Efficacy of liposome-encapsulated hemoglobin in a rat model of cerebral ischemia.

Use of liposome-encapsulated hemoglobin (LEH) for oxygen delivery in the treatment of cerebral ischemia has been studied previously and its expected benefits confirmed. However, the relationship between the timing of administration and the efficacy of LEH in cerebral ischemia has not been studied in detail. We therefore investigated the therapeutic time window of LEH by using a rat model of cerebral ischemia, as well as evaluating the contribution of oxygen delivery to the efficacy of LEH.

Liposome-encapsulated hemoglobin attenuates cardiac dysfunction and sympathetic activity during hypohemoglobinemic shock.

The use of liposome-encapsulated hemoglobin (LHb), which is a cellular Hb, has been demonstrated to be beneficial in the treatment of hypohemoglobinemic shock. As a molecule of appropriate size (220 nm) that can carry oxygen, LHb may ameliorate cardiac dysfunction during lethal hemodilation. The purpose of this study was to determine the efficacy of LHb transfusion in relieving cardiovascular dysfunction in a rat model of lethal progressive hemodilution.

Intraosseous transfusion with liposome-encapsulated hemoglobin improves mouse survival after hypohemoglobinemic shock without scavenging nitric oxide.

Recently, we developed liposome-encapsulated hemoglobin (LEH), a novel cellular hemoglobin-based oxygen carrier. We hypothesized that the LEH effectively suppresses scavenging of nitrogen oxides by sequestering hemoglobin, thereby being useful for resuscitation from hemorrhagic shock, especially in prehospital settings where blood transfusion is not available. However, putting a catheter into the peripheral vessels is sometimes difficult in prehospital resuscitation, because these vessels collapse in patients with hemorrhagic shock.

Efficacy of peritoneal oxygenation using a novel artificial oxygen carrier (TRM-645) in a rat respiratory insufficiency model.

Purpose: Supplemental oxygenation is essentially important in critically ill patients with potentially reversible pulmonary insufficiency. An extracorporeal membrane oxygenator and percutaneous cardiopulmonary support have been used for these patients. However, these techniques are associated with so many complications that an additional new therapeutic modality is required.

Liposome-Encapsulated Hemoglobin, TRM-645: Current Status of the Development and Important Issues for Clinical Application.

Clinical application of artificial oxygen carriers as a substitute for blood transfusion has long been expected to solve some of the problems associated with blood transfusion. Use for oxygen delivery treatment for ischemic disease by oxygen delivery has also been examined. These prospective applications of artificial oxygen carriers are, however, still in development.

Prednisolone phosphate-containing TRX-20 liposomes inhibit cytokine and chemokine production in human fibroblast-like synovial cells: a novel approach to rheumatoid arthritis therapy.

To evaluate the potential of using prednisolone phosphate (PSLP)-containing 3,5-dipentadecyloxybenzamidine hydrochloride (TRX-20) liposomes to treat rheumatoid arthritis (RA), we examined their ability to bind human fibroblast-like synovial (HFLS) cells and their effects in these cells. To test for binding, Lissamine rhodamine B-1, 2-dihexadecanoyl-sn-glycero-3-phosphoethanolamine (rhodamine)-labelled PSLP-containing TRX-20 liposomes were added to HFLS cells, and the fluorescence intensity of the rhodamine bound to the cells was evaluated. Rhodamine-labelled PSLP-containing liposomes without TRX-20 were used as a negative control.