Subarachnoid Injection—A Potential Complication of Retrobulbar Block

Abstract

This study was undertaken to illustrate the potential for subarachnoid injection during retrobulbar block as a cause of respiratory arrest. Cadaver orbits were used to document the connecting between the optic nerve sheath and the subarachnoid space. Following dissections of the orbits on one side of 24 cadavers, the optic nerve sheaths were identified and injected with 0.5 ml of water for measurement of pressure generated during injection. This was followed by intrasheath injection of equal volume of methylene blue for demonstrating the subarachnoid space surrounding the optic nerves. All injections were performed with a 1-ml syringe with a one-and-one-half-inch 22-G needle over a period of 10 s. The blue dye was found to track along the subarachnoid space of the optic nerve sheath to the chiasmatic cistern in the middle cranial fossa. Retrobulbar injections were performed on the contralateral undissected orbits and intrascleral injections were performed on undissected eyes. The size of the syringes, the gauge of the needles, and the speed of injection were uniform for all injections. The pressure generated by injection into the optic nerve sheath or intrascleral injection (approximately 138 mmHg) was three- to fourfold that produced by injection into the retrobulbar adipose tissue (approximately 35 mmHg) (P < 0.05). The authors conclude that any resistance encountered during retrobulbar block should serve as a warning signal, mandating redirection of the needle, in order to prevent subarachnoid injection.