferior vena cava,UBERON:0001072,luminal diameter,Male,1.65372,-1,-1,-1,cm,American Study,1,Computed tomography,https://hubmapconsortium.github.io/ccf-releases/v1.2/docs/ref-organs/blood-vasculature-male.html,Browne K, Schlehlein H. 2022. 3D Reference Organ for Blood Vasculature, Male v1.2. https://doi.org/10.48539/HBM686.LBDQ.998. Accessed on May 6, 2022.,10.48539/HBM686.LBDQ.998,From 3D model (derived from Visible Human Project)
inferior vena cava,UBERON:0001072,luminal diameter,Male,1.74,0.35,-1,-1,cm,Indian Study,2336,Ultrasound,https://www.ncbi.nlm.nih.gov/pmc/articles/PMC5198879/,Patil S, Jadhav S, Shetty N, Kharge J, Puttegowda B, Ramalingam R, Cholenahally MN. Assessment of inferior vena cava diameter by echocardiography in normal Indian population: A prospective observational study. Indian Heart J. 2016 Dec;68 Suppl 3(Suppl 3):S26-S30. doi: 10.1016/j.ihj.2016.06.009. Epub 2016 Jul 1. PMID: 28038721; PMCID: PMC5198879.,10.1016/j.ihj.2016.06.009,During expiration
internal carotid artery,UBERON:0001532,length,Female,8.15,1.31,-1,-1,cm,American Study,50,Computed tomography,https://pubmed.ncbi.nlm.nih.gov/25841169/,Choudhry FA, Grantham JT, Rai AT, Hogg JP. Vascular geometry of the extracranial carotid arteries: an analysis of length, diameter, and tortuosity. J Neurointerv Surg. 2016 May;8(5):536-40. doi: 10.1136/neurintsurg-2015-011671. Epub 2015 Apr 3. Erratum in: J Neurointerv Surg. 2018 May;10 (5):e9. PMID: 25841169.,10.1136/neurintsurg-2015-011671,8.0+/-1.3 (left), 8.3+/-1.3 (right)
internal carotid artery,UBERON:0001532,length,Female,15.007,1.983,-1,-1,cm,Romanian Study,37,Computed tomography,https://www.ncbi.nlm.nih.gov/pmc/articles/PMC8398484/,Baz RA, Scheau C, Niscoveanu C, Bordei P. Morphometry of the Entire Internal Carotid Artery on CT Angiography. Medicina (Kaunas). 2021 Aug 17;57(8):832. doi: 10.3390/medicina57080832. PMID: 34441039; PMCID: PMC8398484.,10.3390/medicina57080832,
internal carotid artery,UBERON:0001532,length,Male,8.9,1.35,-1,-1,cm,American Study,50,Computed tomography,https://pubmed.ncbi.nlm.nih.gov/25841169/,Choudhry FA, Grantham JT, Rai AT, Hogg JP. Vascular geometry of the extracranial carotid arteries: an analysis of length, diameter, and tortuosity. J Neurointerv Surg. 2016 May;8(5):536-40. doi: 10.1136/neurintsurg-2015-011671. Epub 2015 Apr 3. Erratum in: J Neurointerv Surg. 2018 May;10 (5):e9. PMID: 25841169.,10.1136/neurintsurg-2015-011671,8.8+/-1.3 (left), 9.0+/-1.4 (right)
internal carotid artery,UBERON:0001532,length,Male,16.062,2.856,-1,-1,cm,Romanian Study,33,Computed tomography,https://www.ncbi.nlm.nih.gov/pmc/articles/PMC8398484/,Baz RA, Scheau C, Niscoveanu C, Bordei P. Morphometry of the Entire Internal Carotid Artery on CT Angiography. Medicina (Kaunas). 2021 Aug 17;57(8):832. doi: 10.3390/medicina57080832. PMID: 34441039; PMCID: PMC8398484.,10.3390/medicina57080832,
internal carotid artery,UBERON:0001532,luminal diameter,Female,0.47,0.066,-1,-1,cm,American Study,50,Computed tomography,https://pubmed.ncbi.nlm.nih.gov/25841169/,Choudhry FA, Grantham JT, Rai AT, Hogg JP. Vascular geometry of the extracranial carotid arteries: an analysis of length, diameter, and tortuosity. J Neurointerv Surg. 2016 May;8(5):536-40. doi: 10.1136/neurintsurg-2015-011671. Epub 2015 Apr 3. Erratum in: J Neurointerv Surg. 2018 May;10 (5):e9. PMID: 25841169.,10.1136/neurintsurg-2015-011671,0.46+/-0.06 (left), 0.48+/-0.07 (right)
internal carotid artery,UBERON:0001532,luminal diameter,Female,0.466,0.078,-1,-1,cm,Unknown,306,Ultrasound,https://www.ahajournals.org/doi/10.1161/01.STR.0000206440.48756.f7,Krejza J, Arkuszewski M, Kasner SE, Weigele J, Ustymowicz A, Hurst RW, Cucchiara BL, Messe SR. Carotid artery diameter in men and women and the relation to body and neck size. Stroke. 2006 Apr;37(4):1103-5. doi: 10.1161/01.STR.0000206440.48756.f7. Epub 2006 Feb 23. PMID: 16497983.,10.1161/01.STR.0000206440.48756.f7,
internal carotid artery,UBERON:0001532,luminal diameter,Male,0.48,0.065,-1,-1,cm,American Study,50,Computed tomography,https://pubmed.ncbi.nlm.nih.gov/25841169/,Choudhry FA, Grantham JT, Rai AT, Hogg JP. Vascular geometry of the extracranial carotid arteries: an analysis of length, diameter, and tortuosity. J Neurointerv Surg. 2016 May;8(5):536-40. doi: 10.1136/neurintsurg-2015-011671. Epub 2015 Apr 3. Erratum in: J Neurointerv Surg. 2018 May;10 (5):e9. PMID: 25841169.,10.1136/neurintsurg-2015-011671,0.48+/-0.07 (left), 0.48+/-0.06 (right)
internal carotid artery,UBERON:0001532,luminal diameter,Male,0.511,0.087,-1,-1,cm,Unknown,194,Ultrasound,https://www.ahajournals.org/doi/10.1161/01.STR.0000206440.48756.f7,Krejza J, Arkuszewski M, Kasner SE, Weigele J, Ustymowicz A, Hurst RW, Cucchiara BL, Messe SR. Carotid artery diameter in men and women and the relation to body and neck size. Stroke. 2006 Apr;37(4):1103-5. doi: 10.1161/01.STR.0000206440.48756.f7. Epub 2006 Feb 23. PMID: 16497983.,10.1161/01.STR.0000206440.48756.f7,
internal jugular vein,UBERON:0001586,luminal diameter,Both,1.55,0.52,1,2,cm,French Study,190,Computed tomography,https://www.ncbi.nlm.nih.gov/pmc/articles/PMC2811899/,Tartière D, Seguin P, Juhel C, Laviolle B, Mallédant Y. Estimation of the diameter and cross-sectional area of the internal jugular veins in adult patients. Crit Care. 2009;13(6):R197. doi: 10.1186/cc8200. Epub 2009 Dec 9. PMID: 20003190; PMCID: PMC2811899.,10.1186/cc8200,58 female, 132 male; 1.4+/-0.5 [1.0-1.6] (left), 1.7+/-0.5 [1.3-2.0] (right)
left brachiocephalic vein,FMA:4761,luminal diameter,Male,1.0923,-1,-1,-1,cm,American Study,1,Computed tomography,https://hubmapconsortium.github.io/ccf-releases/v1.2/docs/ref-organs/blood-vasculature-male.html,Browne K, Schlehlein H. 2022. 3D Reference Organ for Blood Vasculature, Male v1.2. https://doi.org/10.48539/HBM686.LBDQ.998. Accessed on May 6, 2022.,10.48539/HBM686.LBDQ.998,From 3D model (derived from Visible Human Project)
left colic artery,UBERON:8410022,luminal diameter,Female,0.436167,-1,-1,-1,cm,American Study,1,Computed tomography,https://hubmapconsortium.github.io/ccf-releases/v1.2/docs/ref-organs/blood-vasculature-female.html,Browne K, Schlehlein H. 2022. 3D Reference Organ for Blood Vasculature, Female v1.2. https://doi.org/10.48539/HBM232.FSRK.728. Accessed on May 6, 2022.,10.48539/HBM232.FSRK.728,From 3D model (derived from Visible Human Project)
left colic artery,UBERON:8410022,luminal diameter,Male,0.232382,-1,-1,-1,cm,American Study,1,Computed tomography,https://hubmapconsortium.github.io/ccf-releases/v1.2/docs/ref-organs/blood-vasculature-male.html,Browne K, Schlehlein H. 2022. 3D Reference Organ for Blood Vasculature, Male v1.2. https://doi.org/10.48539/HBM686.LBDQ.998. Accessed on May 6, 2022.,10.48539/HBM686.LBDQ.998,From 3D model (derived from Visible Human Project)
left colic vein,UBERON:8410017,luminal diameter,Female,0.182313,-1,-1,-1,cm,American Study,1,Computed tomography,https://hubmapconsortium.github.io/ccf-releases/v1.2/docs/ref-organs/blood-vasculature-female.html,Browne K, Schlehlein H. 2022. 3D Reference Organ for Blood Vasculature, Female v1.2. https://doi.org/10.48539/HBM232.FSRK.728. Accessed on May 6, 2022.,10.48539/HBM232.FSRK.728,From 3D model (derived from Visible Human Project)
left colic vein,UBERON:8410017,luminal diameter,Male,0.223584,-1,-1,-1,cm,American Study,1,Computed tomography,https://hubmapconsortium.github.io/ccf-releases/v1.2/docs/ref-organs/blood-vasculature-male.html,Browne K, Schlehlein H. 2022. 3D Reference Organ for Blood Vasculature, Male v1.2. https://doi.org/10.48539/HBM686.LBDQ.998. Accessed on May 6, 2022.,10.48539/HBM686.LBDQ.998,From 3D model (derived from Visible Human Project)
left common carotid artery,UBERON:0001536,length,Female,11.8,1.3,-1,-1,cm,American Study,50,Computed tomography,https://pubmed.ncbi.nlm.nih.gov/25841169/,Choudhry FA, Grantham JT, Rai AT, Hogg JP. Vascular geometry of the extracranial carotid arteries: an analysis of length, diameter, and tortuosity. J Neurointerv Surg. 2016 May;8(5):536-40. doi: 10.1136/neurintsurg-2015-011671. Epub 2015 Apr 3. Erratum in: J Neurointerv Surg. 2018 May;10 (5):e9. PMID: 25841169.,10.1136/neurintsurg-2015-011671,
left common carotid artery,UBERON:0001536,length,Male,13,1.2,-1,-1,cm,American Study,50,Computed tomography,https://pubmed.ncbi.nlm.nih.gov/25841169/,Choudhry FA, Grantham JT, Rai AT, Hogg JP. Vascular geometry of the extracranial carotid arteries: an analysis of length, diameter, and tortuosity. J Neurointerv Surg. 2016 May;8(5):536-40. doi: 10.1136/neurintsurg-2015-011671. Epub 2015 Apr 3. Erratum in: J Neurointerv Surg. 2018 May;10 (5):e9. PMID: 25841169.,10.1136/neurintsurg-2015-011671,
left common carotid artery,UBERON:0001536,luminal diameter,Female,0.601554,-1,-1,-1,cm,American Study,1,Computed tomography,https://hubmapconsortium.github.io/ccf-releases/v1.2/docs/ref-organs/blood-vasculature-female.html,Browne K, Schlehlein H. 2022. 3D Reference Organ for Blood Vasculature, Female v1.2. https://doi.org/10.48539/HBM232.FSRK.728. Accessed on May 6, 2022.,10.48539/HBM232.FSRK.728,From 3D model (derived from Visible Human Project)
left common carotid artery,UBERON:0001536,luminal diameter,Female,0.63,0.07,-1,-1,cm,American Study,50,Computed tomography,https://pubmed.ncbi.nlm.nih.gov/25841169/,Choudhry FA, Grantham JT, Rai AT, Hogg JP. Vascular geometry of the extracranial carotid arteries: an analysis of length, diameter, and tortuosity. J Neurointerv Surg. 2016 May;8(5):536-40. doi: 10.1136/neurintsurg-2015-011671. Epub 2015 Apr 3. Erratum in: J Neurointerv Surg. 2018 May;10 (5):e9. PMID: 25841169.,10.1136/neurintsurg-2015-011671,
left common carotid artery,UBERON:0001536,luminal diameter,Female,0.77,0.14,-1,-1,cm,Indian Study,32,Computed tomography,https://www.ipinnovative.com/journal-article-file/2997,Kumar R, Kumar I, Singh AK, Kumar P, Sharma PK, Chandra N. Diameters of three major branches of arch of aorta and their correlation with each other, age and gender- A computed tomographic study. Indian Journal of Clinical Anatomy and Physiology. 2016 Oct-Dec;3(4):552-555. doi: 10.5958/2394-2126.2016.00126.2.,10.5958/2394-2126.2016.00126.2,
left common carotid artery,UBERON:0001536,luminal diameter,Male,0.373883,-1,-1,-1,cm,American Study,1,Computed tomography,https://hubmapconsortium.github.io/ccf-releases/v1.2/docs/ref-organs/blood-vasculature-male.html,Browne K, Schlehlein H. 2022. 3D Reference Organ for Blood Vasculature, Male v1.2. https://doi.org/10.48539/HBM686.LBDQ.998. Accessed on May 6, 2022.,10.48539/HBM686.LBDQ.998,From 3D model (derived from Visible Human Project)
left common carotid artery,UBERON:0001536,luminal diameter,Male,0.65,0.07,-1,-1,cm,American Study,50,Computed tomography,https://pubmed.ncbi.nlm.nih.gov/25841169/,Choudhry FA, Grantham JT, Rai AT, Hogg JP. Vascular geometry of the extracranial carotid arteries: an analysis of length, diameter, and tortuosity. J Neurointerv Surg. 2016 May;8(5):536-40. doi: 10.1136/neurintsurg-2015-011671. Epub 2015 Apr 3. Erratum in: J Neurointerv Surg. 2018 May;10 (5):e9. PMID: 25841169.,10.1136/neurintsurg-2015-011671,
left common carotid artery,UBERON:0001536,luminal diameter,Male,0.79,0.17,-1,-1,cm,Indian Study,52,Computed tomography,https://www.ipinnovative.com/journal-article-file/2997,Kumar R, Kumar I, Singh AK, Kumar P, Sharma PK, Chandra N. Diameters of three major branches of arch of aorta and their correlation with each other, age and gender- A computed tomographic study. Indian Journal of Clinical Anatomy and Physiology. 2016 Oct-Dec;3(4):552-555. doi: 10.5958/2394-2126.2016.00126.2.,10.5958/2394-2126.2016.00126.2,
left common iliac vein,FMA:21388,luminal diameter,Female,1.25609,-1,-1,-1,cm,American Study,1,Computed tomography,https://hubmapconsortium.github.io/ccf-releases/v1.2/docs/ref-organs/blood-vasculature-female.html,Browne K, Schlehlein H. 2022. 3D Reference Organ for Blood Vasculature, Female v1.2. https://doi.org/10.48539/HBM232.FSRK.728. Accessed on May 6, 2022.,10.48539/HBM232.FSRK.728,From 3D model (derived from Visible Human Project)
left common iliac vein,FMA:21388,luminal diameter,Male,1.28665,-1,-1,-1,cm,American Study,1,Computed tomography,https://hubmapconsortium.github.io/ccf-releases/v1.2/docs/ref-organs/blood-vasculature-male.html,Browne K, Schlehlein H. 2022. 3D Reference Organ for Blood Vasculature, Male v1.2. https://doi.org/10.48539/HBM686.LBDQ.998. Accessed on May 6, 2022.,10.48539/HBM686.LBDQ.998,From 3D model (derived from Visible Human Project)
left coronary artery,UBERON:0001626,luminal diameter,Female,0.654853,-1,-1,-1,cm,American Study,1,Computed tomography,https://hubmapconsortium.github.io/ccf-releases/v1.2/docs/ref-organs/blood-vasculature-female.html,Browne K, Schlehlein H. 2022. 3D Reference Organ for Blood Vasculature, Female v1.2. https://doi.org/10.48539/HBM232.FSRK.728. Accessed on May 6, 2022.,10.48539/HBM232.FSRK.728,From 3D model (derived from Visible Human Project)
left gastric artery,UBERON:0001192,outer diameter,Male,0.38,0.03,-1,-1,cm,Unknown,90,Cadaveric study,https://pubmed.ncbi.nlm.nih.gov/20977083/,Malnar D, Klasan GS, Miletic D, Bajek S, Vranic TS, Arbanas J, Bobinac D, Coklo M. Properties of the celiac trunk--anatomical study. Coll Antropol. 2010 Sep;34(3):917-21. PMID: 20977083.,,
left hepatic artery,UBERON:0015481,luminal diameter,Female,0.537069,-1,-1,-1,cm,American Study,1,Computed tomography,https://hubmapconsortium.github.io/ccf-releases/v1.2/docs/ref-organs/blood-vasculature-female.html,Browne K, Schlehlein H. 2022. 3D Reference Organ for Blood Vasculature, Female v1.2. https://doi.org/10.48539/HBM232.FSRK.728. Accessed on May 6, 2022.,10.48539/HBM232.FSRK.728,From 3D model (derived from Visible Human Project)
left hepatic artery,UBERON:0015481,luminal diameter,Male,0.486315,-1,-1,-1,cm,American Study,1,Computed tomography,https://hubmapconsortium.github.io/ccf-releases/v1.2/docs/ref-organs/blood-vasculature-male.html,Browne K, Schlehlein H. 2022. 3D Reference Organ for Blood Vasculature, Male v1.2. https://doi.org/10.48539/HBM686.LBDQ.998. Accessed on May 6, 2022.,10.48539/HBM686.LBDQ.998,From 3D model (derived from Visible Human Project)
left hepatic vein,UBERON:0011955,luminal diameter,Female,1.03967,-1,-1,-1,cm,American Study,1,Computed tomography,https://hubmapconsortium.github.io/ccf-releases/v1.2/docs/ref-organs/blood-vasculature-female.html,Browne K, Schlehlein H. 2022. 3D Reference Organ for Blood Vasculature, Female v1.2. https://doi.org/10.48539/HBM232.FSRK.728. Accessed on May 6, 2022.,10.48539/HBM232.FSRK.728,From 3D model (derived from Visible Human Project)
left hepatic vein,UBERON:0011955,luminal diameter,Male,0.465308,-1,-1,-1,cm,American Study,1,Computed tomography,https://hubmapconsortium.github.io/ccf-releases/v1.2/docs/ref-organs/blood-vasculature-male.html,Browne K, Schlehlein H. 2022. 3D Reference Organ for Blood Vasculature, Male v1.2. https://doi.org/10.48539/HBM686.LBDQ.998. Accessed on May 6, 2022.,10.48539/HBM686.LBDQ.998,From 3D model (derived from Visible Human Project)
left inferior pulmonary vein,FMA:49913,luminal diameter,Female,1.48884,-1,-1,-1,cm,American Study,1,Computed tomography,https://hubmapconsortium.github.io/ccf-releases/v1.2/docs/ref-organs/blood-vasculature-female.html,Browne K, Schlehlein H. 2022. 3D Reference Organ for Blood Vasculature, Female v1.2. https://doi.org/10.48539/HBM232.FSRK.728. Accessed on May 6, 2022.,10.48539/HBM232.FSRK.728,From 3D model (derived from Visible Human Project)
left inferior pulmonary vein,FMA:49913,luminal diameter,Male,0.869477,-1,-1,-1,cm,American Study,1,Computed tomography,https://hubmapconsortium.github.io/ccf-releases/v1.2/docs/ref-organs/blood-vasculature-male.html,Browne K, Schlehlein H. 2022. 3D Reference Organ for Blood Vasculature, Male v1.2. https://doi.org/10.48539/HBM686.LBDQ.998. Accessed on May 6, 2022.,10.48539/HBM686.LBDQ.998,From 3D model (derived from Visible Human Project)
left marginal vein,FMA:4708,luminal diameter,Female,0.148541,-1,-1,-1,cm,American Study,1,Computed tomography,https://hubmapconsortium.github.io/ccf-releases/v1.2/docs/ref-organs/blood-vasculature-female.html,Browne K, Schlehlein H. 2022. 3D Reference Organ for Blood Vasculature, Female v1.2. https://doi.org/10.48539/HBM232.FSRK.728. Accessed on May 6, 2022.,10.48539/HBM232.FSRK.728,From 3D model (derived from Visible Human Project)
left pulmonary artery,UBERON:0001652,luminal diameter,Female,1.75735,-1,-1,-1,cm,American Study,1,Computed tomography,https://hubmapconsortium.github.io/ccf-releases/v1.2/docs/ref-organs/blood-vasculature-female.html,Browne K, Schlehlein H. 2022. 3D Reference Organ for Blood Vasculature, Female v1.2. https://doi.org/10.48539/HBM232.FSRK.728. Accessed on May 6, 2022.,10.48539/HBM232.FSRK.728,From 3D model (derived from Visible Human Project)
left pulmonary artery,UBERON:0001652,luminal diameter,Male,1.62766,-1,-1,-1,cm,American Study,1,Computed tomography,https://hubmapconsortium.github.io/ccf-releases/v1.2/docs/ref-organs/blood-vasculature-male.html,Browne K, Schlehlein H. 2022. 3D Reference Organ for Blood Vasculature, Male v1.2. https://doi.org/10.48539/HBM686.LBDQ.998. Accessed on May 6, 2022.,10.48539/HBM686.LBDQ.998,From 3D model (derived from Visible Human Project)
left renal artery,UBERON:0001186,luminal diameter,Female,0.388546,-1,-1,-1,cm,American Study,1,Computed tomography,https://hubmapconsortium.github.io/ccf-releases/v1.2/docs/ref-organs/blood-vasculature-female.html,Browne K, Schlehlein H. 2022. 3D Reference Organ for Blood Vasculature, Female v1.2. https://doi.org/10.48539/HBM232.FSRK.728. Accessed on May 6, 2022.,10.48539/HBM232.FSRK.728,From 3D model (derived from Visible Human Project)
left renal artery,UBERON:0001186,luminal diameter,Male,0.268841,-1,-1,-1,cm,American Study,1,Computed tomography,https://hubmapconsortium.github.io/ccf-releases/v1.2/docs/ref-organs/blood-vasculature-male.html,Browne K, Schlehlein H. 2022. 3D Reference Organ for Blood Vasculature, Male v1.2. https://doi.org/10.48539/HBM686.LBDQ.998. Accessed on May 6, 2022.,10.48539/HBM686.LBDQ.998,From 3D model (derived from Visible Human Project)
left renal vein,UBERON:0001142,length,Unknown,5.9,1.5,-1,-1,cm,Unknown,100,Cadaveric study,https://pubmed.ncbi.nlm.nih.gov/7710142/,Satyapal KS, Rambiritch V, Pillai G. Morphometric analysis of the renal veins. Anat Rec. 1995 Feb;241(2):268-72. doi: 10.1002/ar.1092410213. PMID: 7710142.,10.1002/ar.1092410213,Resin casts
left renal vein,UBERON:0001142,luminal diameter,Female,1.27037,-1,-1,-1,cm,American Study,1,Computed tomography,https://hubmapconsortium.github.io/ccf-releases/v1.2/docs/ref-organs/blood-vasculature-female.html,Browne K, Schlehlein H. 2022. 3D Reference Organ for Blood Vasculature, Female v1.2. https://doi.org/10.48539/HBM232.FSRK.728. Accessed on May 6, 2022.,10.48539/HBM232.FSRK.728,From 3D model (derived from Visible Human Project)
left renal vein,UBERON:0001142,luminal diameter,Male,1.34467,-1,-1,-1,cm,American Study,1,Computed tomography,https://hubmapconsortium.github.io/ccf-releases/v1.2/docs/ref-organs/blood-vasculature-male.html,Browne K, Schlehlein H. 2022. 3D Reference Organ for Blood Vasculature, Male v1.2. https://doi.org/10.48539/HBM686.LBDQ.998. Accessed on May 6, 2022.,10.48539/HBM686.LBDQ.998,From 3D model (derived from Visible Human Project)
left renal vein,UBERON:0001142,luminal diameter,Unknown,1.2,0.2,-1,-1,cm,Unknown,100,Cadaveric study,https://pubmed.ncbi.nlm.nih.gov/7710142/,Satyapal KS, Rambiritch V, Pillai G. Morphometric analysis of the renal veins. Anat Rec. 1995 Feb;241(2):268-72. doi: 10.1002/ar.1092410213. PMID: 7710142.,10.1002/ar.1092410213,Resin casts
left subclavian artery,UBERON:0001584,luminal diameter,Female,1.14794,-1,-1,-1,cm,American Study,1,Computed tomography,https://hubmapconsortium.github.io/ccf-releases/v1.2/docs/ref-organs/blood-vasculature-female.html,Browne K, Schlehlein H. 2022. 3D Reference Organ for Blood Vasculature, Female v1.2. https://doi.org/10.48539/HBM232.FSRK.728. Accessed on May 6, 2022.,10.48539/HBM232.FSRK.728,From 3D model (derived from Visible Human Project)
left subclavian artery,UBERON:0001584,luminal diameter,Female,0.9,0.15,-1,-1,cm,Indian Study,32,Computed tomography,https://www.ipinnovative.com/journal-article-file/2997,Kumar R, Kumar I, Singh AK, Kumar P, Sharma PK, Chandra N. Diameters of three major branches of arch of aorta and their correlation with each other, age and gender- A computed tomographic study. Indian Journal of Clinical Anatomy and Physiology. 2016 Oct-Dec;3(4):552-555. doi: 10.5958/2394-2126.2016.00126.2.,10.5958/2394-2126.2016.00126.2,
left subclavian artery,UBERON:0001584,luminal diameter,Male,0.420586,-1,-1,-1,cm,American Study,1,Computed tomography,https://hubmapconsortium.github.io/ccf-releases/v1.2/docs/ref-organs/blood-vasculature-male.html,Browne K, Schlehlein H. 2022. 3D Reference Organ for Blood Vasculature, Male v1.2. https://doi.org/10.48539/HBM686.LBDQ.998. Accessed on May 6, 2022.,10.48539/HBM686.LBDQ.998,From 3D model (derived from Visible Human Project)
left subclavian artery,UBERON:0001584,luminal diameter,Male,0.95,0.17,-1,-1,cm,Indian Study,52,Computed tomography,https://www.ipinnovative.com/journal-article-file/2997,Kumar R, Kumar I, Singh AK, Kumar P, Sharma PK, Chandra N. Diameters of three major branches of arch of aorta and their correlation with each other, age and gender- A computed tomographic study. Indian Journal of Clinical Anatomy and Physiology. 2016 Oct-Dec;3(4):552-555. doi: 10.5958/2394-2126.2016.00126.2.,10.5958/2394-2126.2016.00126.2,
left superior pulmonary vein,FMA:49916,luminal diameter,Female,1.14392,-1,-1,-1,cm,American Study,1,Computed tomography,https://hubmapconsortium.github.io/ccf-releases/v1.2/docs/ref-organs/blood-vasculature-female.html,Browne K, Schlehlein H. 2022. 3D Reference Organ for Blood Vasculature, Female v1.2. https://doi.org/10.48539/HBM232.FSRK.728. Accessed on May 6, 2022.,10.48539/HBM232.FSRK.728,From 3D model (derived from Visible Human Project)
left superior pulmonary vein,FMA:49916,luminal diameter,Male,0.755442,-1,-1,-1,cm,American Study,1,Computed tomography,https://hubmapconsortium.github.io/ccf-releases/v1.2/docs/ref-organs/blood-vasculature-male.html,Browne K, Schlehlein H. 2022. 3D Reference Organ for Blood Vasculature, Male v1.2. https://doi.org/10.48539/HBM686.LBDQ.998. Accessed on May 6, 2022.,10.48539/HBM686.LBDQ.998,From 3D model (derived from Visible Human Project)
marginal artery of Drummond,FMA:14824,luminal diameter,Female,0.454939,-1,-1,-1,cm,American Study,1,Computed tomography,https://hubmapconsortium.github.io/ccf-releases/v1.2/docs/ref-organs/blood-vasculature-female.html,Browne K, Schlehlein H. 2022. 3D Reference Organ for Blood Vasculature, Female v1.2. https://doi.org/10.48539/HBM232.FSRK.728. Accessed on May 6, 2022.,10.48539/HBM232.FSRK.728,From 3D model (derived from Visible Human Project)
marginal artery of Drummond,FMA:14824,luminal diameter,Male,0.248392,-1,-1,-1,cm,American Study,1,Computed tomography,https://hubmapconsortium.github.io/ccf-releases/v1.2/docs/ref-organs/blood-vasculature-male.html,Browne K, Schlehlein H. 2022. 3D Reference Organ for Blood Vasculature, Male v1.2. https://doi.org/10.48539/HBM686.LBDQ.998. Accessed on May 6, 2022.,10.48539/HBM686.LBDQ.998,From 3D model (derived from Visible Human Project)
median sacral vein,UBERON:0006687,luminal diameter,Female,0.221149,-1,-1,-1,cm,American Study,1,Computed tomography,https://hubmapconsortium.github.io/ccf-releases/v1.2/docs/ref-organs/blood-vasculature-female.html,Browne K, Schlehlein H. 2022. 3D Reference Organ for Blood Vasculature, Female v1.2. https://doi.org/10.48539/HBM232.FSRK.728. Accessed on May 6, 2022.,10.48539/HBM232.FSRK.728,From 3D model (derived from Visible Human Project)
median sacral vein,UBERON:0006687,luminal diameter,Male,0.319738,-1,-1,-1,cm,American Study,1,Computed tomography,https://hubmapconsortium.github.io/ccf-releases/v1.2/docs/ref-organs/blood-vasculature-male.html,Browne K, Schlehlein H. 2022. 3D Reference Organ for Blood Vasculature, Male v1.2. https://doi.org/10.48539/HBM686.LBDQ.998. Accessed on May 6, 2022.,10.48539/HBM686.LBDQ.998,From 3D model (derived from Visible Human Project)
middle cardiac vein,UBERON:0009687,luminal diameter,Female,0.107933,-1,-1,-1,cm,American Study,1,Computed tomography,https://hubmapconsortium.github.io/ccf-releases/v1.2/docs/ref-organs/blood-vasculature-female.html,Browne K, Schlehlein H. 2022. 3D Reference Organ for Blood Vasculature, Female v1.2. https://doi.org/10.48539/HBM232.FSRK.728. Accessed on May 6, 2022.,10.48539/HBM232.FSRK.728,From 3D model (derived from Visible Human Project)
middle cardiac vein,UBERON:0009687,luminal diameter,Male,0.229371,-1,-1,-1,cm,American Study,1,Computed tomography,https://hubmapconsortium.github.io/ccf-releases/v1.2/docs/ref-organs/blood-vasculature-male.html,Browne K, Schlehlein H. 2022. 3D Reference Organ for Blood Vasculature, Male v1.2. https://doi.org/10.48539/HBM686.LBDQ.998. Accessed on May 6, 2022.,10.48539/HBM686.LBDQ.998,From 3D model (derived from Visible Human Project)
middle colic artery,UBERON:0001196,luminal diameter,Female,0.606035,-1,-1,-1,cm,American Study,1,Computed tomography,https://hubmapconsortium.github.io/ccf-releases/v1.2/docs/ref-organs/blood-vasculature-female.html,Browne K, Schlehlein H. 2022. 3D Reference Organ for Blood Vasculature, Female v1.2. https://doi.org/10.48539/HBM232.FSRK.728. Accessed on May 6, 2022.,10.48539/HBM232.FSRK.728,From 3D model (derived from Visible Human Project)
middle colic artery,UBERON:0001196,luminal diameter,Male,0.806511,-1,-1,-1,cm,American Study,1,Computed tomography,https://hubmapconsortium.github.io/ccf-releases/v1.2/docs/ref-organs/blood-vasculature-male.html,Browne K, Schlehlein H. 2022. 3D Reference Organ for Blood Vasculature, Male v1.2. https://doi.org/10.48539/HBM686.LBDQ.998. Accessed on May 6, 2022.,10.48539/HBM686.LBDQ.998,From 3D model (derived from Visible Human Project)
middle colic vein,UBERON:0001218,luminal diameter,Female,0.443458,-1,-1,-1,cm,American Study,1,Computed tomography,https://hubmapconsortium.github.io/ccf-releases/v1.2/docs/ref-organs/blood-vasculature-female.html,Browne K, Schlehlein H. 2022. 3D Reference Organ for Blood Vasculature, Female v1.2. https://doi.org/10.48539/HBM232.FSRK.728. Accessed on May 6, 2022.,10.48539/HBM232.FSRK.728,From 3D model (derived from Visible Human Project)
middle colic vein,UBERON:0001218,luminal diameter,Male,0.277471,-1,-1,-1,cm,American Study,1,Computed tomography,https://hubmapconsortium.github.io/ccf-releases/v1.2/docs/ref-organs/blood-vasculature-male.html,Browne K, Schlehlein H. 2022. 3D Reference Organ for Blood Vasculature, Male v1.2. https://doi.org/10.48539/HBM686.LBDQ.998. Accessed on May 6, 2022.,10.48539/HBM686.LBDQ.998,From 3D model (derived from Visible Human Project)
middle hepatic vein,UBERON:0011957,luminal diameter,Female,0.892843,-1,-1,-1,cm,American Study,1,Computed tomography,https://hubmapconsortium.github.io/ccf-releases/v1.2/docs/ref-organs/blood-vasculature-female.html,Browne K, Schlehlein H. 2022. 3D Reference Organ for Blood Vasculature, Female v1.2. https://doi.org/10.48539/HBM232.FSRK.728. Accessed on May 6, 2022.,10.48539/HBM232.FSRK.728,From 3D model (derived from Visible Human Project)
middle hepatic vein,UBERON:0011957,luminal diameter,Male,0.528118,-1,-1,-1,cm,American Study,1,Computed tomography,https://hubmapconsortium.github.io/ccf-releases/v1.2/docs/ref-organs/blood-vasculature-male.html,Browne K, Schlehlein H. 2022. 3D Reference Organ for Blood Vasculature, Male v1.2. https://doi.org/10.48539/HBM686.LBDQ.998. Accessed on May 6, 2022.,10.48539/HBM686.LBDQ.998,From 3D model (derived from Visible Human Project)
ophthalmic artery,UBERON:0001619,luminal diameter,Female,0.0964427,-1,-1,-1,cm,American Study,1,Computed tomography,https://hubmapconsortium.github.io/ccf-releases/v1.2/docs/ref-organs/blood-vasculature-female.html,Browne K, Schlehlein H. 2022. 3D Reference Organ for Blood Vasculature, Female v1.2. https://doi.org/10.48539/HBM232.FSRK.728. Accessed on May 6, 2022.,10.48539/HBM232.FSRK.728,From 3D model (derived from Visible Human Project)
ophthalmic artery,UBERON:0001619,luminal diameter,Male,0.0962807,-1,-1,-1,cm,American Study,1,Computed tomography,https://hubmapconsortium.github.io/ccf-releases/v1.2/docs/ref-organs/blood-vasculature-male.html,Browne K, Schlehlein H. 2022. 3D Reference Organ for Blood Vasculature, Male v1.2. https://doi.org/10.48539/HBM686.LBDQ.998. Accessed on May 6, 2022.,10.48539/HBM686.LBDQ.998,From 3D model (derived from Visible Human Project)
posterior descending artery,FMA:3840,luminal diameter,Male,0.114959,-1,-1,-1,cm,American Study,1,Computed tomography,https://hubmapconsortium.github.io/ccf-releases/v1.2/docs/ref-organs/blood-vasculature-male.html,Browne K, Schlehlein H. 2022. 3D Reference Organ for Blood Vasculature, Male v1.2. https://doi.org/10.48539/HBM686.LBDQ.998. Accessed on May 6, 2022.,10.48539/HBM686.LBDQ.998,From 3D model (derived from Visible Human Project)
proper hepatic artery,UBERON:0015480,luminal diameter,Female,0.727682,-1,-1,-1,cm,American Study,1,Computed tomography,https://hubmapconsortium.github.io/ccf-releases/v1.2/docs/ref-organs/blood-vasculature-female.html,Browne K, Schlehlein H. 2022. 3D Reference Organ for Blood Vasculature, Female v1.2. https://doi.org/10.48539/HBM232.FSRK.728. Accessed on May 6, 2022.,10.48539/HBM232.FSRK.728,From 3D model (derived from Visible Human Project)
proper hepatic artery,UBERON:0015480,luminal diameter,Male,0.639868,-1,-1,-1,cm,American Study,1,Computed tomography,https://hubmapconsortium.github.io/ccf-releases/v1.2/docs/ref-organs/blood-vasculature-male.html,Browne K, Schlehlein H. 2022. 3D Reference Organ for Blood Vasculature, Male v1.2. https://doi.org/10.48539/HBM686.LBDQ.998. Accessed on May 6, 2022.,10.48539/HBM686.LBDQ.998,From 3D model (derived from Visible Human Project)
pulmonary trunk,UBERON:0002333,luminal diameter,Female,2.33425,-1,-1,-1,cm,American Study,1,Computed tomography,https://hubmapconsortium.github.io/ccf-releases/v1.2/docs/ref-organs/blood-vasculature-female.html,Browne K, Schlehlein H. 2022. 3D Reference Organ for Blood Vasculature, Female v1.2. https://doi.org/10.48539/HBM232.FSRK.728. Accessed on May 6, 2022.,10.48539/HBM232.FSRK.728,From 3D model (derived from Visible Human Project)
pulmonary trunk,UBERON:0002333,luminal diameter,Male,2.06206,-1,-1,-1,cm,American Study,1,Computed tomography,https://hubmapconsortium.github.io/ccf-releases/v1.2/docs/ref-organs/blood-vasculature-male.html,Browne K, Schlehlein H. 2022. 3D Reference Organ for Blood Vasculature, Male v1.2. https://doi.org/10.48539/HBM686.LBDQ.998. Accessed on May 6, 2022.,10.48539/HBM686.LBDQ.998,From 3D model (derived from Visible Human Project)
right brachiocephalic vein,FMA:4751,luminal diameter,Male,1.33698,-1,-1,-1,cm,American Study,1,Computed tomography,https://hubmapconsortium.github.io/ccf-releases/v1.2/docs/ref-organs/blood-vasculature-male.html,Browne K, Schlehlein H. 2022. 3D Reference Organ for Blood Vasculature, Male v1.2. https://doi.org/10.48539/HBM686.LBDQ.998. Accessed on May 6, 2022.,10.48539/HBM686.LBDQ.998,From 3D model (derived from Visible Human Project)
right colic artery,UBERON:8410023,luminal diameter,Female,0.447874,-1,-1,-1,cm,American Study,1,Computed tomography,https://hubmapconsortium.github.io/ccf-releases/v1.2/docs/ref-organs/blood-vasculature-female.html,Browne K, Schlehlein H. 2022. 3D Reference Organ for Blood Vasculature, Female v1.2. https://doi.org/10.48539/HBM232.FSRK.728. Accessed on May 6, 2022.,10.48539/HBM232.FSRK.728,From 3D model (derived from Visible Human Project)
right colic artery,UBERON:8410023,luminal diameter,Male,0.2099,-1,-1,-1,cm,American Study,1,Computed tomography,https://hubmapconsortium.github.io/ccf-releases/v1.2/docs/ref-organs/blood-vasculature-male.html,Browne K, Schlehlein H. 2022. 3D Reference Organ for Blood Vasculature, Male v1.2. https://doi.org/10.48539/HBM686.LBDQ.998. Accessed on May 6, 2022.,10.48539/HBM686.LBDQ.998,From 3D model (derived from Visible Human Project)
right colic vein,UBERON:8410018,luminal diameter,Female,0.33677,-1,-1,-1,cm,American Study,1,Computed tomography,https://hubmapconsortium.github.io/ccf-releases/v1.2/docs/ref-organs/blood-vasculature-female.html,Browne K, Schlehlein H. 2022. 3D Reference Organ for Blood Vasculature, Female v1.2. https://doi.org/10.48539/HBM232.FSRK.728. Accessed on May 6, 2022.,10.48539/HBM232.FSRK.728,From 3D model (derived from Visible Human Project)
right colic vein,UBERON:8410018,luminal diameter,Male,0.192583,-1,-1,-1,cm,American Study,1,Computed tomography,https://hubmapconsortium.github.io/ccf-releases/v1.2/docs/ref-organs/blood-vasculature-male.html,Browne K, Schlehlein H. 2022. 3D Reference Organ for Blood Vasculature, Male v1.2. https://doi.org/10.48539/HBM686.LBDQ.998. Accessed on May 6, 2022.,10.48539/HBM686.LBDQ.998,From 3D model (derived from Visible Human Project)
right common carotid artery,UBERON:0001531,length,Female,12.9,1.7,-1,-1,cm,American Study,50,Computed tomography,https://pubmed.ncbi.nlm.nih.gov/25841169/,Choudhry FA, Grantham JT, Rai AT, Hogg JP. Vascular geometry of the extracranial carotid arteries: an analysis of length, diameter, and tortuosity. J Neurointerv Surg. 2016 May;8(5):536-40. doi: 10.1136/neurintsurg-2015-011671. Epub 2015 Apr 3. Erratum in: J Neurointerv Surg. 2018 May;10 (5):e9. PMID: 25841169.,10.1136/neurintsurg-2015-011671,
right common carotid artery,UBERON:0001531,length,Male,14.3,1.6,-1,-1,cm,American Study,50,Computed tomography,https://pubmed.ncbi.nlm.nih.gov/25841169/,Choudhry FA, Grantham JT, Rai AT, Hogg JP. Vascular geometry of the extracranial carotid arteries: an analysis of length, diameter, and tortuosity. J Neurointerv Surg. 2016 May;8(5):536-40. doi: 10.1136/neurintsurg-2015-011671. Epub 2015 Apr 3. Erratum in: J Neurointerv Surg. 2018 May;10 (5):e9. PMID: 25841169.,10.1136/neurintsurg-2015-011671,
right common carotid artery,UBERON:0001531,luminal diameter,Female,0.65,0.06,-1,-1,cm,American Study,50,Computed tomography,https://pubmed.ncbi.nlm.nih.gov/25841169/,Choudhry FA, Grantham JT, Rai AT, Hogg JP. Vascular geometry of the extracranial carotid arteries: an analysis of length, diameter, and tortuosity. J Neurointerv Surg. 2016 May;8(5):536-40. doi: 10.1136/neurintsurg-2015-011671. Epub 2015 Apr 3. Erratum in: J Neurointerv Surg. 2018 May;10 (5):e9. PMID: 25841169.,10.1136/neurintsurg-2015-011671,
right common carotid artery,UBERON:0001531,luminal diameter,Male,0.65,0.07,-1,-1,cm,American Study,50,Computed tomography,https://pubmed.ncbi.nlm.nih.gov/25841169/,Choudhry FA, Grantham JT, Rai AT, Hogg JP. Vascular geometry of the extracranial carotid arteries: an analysis of length, diameter, and tortuosity. J Neurointerv Surg. 2016 May;8(5):536-40. doi: 10.1136/neurintsurg-2015-011671. Epub 2015 Apr 3. Erratum in: J Neurointerv Surg. 2018 May;10 (5):e9. PMID: 25841169.,10.1136/neurintsurg-2015-011671,
right common iliac vein,FMA:21387,luminal diameter,Female,1.04138,-1,-1,-1,cm,American Study,1,Computed tomography,https://hubmapconsortium.github.io/ccf-releases/v1.2/docs/ref-organs/blood-vasculature-female.html,Browne K, Schlehlein H. 2022. 3D Reference Organ for Blood Vasculature, Female v1.2. https://doi.org/10.48539/HBM232.FSRK.728. Accessed on May 6, 2022.,10.48539/HBM232.FSRK.728,From 3D model (derived from Visible Human Project)
right common iliac vein,FMA:21387,luminal diameter,Male,1.63796,-1,-1,-1,cm,American Study,1,Computed tomography,https://hubmapconsortium.github.io/ccf-releases/v1.2/docs/ref-organs/blood-vasculature-male.html,Browne K, Schlehlein H. 2022. 3D Reference Organ for Blood Vasculature, Male v1.2. https://doi.org/10.48539/HBM686.LBDQ.998. Accessed on May 6, 2022.,10.48539/HBM686.LBDQ.998,From 3D model (derived from Visible Human Project)
right coronary artery,UBERON:0001625,luminal diameter,Female,0.203522,-1,-1,-1,cm,American Study,1,Computed tomography,https://hubmapconsortium.github.io/ccf-releases/v1.2/docs/ref-organs/blood-vasculature-female.html,Browne K, Schlehlein H. 2022. 3D Reference Organ for Blood Vasculature, Female v1.2. https://doi.org/10.48539/HBM232.FSRK.728. Accessed on May 6, 2022.,10.48539/HBM232.FSRK.728,From 3D model (derived from Visible Human Project)
right coronary artery,UBERON:0001625,luminal diameter,Male,0.117258,-1,-1,-1,cm,American Study,1,Computed tomography,https://hubmapconsortium.github.io/ccf-releases/v1.2/docs/ref-organs/blood-vasculature-male.html,Browne K, Schlehlein H. 2022. 3D Reference Organ for Blood Vasculature, Male v1.2. https://doi.org/10.48539/HBM686.LBDQ.998. Accessed on May 6, 2022.,10.48539/HBM686.LBDQ.998,From 3D model (derived from Visible Human Project)
right hepatic artery,UBERON:0015482,luminal diameter,Female,0.821353,-1,-1,-1,cm,American Study,1,Computed tomography,https://hubmapconsortium.github.io/ccf-releases/v1.2/docs/ref-organs/blood-vasculature-female.html,Browne K, Schlehlein H. 2022. 3D Reference Organ for Blood Vasculature, Female v1.2. https://doi.org/10.48539/HBM232.FSRK.728. Accessed on May 6, 2022.,10.48539/HBM232.FSRK.728,From 3D model (derived from Visible Human Project)
right hepatic artery,UBERON:0015482,luminal diameter,Male,0.79763,-1,-1,-1,cm,American Study,1,Computed tomography,https://hubmapconsortium.github.io/ccf-releases/v1.2/docs/ref-organs/blood-vasculature-male.html,Browne K, Schlehlein H. 2022. 3D Reference Organ for Blood Vasculature, Male v1.2. https://doi.org/10.48539/HBM686.LBDQ.998. Accessed on May 6, 2022.,10.48539/HBM686.LBDQ.998,From 3D model (derived from Visible Human Project)
right hepatic vein,UBERON:0011956,luminal diameter,Female,0.638478,-1,-1,-1,cm,American Study,1,Computed tomography,https://hubmapconsortium.github.io/ccf-releases/v1.2/docs/ref-organs/blood-vasculature-female.html,Browne K, Schlehlein H. 2022. 3D Reference Organ for Blood Vasculature, Female v1.2. https://doi.org/10.48539/HBM232.FSRK.728. Accessed on May 6, 2022.,10.48539/HBM232.FSRK.728,From 3D model (derived from Visible Human Project)
right hepatic vein,UBERON:0011956,luminal diameter,Male,0.52965,-1,-1,-1,cm,American Study,1,Computed tomography,https://hubmapconsortium.github.io/ccf-releases/v1.2/docs/ref-organs/blood-vasculature-male.html,Browne K, Schlehlein H. 2022. 3D Reference Organ for Blood Vasculature, Male v1.2. https://doi.org/10.48539/HBM686.LBDQ.998. Accessed on May 6, 2022.,10.48539/HBM686.LBDQ.998,From 3D model (derived from Visible Human Project)
right inferior pulmonary vein,FMA:49911,luminal diameter,Female,1.11844,-1,-1,-1,cm,American Study,1,Computed tomography,https://hubmapconsortium.github.io/ccf-releases/v1.2/docs/ref-organs/blood-vasculature-female.html,Browne K, Schlehlein H. 2022. 3D Reference Organ for Blood Vasculature, Female v1.2. https://doi.org/10.48539/HBM232.FSRK.728. Accessed on May 6, 2022.,10.48539/HBM232.FSRK.728,From 3D model (derived from Visible Human Project)
right inferior pulmonary vein,FMA:49911,luminal diameter,Male,0.485563,-1,-1,-1,cm,American Study,1,Computed tomography,https://hubmapconsortium.github.io/ccf-releases/v1.2/docs/ref-organs/blood-vasculature-male.html,Browne K, Schlehlein H. 2022. 3D Reference Organ for Blood Vasculature, Male v1.2. https://doi.org/10.48539/HBM686.LBDQ.998. Accessed on May 6, 2022.,10.48539/HBM686.LBDQ.998,From 3D model (derived from Visible Human Project)
right marginal artery,FMA:3818,luminal diameter,Female,0.201652,-1,-1,-1,cm,American Study,1,Computed tomography,https://hubmapconsortium.github.io/ccf-releases/v1.2/docs/ref-organs/blood-vasculature-female.html,Browne K, Schlehlein H. 2022. 3D Reference Organ for Blood Vasculature, Female v1.2. https://doi.org/10.48539/HBM232.FSRK.728. Accessed on May 6, 2022.,10.48539/HBM232.FSRK.728,From 3D model (derived from Visible Human Project)
right marginal artery,FMA:3818,luminal diameter,Male,0.150988,-1,-1,-1,cm,American Study,1,Computed tomography,https://hubmapconsortium.github.io/ccf-releases/v1.2/docs/ref-organs/blood-vasculature-male.html,Browne K, Schlehlein H. 2022. 3D Reference Organ for Blood Vasculature, Male v1.2. https://doi.org/10.48539/HBM686.LBDQ.998. Accessed on May 6, 2022.,10.48539/HBM686.LBDQ.998,From 3D model (derived from Visible Human Project)
right pulmonary artery,UBERON:0001651,luminal diameter,Female,1.60646,-1,-1,-1,cm,American Study,1,Computed tomography,https://hubmapconsortium.github.io/ccf-releases/v1.2/docs/ref-organs/blood-vasculature-female.html,Browne K, Schlehlein H. 2022. 3D Reference Organ for Blood Vasculature, Female v1.2. https://doi.org/10.48539/HBM232.FSRK.728. Accessed on May 6, 2022.,10.48539/HBM232.FSRK.728,From 3D model (derived from Visible Human Project)
right pulmonary artery,UBERON:0001651,luminal diameter,Male,1.32666,-1,-1,-1,cm,American Study,1,Computed tomography,https://hubmapconsortium.github.io/ccf-releases/v1.2/docs/ref-organs/blood-vasculature-male.html,Browne K, Schlehlein H. 2022. 3D Reference Organ for Blood Vasculature, Male v1.2. https://doi.org/10.48539/HBM686.LBDQ.998. Accessed on May 6, 2022.,10.48539/HBM686.LBDQ.998,From 3D model (derived from Visible Human Project)
right renal artery,UBERON:0001185,luminal diameter,Female,0.258897,-1,-1,-1,cm,American Study,1,Computed tomography,https://hubmapconsortium.github.io/ccf-releases/v1.2/docs/ref-organs/blood-vasculature-female.html,Browne K, Schlehlein H. 2022. 3D Reference Organ for Blood Vasculature, Female v1.2. https://doi.org/10.48539/HBM232.FSRK.728. Accessed on May 6, 2022.,10.48539/HBM232.FSRK.728,From 3D model (derived from Visible Human Project)
right renal artery,UBERON:0001185,luminal diameter,Male,0.365626,-1,-1,-1,cm,American Study,1,Computed tomography,https://hubmapconsortium.github.io/ccf-releases/v1.2/docs/ref-organs/blood-vasculature-male.html,Browne K, Schlehlein H. 2022. 3D Reference Organ for Blood Vasculature, Male v1.2. https://doi.org/10.48539/HBM686.LBDQ.998. Accessed on May 6, 2022.,10.48539/HBM686.LBDQ.998,From 3D model (derived from Visible Human Project)
right renal vein,UBERON:0001141,length,Unknown,2.4,0.7,-1,-1,cm,Unknown,100,Cadaveric study,https://pubmed.ncbi.nlm.nih.gov/7710142/,Satyapal KS, Rambiritch V, Pillai G. Morphometric analysis of the renal veins. Anat Rec. 1995 Feb;241(2):268-72. doi: 10.1002/ar.1092410213. PMID: 7710142.,10.1002/ar.1092410213,Resin casts
right renal vein,UBERON:0001141,luminal diameter,Female,1.37384,-1,-1,-1,cm,American Study,1,Computed tomography,https://hubmapconsortium.github.io/ccf-releases/v1.2/docs/ref-organs/blood-vasculature-female.html,Browne K, Schlehlein H. 2022. 3D Reference Organ for Blood Vasculature, Female v1.2. https://doi.org/10.48539/HBM232.FSRK.728. Accessed on May 6, 2022.,10.48539/HBM232.FSRK.728,From 3D model (derived from Visible Human Project)
right renal vein,UBERON:0001141,luminal diameter,Male,1.4772,-1,-1,-1,cm,American Study,1,Computed tomography,https://hubmapconsortium.github.io/ccf-releases/v1.2/docs/ref-organs/blood-vasculature-male.html,Browne K, Schlehlein H. 2022. 3D Reference Organ for Blood Vasculature, Male v1.2. https://doi.org/10.48539/HBM686.LBDQ.998. Accessed on May 6, 2022.,10.48539/HBM686.LBDQ.998,From 3D model (derived from Visible Human Project)
right renal vein,UBERON:0001141,luminal diameter,Unknown,1.2,0.2,-1,-1,cm,Unknown,100,Cadaveric study,https://pubmed.ncbi.nlm.nih.gov/7710142/,Satyapal KS, Rambiritch V, Pillai G. Morphometric analysis of the renal veins. Anat Rec. 1995 Feb;241(2):268-72. doi: 10.1002/ar.1092410213. PMID: 7710142.,10.1002/ar.1092410213,Resin casts
right superior pulmonary vein,FMA:49914,luminal diameter,Female,1.45935,-1,-1,-1,cm,American Study,1,Computed tomography,https://hubmapconsortium.github.io/ccf-releases/v1.2/docs/ref-organs/blood-vasculature-female.html,Browne K, Schlehlein H. 2022. 3D Reference Organ for Blood Vasculature, Female v1.2. https://doi.org/10.48539/HBM232.FSRK.728. Accessed on May 6, 2022.,10.48539/HBM232.FSRK.728,From 3D model (derived from Visible Human Project)
right superior pulmonary vein,FMA:49914,luminal diameter,Male,0.561125,-1,-1,-1,cm,American Study,1,Computed tomography,https://hubmapconsortium.github.io/ccf-releases/v1.2/docs/ref-organs/blood-vasculature-male.html,Browne K, Schlehlein H. 2022. 3D Reference Organ for Blood Vasculature, Male v1.2. https://doi.org/10.48539/HBM686.LBDQ.998. Accessed on May 6, 2022.,10.48539/HBM686.LBDQ.998,From 3D model (derived from Visible Human Project)
sigmoid artery,UBERON:0035180,luminal diameter,Female,0.20979,-1,-1,-1,cm,American Study,1,Computed tomography,https://hubmapconsortium.github.io/ccf-releases/v1.2/docs/ref-organs/blood-vasculature-female.html,Browne K, Schlehlein H. 2022. 3D Reference Organ for Blood Vasculature, Female v1.2. https://doi.org/10.48539/HBM232.FSRK.728. Accessed on May 6, 2022.,10.48539/HBM232.FSRK.728,From 3D model (derived from Visible Human Project)
sigmoid artery,UBERON:0035180,luminal diameter,Male,0.191503,-1,-1,-1,cm,American Study,1,Computed tomography,https://hubmapconsortium.github.io/ccf-releases/v1.2/docs/ref-organs/blood-vasculature-male.html,Browne K, Schlehlein H. 2022. 3D Reference Organ for Blood Vasculature, Male v1.2. https://doi.org/10.48539/HBM686.LBDQ.998. Accessed on May 6, 2022.,10.48539/HBM686.LBDQ.998,From 3D model (derived from Visible Human Project)
sigmoid vein,FMA:15395,luminal diameter,Female,0.19603,-1,-1,-1,cm,American Study,1,Computed tomography,https://hubmapconsortium.github.io/ccf-releases/v1.2/docs/ref-organs/blood-vasculature-female.html,Browne K, Schlehlein H. 2022. 3D Reference Organ for Blood Vasculature, Female v1.2. https://doi.org/10.48539/HBM232.FSRK.728. Accessed on May 6, 2022.,10.48539/HBM232.FSRK.728,From 3D model (derived from Visible Human Project)
sigmoid vein,FMA:15395,luminal diameter,Male,0.414043,-1,-1,-1,cm,American Study,1,Computed tomography,https://hubmapconsortium.github.io/ccf-releases/v1.2/docs/ref-organs/blood-vasculature-male.html,Browne K, Schlehlein H. 2022. 3D Reference Organ for Blood Vasculature, Male v1.2. https://doi.org/10.48539/HBM686.LBDQ.998. Accessed on May 6, 2022.,10.48539/HBM686.LBDQ.998,From 3D model (derived from Visible Human Project)
small cardiac vein,UBERON:0035374,luminal diameter,Female,0.346024,-1,-1,-1,cm,American Study,1,Computed tomography,https://hubmapconsortium.github.io/ccf-releases/v1.2/docs/ref-organs/blood-vasculature-female.html,Browne K, Schlehlein H. 2022. 3D Reference Organ for Blood Vasculature, Female v1.2. https://doi.org/10.48539/HBM232.FSRK.728. Accessed on May 6, 2022.,10.48539/HBM232.FSRK.728,From 3D model (derived from Visible Human Project)
small cardiac vein,UBERON:0035374,luminal diameter,Male,0.138651,-1,-1,-1,cm,American Study,1,Computed tomography,https://hubmapconsortium.github.io/ccf-releases/v1.2/docs/ref-organs/blood-vasculature-male.html,Browne K, Schlehlein H. 2022. 3D Reference Organ for Blood Vasculature, Male v1.2. https://doi.org/10.48539/HBM686.LBDQ.998. Accessed on May 6, 2022.,10.48539/HBM686.LBDQ.998,From 3D model (derived from Visible Human Project)
splenic artery,UBERON:0001194,length,Unknown,12.76,0.598,-1,-1,cm,Indian Study,50,Cadaveric study,https://www.jrmds.in/abstract/study-of-diameter-length-tortuosity-of-splenic-artery-and-its-branches-with-its-clinical-implications-1613.html,Bhivate VR, Suresh R, Kharate RP, Pandey N. Study of diameter, length, tortuosity of splenic artery and its branches with its clinical implications. Journal of Research in Medical and Dental Science. 2014;2(4):22–26.,,Embalmed cadavers
splenic artery,UBERON:0001194,luminal diameter,Female,0.281623,-1,-1,-1,cm,American Study,1,Computed tomography,https://hubmapconsortium.github.io/ccf-releases/v1.2/docs/ref-organs/blood-vasculature-female.html,Browne K, Schlehlein H. 2022. 3D Reference Organ for Blood Vasculature, Female v1.2. https://doi.org/10.48539/HBM232.FSRK.728. Accessed on May 6, 2022.,10.48539/HBM232.FSRK.728,From 3D model (derived from Visible Human Project)
splenic artery,UBERON:0001194,luminal diameter,Male,0.286447,-1,-1,-1,cm,American Study,1,Computed tomography,https://hubmapconsortium.github.io/ccf-releases/v1.2/docs/ref-organs/blood-vasculature-male.html,Browne K, Schlehlein H. 2022. 3D Reference Organ for Blood Vasculature, Male v1.2. https://doi.org/10.48539/HBM686.LBDQ.998. Accessed on May 6, 2022.,10.48539/HBM686.LBDQ.998,From 3D model (derived from Visible Human Project)
splenic artery,UBERON:0001194,outer diameter,Male,0.61,0.05,-1,-1,cm,Unknown,90,Cadaveric study,https://pubmed.ncbi.nlm.nih.gov/20977083/,Malnar D, Klasan GS, Miletic D, Bajek S, Vranic TS, Arbanas J, Bobinac D, Coklo M. Properties of the celiac trunk--anatomical study. Coll Antropol. 2010 Sep;34(3):917-21. PMID: 20977083.,,
splenic vein,UBERON:0003713,luminal diameter,Female,0.564776,-1,-1,-1,cm,American Study,1,Computed tomography,https://hubmapconsortium.github.io/ccf-releases/v1.2/docs/ref-organs/blood-vasculature-female.html,Browne K, Schlehlein H. 2022. 3D Reference Organ for Blood Vasculature, Female v1.2. https://doi.org/10.48539/HBM232.FSRK.728. Accessed on May 6, 2022.,10.48539/HBM232.FSRK.728,From 3D model (derived from Visible Human Project)
splenic vein,UBERON:0003713,luminal diameter,Male,0.442081,-1,-1,-1,cm,American Study,1,Computed tomography,https://hubmapconsortium.github.io/ccf-releases/v1.2/docs/ref-organs/blood-vasculature-male.html,Browne K, Schlehlein H. 2022. 3D Reference Organ for Blood Vasculature, Male v1.2. https://doi.org/10.48539/HBM686.LBDQ.998. Accessed on May 6, 2022.,10.48539/HBM686.LBDQ.998,From 3D model (derived from Visible Human Project)
superior mesenteric artery,UBERON:0001182,luminal diameter,Female,0.262427,-1,-1,-1,cm,American Study,1,Computed tomography,https://hubmapconsortium.github.io/ccf-releases/v1.2/docs/ref-organs/blood-vasculature-female.html,Browne K, Schlehlein H. 2022. 3D Reference Organ for Blood Vasculature, Female v1.2. https://doi.org/10.48539/HBM232.FSRK.728. Accessed on May 6, 2022.,10.48539/HBM232.FSRK.728,From 3D model (derived from Visible Human Project)
superior mesenteric artery,UBERON:0001182,luminal diameter,Female,1.428,0.707,-1,-1,cm,Indian Study,73,Computed tomography,https://www.ijars.net/articles/PDF/2634/47780_CE[Ra]_F(Sh)_PF1(MG_OM)_PFA(SHU)_PN(SHU).pdf,Ragupathi S, Kumar GP. Clinical Significance of Celiac Trunk and Superior Mesenteric Artery Diameter Following Computed Tomography. International Journal of Anatomy, Radiology and Surgery. 2021 Apr;10(2): RO49-RO51. doi: 10.7860/IJARS/2021/47780:2634.,10.7860/IJARS/2021/47780:2634,
superior mesenteric artery,UBERON:0001182,luminal diameter,Male,0.811323,-1,-1,-1,cm,American Study,1,Computed tomography,https://hubmapconsortium.github.io/ccf-releases/v1.2/docs/ref-organs/blood-vasculature-male.html,Browne K, Schlehlein H. 2022. 3D Reference Organ for Blood Vasculature, Male v1.2. https://doi.org/10.48539/HBM686.LBDQ.998. Accessed on May 6, 2022.,10.48539/HBM686.LBDQ.998,From 3D model (derived from Visible Human Project)
superior mesenteric artery,UBERON:0001182,luminal diameter,Male,1.188,0.521,-1,-1,cm,Indian Study,77,Computed tomography,https://www.ijars.net/articles/PDF/2634/47780_CE[Ra]_F(Sh)_PF1(MG_OM)_PFA(SHU)_PN(SHU).pdf,Ragupathi S, Kumar GP. Clinical Significance of Celiac Trunk and Superior Mesenteric Artery Diameter Following Computed Tomography. International Journal of Anatomy, Radiology and Surgery. 2021 Apr;10(2): RO49-RO51. doi: 10.7860/IJARS/2021/47780:2634.,10.7860/IJARS/2021/47780:2634,
superior mesenteric vein,UBERON:0001138,luminal diameter,Female,0.628119,-1,-1,-1,cm,American Study,1,Computed tomography,https://hubmapconsortium.github.io/ccf-releases/v1.2/docs/ref-organs/blood-vasculature-female.html,Browne K, Schlehlein H. 2022. 3D Reference Organ for Blood Vasculature, Female v1.2. https://doi.org/10.48539/HBM232.FSRK.728. Accessed on May 6, 2022.,10.48539/HBM232.FSRK.728,From 3D model (derived from Visible Human Project)
superior rectal artery,UBERON:0035040,luminal diameter,Female,0.398381,-1,-1,-1,cm,American Study,1,Computed tomography,https://hubmapconsortium.github.io/ccf-releases/v1.2/docs/ref-organs/blood-vasculature-female.html,Browne K, Schlehlein H. 2022. 3D Reference Organ for Blood Vasculature, Female v1.2. https://doi.org/10.48539/HBM232.FSRK.728. Accessed on May 6, 2022.,10.48539/HBM232.FSRK.728,From 3D model (derived from Visible Human Project)
superior rectal artery,UBERON:0035040,luminal diameter,Male,0.258515,-1,-1,-1,cm,American Study,1,Computed tomography,https://hubmapconsortium.github.io/ccf-releases/v1.2/docs/ref-organs/blood-vasculature-male.html,Browne K, Schlehlein H. 2022. 3D Reference Organ for Blood Vasculature, Male v1.2. https://doi.org/10.48539/HBM686.LBDQ.998. Accessed on May 6, 2022.,10.48539/HBM686.LBDQ.998,From 3D model (derived from Visible Human Project)
superior vena cava,UBERON:0001585,length,Unknown,7,-1,-1,-1,cm,Unknown,-1,Not specified,https://my.clevelandclinic.org/health/body/22619-vena-cava,https://my.clevelandclinic.org/health/body/22619-vena-cava,,
superior vena cava,UBERON:0001585,luminal diameter,Female,2.04278,-1,-1,-1,cm,American Study,1,Computed tomography,https://hubmapconsortium.github.io/ccf-releases/v1.2/docs/ref-organs/blood-vasculature-female.html,Browne K, Schlehlein H. 2022. 3D Reference Organ for Blood Vasculature, Female v1.2. https://doi.org/10.48539/HBM232.FSRK.728. Accessed on May 6, 2022.,10.48539/HBM232.FSRK.728,From 3D model (derived from Visible Human Project)
superior vena cava,UBERON:0001585,luminal diameter,Unknown,1.9,0.37,-1,-1,cm,Belgian Study ,91,Ultrasound,https://journals.sagepub.com/doi/pdf/10.1177/0310057X1504300312,Cowie BS, Kluger R, Rex S, Missant C. The relationship between superior vena cava diameter and collapsibility and central venous pressure. Anaesth Intensive Care. 2015 May;43(3):357-60. doi: 10.1177/0310057X1504300312. PMID: 25943610.,10.1177/0310057X1504300312,