Objective: To determine whether the postoperative hypercoagulable state is responsible for the increase in metastases observed after surgery.
Background: Surgery precipitates a hypercoagulable state and increases the formation of cancer metastases in animal models. Coagulation promotes metastases by facilitating the formation of microthrombi around tumor cell emboli (TCE), thereby inhibiting natural killer (NK) cell-mediated destruction.
Methods: Mice underwent surgery preceded by tumor cell inoculation to establish pulmonary metastases in the presence or absence of various perioperative anticoagulants. Pulmonary TCE were quantified and characterized using fluorescently labeled fibrinogen and platelets. The role of NK cells was evaluated by repeating these experiments after antibody depletion in a genetically deficient strain and by adoptively transferring NK cells into NK-deficient mice.
Results: Surgery resulted in a consistent and significant increase in metastases while a number of different anticoagulants and platelet depletion attenuated this effect. Impaired clearance of TCE from the lungs associated with an increase in peritumoral fibrin and platelet clot formation was observed in surgically stressed mice, but not in control mice or mice that received perioperative anticoagulation. The increase in TCE survival conferred by surgery and inhibited by perioperative anticoagulation was eliminated by the immunological or genetic depletion of NK cells. Adoptive transfer experiment confirms that surgery impairs NK cell function.
Conclusions: Surgery promotes the formation of fibrin and platelet clots around TCE, thereby impairing NK cell-mediated tumor cell clearance, whereas perioperative anticoagulation attenuates this effect. Therapeutic interventions aimed at reducing peritumoral clot formation and enhancing NK cell function in the perioperative period will have important clinical implications in attenuating metastatic disease after cancer surgery.