Review





Similar Products

flow chemistry modules  (Zaiput Flow Technologies)
86
Zaiput Flow Technologies flow chemistry modules
Flow Chemistry Modules, supplied by Zaiput Flow Technologies, used in various techniques. Bioz Stars score: 86/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
https://www.bioz.com/result/flow chemistry modules/product/Zaiput Flow Technologies
Average 86 stars, based on 1 article reviews
flow chemistry modules - by Bioz Stars, 2026-06
86/100 stars
  Buy from Supplier
flow module  (Biolin Scientific)
94
Biolin Scientific flow module
Flow Module, supplied by Biolin Scientific, used in various techniques. Bioz Stars score: 94/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
https://www.bioz.com/result/flow module/product/Biolin Scientific
Average 94 stars, based on 1 article reviews
flow module - by Bioz Stars, 2026-06
94/100 stars
  Buy from Supplier
perivascular flow module  (Transonic Systems Inc)
86
Transonic Systems Inc perivascular flow module
(A) From superior to inferior and left to right: (1) Right External Jugular Vein – 7 Fr. cannula for central venous pressure (CVP) monitoring, (2) Left External Jugular vein – 7 Fr. triple lumen catheter for for fluid and drug administration, (3) Left Carotid Artery, 3-4mm <t>Perivascular</t> Transonic flow probe, (4) Left Subclavian Artery – 7Fr Cannula for proximal arterial pressure monitoring, (5) Right Brachial Artery, 5Fr. catheter for blood sampling, (6) Brachiocephalic arterial trunk, 6-8mm Perivascular Transonic flow probe, (7) Ascending Aorta (aortic root), 20-24mm Perivascular Transonic flow probe, (8) Left Ventricle, Transonic Pressure-Volume Catheter introduced via apical stick, (9) Proximal Descending Aorta, 12-14mm Perivascular Transonic Flow probe, (10) Left Renal Artery, 3-4 mm Perivascular Transonic Flow probe, (11) Distal Descending Aorta, 6-8 mm Perivascular Transonic flow probe, (12) Right Femoral Artery – 7 Fr. cannula reserved for distal pressure monitoring generally positioned infrarenal, (13) Left Femoral Artery - 9 Fr. cannula for introduction of the balloon catheter (balloon is inflated in the figure), (14) Left Femoral Vein – 9 Fr. MAC catheter for hemorrhage, transfusion and fluid resuscitation via automated Masterflex pump, and (15) Foley catheter for urine collection. Not depicted in the illustration are the endotracheal tube, splenectomy, or rectal temperature probe. We’d like to acknowledge Mr. Jerry Louis Shelton at Texas A&M University for his assistance in generating the pig illustration in panel 1A. (B) Experimental timeline depicting controlled 30-minute hemorrhage period, followed by 30 minutes of aortic occlusion, a 10-minute balloon wean and 3-hour critical care resuscitation phase. Animals were randomized to 10%, 20% or 30% hemorrhage (by volume), and then randomized to either no aortic occlusion, partial REBOA (p-REBOA) and full REBOA (f-REBOA) intervention groups. Autologous blood re-transfusion and balloon weaning occurred between 65–75 minutes, after which a closed-loop critical care algorithm was initiated to maintain target MAP>65 mmHg for three hours (until time 240 minutes).
Perivascular Flow Module, supplied by Transonic Systems Inc, used in various techniques. Bioz Stars score: 86/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
https://www.bioz.com/result/perivascular flow module/product/Transonic Systems Inc
Average 86 stars, based on 1 article reviews
perivascular flow module - by Bioz Stars, 2026-06
86/100 stars
  Buy from Supplier
transonic tubing flow module  (Transonic Systems Inc)
86
Transonic Systems Inc transonic tubing flow module
(A) From superior to inferior and left to right: (1) Right External Jugular Vein – 7 Fr. cannula for central venous pressure (CVP) monitoring, (2) Left External Jugular vein – 7 Fr. triple lumen catheter for for fluid and drug administration, (3) Left Carotid Artery, 3-4mm <t>Perivascular</t> Transonic flow probe, (4) Left Subclavian Artery – 7Fr Cannula for proximal arterial pressure monitoring, (5) Right Brachial Artery, 5Fr. catheter for blood sampling, (6) Brachiocephalic arterial trunk, 6-8mm Perivascular Transonic flow probe, (7) Ascending Aorta (aortic root), 20-24mm Perivascular Transonic flow probe, (8) Left Ventricle, Transonic Pressure-Volume Catheter introduced via apical stick, (9) Proximal Descending Aorta, 12-14mm Perivascular Transonic Flow probe, (10) Left Renal Artery, 3-4 mm Perivascular Transonic Flow probe, (11) Distal Descending Aorta, 6-8 mm Perivascular Transonic flow probe, (12) Right Femoral Artery – 7 Fr. cannula reserved for distal pressure monitoring generally positioned infrarenal, (13) Left Femoral Artery - 9 Fr. cannula for introduction of the balloon catheter (balloon is inflated in the figure), (14) Left Femoral Vein – 9 Fr. MAC catheter for hemorrhage, transfusion and fluid resuscitation via automated Masterflex pump, and (15) Foley catheter for urine collection. Not depicted in the illustration are the endotracheal tube, splenectomy, or rectal temperature probe. We’d like to acknowledge Mr. Jerry Louis Shelton at Texas A&M University for his assistance in generating the pig illustration in panel 1A. (B) Experimental timeline depicting controlled 30-minute hemorrhage period, followed by 30 minutes of aortic occlusion, a 10-minute balloon wean and 3-hour critical care resuscitation phase. Animals were randomized to 10%, 20% or 30% hemorrhage (by volume), and then randomized to either no aortic occlusion, partial REBOA (p-REBOA) and full REBOA (f-REBOA) intervention groups. Autologous blood re-transfusion and balloon weaning occurred between 65–75 minutes, after which a closed-loop critical care algorithm was initiated to maintain target MAP>65 mmHg for three hours (until time 240 minutes).
Transonic Tubing Flow Module, supplied by Transonic Systems Inc, used in various techniques. Bioz Stars score: 86/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
https://www.bioz.com/result/transonic tubing flow module/product/Transonic Systems Inc
Average 86 stars, based on 1 article reviews
transonic tubing flow module - by Bioz Stars, 2026-06
86/100 stars
  Buy from Supplier
perivascular flow module  (ADInstruments)
93
ADInstruments perivascular flow module
(A) From superior to inferior and left to right: (1) Right External Jugular Vein – 7 Fr. cannula for central venous pressure (CVP) monitoring, (2) Left External Jugular vein – 7 Fr. triple lumen catheter for for fluid and drug administration, (3) Left Carotid Artery, 3-4mm <t>Perivascular</t> Transonic flow probe, (4) Left Subclavian Artery – 7Fr Cannula for proximal arterial pressure monitoring, (5) Right Brachial Artery, 5Fr. catheter for blood sampling, (6) Brachiocephalic arterial trunk, 6-8mm Perivascular Transonic flow probe, (7) Ascending Aorta (aortic root), 20-24mm Perivascular Transonic flow probe, (8) Left Ventricle, Transonic Pressure-Volume Catheter introduced via apical stick, (9) Proximal Descending Aorta, 12-14mm Perivascular Transonic Flow probe, (10) Left Renal Artery, 3-4 mm Perivascular Transonic Flow probe, (11) Distal Descending Aorta, 6-8 mm Perivascular Transonic flow probe, (12) Right Femoral Artery – 7 Fr. cannula reserved for distal pressure monitoring generally positioned infrarenal, (13) Left Femoral Artery - 9 Fr. cannula for introduction of the balloon catheter (balloon is inflated in the figure), (14) Left Femoral Vein – 9 Fr. MAC catheter for hemorrhage, transfusion and fluid resuscitation via automated Masterflex pump, and (15) Foley catheter for urine collection. Not depicted in the illustration are the endotracheal tube, splenectomy, or rectal temperature probe. We’d like to acknowledge Mr. Jerry Louis Shelton at Texas A&M University for his assistance in generating the pig illustration in panel 1A. (B) Experimental timeline depicting controlled 30-minute hemorrhage period, followed by 30 minutes of aortic occlusion, a 10-minute balloon wean and 3-hour critical care resuscitation phase. Animals were randomized to 10%, 20% or 30% hemorrhage (by volume), and then randomized to either no aortic occlusion, partial REBOA (p-REBOA) and full REBOA (f-REBOA) intervention groups. Autologous blood re-transfusion and balloon weaning occurred between 65–75 minutes, after which a closed-loop critical care algorithm was initiated to maintain target MAP>65 mmHg for three hours (until time 240 minutes).
Perivascular Flow Module, supplied by ADInstruments, used in various techniques. Bioz Stars score: 93/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
https://www.bioz.com/result/perivascular flow module/product/ADInstruments
Average 93 stars, based on 1 article reviews
perivascular flow module - by Bioz Stars, 2026-06
93/100 stars
  Buy from Supplier
minikros plus tangential flow filtration module  (Spectrum Labs)
86
Spectrum Labs minikros plus tangential flow filtration module
(A) From superior to inferior and left to right: (1) Right External Jugular Vein – 7 Fr. cannula for central venous pressure (CVP) monitoring, (2) Left External Jugular vein – 7 Fr. triple lumen catheter for for fluid and drug administration, (3) Left Carotid Artery, 3-4mm <t>Perivascular</t> Transonic flow probe, (4) Left Subclavian Artery – 7Fr Cannula for proximal arterial pressure monitoring, (5) Right Brachial Artery, 5Fr. catheter for blood sampling, (6) Brachiocephalic arterial trunk, 6-8mm Perivascular Transonic flow probe, (7) Ascending Aorta (aortic root), 20-24mm Perivascular Transonic flow probe, (8) Left Ventricle, Transonic Pressure-Volume Catheter introduced via apical stick, (9) Proximal Descending Aorta, 12-14mm Perivascular Transonic Flow probe, (10) Left Renal Artery, 3-4 mm Perivascular Transonic Flow probe, (11) Distal Descending Aorta, 6-8 mm Perivascular Transonic flow probe, (12) Right Femoral Artery – 7 Fr. cannula reserved for distal pressure monitoring generally positioned infrarenal, (13) Left Femoral Artery - 9 Fr. cannula for introduction of the balloon catheter (balloon is inflated in the figure), (14) Left Femoral Vein – 9 Fr. MAC catheter for hemorrhage, transfusion and fluid resuscitation via automated Masterflex pump, and (15) Foley catheter for urine collection. Not depicted in the illustration are the endotracheal tube, splenectomy, or rectal temperature probe. We’d like to acknowledge Mr. Jerry Louis Shelton at Texas A&M University for his assistance in generating the pig illustration in panel 1A. (B) Experimental timeline depicting controlled 30-minute hemorrhage period, followed by 30 minutes of aortic occlusion, a 10-minute balloon wean and 3-hour critical care resuscitation phase. Animals were randomized to 10%, 20% or 30% hemorrhage (by volume), and then randomized to either no aortic occlusion, partial REBOA (p-REBOA) and full REBOA (f-REBOA) intervention groups. Autologous blood re-transfusion and balloon weaning occurred between 65–75 minutes, after which a closed-loop critical care algorithm was initiated to maintain target MAP>65 mmHg for three hours (until time 240 minutes).
Minikros Plus Tangential Flow Filtration Module, supplied by Spectrum Labs, used in various techniques. Bioz Stars score: 86/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
https://www.bioz.com/result/minikros plus tangential flow filtration module/product/Spectrum Labs
Average 86 stars, based on 1 article reviews
minikros plus tangential flow filtration module - by Bioz Stars, 2026-06
86/100 stars
  Buy from Supplier
qfm401  (Biolin Scientific)
94
Biolin Scientific qfm401
(A) From superior to inferior and left to right: (1) Right External Jugular Vein – 7 Fr. cannula for central venous pressure (CVP) monitoring, (2) Left External Jugular vein – 7 Fr. triple lumen catheter for for fluid and drug administration, (3) Left Carotid Artery, 3-4mm <t>Perivascular</t> Transonic flow probe, (4) Left Subclavian Artery – 7Fr Cannula for proximal arterial pressure monitoring, (5) Right Brachial Artery, 5Fr. catheter for blood sampling, (6) Brachiocephalic arterial trunk, 6-8mm Perivascular Transonic flow probe, (7) Ascending Aorta (aortic root), 20-24mm Perivascular Transonic flow probe, (8) Left Ventricle, Transonic Pressure-Volume Catheter introduced via apical stick, (9) Proximal Descending Aorta, 12-14mm Perivascular Transonic Flow probe, (10) Left Renal Artery, 3-4 mm Perivascular Transonic Flow probe, (11) Distal Descending Aorta, 6-8 mm Perivascular Transonic flow probe, (12) Right Femoral Artery – 7 Fr. cannula reserved for distal pressure monitoring generally positioned infrarenal, (13) Left Femoral Artery - 9 Fr. cannula for introduction of the balloon catheter (balloon is inflated in the figure), (14) Left Femoral Vein – 9 Fr. MAC catheter for hemorrhage, transfusion and fluid resuscitation via automated Masterflex pump, and (15) Foley catheter for urine collection. Not depicted in the illustration are the endotracheal tube, splenectomy, or rectal temperature probe. We’d like to acknowledge Mr. Jerry Louis Shelton at Texas A&M University for his assistance in generating the pig illustration in panel 1A. (B) Experimental timeline depicting controlled 30-minute hemorrhage period, followed by 30 minutes of aortic occlusion, a 10-minute balloon wean and 3-hour critical care resuscitation phase. Animals were randomized to 10%, 20% or 30% hemorrhage (by volume), and then randomized to either no aortic occlusion, partial REBOA (p-REBOA) and full REBOA (f-REBOA) intervention groups. Autologous blood re-transfusion and balloon weaning occurred between 65–75 minutes, after which a closed-loop critical care algorithm was initiated to maintain target MAP>65 mmHg for three hours (until time 240 minutes).
Qfm401, supplied by Biolin Scientific, used in various techniques. Bioz Stars score: 94/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
https://www.bioz.com/result/qfm401/product/Biolin Scientific
Average 94 stars, based on 1 article reviews
qfm401 - by Bioz Stars, 2026-06
94/100 stars
  Buy from Supplier
qfm 401 flow module cell  (Biolin Scientific)
94
Biolin Scientific qfm 401 flow module cell
(A) From superior to inferior and left to right: (1) Right External Jugular Vein – 7 Fr. cannula for central venous pressure (CVP) monitoring, (2) Left External Jugular vein – 7 Fr. triple lumen catheter for for fluid and drug administration, (3) Left Carotid Artery, 3-4mm <t>Perivascular</t> Transonic flow probe, (4) Left Subclavian Artery – 7Fr Cannula for proximal arterial pressure monitoring, (5) Right Brachial Artery, 5Fr. catheter for blood sampling, (6) Brachiocephalic arterial trunk, 6-8mm Perivascular Transonic flow probe, (7) Ascending Aorta (aortic root), 20-24mm Perivascular Transonic flow probe, (8) Left Ventricle, Transonic Pressure-Volume Catheter introduced via apical stick, (9) Proximal Descending Aorta, 12-14mm Perivascular Transonic Flow probe, (10) Left Renal Artery, 3-4 mm Perivascular Transonic Flow probe, (11) Distal Descending Aorta, 6-8 mm Perivascular Transonic flow probe, (12) Right Femoral Artery – 7 Fr. cannula reserved for distal pressure monitoring generally positioned infrarenal, (13) Left Femoral Artery - 9 Fr. cannula for introduction of the balloon catheter (balloon is inflated in the figure), (14) Left Femoral Vein – 9 Fr. MAC catheter for hemorrhage, transfusion and fluid resuscitation via automated Masterflex pump, and (15) Foley catheter for urine collection. Not depicted in the illustration are the endotracheal tube, splenectomy, or rectal temperature probe. We’d like to acknowledge Mr. Jerry Louis Shelton at Texas A&M University for his assistance in generating the pig illustration in panel 1A. (B) Experimental timeline depicting controlled 30-minute hemorrhage period, followed by 30 minutes of aortic occlusion, a 10-minute balloon wean and 3-hour critical care resuscitation phase. Animals were randomized to 10%, 20% or 30% hemorrhage (by volume), and then randomized to either no aortic occlusion, partial REBOA (p-REBOA) and full REBOA (f-REBOA) intervention groups. Autologous blood re-transfusion and balloon weaning occurred between 65–75 minutes, after which a closed-loop critical care algorithm was initiated to maintain target MAP>65 mmHg for three hours (until time 240 minutes).
Qfm 401 Flow Module Cell, supplied by Biolin Scientific, used in various techniques. Bioz Stars score: 94/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
https://www.bioz.com/result/qfm 401 flow module cell/product/Biolin Scientific
Average 94 stars, based on 1 article reviews
qfm 401 flow module cell - by Bioz Stars, 2026-06
94/100 stars
  Buy from Supplier

Image Search Results


(A) From superior to inferior and left to right: (1) Right External Jugular Vein – 7 Fr. cannula for central venous pressure (CVP) monitoring, (2) Left External Jugular vein – 7 Fr. triple lumen catheter for for fluid and drug administration, (3) Left Carotid Artery, 3-4mm Perivascular Transonic flow probe, (4) Left Subclavian Artery – 7Fr Cannula for proximal arterial pressure monitoring, (5) Right Brachial Artery, 5Fr. catheter for blood sampling, (6) Brachiocephalic arterial trunk, 6-8mm Perivascular Transonic flow probe, (7) Ascending Aorta (aortic root), 20-24mm Perivascular Transonic flow probe, (8) Left Ventricle, Transonic Pressure-Volume Catheter introduced via apical stick, (9) Proximal Descending Aorta, 12-14mm Perivascular Transonic Flow probe, (10) Left Renal Artery, 3-4 mm Perivascular Transonic Flow probe, (11) Distal Descending Aorta, 6-8 mm Perivascular Transonic flow probe, (12) Right Femoral Artery – 7 Fr. cannula reserved for distal pressure monitoring generally positioned infrarenal, (13) Left Femoral Artery - 9 Fr. cannula for introduction of the balloon catheter (balloon is inflated in the figure), (14) Left Femoral Vein – 9 Fr. MAC catheter for hemorrhage, transfusion and fluid resuscitation via automated Masterflex pump, and (15) Foley catheter for urine collection. Not depicted in the illustration are the endotracheal tube, splenectomy, or rectal temperature probe. We’d like to acknowledge Mr. Jerry Louis Shelton at Texas A&M University for his assistance in generating the pig illustration in panel 1A. (B) Experimental timeline depicting controlled 30-minute hemorrhage period, followed by 30 minutes of aortic occlusion, a 10-minute balloon wean and 3-hour critical care resuscitation phase. Animals were randomized to 10%, 20% or 30% hemorrhage (by volume), and then randomized to either no aortic occlusion, partial REBOA (p-REBOA) and full REBOA (f-REBOA) intervention groups. Autologous blood re-transfusion and balloon weaning occurred between 65–75 minutes, after which a closed-loop critical care algorithm was initiated to maintain target MAP>65 mmHg for three hours (until time 240 minutes).

Journal: bioRxiv

Article Title: A translational porcine model to assess the graded impact of hemorrhage and aortic occlusion on cardiovascular hemodynamics and renal perfusion

doi: 10.64898/2026.02.05.703869

Figure Lengend Snippet: (A) From superior to inferior and left to right: (1) Right External Jugular Vein – 7 Fr. cannula for central venous pressure (CVP) monitoring, (2) Left External Jugular vein – 7 Fr. triple lumen catheter for for fluid and drug administration, (3) Left Carotid Artery, 3-4mm Perivascular Transonic flow probe, (4) Left Subclavian Artery – 7Fr Cannula for proximal arterial pressure monitoring, (5) Right Brachial Artery, 5Fr. catheter for blood sampling, (6) Brachiocephalic arterial trunk, 6-8mm Perivascular Transonic flow probe, (7) Ascending Aorta (aortic root), 20-24mm Perivascular Transonic flow probe, (8) Left Ventricle, Transonic Pressure-Volume Catheter introduced via apical stick, (9) Proximal Descending Aorta, 12-14mm Perivascular Transonic Flow probe, (10) Left Renal Artery, 3-4 mm Perivascular Transonic Flow probe, (11) Distal Descending Aorta, 6-8 mm Perivascular Transonic flow probe, (12) Right Femoral Artery – 7 Fr. cannula reserved for distal pressure monitoring generally positioned infrarenal, (13) Left Femoral Artery - 9 Fr. cannula for introduction of the balloon catheter (balloon is inflated in the figure), (14) Left Femoral Vein – 9 Fr. MAC catheter for hemorrhage, transfusion and fluid resuscitation via automated Masterflex pump, and (15) Foley catheter for urine collection. Not depicted in the illustration are the endotracheal tube, splenectomy, or rectal temperature probe. We’d like to acknowledge Mr. Jerry Louis Shelton at Texas A&M University for his assistance in generating the pig illustration in panel 1A. (B) Experimental timeline depicting controlled 30-minute hemorrhage period, followed by 30 minutes of aortic occlusion, a 10-minute balloon wean and 3-hour critical care resuscitation phase. Animals were randomized to 10%, 20% or 30% hemorrhage (by volume), and then randomized to either no aortic occlusion, partial REBOA (p-REBOA) and full REBOA (f-REBOA) intervention groups. Autologous blood re-transfusion and balloon weaning occurred between 65–75 minutes, after which a closed-loop critical care algorithm was initiated to maintain target MAP>65 mmHg for three hours (until time 240 minutes).

Article Snippet: To monitor the hemodynamic response, we used a Perivascular Flow Module with six ultrasonic flow probes (TS420, Transonic Systems Inc., Ithaca, NY).

Techniques: Sampling