Abstract
ObjectivesDuring arthroscopic or open joint surgery, articular cartilage may be subjected to mechanical insults by accident or design. These may lead to chondrocyte death, cartilage breakdown and posttraumatic osteoarthritis. We have shown that increasing osmolarity of routinely used normal saline protected chondrocytes against injuries that may occur during orthopedic surgery. Often several liters of irrigation fluid are used during an orthopedic procedure, which is usually kept at room temperature, but is sometimes chilled. Here, we compared the effect of normal and hyperosmolar saline solution at different temperatures on chondrocyte viability following cartilage injury using in vitro and in vivo models of scalpel-induced injury.DesignCartilage injury was induced in bovine osteochondral explants and the patellar groove of rats in vivo by a single pass of a scalpel blade in the presence of normal saline (300 mOsm) or hyperosmolar saline solution (600 mOsm, sucrose addition) at 4°C, 21°C, or 37°C. Chondrocytes were fluorescently labeled and visualized by confocal microscopy to assess cell death.ResultsHyperosmolar saline reduced scalpel-induced chondrocyte death in both bovine and rat cartilage by ~50% at all temperatures studied (4°C, 21°C, 37°C; P < 0.05). Raising temperature of both irrigation solutions to 37°C reduced scalpel-induced cell death (P < 0.05).ConclusionsIncreasing the osmolarity of normal saline and raising the temperature of the irrigation solutions to 37°C reduced chondrocyte death associated with scalpel-induced injury in both in vitro and in vivo cartilage injury models. A hyperosmolar saline irrigation solution at 37°C may protect cartilage by decreasing the risk of chondrocyte death during mechanical injury.
Highlights
Articular cartilage has an extraordinary durability and capacity to adapt to the physiological loading patterns associated with normal joint activities.[1]
This suggested that this standardized injury produced a reproducible zone of cell death and would allow further assessment of the effect of solution osmolarity and temperature on chondrocyte viability
An isotonic NaCl saline solution at room temperature is commonly used for joint irrigation during orthopedic and arthroscopic procedures to provide a clear bloodless surgical field
Summary
Articular cartilage has an extraordinary durability and capacity to adapt to the physiological loading patterns associated with normal joint activities.[1]. Various irrigation solutions are used in orthopedic surgical practice to improve visualization of the joint space and cartilage surface. During this process, the synovial fluid is replaced with an artificial solution that has a lower osmotic pressure (~250-300 mOsm) compared with that of normal synovial fluid (~400 mOsm).[6] chondrocytes are exposed to a marked decrease in extracellular osmolarity during articular surgery, which is likely to affect their response to injury.[7] For example, lowering the osmolarity of the irrigation solution increased cell death caused by mechanical cartilage injury raising osmolarity provided significant chondroprotection against mechanical
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