Image of changes in the ischemic parameters.

Two examples of how hypoxia and hyperkalemia evolve during course of ischemia.

Ivan V. Kazbanov (486024)
Richard H. Clayton (655829)
Martyn P. Nash (348320)
Chris P. Bradley (655830)
David J. Paterson (655831)
Martin P. Hayward (655832)
Peter Taggart (108650)
Alexander V. Panfilov (196505)

November 2014

Pink: clinical data on the dominant frequency, averaged over 1 s window with standard deviation. ...

Graph representing the main pathological mechanisms occurring during cerebral ischemia.

Fu Jia Liu (422650)
Kai Ying Lim (258549)
Prameet Kaur (422651)
Sugunavathi Sepramaniam (258548)
Arunmozhiarasi Armugam (211541)
Peter Tsun Hon Wong (422652)
Kandiah Jeyaseelan (211546)

June 2013

Infarct area (represented by white circle) becomes visible from about 6 hrs, reaches maximum at 2...

Hepatic flow changes prior to the increase in blood pressure.

Tony J. Akl (597774)
Mark A. Wilson (208472)
M. Nance Ericson (597775)
Ethan Farquhar (597776)
Gerard L. Coté (597777)

July 2014

(Left) Total hemoglobin concentration (ΔHbT) and flow changes. (Right) Scatter plot of measured h...

Maps of the major difference of BSP and MCG between control and localized ischemic condition.

Erick A. Perez Alday (685437)
Haibo Ni (824164)
Chen Zhang (66790)
Michael A. Colman (685438)
Zizhao Gan (3074520)
Henggui Zhang (74233)

August 2016

Maps of the major difference of BSP and MCG between control and varied localized ischemic conditi...

Maps of major differences of BSP and MCG between ischemic and control conditions.

Erick A. Perez Alday (685437)
Haibo Ni (824164)
Chen Zhang (66790)
Michael A. Colman (685438)
Zizhao Gan (3074520)
Henggui Zhang (74233)

August 2016

Maps of major differences of BSP (top panels) and MCG (bottom panels) between ischemia and contro...

Different types of PBF in response to switching the physiological conditions between hypoxia, normoxia and hyperoxia.

Yali Jia (251680)
Peng Li (69518)
Suzan Dziennis (293445)
Ruikang K. Wang (293450)

February 2013

(a) shows diverse response of macro-circulation (>50 µm), micro-circulation(<50 µm) and all circu...

Grand average waveforms and topographical maps.

Tomonori Kagawa (642001)
Noriyuki Narita (642002)
Sunao Iwaki (642003)
Shingo Kawasaki (597410)
Kazunobu Kamiya (642004)
Shunsuke Minakuchi (642005)

October 2014

Left: Grand average change in oxygenated-hemoglobin concentration ([oxy-Hb], red line) and deoxyg...

Estimated spatial maps.

Carrie W. Hoppes (4919545)
Patrick J. Sparto (4509409)
Susan L. Whitney (4919551)
Joseph M. Furman (4919548)
Theodore J. Huppert (2947665)

March 2018

Estimated spatial maps (T-test) of the oxyhemoglobin data collected using fNIRS for the change in...

Regional variations in myocardial tissue oxygenation mapped by near-infrared spectroscopic imaging

Nighswander-Rempel, Stephen P.
Shaw, R. Anthony
Mansfield, James R.
Hewko, Mark
Kupriyanov, Valery V.
Mantsch, Henry H.

September 2002

Regional Variations in Myocardial Tissue Oxygenation Mapped by Near-Infrared Spectroscopic Imaging. ...

Spatial distribution of hemodynamic responses at given time intervals.

Jaeyoung Shin (3849238)
Klaus-Robert Müller (52696)
Han-Jeong Hwang (3849232)

May 2018

(a) Δ[HbR] for MA and BL. (b) Δ[HbO] for MA and BL. The colorbar indicates the amount of change i...

Visualizing regional myocardial oxygenation changes with statistically optimal colormaps

Tsaftaris, Sotirios A.
Tang, Richard
Klein, Rachel
Li, Debiao
Dharmakumar, Rohan

January 2009

Blood-oxygen-level dependent (BOLD) MRI may be used for detecting myocardial oxygenation (MO) change...

Changes in the concentration of Hb, HbO and HbT.

Roberto Reif (293442)
Jia Qin (293443)
Lei Shi (8144)
Suzan Dziennis (293445)
Zhongwei Zhi (293447)
Alfred L. Nuttall (231409)
Ruikang K. Wang (293450)

February 2013

(a) Change in the concentration of Hb, HbO and HbT through time. The purple curves are the fits o...

Image-based quantification and longitudinal time course of oxygen saturation after renal ischemia-reperfusion in the mild and severe ischemia groups.

Kenichiro Okumura (6090671)
Junichi Matsumoto (285637)
Yasunori Iwata (452251)
Kotaro Yoshida (1456399)
Norihide Yoneda (6090674)
Takahiro Ogi (6090677)
Azusa Kitao (700031)
Kazuto Kozaka (700032)
Wataru Koda (700033)
Satoshi Kobayashi (700034)
Dai Inoue (3506513)
Norihiko Sakai (794038)
Kengo Furuichi (187964)
Takashi Wada (187967)
Toshifumi Gabata (700037)

December 2018

(a) Normal renal blood flow (top) and renal tissue saturation (bottom), showing blood flow in the co...

Synopsis of the hypoxia/hyperoxia and ischemia/reperfusion results.

Andreas Pohlmann (148430)
Jan Hentschel (384133)
Mandy Fechner (334378)
Uwe Hoff (384134)
Gordana Bubalo (384135)
Karen Arakelyan (384136)
Kathleen Cantow (384137)
Erdmann Seeliger (384138)
Bert Flemming (384139)
Helmar Waiczies (96064)
Sonia Waiczies (96060)
Wolf-Hagen Schunck (384140)
Duska Dragun (384141)
Thoralf Niendorf (148468)

March 2013

Mean changes ΔT2* (a), ΔT2 (b), ΔR2* (c) and ΔR2 (d) ...

Visualizing and quantifying myocardial oxygenation changes with statistically optimal colormaps

Tsaftaris, Sotirios A.
Tang, Richard
Klein, Rachel
Li, Debiao
Dharmakumar, Rohan

January 2009

Blood-oxygen-level dependent (BOLD) MRI may be used for detecting myocardial oxygenation (MO) change...

Two examples of how hypoxia and hyperkalemia evolve during course of ischemia.

Ivan V. Kazbanov (486024)
Richard H. Clayton (655829)
Martyn P. Nash (348320)
Chris P. Bradley (655830)
David J. Paterson (655831)
Martin P. Hayward (655832)
Peter Taggart (108650)
Alexander V. Panfilov (196505)

November 2014

Pink: clinical data on the dominant frequency, averaged over 1 s window with standard deviation. ...

Graph representing the main pathological mechanisms occurring during cerebral ischemia.

Fu Jia Liu (422650)
Kai Ying Lim (258549)
Prameet Kaur (422651)
Sugunavathi Sepramaniam (258548)
Arunmozhiarasi Armugam (211541)
Peter Tsun Hon Wong (422652)
Kandiah Jeyaseelan (211546)

June 2013

Infarct area (represented by white circle) becomes visible from about 6 hrs, reaches maximum at 2...

Hepatic flow changes prior to the increase in blood pressure.

Tony J. Akl (597774)
Mark A. Wilson (208472)
M. Nance Ericson (597775)
Ethan Farquhar (597776)
Gerard L. Coté (597777)

July 2014

(Left) Total hemoglobin concentration (ΔHbT) and flow changes. (Right) Scatter plot of measured h...

Maps of the major difference of BSP and MCG between control and localized ischemic condition.

Erick A. Perez Alday (685437)
Haibo Ni (824164)
Chen Zhang (66790)
Michael A. Colman (685438)
Zizhao Gan (3074520)
Henggui Zhang (74233)

August 2016

Maps of the major difference of BSP and MCG between control and varied localized ischemic conditi...

Maps of major differences of BSP and MCG between ischemic and control conditions.

Erick A. Perez Alday (685437)
Haibo Ni (824164)
Chen Zhang (66790)
Michael A. Colman (685438)
Zizhao Gan (3074520)
Henggui Zhang (74233)

August 2016

Maps of major differences of BSP (top panels) and MCG (bottom panels) between ischemia and contro...

Different types of PBF in response to switching the physiological conditions between hypoxia, normoxia and hyperoxia.

Yali Jia (251680)
Peng Li (69518)
Suzan Dziennis (293445)
Ruikang K. Wang (293450)

February 2013

(a) shows diverse response of macro-circulation (>50 µm), micro-circulation(<50 µm) and all circu...

Grand average waveforms and topographical maps.

Tomonori Kagawa (642001)
Noriyuki Narita (642002)
Sunao Iwaki (642003)
Shingo Kawasaki (597410)
Kazunobu Kamiya (642004)
Shunsuke Minakuchi (642005)

October 2014

Left: Grand average change in oxygenated-hemoglobin concentration ([oxy-Hb], red line) and deoxyg...

Estimated spatial maps.

Carrie W. Hoppes (4919545)
Patrick J. Sparto (4509409)
Susan L. Whitney (4919551)
Joseph M. Furman (4919548)
Theodore J. Huppert (2947665)

March 2018

Estimated spatial maps (T-test) of the oxyhemoglobin data collected using fNIRS for the change in...

Regional variations in myocardial tissue oxygenation mapped by near-infrared spectroscopic imaging

Nighswander-Rempel, Stephen P.
Shaw, R. Anthony
Mansfield, James R.
Hewko, Mark
Kupriyanov, Valery V.
Mantsch, Henry H.

September 2002

Regional Variations in Myocardial Tissue Oxygenation Mapped by Near-Infrared Spectroscopic Imaging. ...

Spatial distribution of hemodynamic responses at given time intervals.

Jaeyoung Shin (3849238)
Klaus-Robert Müller (52696)
Han-Jeong Hwang (3849232)

May 2018

(a) Δ[HbR] for MA and BL. (b) Δ[HbO] for MA and BL. The colorbar indicates the amount of change i...

Visualizing regional myocardial oxygenation changes with statistically optimal colormaps

Tsaftaris, Sotirios A.
Tang, Richard
Klein, Rachel
Li, Debiao
Dharmakumar, Rohan

January 2009

Blood-oxygen-level dependent (BOLD) MRI may be used for detecting myocardial oxygenation (MO) change...

Changes in the concentration of Hb, HbO and HbT.

Roberto Reif (293442)
Jia Qin (293443)
Lei Shi (8144)
Suzan Dziennis (293445)
Zhongwei Zhi (293447)
Alfred L. Nuttall (231409)
Ruikang K. Wang (293450)

February 2013

(a) Change in the concentration of Hb, HbO and HbT through time. The purple curves are the fits o...

Image-based quantification and longitudinal time course of oxygen saturation after renal ischemia-reperfusion in the mild and severe ischemia groups.

Kenichiro Okumura (6090671)
Junichi Matsumoto (285637)
Yasunori Iwata (452251)
Kotaro Yoshida (1456399)
Norihide Yoneda (6090674)
Takahiro Ogi (6090677)
Azusa Kitao (700031)
Kazuto Kozaka (700032)
Wataru Koda (700033)
Satoshi Kobayashi (700034)
Dai Inoue (3506513)
Norihiko Sakai (794038)
Kengo Furuichi (187964)
Takashi Wada (187967)
Toshifumi Gabata (700037)

December 2018

(a) Normal renal blood flow (top) and renal tissue saturation (bottom), showing blood flow in the co...

Synopsis of the hypoxia/hyperoxia and ischemia/reperfusion results.

Andreas Pohlmann (148430)
Jan Hentschel (384133)
Mandy Fechner (334378)
Uwe Hoff (384134)
Gordana Bubalo (384135)
Karen Arakelyan (384136)
Kathleen Cantow (384137)
Erdmann Seeliger (384138)
Bert Flemming (384139)
Helmar Waiczies (96064)
Sonia Waiczies (96060)
Wolf-Hagen Schunck (384140)
Duska Dragun (384141)
Thoralf Niendorf (148468)

March 2013

Mean changes ΔT2* (a), ΔT2 (b), ΔR2* (c) and ΔR2 (d) ...

Visualizing and quantifying myocardial oxygenation changes with statistically optimal colormaps

Tsaftaris, Sotirios A.
Tang, Richard
Klein, Rachel
Li, Debiao
Dharmakumar, Rohan

January 2009

Blood-oxygen-level dependent (BOLD) MRI may be used for detecting myocardial oxygenation (MO) change...

Two examples of how hypoxia and hyperkalemia evolve during course of ischemia.

Ivan V. Kazbanov (486024)
Richard H. Clayton (655829)
Martyn P. Nash (348320)
Chris P. Bradley (655830)
David J. Paterson (655831)
Martin P. Hayward (655832)
Peter Taggart (108650)
Alexander V. Panfilov (196505)

November 2014

Pink: clinical data on the dominant frequency, averaged over 1 s window with standard deviation. ...

Graph representing the main pathological mechanisms occurring during cerebral ischemia.

Fu Jia Liu (422650)
Kai Ying Lim (258549)
Prameet Kaur (422651)
Sugunavathi Sepramaniam (258548)
Arunmozhiarasi Armugam (211541)
Peter Tsun Hon Wong (422652)
Kandiah Jeyaseelan (211546)

June 2013

Infarct area (represented by white circle) becomes visible from about 6 hrs, reaches maximum at 2...

Hepatic flow changes prior to the increase in blood pressure.

Tony J. Akl (597774)
Mark A. Wilson (208472)
M. Nance Ericson (597775)
Ethan Farquhar (597776)
Gerard L. Coté (597777)

July 2014

(Left) Total hemoglobin concentration (ΔHbT) and flow changes. (Right) Scatter plot of measured h...

Image of changes in the ischemic parameters.

Abstract

Extracted data

Image of changes in the ischemic parameters.

Abstract

Extracted data

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