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Ben Menachem Y, Coldwell DM,
Young JW and Burgess AR (1991). 'Hemorrhage associated
with pelvic fractures: causes, diagnosis, and emergent
management.' AJR Am J Roentgenol 157(5): 1005-1014.
'Physicians are often reluctant,
for no valid reason, to transport hemodynamically
unstable patients to the angiography suite. We urge
them to abandon this attitude. Patients in hemorrhagic
shock, with surgically correctable injuries, should
be transported to the operating theatre, regardless
of shock. By the same token, patients in hemorrhagic
shock, with unknown sources of hemorrhage - as well
as those with hemorrhage best treated by embolization
- should be transported to the angiographic suite,
regardless of shock. Left where they are, be it the
emergency department of intensive care unit, they
may die of exsanguination.'
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'Three basic principles should guide the
angiographer in performing embolization.
- The purpose is to slow the bleeding
to the extent that the body will control its own hemorrhage,
rather than create large areas of ischemia or necrosis.
- If ischemia and necrosis must
be created it should be limited to the smallest area possible.
- The procedure must be done expidetiously.'
Overall 7-11% of pelvic fractures will
require embolization. Only 2% of lateral compression fractures
have demonstrable arterial haemorrhage, compared to 20%
of anteroposterio compression, vertical shear or combined
mechanism injuries. (Burgess A, Eastridge BJ, Young JWR,
Ellison TS, Ellison PS, Poka A, Bathon GH, Brumback RJ 'Pelvic
Ring Disruptions: Effective Classification System and Treatment
Protocols.' J Trauma 30(7);848-856:1990)
Evidence
Bassam, D., G. A. Cephas, et al
A protocol for the initial management of unstable pelvic
fractures.
Am Surg 1998 64(9): 862-7
'We conclude that patients with
anterior-posterior compression type 2 and 3, lateral compression
type 2 and 3, or vertical shear injuries, who are hemodynamically
unstable as a result of their pelvic fracture, should undergo
immediate ANGIO if laparotomy is not indicated.'
Design: Prospective Cohort Study
Fracture Type: Tile B,C, Young & Burgess APC2
& 3, LC2 & 3, VS
Study Population: 15
Methods: Patients with anteriorly unstable inguries
underwent emergent external fixation, while primarilyu posterior
injuries underwen emergent angiography.
Results: Blood product & hospital stay similar
in the two groups. Complication rate higher in external
fixation group, due to failure to adequately control haemorrhage.
Conclusions: APC 2&3, LC 2&3 and VS injuries
who are unstable due to their pelvic injuries should undergo
immediate angiography if laparotomy is not indicated.
Comments: Non-randomised, small
study. However no patient undergoing emergent angiography
required a second intervention to control bleeding, compared
to 50% of the external fixation group, who went on to angiography.
Also massive thigh/buttock/flank haematomas seen in the
ex-fix group.
Daniel N. Segina, Samuel G. Agnew,
Tim Daniel et al
Hemodynamicaly Unstable Pelvic Fractures: Retrospective
Review of Early Embolization.
OTA Annual Meeting 2000
'embolization in conjunction with
binding the thighs or skeletal traction may facilitate the
resuscitation process and preclude emergent frame application.'
Objectives: To determine the incidence
of patients requiring embolization and the correlation with
their pelvic injury and vascular lesions and associated
morality.
Design: Retrospective retrieval
Methods: Review of consecutive
series of patients presenting to the Trauma Center with
angiographically confirmed arterial injury, and subsequent
life saving endovascular embolization prior to any other
intervention constitute the study cohort. The time from
injury until embolization, mode of embolization and incidence
of soft tissue problems were data points sought.
Measures: The patient population
identified all sustained some type of pelvic fractures,
as classified by the OTA modified of the Tile Classification
system. Mechanism of injury-Location of artery-Morality
rate was correlated.
Results: Three hundred and sixty
five consecutive patients sustaining pelvic fractures exclusively
from road or industrial trauma between October 1995 and
December 1999 constitute the base population. Using the
modified resuscitation protocol described one emergency
external fixation frame was applied over the study period.
Pelvic fractures were temporized with binding of the thigh
(11) or skeletal traction (4) applied on arrival, where
appropriate for the injury type. Fifty-six patients (15%)
underwent embolization as a method of acute resuscitation
for persistent hemodynamic instability with a negative abdominal
ultrasound in Trauma Center. Nineteen patients (33%) underwent
therapeutic embolization of bilateral Hypogastric system
injuries. Mechanism of injury: MVC (22), Auto vs. Pedestrian
(18), Crush (7), Ejection (6), MCC (4) The average time
from injury until embolization completion was 3.3 hr. (1.5-5.2).
Multiple named vessel injury occurred in 30 (52.6%). Gelfoam
and coil combination was utilized in 50/57 procedures. Forty
patients (76%) survived the initial trauma and resuscitation,
22 male and 18 female. The nonsurvivors reviewed died from
non-hemorrhagic sources in all cases: Brain Injury, MSOF,
and sepsis. All patients reviewed sustained significant
multi-system trauma with average ISS of 42 (19-66). The
skeletal profile of pelvic fractures undergoing resuscitative
embolization: Rotationally unstable OTA B type (24), Rotationally
and vertically unstable OTA C type (28), and four patients
with mechanically stable A type injuries. Those requiring
bilateral systems or vessel embolization: Title OTA C type
(17) 40%, and B type (5) 8%, and A type (1) 2%.
Discussion: The use of emergent
embolization has been employed routinely at our institution
prior to any other intervention for four years in the hemodynamically
unstable patients with a negative abdominal ultrasound.
Fifty-two consecutive patients presented with mechanically
unstable pelvic injury and remained hemodynamically unstable
in the Trauma center, the use of emergency external fixation
was rare (1). 75% of patients presenting with combination
C3 pelvic injuries and bilateral arterial injuries sustained
an unsurvivable amount of trauma. Wound problems developed
following subsequent hemipelvis operative fixation in only
one patient with massive degloving; despite 33% of patient
cohort sustaining traumatic loss of Hypogastric systems
bilaterally, and 52% having multiple arterial injuries and
concomitant massive truncal trauma. Conclusion: The placement
of angiography and embolization in the decision algorithm
for the hemodynamically unstable pelvic fracture patient
is typically in the later stages of the decision scheme.
These data suggest that embolization in conjunction with
binding the thighs or skeletal traction may facilitate the
resuscitation process and preclude emergent frame application,
as well. No evidence of perineal dysvascular changes were
detected.
O'Neill PA; Riina J; Sclafani S; Tornetta
P
Angiographic findings in pelvic fractures.
Clin Orthop 1996 Aug;(329):60-7
'Posterior arterial bleeding (internal
iliac or its posterior branches) was statistically more
common in patients with unstable posterior pelvic fractures,
and anterior arterial bleeding (pudendal or obturator) was
more common in patients with lateral compression injuries.'
Abstract: Pelvic fractures are
high energy injuries indicative of significant trauma. Hypotension
and significant blood loss is common in skeletally unstable
pelvic fractures. Potential sites of intrapelvic bleeding
include fractured bone edges, venous injuries and/or arterial
vascular injuries. In an attempt to define the relationship
of fracture pattern to arterial injury, a specific subset
of 39 patients with pelvic fractures who underwent angiography
for hemodynamic instability or ongoing blood loss were reviewed
retrospectively. In 35 patients with definable arterial
injuries, 20 (57%) had multiple bleeding sites. Posterior
arterial bleeding (internal iliac or its posterior branches)
was statistically more common in patients with unstable
posterior pelvic fractures, and anterior arterial bleeding
(pudendal or obturator) was more common in patients with
lateral compression injuries. The pudendal artery was the
most commonly injured vessel in this series. The superior
gluteal artery was the most commonly injured vessel associated
with posterior pelvic fractures. There was no correlation
between fracture pattern and survival. The injury severity
score however, did indirectly correlate to survival. In
addition, the presence of hypotension (systolic blood pressure
< or = 90) at the time of arrival to the trauma center was
found to significantly increase mortality.
Guide to Evidence Appraisals
The definitions of the types of evidence
and the grading of recommendations used originate from the
US Agency for Health Care Policy and Research
| Evidence
obtained from meta-analysis of randomised controlled
trials |
| Evidence
obtained from at least one randomised controlled trial |
| Evidence
obtained from at least one well-designed controlled
study without randomisation |
| Evidence
obtained from at least one other type of well-designed
quasi-experimental study |
| Evidence
obtained from well-designed non-experimental descriptive
studies, such as comparative studies, correlation studies
and case control studies |
| Evidence
obtained from expert committee reports or opinions and/or
clinical experience of respected authorities |
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