Dynamic cell and microparticle control via optoelectronic tweezers (2007)
Ohta, Aaron Takami, Chiou, Pei-Yu, Han, Tae H., Liao, James C., Bhardwaj, Urvashi, McCabe, Edward R. B., ...
This paper reports on cell and microparticle manipulation using optically induced dielectrophoresis. Our novel optoelectronic tweezers (OET) device enables optically controlled trapping,...
Dynamic cell and microparticle control via optoelectronic tweezers (2007)
Ohta, Aaron T., Chiou, Pei-Yu, Han, Tae H., Liao, James C., Bhardwaj, Urvashi, McCabe, Edward R.B., ...
This paper reports on cell and microparticle manipulation using optically induced dielectrophoresis. Our novel optoelectronic tweezers (OET) device enables optically controlled trapping,...
Modulation of nitric oxide bioavailability by erythrocytes
Huang, Kuang-Tse, Han, Tae H., Hyduke, Daniel R., Vaughn, Mark W., Van Herle, Helga, Hein, Travis W., ...
Nitric oxide (NO) activates soluble guanylyl cyclase in smooth muscle cells to induce vasodilation in the vasculature. However, as hemoglobin (Hb) is an effective scavenger of NO and is present in...
Nitric oxide reaction with red blood cells and hemoglobin under heterogeneous conditions
Han, Tae H., Hyduke, Daniel R., Vaughn, Mark W., Fukuto, Jon M., Liao, James C.
Understanding the interaction of nitric oxide (NO) with red blood cells (RBCs) is vital to elucidating the metabolic fate of NO in the vasculature. Because hemoglobin (Hb) is the most abundant...
Joshi, Mahesh S., Ferguson, T. Bruce, Han, Tae H., Hyduke, Daniel R., Liao, James C., Rassaf, Tienush, ...
Although irreversible reaction of NO with the oxyheme of hemoglobin (producing nitrate and methemoglobin) is extremely rapid, it has been proposed that, under normoxic conditions, NO binds...
Regulation of nitric oxide consumption by hypoxic red blood cells
Han, Tae H., Qamirani, Erion, Nelson, Allyson G., Hyduke, Daniel R., Chaudhuri, Gautam, Kuo, Lih, ...
The homeostasis of nitric oxide (NO) is attained through a balance between its production and consumption. Shifts in NO bioavailability have been linked to a variety of diseases. Although the...
Modulation of nitric oxide bioavailability by erythrocytes
Huang, Kuang-Tse, Han, Tae H., Hyduke, Daniel R., Vaughn, Mark W., Van Herle, Helga, Hein, Travis W., ...
Nitric oxide (NO) activates soluble guanylyl cyclase in smooth muscle cells to induce vasodilation in the vasculature. However, as hemoglobin (Hb) is an effective scavenger of NO and is present in...
Nitric oxide reaction with red blood cells and hemoglobin under heterogeneous conditions
Han, Tae H., Hyduke, Daniel R., Vaughn, Mark W., Fukuto, Jon M., Liao, James C.
Understanding the interaction of nitric oxide (NO) with red blood cells (RBCs) is vital to elucidating the metabolic fate of NO in the vasculature. Because hemoglobin (Hb) is the most abundant...
Joshi, Mahesh S., Ferguson, T. Bruce, Han, Tae H., Hyduke, Daniel R., Liao, James C., Rassaf, Tienush, ...
Although irreversible reaction of NO with the oxyheme of hemoglobin (producing nitrate and methemoglobin) is extremely rapid, it has been proposed that, under normoxic conditions, NO binds...
Regulation of nitric oxide consumption by hypoxic red blood cells
Han, Tae H., Qamirani, Erion, Nelson, Allyson G., Hyduke, Daniel R., Chaudhuri, Gautam, Kuo, Lih, ...
The homeostasis of nitric oxide (NO) is attained through a balance between its production and consumption. Shifts in NO bioavailability have been linked to a variety of diseases. Although the...