Background: In spite of the many advances in halo application technique, th
e prevalence of complications associated with the use of halo fixation rema
ins high, particularly at the pin sites. Many practitioners do not use more
than four pins for halo application in adults because they believe that it
increases the risk of complications. The purpose of this study was to inve
stigate the use of six pins in halo application, in order to determine if t
he extra pins increased fixation strength without increasing the overall pi
n-site complication rate.
Methods: The first part of our study consisted of force-deflection tests co
nducted on models of the skull fitted with either a four or a six-pin halo
to determine if the six-pin halo provided greater fixation strength. Each s
kull model was placed in a servocontrolled hydraulic test machine; an axial
distraction force was then applied until failure occurred. The second part
of the study was a retrospective analysis of sixty-three patient records t
o document the prevalence of pin-site complications in patients treated wit
h a six-pin halo system; these findings were then compared with established
complication rates associated with four-pin halos.
Results: In the force-deflection tests, the mean load to failure of the six
-pin halo construct (2879 N [647 lb]) showed the system to be significantly
stronger (p = 0.0033) than the four-pin halo construct (1681 N [378 lb]).
Of the sixty-three patient records reviewed, five (8% [95% confidence inter
val, 1% to 15%]) revealed pin-loosening; no infection was recorded for thes
e five patients. One of the sixty-three patients had redness and erythema a
t "multiple sites," but these areas healed well. Another presented with inf
ection at all six sites; this was recorded as an allergic reaction.
Conclusions: Six-pin halo fixation results in greater halo strength and cer
vical spine stabilization without increasing the risk of pin-site complicat
ions. clinical Relevance: Our findings are relevant for current clinical pr
actice as the high complication rates associated with halo application have
deterred some practitioners from using this type of fixation. The use of s
ix pins, along with an improved protocol for halo application and care, may
contribute to a more successful treatment outcome with fewer complications
.