Specific Endothelial Cells Govern Nanoparticle Entry into Solid Tumors

Gold Nanoparticles Induced Endothelial Leakiness Depends on Particle Size and Endothelial Cell Origin

Magdiel I. Setyawati (2925663)
Chor Yong Tay (662383)
Boon Huat Bay (420643)
David T. Leong (1419454)

April 2017

The endothelium presents a formidable barrier for cancer nanomedicine, as the intravenously introduc...

Get to the tumour! Transporting nanoparticles past predatory biological barriers

Dai, Qin

June 2018

Specific delivery of therapeutic and diagnostic agents to the disease tissue is an essential step fo...

Tumor-Vasculature-on-a-Chip for Investigating Nanoparticle Extravasation and Tumor Accumulation

Hao-Fei Wang (4332709)
Rui Ran (806443)
Yun Liu (84346)
Yue Hui (4478452)
Bijun Zeng (5929352)
Dong Chen (448284)
David A. Weitz (266457)
Chun-Xia Zhao (1654945)

November 2018

Nanoparticle tumor accumulation relies on a key mechanism, the enhanced permeability and retention (...

Specific Endothelial Cells Govern Nanoparticle Entry into Solid Tumors

Benjamin R. Kingston (11267605)
Zachary P. Lin (11267608)
Ben Ouyang (3642862)
Presley MacMillan (5562173)
Jessica Ngai (8346684)
Abdullah Muhammad Syed (2628631)
Shrey Sindhwani (2628634)
Warren C. W. Chan (7289762)

August 2021

The successful delivery of nanoparticles to solid tumors depends on their ability to pass through bl...

Transport of nanoparticles across the endothelial cell layer

Skotland, Tore
Sandvig, Kirsten

January 2021

Studies of how intravenously injected nanoparticles (NPs) enter tumours and are taken up by tumour c...

Remodeling Tumor Vasculature to Enhance Delivery of Intermediate-Sized Nanoparticles

Wen Jiang (274586)
Yuhui Huang (588283)
Yi An (300508)
Betty Y. S. Kim (1526734)

September 2015

Restoration of dysfunctional tumor vasculature can reestablish the pressure gradient between intrava...

Gold nanoparticle delivery to solid tumors : a multiparametric study on particle size and the tumor microenvironment

Izci, Mukaddes
Maksoudian, Christy
Gonçalves, Filipa
Aversa, Lucia
Salembier, Robbe
Sargsian, Ara
Pérez Gilabert, Irati
Chu, Tianjiao
Rios Luci, Carla
Bolea Fernandez, EduardoWE06000120988504802001397947F40CDAAC-65B0-11E2-8637-98B010BDE39D
Nittner, David
Vanhaecke, FrankCA05WE068010006319710000-0002-1884-3853F43E395E-F0ED-11E1-A9DE-61C894A0A6B4
Manshian, Bella B.
Soenen, Stefaan J.

January 2022

Nanoparticle (NP) delivery to solid tumors remains an actively studied field, where several recent s...

Make Nanomedicine Great Again ...... By Understanding Biological Barriers To Drug Delivery

Sindhwani, Shrey

November 2019

Cancer targeting nanoparticles face a variety of biological environments between the site of injecti...

Simulation of complex transport of nanoparticles around a tumor using tumor-microenvironment-on-chip

Kwak, Bongseop
Özçelikkale, Altuğ
Shin, Crystal S.
Park, Kinam
Han, Bumsoo

November 2014

Delivery of therapeutic agents selectively to tumor tissue, which is referred as "targeted delivery,...

Effect of the Development of a Cell Barrier on Nanoparticle Uptake in Endothelial Cells

Francia, Valentina
Aliyandi, Aldy
Salvati, Anna

January 2018

In order to improve the current success of nanomedicine, a better understanding of how nano-sized ma...

Rapid assessment of nanoparticle extravasation in a microfluidic tumor model

Vu, Mai N.
Rajasekhar, Pradeep
Poole, Daniel P.
Khor, Song Yang
Truong, Nghia P.
Nowell, Cameron J.
Quinn, John F.
Whittaker, Michael
Veldhuis, Nicholas A.
Davis, Thomas P.

April 2019

The development of nanoparticle-based targeted therapeutics for the treatment of cancer requires a w...

Pharmacokinetic analysis reveals limitations and opportunities for nanomedicine targeting of endothelial and extravascular compartments of tumours

Michael J. Benchimol (6292394)
David Bourne (430523)
Seyed Moein Moghimi (625107)
Dmitri Simberg (389013)

February 2019

Targeting of nanoparticles to tumours can potentially improve the specificity of imaging and treatme...

Rapid Assessment of Nanoparticle Extravasation in a Microfluidic Tumor Model

Vu, Ngoc Mai
Rajasekhar, Pradeep
Poole, Daniel P.
Khor, Song Yang
Truong Phuoc, Nghia
Nowell, Cameron
Quinn, John F.
Whittaker, Mikey
Veldhuis, Nicholas
Davis, Thomas P

March 2019

The development of nanoparticle-based targeted therapeutics for the treatment of cancer requires a w...

Rapid Assessment of Nanoparticle Extravasation in a Microfluidic Tumor Model

Mai N. Vu (6592310)
Pradeep Rajasekhar (6592313)
Daniel P. Poole (6592316)
Song Yang Khor (3899788)
Nghia P. Truong (1817815)
Cameron J. Nowell (735904)
John F. Quinn (1372680)
Michael Whittaker (2154766)
Nicholas A. Veldhuis (6592319)
Thomas P. Davis (521458)

April 2019

The development of nanoparticle-based targeted therapeutics for the treatment of cancer requires a w...

Highlight of a blood vessel network lined by endothelial cells (blue) transporting red blood cells (red), leukocytes (white) and nanoparticles (grey) within a tumor.

Hermann B. Frieboes (383421)
Min Wu (41570)
John Lowengrub (383422)
Paolo Decuzzi (382033)
Vittorio Cristini (383423)

March 2013

<p>Some of the nanoparticles are shown firmly adhering to the endothelial cells while experiencing i...

Gold Nanoparticles Induced Endothelial Leakiness Depends on Particle Size and Endothelial Cell Origin

Magdiel I. Setyawati (2925663)
Chor Yong Tay (662383)
Boon Huat Bay (420643)
David T. Leong (1419454)

April 2017

The endothelium presents a formidable barrier for cancer nanomedicine, as the intravenously introduc...

Get to the tumour! Transporting nanoparticles past predatory biological barriers

Dai, Qin

June 2018

Specific delivery of therapeutic and diagnostic agents to the disease tissue is an essential step fo...

Tumor-Vasculature-on-a-Chip for Investigating Nanoparticle Extravasation and Tumor Accumulation

Hao-Fei Wang (4332709)
Rui Ran (806443)
Yun Liu (84346)
Yue Hui (4478452)
Bijun Zeng (5929352)
Dong Chen (448284)
David A. Weitz (266457)
Chun-Xia Zhao (1654945)

November 2018

Nanoparticle tumor accumulation relies on a key mechanism, the enhanced permeability and retention (...

Specific Endothelial Cells Govern Nanoparticle Entry into Solid Tumors

Benjamin R. Kingston (11267605)
Zachary P. Lin (11267608)
Ben Ouyang (3642862)
Presley MacMillan (5562173)
Jessica Ngai (8346684)
Abdullah Muhammad Syed (2628631)
Shrey Sindhwani (2628634)
Warren C. W. Chan (7289762)

August 2021

The successful delivery of nanoparticles to solid tumors depends on their ability to pass through bl...

Transport of nanoparticles across the endothelial cell layer

Skotland, Tore
Sandvig, Kirsten

January 2021

Studies of how intravenously injected nanoparticles (NPs) enter tumours and are taken up by tumour c...

Remodeling Tumor Vasculature to Enhance Delivery of Intermediate-Sized Nanoparticles

Wen Jiang (274586)
Yuhui Huang (588283)
Yi An (300508)
Betty Y. S. Kim (1526734)

September 2015

Restoration of dysfunctional tumor vasculature can reestablish the pressure gradient between intrava...

Gold nanoparticle delivery to solid tumors : a multiparametric study on particle size and the tumor microenvironment

Izci, Mukaddes
Maksoudian, Christy
Gonçalves, Filipa
Aversa, Lucia
Salembier, Robbe
Sargsian, Ara
Pérez Gilabert, Irati
Chu, Tianjiao
Rios Luci, Carla
Bolea Fernandez, EduardoWE06000120988504802001397947F40CDAAC-65B0-11E2-8637-98B010BDE39D
Nittner, David
Vanhaecke, FrankCA05WE068010006319710000-0002-1884-3853F43E395E-F0ED-11E1-A9DE-61C894A0A6B4
Manshian, Bella B.
Soenen, Stefaan J.

January 2022

Nanoparticle (NP) delivery to solid tumors remains an actively studied field, where several recent s...

Make Nanomedicine Great Again ...... By Understanding Biological Barriers To Drug Delivery

Sindhwani, Shrey

November 2019

Cancer targeting nanoparticles face a variety of biological environments between the site of injecti...

Simulation of complex transport of nanoparticles around a tumor using tumor-microenvironment-on-chip

Kwak, Bongseop
Özçelikkale, Altuğ
Shin, Crystal S.
Park, Kinam
Han, Bumsoo

November 2014

Delivery of therapeutic agents selectively to tumor tissue, which is referred as "targeted delivery,...

Effect of the Development of a Cell Barrier on Nanoparticle Uptake in Endothelial Cells

Francia, Valentina
Aliyandi, Aldy
Salvati, Anna

January 2018

In order to improve the current success of nanomedicine, a better understanding of how nano-sized ma...

Rapid assessment of nanoparticle extravasation in a microfluidic tumor model

Vu, Mai N.
Rajasekhar, Pradeep
Poole, Daniel P.
Khor, Song Yang
Truong, Nghia P.
Nowell, Cameron J.
Quinn, John F.
Whittaker, Michael
Veldhuis, Nicholas A.
Davis, Thomas P.

April 2019

The development of nanoparticle-based targeted therapeutics for the treatment of cancer requires a w...

Pharmacokinetic analysis reveals limitations and opportunities for nanomedicine targeting of endothelial and extravascular compartments of tumours

Michael J. Benchimol (6292394)
David Bourne (430523)
Seyed Moein Moghimi (625107)
Dmitri Simberg (389013)

February 2019

Targeting of nanoparticles to tumours can potentially improve the specificity of imaging and treatme...

Rapid Assessment of Nanoparticle Extravasation in a Microfluidic Tumor Model

Vu, Ngoc Mai
Rajasekhar, Pradeep
Poole, Daniel P.
Khor, Song Yang
Truong Phuoc, Nghia
Nowell, Cameron
Quinn, John F.
Whittaker, Mikey
Veldhuis, Nicholas
Davis, Thomas P

March 2019

The development of nanoparticle-based targeted therapeutics for the treatment of cancer requires a w...

Rapid Assessment of Nanoparticle Extravasation in a Microfluidic Tumor Model

Mai N. Vu (6592310)
Pradeep Rajasekhar (6592313)
Daniel P. Poole (6592316)
Song Yang Khor (3899788)
Nghia P. Truong (1817815)
Cameron J. Nowell (735904)
John F. Quinn (1372680)
Michael Whittaker (2154766)
Nicholas A. Veldhuis (6592319)
Thomas P. Davis (521458)

April 2019

The development of nanoparticle-based targeted therapeutics for the treatment of cancer requires a w...

Highlight of a blood vessel network lined by endothelial cells (blue) transporting red blood cells (red), leukocytes (white) and nanoparticles (grey) within a tumor.

Hermann B. Frieboes (383421)
Min Wu (41570)
John Lowengrub (383422)
Paolo Decuzzi (382033)
Vittorio Cristini (383423)

March 2013

<p>Some of the nanoparticles are shown firmly adhering to the endothelial cells while experiencing i...

Gold Nanoparticles Induced Endothelial Leakiness Depends on Particle Size and Endothelial Cell Origin

Magdiel I. Setyawati (2925663)
Chor Yong Tay (662383)
Boon Huat Bay (420643)
David T. Leong (1419454)

April 2017

The endothelium presents a formidable barrier for cancer nanomedicine, as the intravenously introduc...

Get to the tumour! Transporting nanoparticles past predatory biological barriers

Dai, Qin

June 2018

Specific delivery of therapeutic and diagnostic agents to the disease tissue is an essential step fo...

Tumor-Vasculature-on-a-Chip for Investigating Nanoparticle Extravasation and Tumor Accumulation

Hao-Fei Wang (4332709)
Rui Ran (806443)
Yun Liu (84346)
Yue Hui (4478452)
Bijun Zeng (5929352)
Dong Chen (448284)
David A. Weitz (266457)
Chun-Xia Zhao (1654945)

November 2018

Nanoparticle tumor accumulation relies on a key mechanism, the enhanced permeability and retention (...

Specific Endothelial Cells Govern Nanoparticle Entry into Solid Tumors

Abstract

Extracted data

Specific Endothelial Cells Govern Nanoparticle Entry into Solid Tumors

Abstract

Extracted data

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