Novel pulsatile cerebrospinal fluid model to assess pressure manometry and fluid sampling through spinal needles of different gauge: support for the use of a 22 G spinal needle with a tapered 27 G pencil-point tip

Background Parallel-walled spinal needles ≤22 G are routinely used for lumbar puncture, despite a reported ≥32% incidence of post-dural puncture headache. A tapered spinal needle (22 G shaft, 27 G tip) is in use in our institution. We hypothesized that despite the smaller dural puncture hole, this needle has similar cerebrospinal fluid (CSF) pressure equilibration times and CSF sampling times to a standard 22 G needle and assessed a range of spinal needles using an experimental pulsatile CSF reservoir. Methods The pulsatile CSF reservoir had an oscillating pressure varying between 25 and 15 cm H 2 O at a cycle frequency of 80 s −1 . We tested seven parallel-walled spinal needles (18–27 G) and the tapered 22/27 G needle. CSF pressure was measured every 2 s by manometry. The time to collect 1 ml CSF samples was measured. Saline 0.9% and mannitol 20% were tested separately. One-way ANOVA with Bonferroni post-hoc test was used to compare 22G, 27G and 22/27G needles. Results The mean [standard deviation (sd)] CSF pressure equilibration time (saline) was 40.7 (6.4), 108.7 (6.1), and 51.3 (4.6) s for the 22, 27, and 22/27 G needles ( P P P = 0.019 between 22 and 22/27 G needles). Saline was different from mannitol for both measurements and all needles ( P Conclusions A 22/27 G tapered spinal needle has similar flow properties to the 22 G needle, despite a 27 G tip.