Abstract: Methods and apparatuses are provided for reduction of pathogens in fluids containing blood products. Preferred methods include the steps of adding an effective, non-toxic amount of a photosensitizer such as riboflavin to the blood product and exposing the fluid to light having a peak wavelength.

Abstract: A method for washing multiple units of blood product including providing a centrifuge having a wash cell for each unit of blood product, balancing the centrifuge to accommodate for differences in the wash cells, and transferring supernatant including any wash solution from each unit of blood product on the centrifuge.

Abstract: Methods are provided for preparation of compositions having an enhanced level of soluble alloxazine, as compared to compositions prepared using conventional techniques. Compositions and a riboflavin form having higher solubility in solution is also provided.

Abstract: This invention provides methods for treating cellular blood components and other cells containing mitochondria to improve vital qualities of the cells by contacting the cells with a mitochondrial enhancer to the cells. Mitochondrial enhancers prevent damage to and rejuvenate mitochondria and cells containing mitochondria. Mitochondrial enhancers include alloxazines and related compounds, such as riboflavin. Cells are optionally treated with photoradiation to reduce pathogens with may be present, before, after, and/or during treatment with mitochondrial enhancer. Treating with mitochondrial enhancer enables utilization of higher photoradiation energies, which achieves better pathogen reduction. When platelets are treated with mitochondrial enhancer, treated platelets may be stored for longer times than untreated platelets before they are administered to patients.

Abstract: Methods are provided for treating a vaccine containing infectious particles which may be viral, bacterial, and/or cellular in nature. Preferred methods include the steps of adding an effective, non-toxic amount of an endogenous photosensitizer to the fluid and exposing the fluid to photoradiation sufficient to inactivate the infectious particles but not enough to damage the antigenic characteristics of the infectious particles.

Abstract: The methods of this invention involve preventing the formation of a complex between adenine and riboflavin by reducing the amount of adenine in a solution containing blood or blood components to be pathogen reduced.

Abstract: Methods and apparatuses are provided for inactivation of microorganisms in fluids or on surfaces. Preferably the fluids contain blood or blood products and comprise biologically active proteins. Preferred methods include the steps of adding an effective, non-toxic amount of a photosensitizer to a fluid and exposing the fluid to photoradiation sufficient to activate the photosensitizer whereby microorganisms are inactivated.

Abstract: Methods and apparatuses are provided for inactivation of pathogens in fluids containing blood products. Preferred methods include the steps of adding an effective, nontoxic amount of a photosensitizer such as riboflavin to the blood product and exposing the fluid to light having a peak wavelength.

Abstract: A process for damaging and maintaining damage to the nucleic acids of pathogens such as white blood cells, bacteria and viruses which may be contained in blood or blood components. This process comprises adding to the blood or blood component containing pathogens an effective amount of riboflavin, and exposing the fluid to light of an appropriate wavelength to damage the nucleic acid of the pathogen and to substantially maintain the damage to the pathogenic nucleic acids to allow for subsequent transfusion into a recipient.

Abstract: This invention relates to the addition of glycolytic inhibitors to solutions used in the pathogen reduction and subsequent storage of platelets. More particularly, the invention relates to the addition of 2-deoxy-D-glucose and sodium succinate to a platelet pathogen reduction and storage solution.

Abstract: A platelet/additive solution comprising bicarbonate, citrate and glucose. Additionally, a platelet/additive and treatment solution comprising bicarbonate, citrate, glucose and a photosensitizer.

Abstract: Methods and apparatuses are provided for inactivation of microorganisms in fluids or on surfaces. Preferably the fluids contain blood or blood products and comprise biologically active proteins. Preferred methods include the steps of adding an effective, non-toxic amount of a photosensitizer to a fluid and exposing the fluid to photoradiation sufficient to activate the photosensitizer whereby microorganisms are inactivated.

Abstract: This invention relates to the addition of glycolytic inhibitors to solutions used to pathogen reduce and subsequent storage of blood components such as platelets. More particularly, the invention relates to the addition of 2-deoxy-D-glucose to a platelet pathogen reduction and storage solution.

Abstract: Methods and apparatuses are provided for inactivation of pathogens in fluids containing blood products. Preferred methods include the steps of adding an effective, nontoxic amount of a photosensitizer such as riboflavin to the blood product and exposing the fluid to light having a peak wavelength.

Abstract: This invention provides methods for treating cellular blood components and other cells containing mitochondria to improve vital qualities of the cells by contacting the cells with a mitochondrial enhancer to the cells. Mitochondrial enhancers prevent damage to and rejuvenate mitochondria and cells containing mitochondria. Mitochondrial enhancers include alloxazines and related compounds, such as riboflavin. Cells are optionally treated with photoradiation to reduce pathogens with may be present, before, after, and/or during treatment with mitochondrial enhancer. Treating with mitochondrial enhancer enables utilization of higher photoradiation energies, which achieves better pathogen reduction. When platelets are treated with mitochondrial enhancer, treated platelets may be stored for longer times than untreated platelets before they are administered to patients.

Abstract: This invention relates to the addition of platelet activation inhibitors to solutions used in the pathogen reduction and subsequent storage of platelets. More particularly, the invention relates to the addition of adenylate cyclase stimulators and phosphodiesterase inhibitors to a platelet pathogen reduction and storage solution.

Abstract: The methods of this invention involve preventing the formation of a complex between adenine and riboflavin by reducing the amount of adenine in a solution containing blood or blood components to be pathogen reduced.

Abstract: A platelet/additive solution comprising bicarbonate, citrate and glucose. Additionally, a platelet/additive and treatment solution comprising bicarbonate, citrate, glucose and a photosensitizer.

Abstract: Methods for decontaminating fluids such as blood products, particularly platelets or red blood cells, are provided. The methods include mixing substantially non-toxic amounts of an endogenous photosensitizer such as riboflavin, or an endogenously-based derivative photosensitizer, with the fluid, increasing the dissolved oxygen content of the fluid to an amount sufficient to enhance a reaction of the photosensitizer in which singlet oxygen is formed and reduce competing reactions; and exposing the fluid to visible light photoradiation to activate the photosensitizer and substantially inactivate the pathogens. Blood products produced by the method, and systems for carrying out the method are also provided.

Abstract: Methods and apparatuses are provided for inactivation of microorganisms in fluids or on surfaces. Preferably the fluids contain blood or blood products and comprise biologically active proteins. Preferred methods for inactivation of microorganisms include the steps of adding an effective, non-toxic amount of an endogenous photosensitizer and a quencher to a fluid and exposing the fluid to photoradiation sufficient to active the endogenous photosensitizer whereby microorganisms are inactivated. The quencher reduces side reactions generated by a photosensitizer and light that can damage desired biological components.