Blunt vascular trauma in the extremity: diagnosis, management, and outcome

Temporary intravascular shunts used as a damage control surgery adjunct in complex vascular injury: collective review

In this systemic review, we summarise the types, configurations, durations, indications and complications of the temporary intravascular shunts used as an adjunct of damage control surgery (DCS) in severe vascular injuries. We conclude that temporary intravascular shunts can be used without systemic anticoagulation for a prolonged time to maintain distal perfusion in combined orthopaedic and vascular injuries, in the setting of DCS and transferring.

Complete femoral artery and vein avulsion from a hyperextension injury: a case report and literature review

Blunt peripheral extremity vascular injuries are much less frequent than those of penetrating injuries, especially in the absence of significant musculoskeletal trauma. We present an unusual case of complete femoral artery and vein avulsion that resulted from a forced hip hyperextension and thigh abduction after slipping when a patient's foot became entrapped in a ladder. The patient presented with an acutely ischemic right lower extremity 8 hr postinjury, which necessitated immediate surgical exploration, temporary intravascular shunting, interposition grafting, and prophylactic fasciotomy. To our knowledge, this is the first such mechanism to be reported resulting in complete transection of both femoral artery and vein. We review the mechanism of injury and management.

Vascular abnormalities as assessed with CT angiography in high-energy tibial plafond fractures

OBJECTIVE

The purpose of this study was to examine the results of computed tomography angiography (CTA) obtained in patients with high-energy tibial plafond fractures and assess if the information gleaned from CTA could be useful to the treating orthopedic surgeon.

DESIGN

Consecutive patient series.

SETTING

Level 2 trauma center.

PATIENTS

Consecutive patients treated between October 1, 2004 and June 31, 2006 for high-energy injury of the tibial plafond according to a protocol of early temporizing external fixation, CT, and elevation, followed by delayed reconstruction of the tibial plafond.

INTERVENTION

Addition of angiography to CT scan (CTA) in treatment protocol.

MAIN OUTCOME MEASUREMENTS

CTA abnormalities were identified and categorized to define the pattern of arterial lesions present. Characteristics of patients, injuries, treatments, and complications were evaluated and related to CTA findings.

RESULTS

CTA was performed at an average of 3 days postinjury in 25 consecutive patients treated for high-energy tibial plafond fractures. Abnormalities of the arterial tree of the leg were seen in 13 of 25 (52%) patients. One patient had 2 of 3 vessels notably injured. Fourteen arteries showed acute changes at the level of injury and 1 showed significant chronic atherosclerotic disease at the trifurcation. Acute arterial abnormalities included 7 arteries with complete occlusion, 2 with partial occlusion/diminished flow, and 5 with normal flow but with anatomic disturbances (4 tenting over and 1 entrapped by fracture fragments). Open fractures were associated with arterial abnormalities (P<0.05), but no other characteristics correlated with arterial injury. No patients had dye reactions or other problems relating to CTA. Patients with CTA-diagnosed vascular abnormalities were treated with more minimally invasive surgery than those without at the discretion of the surgeon, and no patients with vascular abnormalities had wound problems or infection.

CONCLUSIONS

In more than half of high-energy tibial plafond fractures, CTA identified significant abnormalities to the arterial tree of the distal leg. These injuries most commonly involved the anterior tibial artery and included a variety of lesions. CTA appears to be a safe and potentially useful tool for the assessment and preoperative planning of high-energy tibial plafond fractures.

Endovascular treatment for traumatic injuries of the peripheral arteries following blunt trauma

OBJECTIVES

The continued advances in imaging and stent/stent-graft technology have considerably expanded the indications for endovascular approach also in vascular trauma. We report our institutional experience with endovascular treatment of peripheral arterial injuries after blunt trauma.

METHODS

Between January 2000 and June 2006 out of a series of 81 patients, 10 male patients (mean age of 50+/-14 years) with peripheral arterial injuries were managed endovascularly. At admission, haemorrhagic shock was present in three patients. Artery location involved common femoral (n=2), subclavian (n=2), axillary (n=2), external iliac (n=2), superficial femoral (n=1), and popliteal (n=1). Type of lesion was as follows: pseudoaneurysm (n=4), dissection (n=4), expanding haematoma (n=1), and arterio-venous fistula (n=1). Follow-up program included visit and duplex-ultrasonography, X-rays and/or spiral-computed tomography at 6-month interval during the first year, and yearly thereafter.

RESULTS

The lesion was excluded in all cases. All patients survived. Major complications did not occur. Mean hospitalisation was 13 days. Limb-salvage was 100%. Follow-up ranged from 3 to 60 months (mean 16); a late occlusion of a popliteal stent-graft was managed with another endovascular procedure.

CONCLUSION

In our experience, endovascular treatment of vascular injuries after blunt trauma was feasible and effective.

[Traumatic knee dislocation with popliteal vascular disruption: retrospective study of 14 cases]

PURPOSE OF THE STUDY

Complex femorotibial dislocation of the knee joint generally results from high-energy trauma caused by a traffic or a contact sport accident. Besides disruption of the cruciate ligaments, in 10-25% of patients present concomitant palsy of the common peroneal nerve and more rarely disruption of the popliteal artery. The purpose of this work was to assess outcome in a monocentric consecutive series of knee dislocations with ischemia due to disruption of the popliteal artery and to focus on specific aspects of management.

MATERIAL AND METHODS

This retrospective series included eleven men and three women, aged 18 to 74 years (mean 47 years). The right knee was injured in five and the left knee in six. Trauma resulted from a farm accident in six patients, fall from a high level in two, a traffic accident in three and a skiing accident (fall) in one. Two other patients with morbid obesity were fall victims. Nine patients had a single injury, two presented an associated serious head injury, one a severe chest injury, and one multiple trauma with coma, chest contusion, and abdominal lesions. One patient had a fracture of the distal femur with associated ischemia. Five knee dislocations were open with a popliteal wound for three and a posteromedial wound for two. Four patients presented total sciatic nerve palsy and nine palsy of the common peroneal nerve. The dislocation was documented in ten cases: lateral (n=1), anterior (n=4), posterior (n=5). For four patients, the dislocation had been reduced during pre-hospital care. Preoperative arteriography was available for eight patients and confirmed the disruption of the popliteal artery; the diagnosis was obvious in six other patients who were directed immediately to the operative theatre without pre-operative imaging. Revascularization was achieved with a upper popliteal-lower popliteal bypass using an inverted saphenous graft. The graft was harvested from the homolateral greater saphenous vein in eight patients and the contralateral vein in six. On average, limb revascularization was achieved after 10.07 hours ischemia. Intravenous heparin was instituted for 810 days followed by low-molecular-weight heparin. The dislocation was stabilized by a femorotibial fixator in nine patients and a cruropedious cast in five. An incision was made in the anterolateral and posterior leg compartments in twelve patients. A revision procedure was necessary on day one in one patient because of recurrent ischemia; a second bypass using an autologous venous graft was successful. One other 75-year-old patient also presented recurrent ischemia on day five; the bypass was reconstructed but the patient died from multiple injuries. Seven thin skin grafts were used to cover the aponeurotomy surfaces. Mean duration of the external fixator was 3.4 months. The five patients treated with a plaster case were immobilized for 2.7 months on average. Ligament repair was performed in three patients (one lateral reconstruction and one double reconstruction of the central pivot for the two others). A total prosthesis with a rotating hinge was implanted in two patients aged 67 and 74 years after removal of the external fixator at six and seven months. Failure of the ligament repair also led to arthroplasty in a third patient.

RESULTS

Blood supply to the lower limb was successfully restored as proven by the renewed coloration of the teguments and-or presence of distal pulses in 13 patients. Transient acute renal failure required dialysis in one patient. Four patients developed pin track discharges and there was one case of septic arthritis of the knee joint which was cured after arthrotomy for wash-out and adapted antibiotics. Outcome was assessed a minimum 18 months follow-up (average 22 months) for the 13 survivors. The three sciatic palsies recovered partially at five and six months in the tibial territory but with persistent paralysis in the territory of the common peroneal nerve. The nine cases of common peroneal nerve palsy noted initially regressed completely or nearly completely in three patients, partially in three and remained unchanged in three. The results were assessed as a function of the final knee procedure: outcome was satisfactory for the patients with a total knee arthroplasty. Outcome of the three ligamentoplasties was good in one, fair in one, and a failure in one (revision arthroplasty). Patients treated by immobilization without a second surgical procedure complained of joint instability with a variable clinical impact; their knee retained active flexion greater than 90 degrees and complete extension.

DISCUSSION

An analysis of the literature and the critical review of our clinical experience was conducted to propose a coherent therapeutic attitude for patients presenting this type of trauma. The prevalence of disruption of the popliteal vascular supply in patients with knee dislocation is between 4 and 20%. The rate is closely related to that of injury to nerves and soft tissue. Ischemia should be immediately suspected in all cases of knee dislocation. The pedious and tibial pulses must be carefully noted before and after reduction of the dislocation to determine whether or not there is an organic arterial lesion. If the pulses are absent initially, they should be expected to reappear strong, rapidly and permanently after reduction. Otherwise, arteriography should be performed. Dislocation stretches the artery between two points of relative anchorage in the adductor ring and the soleus arcade to the point of rupture. Repair requires a bypass between the upper popliteal artery and the tibioperoneal trunk using an inverted saphenous graft because the walls are torn over several centimeters. The traumatology and vascular surgical teams must work in concert from the beginning of the surgical work-up in order to establish a coherent operative strategy founded on primary reduction of the dislocation, installation of a fixator and then vascular repair and aponeurotomy incisions. It would be preferable to wait until the bypass is proven patent and wound healing is complete before proposing ligament repair. This should be done after a precise anatomic work-up to assess each ligament lesion. Bony avulsion or simple disinsertion can however be repaired in the emergency setting at the time of the bypass as well as any ligament rupture which is obvious and-or situated on the medial collateral approach. Secondarily, elements of the central pivot can be repaired in young patients with an important functional demand. Arthroplasty is not warranted except in the elderly patient. Dissection of the popliteal fossa or debridement of the wound enables a careful anatomic assessment of the nerve trunks. In the event of a peroneal nerve disruption, it is advisable to fix the nerve ends to avoid retraction. Beyond three months without clinical or electromyography recovery, surgical exploration is indicated. In the event more than 15 cm is lost, there is no hope for a successful graft. Complete knee dislocation is extremely rare. It can be caused by high-energy trauma associated with several ligament ruptures, particularly rupture of the central pivot observed in 10-25% of cases with common peroneal nerve palsy. Compression, contusion or disruption of the popliteal artery is very rarely caused by the displacement of the femur or the tibia. Limb survival may be compromised. Mandatory emergency restoration of blood supply will modify immediate and subsequent surgical strategies. There has not however been any study exclusively devoted to double joint and vascular involvement. Our objective was to present a critical retrospective analysis of a consecutive series of knee dislocations with ischemia due to disruption of the common popliteal artery treated in a single center and to describe the specific features of management strategies for a coherent diagnostic and therapeutic approach.

[Dislocation and fractures around the knee with popliteal artery injury: A retrospective analysis of 54 cases]

A retrospective multicentric series of 54 cases of knee trauma with acute ischemia by popliteal artery injury were analyzed. These high-energy traumas involved 25 dislocations and 29 fractures, 11 involving distal femur, 15 the proximal tibia and 3 a floating knee. There were 45 men and 7 women, mean age 42 years. Thirty-three patients suffered multiple injuries. The knee injury was open in 25 cases and associated with sciatic paralysis in 32. Vascular repair was almost always achieved with bypass surgery. An external fixator was used in 39 patients. Vascular repair was unsuccessful in three cases requiring amputation, all three cases involving fractures. There were also six secondary amputations due to muscle necrosis or septic nonunion. The rate of complete recovery of the sciatic was 25%. The rate of nonunion was 37%, half due to infection. Outcome assessed at at least one year follow-up was moderate with frequent functional sequelae. The analysis of these results and data reported in the literature provided indications for diagnostic and therapeutic propositions.

Endovascular management of acute critical ischemia secondary to blunt tibial artery injury

We report a case of acute limb-threatening ischemia from blunt traumatic tibial arterial disruption managed with endoluminal techniques. An otherwise healthy 37-year-old man involved in a motorcycle crash sustained a compound fracture of his right tibia and fibula. Arterial insufficiency developed after surgical reduction of the orthopedic injuries that warranted selective angiography of the involved extremity. This demonstrated complete occlusion of the infrageniculate circulation at the level of the ankle. Recanalization of the posterior tibial artery was achieved by using coronary balloon-expandable stents, thereby reestablishing in-line flow to the foot. Clinical and noninvasive surveillance at 2 years confirmed patency of the recanalized artery with the absence of any ischemic symptoms. Arterial reconstruction of the infrapopliteal arterial tree poses a formidable challenge in the setting of blunt trauma. Recent improvements in endovascular skills, endoluminal technology, and imaging capabilities have allowed percutaneous reconstruction of challenging arterial pathology. Endovascular treatment of blunt tibial injuries is an alternative to complex open reconstructions. These patients require close long-term postoperative surveillance because the durability of such a repair remains unknown.

Ultrasonic interrogation of tissue vibrations in arterial and organ injuries: preliminary in vivo results

Soft tissues surrounding vascular injuries are known to vibrate at audible and palpable frequencies, producing bruits and thrills. We report the results of a feasibility study where Doppler ultrasound (US) was used to quantitatively estimate the tissue vibrations after induced trauma in an animal model. A software-programmable US system was used to acquire quadrature-demodulated ensembles of received US echoes bypassing clutter filtering and other conventional Doppler processing stages. The waveforms of tissue velocity surrounding the injury site were then estimated from the clutter data using autocorrelation and analyzed to determine vibration characteristics. Six New Zealand white rabbits and two juvenile pigs were used for the study. The femoral artery of the anesthetized animal was punctured with an 18-gauge needle to model a peripheral arterial trauma, and the liver was surgically exposed and incised to model organ trauma. Two types of oscillatory tissue motion were observed: "vibrations" with high frequency (>50 Hz) and low peak-peak amplitude (<1 microm) and "flutter" with low frequency (<50 Hz) and high peak-peak amplitude (>1 microm). Active bleeding in femoral artery punctures produced tissue vibrations at the frequency of 323 +/- 214 Hz (mean +/- standard deviation, pooled for both rabbits and pigs) and the amplitude of 0.24 +/- 0.15 microm. Active bleeding in liver incisions produced vibrations at the frequency of 120 +/- 47 Hz and the amplitude of 0.33 +/- 0.25 microm. Flutter was observed in punctured arteries at the frequency of 28 +/- 13 Hz the amplitude of 2.92 +/- 1.75 microm, and in incised livers at the frequency of 26 +/- 6 Hz and the amplitude of 1.53 +/- 0.76 microm. In a punctured artery, the vibration frequency and phase of tissue surrounding the artery were highly correlated between neighboring locations in tissue (correlation coefficient = 0.98), and with the flow oscillations in the lumen (correlation coefficient = 0.96). This preliminary study indicates that tissue vibrations could provide additional physiologic information for detecting, localizing and monitoring internal bleeding using US.

Management of Vascular Injuries in a Forward Hospital

BACKGROUND

Management of vascular injuries poses a challenging problem under warlike conditions. Several authorities recommend limb revascularisation only within first 6-8 hours, as the outcome after delayed revascularisation is poor.

METHODS

A retrospective analysis of 61 consecutive patients with vascular injury in a forward hospital over a 25- month period was carried out.

RESULTS

Vascular injuries constituted 3.1% of all injuries. The mean injury to treatment delay (lag time) was 11 hours, and 10 patients received treatment after 12 hours. The overall amputation rate was 15%, but only 6.5% for those revascularised within 12 hours and 44% for those undergoing surgery after 12 hours (Chi-square 4.59, p < 0.05). Presence of associated fractures was associated with an adverse outcome (Chi-square 4.24, p < 0.05), as was ligation in comparison to revascularisation (Chi-square 7.86, p < 0.005). Popliteal injuries were associated with a high amputation rate.

CONCLUSIONS

Failure to revascularise (ligation of artery), presence of associated fracture, and restoration of circulation beyond 12 hours are associated with a high amputation rate.

[Current concepts of polytrauma management: from ATLS to "damage control"]

In recent years, the implementation of standardized protocols for polytrauma management has led to a significant improvement in trauma care as well as to a decrease in post-traumatic morbidity and mortality. As such, the "Advanced Trauma Life Support" (ATLS) protocol of the American College of Surgeons for the acute management of severely injured patients has been established as a gold standard in most European countries since the 1990s. Continuative concepts to the ATLS program include the "Definitive Surgical Trauma Care" (DSTC) algorithm and the concept of "damage control" surgery for polytraumatized patients with immediate life-threatening injuries. These phase-oriented therapeutic strategies appraise the injured patient of the whole extent of the sustained injuries and are in sharp contrast to previous modalities of "early total care" which advocate immediate definitive surgical intervention. The approach of "damage control" surgery takes into account the influence of systemic post-traumatic inflammatory and metabolic reactions of the organism and is aimed at reducing both the primary and the secondary, delayed, mortality in severely injured patients. The present paper provides an overview of the current state of management algorithms for polytrauma patients, with a focus on the standard concepts of ATLS and "damage control".