Abstract: Transfer of genetic and other materials to cells is conducted in a hands-free, automated, high throughput, continuous process. A system using a microfluidic hydrodynamic sheath flow configuration includes arrangements for pushing cells from side streams containing a cell culture medium to a central stream containing an electroporation buffer. Electroporation can be conducted in an assembly in which two or more microfluidic channels are provided in a parallel configuration and in which various layers can be stacked together to form a laminate type structure.

Abstract: Transfer of genetic and other materials to cells is conducted in a hands-free, automated, high throughput, continuous process. A system using a microfluidic hydrodynamic sheath flow configuration includes arrangements for pushing cells from side streams containing a cell culture medium to a central stream containing an electroporation buffer. Electroporation can be conducted in an assembly in which two or more microfluidic channels are provided in a parallel configuration and in which various layers can be stacked together to form a laminate type structure.

Abstract: A surgical appliance includes a pair of opposed prongs slideably disposed on an elongated locking track for retracting neurovascular and musculotendinous anatomical structures through an incision for affording access to deeper structures for inserting osteosynthesis hardware in the surgical treatment of a distal radius fracture or other surgical procedure. The prongs extend from retractors that traverse the locking track for opposed linear movement while recessed in a surgical working region accessible through an incision. The prongs terminate in curvatures defining a void that gather and engage the elongated anatomical structures on top of the skeletal members receiving the plate. The prongs draw back the tendons, blood vessels and nerve structures to allow unimpeded surgical access for manipulating and attaching skeletal and soft tissue members and/or appliances.

Abstract: Transfer of genetic and other materials to cells is conducted in a hands-free, automated, high throughput, continuous process. A system using a microfluidic hydrodynamic sheath flow configuration includes arrangements for pushing cells from side streams containing a cell culture medium to a central stream containing an electroporation buffer. Electroporation can be conducted in an assembly in which two or more microfluidic channels are provided in a parallel configuration and in which various layers can be stacked together to form a laminate type structure.

Abstract: A surgical appliance includes a pair of opposed prongs slideably disposed on an elongated locking track for retracting neurovascular and musculotendinous anatomical structures through an incision for affording access to deeper structures for inserting osteosynthesis hardware in the surgical treatment of a distal radius fracture or other surgical procedure. The prongs extend from retractors that traverse the locking track for opposed linear movement while recessed in a surgical working region accessible through an incision. The prongs terminate in curvatures defining a void that gather and engage the elongated anatomical structures on top of the skeletal members receiving the plate. The prongs draw back the tendons, blood vessels and nerve structures to allow unimpeded surgical access for manipulating and attaching skeletal and soft tissue members and/or appliances.