Effects of urinary bladder distension on activity of T3-T4 spinal neurons receiving cardiac and somatic noxious inputs in rats.

The aims of this study were to examine effects of urinary bladder distension (UBD) on T(3)-T(4) spinal neurons receiving cardiac and somatic noxious inputs and to determine the pathway involved in transmitting urinary bladder inputs to thoracic spinal segments. Extracellular potentials of single T(3)-T(4) neurons were recorded in pentobarbital anesthetized male rats. Either bradykinin solution (10(-5) M) or an allogenic mixture (adenosine 10(-3) M, bradykinin, histamine, serotonin, prostaglandin E2 10(-5) M each) was administered intrapericardially. UBD was produced by saline inflation (0.5-2.0 ml, 20 s). Of 487 neurons tested for responses to UBD, 70 were inhibited and 37 were excited. Seventy-six out of 336 neurons received convergent input from UBD and heart; 69/76 viscerovisceral convergent neurons had somatic fields. Spinal transection at rostral C(1) abolished UBD inhibition in 5/9 neurons; whereas transections at L(1)-L(2) abolished UBD inhibition in 3/3 cells tested. Results showed that T(3)-T(4) spinal neurons processing cardiac and somatic nociceptive information were primarily inhibited by input from the urinary bladder through either supraspinal structures or direct intraspinal pathways.