A genitourinary fistula is defined as an abnormal communication between the urinary (ureters, bladder, urethra) and the genital (uterus, cervix, vagina) systems. The true incidence is unknown and varies according to whether the etiology is obstetric or gynecologic. In Asia and Africa, up to 100,000 new cases of obstetric genitourinary fistula are added each year to the estimated pool of 2 million women with unrepaired fistulas (World Health Organization, 2018). For industrialized countries, most fistulas occur iatrogenically from pelvic surgery, and the generally accepted incidence derives from data on surgeries to correct these fistulas. Numbers from the National Hospital Discharge Survey of inpatient women show that approximately 5 per 100,000 women underwent lower reproductive tract fistula repair (Brown, 2012). This likely is underestimated, as many cases are unreported, unrecognized, or treated conservatively. Of genitourinary fistulas, vesicovaginal fistula is most common (Goodwin, 1980; Shaw, 2014).
The principles and phases of wound healing aid the understanding of genitourinary fistula pathogenesis. After injury, tissue damage and necrosis stimulate inflammation, and the process of cell regeneration begins (Kumar, 2015). Initially at the injury site, new blood vessels form, that is, angiogenesis. Three to 5 days after injury, fibroblasts proliferate and subsequently synthesize and deposit extracellular matrix, in particular collagen. This fibrosis phase determines the final strength of the healed wound. Collagen deposition peaks approximately 7 days after injury and continues for several weeks. Subsequent scar maturation and organization, termed remodeling, augments wound strength. These phases are interdependent, and any disruption of this sequence eventually may create a fistula. Most defects tend to present 1 to 3 weeks after tissue injury. This is a time during which tissues are most vulnerable to an altered healing environment that may include hypoxia, ischemia, malnutrition, radiation, and chemotherapy. Eventually, edges of the wound epithelialize, and a chronic fistulous tract is thus formed.
Although many classification systems exist for genitourinary fistula, no single system is considered the accepted standard nor is any one scheme superior in predicting surgical success. Fistulas can develop at any point between the genital and urinary systems, and one classification method reflects the anatomic communication (Table 26-1).
TABLE 26-1Classification of Genitourinary Fistula Based on Anatomic Communication |Favorite Table|Download (.pdf) TABLE 26-1 Classification of Genitourinary Fistula Based on Anatomic Communication
| ||Urinary Tract |
| ||Ureter ||Bladder ||Urethra |
|Vagina ||Ureterovaginal ||Vesicovaginal ||Urethrovaginal |
| ||Vesicoureterovaginal || |
|Cervix ||Ureterocervical ||Vesicocervical ||Urethrocervical |
|Uterus ||Ureterouterine ||Vesicouterine ||Not reported |
Vesicovaginal fistulas can also be characterized by their size and location in the vagina. They are termed high vaginal, when found proximally in the vagina; low vaginal, when noted distally; or midvaginal, when identified centrally. For instance, posthysterectomy vesicovaginal fistulas are often proximal, or “high” in the vagina, and located ...