Artificial insemination (AI) by direct injection of epididymal spermatozoa into the reproductive tract of females is simpler and more convenient than in vitro fertilization (IVF) and subsequent transfer of fertilized eggs to recipient oviducts for simultaneous acquisition of a large number of pups. Introduction of epididymal spermatozoa into oviducts via the oviductal wall or via vaginal and intrauterine routes is currently the most commonly used method for AI in mice. In this study, we explored another route for AI of the mouse and found that transfer of spermatozoa into a space near the infundibulum between the ovary and ovarian bursa enables in vivo fertilization of ovulated oocytes at the ampulla. When 1 μL of a sperm suspension containing 1 × 10 4 spermatozoa freshly isolated from B6C3F1 males was intrabursally injected into superovulated B6C3F1 females on E (embryonic day) 0.4 (10:00 AM), 5 of 7 females yielded 2-cell embryos with rates of efficiency ranging from 4 to 21% (11% on average), which were much lower than those (91% on average) for embryos obtained by natural mating. All the 2-cell embryos derived from injection of sperm developed in vitro to hatched blastocysts. Similar results were obtained from injection of 1 μL of sperm suspension containing 1 × 10 3 spermatozoa, although in vivo fertilizing ability was slightly improved (28% on average). When 1 μL of sperm suspension containing 1 × 10 4 spermatozoa was injected intrabursally into superovulated females that had been mated with vasectomized males, 6 of 10 mice (60%) yielded 19 normal mid-gestational fetuses with an average litter size of 3.2, which was much lower than that (14.5) for embryos obtained by natural mating. Although the present findings appear to be preliminary, this technique, based on the intrabursal transfer of spermatozoa, will be of practical use for AI in mice, particularly for transgenic and mutant mice that are often difficult to breed.