Bone plate for elastic osteosynthesis

What is claimed is: 1. A method for flexible plate fixation of a bone fracture, the method comprising approximately aligning the fractured bone members; and applying a fixation construct across a fracture wherein the fixation construct comprises a bone plate having an upper surface and a bone-facing surface, the bone plate having one or more receiving holes and a plurality of elastically suspended sliding elements, the fixation comprising using a plurality of bone fasteners that connect the bone fasteners to the bone plate and wherein the bone fasteners are placed into the receiving holes into the sliding elements that are elastically suspended in the bone plate; wherein the sliding elements are configured to permit controlled translation parallel to the longitudinal axis of the bone plate, while substantially preventing displacement perpendicular to the longitudinal axis of the bon plate, and wherein the bone fastener is rigidly fixed to the sliding elements without compressing the bone plate or sliding element onto a bone surface; and wherein wherein the elastic suspension is provided by two or more spring elements. 2. The method of claim 1 wherein the elastic suspension of the two or more spring elements comprises an elastic material. 3. A method of claim 1 , where said receiving holes are suspended to preferentially permit translation relative to the bone plate along the longitudinal axis of the plate while substantially constraining motion of the one or more receiving holes in a direction that is perpendicular to the upper or bone-facing surface of the bone plate. 4. A method of claim 1 , whereby the spring elements act as elastic springs that suspend the receiving holes in a neutral position relative to the plate in absence of a load application and wherein the elastic swings enable controlled elastic translation of the receiving holes relative to the plate in response to the load application. 5. A method of claim 1 , whereby the spring elements dampen transmission of an impact load between the bone plate and the bone member to enhance stability of the fixation construct. 6. A method of claim 1 , whereby the spring elements enhance distribution of load transfer between multiple bone fasteners associated with a single bone segment. 7. A method of claim 1 , whereby the spring elements prevent at least in part direct contact between the receiving hole and the bone plate to reduce surface wear and material fatigue. 8. A method of claim 1 , wherein the elastic suspension of two or more receiving holes and the plate is practiced on one side of a fracture, while the corresponding bone segment is attached to static receiving holes. 9. A method of claim 1 , wherein the elastic suspension of two or more receiving holes and the bone plate is practiced on both sides of a fracture. 10. A method of claim 1 , wherein the elastic suspension of two or more receiving holes and the bone plate reduces axial stiffness of the fixation constructs by about 40-90% compared to a bone plate construct having static receiving holes. 11. A method of claim 1 , wherein one or more spring elements contain a sensor to measure displacement, pressure, or load to capture a presence or magnitude of load transfer between the sensor and the bone plate as a means for estimating the progression of fracture healing. 12. A method of claim 2 , wherein the elastic material comprises an elastomer lumen, and wherein the elastomer lumen of one or more of the spring elements contains a means for energy generation to supply transient power to said sensor. 13. A method of claim 2 , wherein the elastic material comprises an elastomer lumen, and wherein the elastomer lumen is configured to permit a timed release of pharmacological substances. 14. A method of claim 2 , wherein the elastic material comprises silicone. 15. A method of claim 2 , wherein the elastic material is bonded to the surface of the bone plate and/or sliding element.