Local recurrences in the surgical bed after tumor resection may be due to residual tumor cells "dropping" into the wound. Irrigation with water is often used to remove these cells. We designed experiments to determine whether irrigation would prevent tumor recurrence.
Surgical wounds of uniform size in C57BL/6 mice were seeded with 5 X lo', 5 X lo3, 5 X lo4, 5 X lo', or 5 X 10' viable syngeneic B16-F10 melanoma cells to test the hypothesis that irrigation with water would decrease local tumor recurrence. The tumor-contaminated wounds were irrigated with distilled water or with saline (0.9% NaCl) immediately or 5 , 30,60, 120, or 240 min after seeding. Control wounds were seeded but not irrigated. The technique of irrigation was altered in a second group of experiments such that the amount of time the tumor cells were exposed to the water or saline was 5 , 10, or 15 min. To determine the rapidity and durability of tumor cell attachment to host tissue, 1 X lo4 viable B 16-FlO tumor cells were seeded in vitro onto freshly cut disks of syngeneic mouse dermis. The tissue was irrigated with saline or distilled water 0, 2, 5 , 10, 15, 30, 60, 120, or 240 min later.
Tumor growth was observed in all the mice and neither the mechanical action of irrigation nor the hypotonic effect of distilled water changed the rate of growth. Scanning electron microscopy (SEM) demonstrated stable and firm attachment to mouse tissue within seconds of seeding with no noticeable dislodgement or cytotoxicity by either saline or water irrigation.
The data suggest that the commonly used technique of irrigating the bed of the resected tumor may not be of value in preventing local recurrences.