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Microvascular Anastomosis (microvascular + anastomosis)

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Medical Sciences	100%

Selected Abstracts

Replantation of amputated finger composite tissues with microvascular anastomosis

MICROSURGERY, Issue 5 2008
Yimin Chai M.D.
Replantation of the partial amputated finger or the composite tissue in finger would achieve better functional and esthetical results than any reconstructive procedure. In this article, we report the results of microsurgical partial finger or composite tissue replantation at different anatomic sites of 24 fingers in 21 patients. Microvascular anastomosis was performed in all cases of replantation. For the digital palmar and lateral composite tissue defects, the proper palmar digital artery and volar or dorsal subcutaneous veins were repaired by end-to-end anastomoses. For the digital dorsal defects, the blood supply was reestablished by arterialization of a dorsal central vein in the replanted part with one of the proper palmar digital arteries. The average follow-up period was 12.3 months. Twenty-two of 24 fingers survived completely with good functional and esthetic results. Two replantations failed because of vascular complications. In conclusion, if the vascular vessels in amputations of partial finger and composite tissue of finger are suitable for anastomosis, a successful replantation of these parts with excellent functional and esthetical recovery can be achieved. © 2008 Wiley-Liss, Inc. Microsurgery, 2008. [source]

Use of the U-clip for microvascular anastomosis

MICROSURGERY, Issue 8 2006
Jesse Taylor M.D.
Microvascular anastomosis is a demanding skill requiring technical excellence and a thorough knowledge of anatomy and physiology. Every suture placed in a microvascular anastomosis should be considered critical as each has the potential to compromise the delicate reconstruction. As such, any device that can facilitate microvascular suture placement deserves thorough evaluation. The U-clip (Coalescent Surgical, Sunnyvale, CA) is such a device in that it eliminates the often time consuming process of tying knots. We evaluated use of the U-clip in microvascular anastomosis of a 1.5 mm artery. We found the U-clip to offer some advantages including ease of use, traditional feel of directed suture placement (as compared to couplers), and elimination of time needed for knot tying. Its shortcomings include size (in diameter, the "pop-off" section of the device appears larger than standard 8-0 suture), the significant force required to "pop-off" the device and difficulty removing the device. © 2006 Wiley-Liss, Inc. Microsurgery, 2006. [source]

The distal superficial femoral arterial branch to the sartorius muscle as a recipient vessel for soft tissue defects around the knee: Anatomic study and clinical applications

MICROSURGERY, Issue 6 2009
Fernando A. Herrera M.D.
Complex wounds surrounding the knee and proximal tibia pose a significant challenge for the reconstructive surgeon. Most of these defects can be managed using local or regional flaps alone. However, large defects with a wide zone of injury frequently require microvascular tissue transfers to aid in soft tissue coverage and closure of large cavities. We describe a unique recipient vessel for microvascular anastomosis for free flap reconstruction involving the knee and proximal tibia through anatomic and clinical studies. © 2009 Wiley-Liss, Inc. Microsurgery 2009. [source]

Microvascular surgery in the previously operated and irradiated neck,

MICROSURGERY, Issue 1 2009
Matthew M. Hanasono M.D.
Microvascular reconstruction of head and neck defects can be extremely challenging in patients with a history of prior neck dissection and/or irradiation. We reviewed of 261 head and neck free flaps performed between 2004 and 2007 at a tertiary cancer center. One hundred twenty-four (52%) free flaps were performed in patients with a history of prior neck dissection and/or irradiation. The ipsilateral external carotid artery or one of its branches was not available in 43 (19%) cases: 13 with no history of prior neck dissection or irradiation, and 30 with a history of prior neck dissection and/or irradiation (P = 0.03). The ipsilateral internal/external jugular veins (IJ/EJ) were not available in 37 (16%) cases: 11 with no history of prior neck dissection or irradiation, and 26 with a history of prior neck dissection and/or irradiation (P = 0.002). Strategies for dealing with lack of a recipient vessels included anastomosis to contralateral neck vessels, transverse cervical vessels, internal mammary vessels, the cephalic vein, and the pedicle of another free flap. We propose an algorithm for locating recipient vessels adequate for microvascular anastomosis should the ipsilateral external carotid arterial and/or the internal/external jugular venous systems not be available, such as in the setting of prior neck dissection or irradiation. © 2008 Wiley-Liss, Inc. Microsurgery, 2009. [source]

Replantation of amputated finger composite tissues with microvascular anastomosis

Use of the U-clip for microvascular anastomosis

Cross-leg free anterolateral thigh perforator flap: A case report

MICROSURGERY, Issue 3 2006
Serel M.D.
The purpose of this report is to introduce the cross-leg anterolateral thigh perforator flap for closure of a defect on the dorsum of the foot, and to show that the anterolateral thigh perforator flap is a safe option for a cross-bridge microvascular anastomosis in defects of the extremity. The free anterolateral thigh perforator flap was used for a patient with an unhealed wound on the dorsum of the foot. The flap was revascularized by end-to-side anastomosis between the flap's artery and the posterior tibial artery of the other leg, since there was no available recipient artery on the same leg. After a 4-week neovascularization period, the pedicle was cut. To the best of our knowledge, this is the first report of the use of a free anterolateral thigh perforator flap for a cross-bridge microvascular anastomosis. © 2006 Wiley-Liss, Inc. Microsurgery, 2006. [source]

Incidence and significance of microscopic pathological lesions found in pedicle and recipient vessels used in microsurgical breast reconstruction

MICROSURGERY, Issue 1 2003
H.H. El-Mrakby M.D.
The purpose of this study was to assess the incidence of abnormal vascular histology and to determine whether or not this was correlated with the incidence of postoperative microvascular problems. The microvascular histology of both donor and recipient vessels was studied in 38 patients (40 flaps) undergoing breast reconstruction with free TRAM flaps. Preoperative risk factors were assessed and correlated with histological changes in vessels, and both were tested against anastomotic complications. Thrombosis of either the artery or the vein of the flap was seen in 6 cases (15%), and of these, two flaps failed completely and one suffered partial necrosis. The occlusion affected the arterial anastomosis in 3 patients, and the venous anastomosis in 2 patients, while both the artery and the vein were thrombosed in one case. Preoperative risk factors such as smoking, obesity, radiotherapy, and chemotherapy were not associated with a significantly higher incidence of thrombosis or with significant histological abnormalities in vessels (P value varied between 0.3,0.06). Microvascular histology showed variable degrees of pathological changes in six flaps (15%); nevertheless, in this group, only one flap suffered a venous thrombosis, which ended in total flap loss. Among those with one or more risk factors (24 patients), only 2 had some evidence of histological abnormality of the blood vessels used for the microvascular anastomosis (P = 0.2). © 2003 Wiley-Liss, Inc. MICROSURGERY 23:6,9 2003 [source]

Monitoring free flaps using laser-induced fluorescence of indocyanine green: A preliminary experience

MICROSURGERY, Issue 7 2002
C. Holm M.D.
In a prospective, clinical study, the clinical utility of indocyanine green for intraoperative monitoring of free tissue transfer was evaluated. The study comprised 20 surgical patients undergoing elective microsurgical procedures. Indocyanine green angiography was performed intraoperatively, immediately after flap inset, and the operating team was blind to the fluoremetric findings. Thereafter, postoperative monitoring was done exclusively by clinical examination (color, temperature, time for recapillarization, and bleeding after puncture). Final outcome was compared with results of perioperative indocyanine (ICG)-imaging, and classified either as total flap loss, partial flap loss, or successful tissue transplantation. A total of 2 (10%) complications was recorded, and included one partial and one total flap loss. Both complications were detected by intraoperative ICG imaging. Another case of intraoperative subclinical arterial spasm at the place of microvascular anastomosis was revealed by dynamic ICG-videography. This flap did not develop postoperative complications. In conclusion, evaluation of perfusion by ICG imaging is feasible in all kinds of microsurgical flaps, irrespective of the type of tissue. Even though not meeting all the criteria of an ideal monitoring device, significant additional information can be obtained. In this study, cases with arterial spasm, venous congestion, and regional hypoperfusion were revealed by intraoperative ICG-videography. There was a strong correlation between intraoperative findings and clinical outcome. © 2002 Wiley-Liss, Inc. MICROSURGERY 22:278,287 2002 [source]

Anterior versus posterior approach in reconstruction of infected nonunion of the tibia using the vascularized fibular graft: potentialities and limitations

MICROSURGERY, Issue 3 2002
Sherif M. Amr M.D.
The potentialities, limitations, and technical pitfalls of the vascularized fibular grafting in infected nonunions of the tibia are outlined on the basis of 14 patients approached anteriorly or posteriorly. An infected nonunion of the tibia together with a large exposed area over the shin of the tibia is better approached anteriorly. The anastomosis is placed in an end-to-end or end-to-side fashion onto the anterior tibial vessels. To locate the site of the nonunion, the tibialis anterior muscle should be retracted laterally and the proximal and distal ends of the site of the nonunion debrided up to healthy bleeding bone. All the scarred skin over the anterior tibia should be excised, because it becomes devitalized as a result of the exposure. To cover the exposed area, the fibula has to be harvested with a large skin paddle, incorporating the first septocutaneous branch originating from the peroneal vessels before they gain the upper end of the flexor hallucis longus muscle. A disadvantage of harvesting the free fibula together with a skin paddle is that its pedicle is short. The skin paddle lies at the antimesenteric border of the graft, the site of incising and stripping the periosteum. In addition, it has to be sutured to the skin at the recipient site, so the soft tissues (together with the peroneal vessels), cannot be stripped off the graft to prolong its pedicle. Vein grafts should be resorted to, if the pedicle does not reach a healthy segment of the anterior tibial vessels. Defects with limited exposed areas of skin, especially in questionable patency of the vessels of the leg, require primarily a fibula with a long pedicle that could easily reach the popliteal vessels and are thus better approached posteriorly. In this approach, the site of the nonunion is exposed medial to the flexor digitorum muscle and the proximal and distal ends of the site of the nonunion debrided up to healthy bleeding bone. No attempt should be made to strip the scarred skin off the anterior aspect of the bone lest it should become devitalized. Any exposed bone on the anterior aspect should be left to granulate alone. This occurs readily when stability has been regained at the fracture site after transfer of the free fibula. The popliteal and posterior tibial vessels are exposed, and the microvascular anastomosis placed in an end-to-side fashion onto either of them, depending on the length of the pedicle and the condition of the vessels themselves. To obtain the maximal length of the pedicle of the graft, the proximal osteotomy is placed at the neck of the fibula after decompressing the peroneal nerve. The distal osteotomy is placed as distally as possible. After detaching the fibula from the donor site, the proximal part of the graft is stripped subperiosteally, osteotomized, and discarded. Thus, a relatively long pedicle could be obtained. To facilitate subperiosteal stripping, the free fibula is harvested without a skin paddle. In this way, the use of a vein graft could be avoided. Patients presenting with infected nonunions of the tibia with extensive scarring of the lower extremity, excessively large areas of skin loss, and with questionable patency of the anterior and posterior tibial vessels are not suitable candidates for the free vascularized fibular graft. Although a vein graft could be used between the recipient popliteal and the donor peroneal vessels, its use decreases flow to the graft considerably. These patients are better candidates for the Ilizarov bone transport method with or without free latissimus dorsi transfer. © 2002 Wiley-Liss, Inc. MICROSURGERY 22:91,107 2002 [source]

Etiology of Late Free Flap Failures Occurring After Hospital Discharge,

THE LARYNGOSCOPE, Issue 11 2007
Mark K. Wax MD
Abstract Objectives: Vascular compromise of free flaps most commonly occurs in the immediate postoperative period in association with failure of the microvascular anastomosis. Rarely do flaps fail in the late postoperative period. It is not well understood why free flaps can fail after 7 postoperative days. We undertook a case review series to assess possible causes of late free flap failure. Study Design: Retrospective review at two tertiary referral centers: Oregon Health Sciences University and University of Alabama at Birmingham. Methods: A review of 1,530 flaps performed in 1,592 patients between 1998 and 2006 were evaluated to identify late flap failure. Late flap failure was defined as failure occurring after postoperative day 7 or on follow-up visits after hospital discharge. A prospective database with the following variables was examined: age, medical comorbidities, postreconstructive complications (fistula or infection), hematoma, seroma, previous surgery, radiation therapy, intraoperative findings at the time of debridement, nutrition, and, possibly, etiologies. Results: A total of 13 patients with late graft failure were identified in this study population of 1,530 (less than 1%) flaps; 6 radial forearm fasciocutaneous flaps, 2 rectus abdominis myocutaneous flaps, 4 fibular flaps, and 1 latissimus dorsi myocutaneous flap underwent late failure. The time to necrosis was a median of 21 (range, 7,90) days. Etiology was believed to possibly be pressure on the pedicle in the postoperative period in four patients (no sign of local wound issues at the pedicle), infection (abscess formation) in three patients, and regrowth of residual tumor in six patients. Loss occurring within 1 month was more common in radial forearm flaps and was presented in the context of a normal appearing wound at the anastomotic site, as opposed to loss occurring after 1 month, which happened more commonly in fibula flaps secondary to recurrence. Conclusion: Although late free flap failure is rare, local factors such as infection and possibly pressure on the pedicle can be contributing factors. Patients presenting with late flap failure should be evaluated for residual tumor growth. [source]

Intra-arterial Effects of Cisplatin on Microvascular Anastomoses in the Rat Model

THE LARYNGOSCOPE, Issue 8 2002
Deepak Gurushanthaiah MD
Abstract Objective To evaluate the patency of microvascular anastomoses in arteries exposed to intra-arterial cisplatin. Study Design Animal model. Methods The common iliac artery of 15 rats was injected with 150 mg/m2 cisplatin. Five rats were injected with the same volume of saline serving as physiological controls. The ipsilateral femoral artery was transected and anastomosed using microsurgical technique within 3 to 5 days. A Doppler probe was used before and after the anastomosis to assess blood flow. The vessel was re-examined on postoperative day 5. Pulsatile blood flow and the presence or absence of a Doppler signal was recorded at this time. Vessels were harvested to include the anastomosis site and fixed for histological evaluation. The contralateral femoral artery was also harvested for comparison. Results All femoral artery anastomoses in the experimental and control arm had good, pulsatile blood flow by microscopic evaluation. No thrombosed vessels were visualized, and Doppler signals remained strong at all vessel anastomoses. Histological analysis of the vessels revealed a trend toward increased inflammatory infiltrate in the walls of the vessels treated with cisplatin. We did not appreciate a functional decrease in lumen size. Conclusions Selective catheterization intra-arterial cisplatin chemotherapy does not affect the patency of vessels following a microvascular anastomosis in the rat model. The trend toward increased inflammatory response in the vessel walls may suggest the need for closer monitoring in patients treated with intra-arterial chemotherapy. [source]