Superior Genicular Artery Research Articles

The Human Knee: Gross, Microscopic, Surgical, and Radiological Anatomy

The Human Knee: Gross, Microscopic, Surgical, and Radiological Anatomy

Riscos e consequências do uso da técnica transportal na reconstrução do ligamento cruzado anterior: relação entre o túnel femoral, a artéria genicular lateral superior e o epicôndilo lateral do côndilo femoral

OBJECTIVE: Define a security zone to avoid possibles vascular and ligamentar complications during anterior cruciate ligament reconstruction. METHODS: Arthroscopic reconstruction using the transtibial and transportal technique in cadaver knees was performed followed by dissection and measurement of the distance between the femoral tunnel and the proximal attachment of the lateral collateral ligament and the femoral tunnel and the lateral superior genicular artery. RESULTS: The measure of the analysed distances show us an aproximation between the major branch of the lateral superior genicular artery and the femoral insertion of the colateral lateral ligament and the femoral tunnel during the transportal technique. CONCLUSION: We realize that the use of technical ship it to arthroscopic ACL reconstruction has a higher probability of injury to the lateral geniculate artery and insertion of the lateral collateral ligament, promoting post-surgical complications such as instability of the knee, osteonecrosis of the femoral condyle and ligamentizacao graft.

RISKS AND CONSEQUENCES OF USING THE TRANSPORTAL TECHNIQUE IN RECONSTRUCTING THE ANTERIOR CRUCIATE LIGAMENT: RELATIONSHIPS BETWEEN THE FEMORAL TUNNEL, LATERAL SUPERIOR GENICULAR ARTERY AND LATERAL EPICONDYLE OF THE FEMORAL CONDYLE

Objective: Define a security zone to avoid possibles vascular and ligamentar complications during anterior cruciate ligament reconstruction. Methods: Arthroscopic reconstruction using the transtibial and transportal technique in cadaver knees was performed followed by dissection and measurement of the distance between the femoral tunnel and the proximal attachment of the lateral collateral ligament and the femoral tunnel and the lateral superior genicular artery. Results: The measure of the analysed distances show us an aproximation between the major branch of the lateral superior genicular artery and the femoral insertion of the colateral lateral ligament and the femoral tunnel during the transportal technique. Conclusion: We realize that the use of technical ship it to arthroscopic ACL reconstruction has a higher probability of injury to the lateral geniculate artery and insertion of the lateral collateral ligament, promoting post-surgical complications such as instability of the knee, osteonecrosis of the femoral condyle and ligamentização graft.

Safe Dissection of the Distally Based Anterolateral Thigh Flap

The distally based anterolateral thigh (ALT) flap is an interesting reconstructive solution for complex soft tissue defects of the knee. In spite of a low donor site morbidity and wide covering surface as well as arch of rotation, it has never gained popularity among reconstructive surgeons. Venous congestion and difficult flap dissection in the presence of a variable anatomy of the vascular pedicle are the possible reasons. An anatomical study of 15 cadaver legs was performed to further clarify the blood supply of the distally based ALT. Our early experience with the use of preoperative angiography and a safe flap design modification that avoids distal intramuscular skeletonization of the vascular pedicle and includes a subcutaneous strip ranging from the distal end of the flap to the pivot point is presented. The distally based ALT presents a constant and reliable retrograde vascular contribution from the superior genicular artery. Preoperative angiography reliably identified and avoided critical Shieh Type II pedicled flaps. The preservation of a subcutaneous strip ranging from the distal flap end to the upper knee was associated with the absence of venous congestion in a short case series. Preoperative angiography and a flap design modification are proposed to allow the safe transfer of the distally based ALT to reconstruct soft tissue defects of the knee.

Pseudoaneurysm of the genicular artery after wound closure using a skin stapler in a child

A 9-year-old child with a left humerus fracture also had minor skin cuts on the right knee, which were closed with a skin stapler. After 1 week, a medial superior genicular artery pseudoaneurysm developed, which was treated by ultrasound-guided compression. This case illustrates a unique complication of the use of a skin stapler device.

Pseudoaneurysm of the superior medial genicular artery following knee arthroscopy

We describe a case of a pseudoaneurysm of the superior medial genicular artery following arthroscopic knee surgery, which was diagnosed by means of computed tomography and arterial duplex ultrasound. The treatment consisted of surgical exploration with excision of the pseudoaneurysm, followed by ligation of the feeding artery.

The anatomical characteristics and clinical application of the lateral superior genicular artery perforator iliotibial band flap

Objective To discuss anatomical characteristics and clinical results of the lateral superior genicular artery perforator iliotibial band flap. Methods From September 1999 to July 2009, the origin,course, branches and distribution of the lateral superior genicular artery and blood supply of iliotibial band were observed on 40 sides adult lower limbs perfused with red latax. Five perforator iliotibial band and 4 perforator iliotibial band flaps of 9 cases were treated with anastomosis of lateral superior genicular artery perforating rami. Results The lateral superior genicular artery of 35 cases (80%) originates from the popliteal artery. Its originated external diameter was (1.8 ± 0.4) mm. It divides into ascending branch and descending branch, and they gives off septofascio-cutaneous perforator, or anatomoses the lateral uppermost genicular artery in the vastus lateralis muscle, and then formes the musculocutaneous perforator of iliotibial band. The originated external diameter of the larger perforator of iliotibial bands was ( 1.0 ± 0.2) mm and they provides for the skin and iliotibial band of lateral superior genicular area. Nine cases, including 5 cases of simple Achilles tendon defects, two cases of achilles tendon defects with skin defects, and 2 cases of lower extremity and foot soft tissue defects were treated with transplantation of the vascularized iliotibial band (flap) with perforator vascular anastomoses. All cases were followed up 6 - 92 months. The results showed significant improvement in heel test and Thompson sign in the rerupture of the Achilles tendon occurred. Four perforator iliotibial band flaps survived well. Conclusion The lateral superior genicular artery perforator iliotibial band flap is a practical, simple and new donor in the reconstruction of soft tissue and composite defects. Key words: Iliotibial band; Perforator flap; Lateral superior genicular artery; Microsurgery

Clinical application of descending genicular artery perforator flap

Objective To discuss clinical application of descending genicular artery perforator flap.Methods According to the anatomic features of direction,branches and anastomosis of the descending genicular artery,the descending genicular genicular artery perforator flap at medial superior aspect of knee joint was designed to reconstruct the soft tissue defects at the anterior medial 1/3 of the calf and the anterior medial part and popliteal fossa of the knee,with the axis based on the anterior border of the Sartorius and with the pivot point on the site where the cutaneous branches from the superior medial genicular artery pierced out within the triangle concave surface bounded by the vastus medialis,the tendon of adductor magnus and the condylus medialis.Results All flaps survived well in five patients,with primary healing.After a follow-up of 1-12 months,all flaps turned out to be with good texture,near-normal color and good appearance.Conclusion With a constant anatomic location,excellent blood supply and easy surgical procedure,the descending genicular artery perforator flap is one of feasible ways for repair of soft tissue defects around the knee. Key words: Soft tissue injuries; Surgical flaps; Descending genicular artery

Antegrade Venous Drainage in a Reverse-Flow Anterolateral Thigh Flap

Sir: The distally based, reverse-flow anterolateral thigh flap variant was described by Zhang in 1990.1 The flow pattern in this flap is well understood and involves communication between the descending branch of the lateral circumflex femoral artery and the lateral superior genicular artery or profunda femoris artery,2 providing pedicled flap coverage of the knee and a satisfactory donor defect. However, venous congestion and edema may compromise the flap (Fig. 1).3,4 We present an innovative method for antegrade augmentation of venous outflow in the reverse-flow anterolateral thigh flap, to improve reliability.Fig. 1.: Although venous congestion subsided within days, the viability of the flap was jeopardized, and it was felt that partial flap loss might occur in the reverse-flow anterolateral thigh flap. Appearance (left) 2 days after flap transfer and (right) 9 days later.The cutaneous perforators are located by means of a Doppler probe and marked. The skin paddle is based over the distal perforator. The medial incision continues down to deep fascia. The perforators are identified in the subfascial plane, lateral to the incision, and are traced to the descending branch of the lateral circumflex femoral artery. If the perforators arise from the transverse branch of the lateral circumflex femoral artery, the flap must be raised as a free flap. The final flap design is then marked and the lateral portion of the flap is elevated. A vascular clamp is applied temporarily to the proximal descending branch of the lateral circumflex femoral artery to confirm adequate flap circulation. The descending branch is then divided proximally, at the junction of descending and transverse branches. The descending branch is dissected distally until an adequate pivot point is reached. The flap is transposed into the recipient site. The great saphenous vein is then transposed anteriorly by open incision or subcutaneous tunnel. The proximal flap pedicle is swung anteriorly and the major concomitant pedicle vein is anastomosed to the great saphenous vein (Fig. 2). The vascular pedicle of the flap is sufficient to reach the great saphenous vein easily. Thus, the flap is drained by the great saphenous vein in an antegrade manner.Fig. 2.: Before anastomosing the major concomitant vein of the proximal flap pedicle to the great saphenous vein, the flap appeared bluish and dusky, and bleeding of dark blood was found at the flap margin.The abundant vasculature around the knee enables various local flap possibilities.5 However, donor-site cosmesis may limit the use of local cutaneous flaps, and regional muscle flaps may produce unacceptable functional and aesthetic deficits. Also, free flap techniques may entail long procedures and changes of patient position. The reverse-flow anterolateral thigh flap provides good wound coverage around the knee. Even in defects involving patellar tendon loss, this flap can also provide fascia lata for one-stage reconstruction.2 However, reports describing the use of the reverse-flow anterolateral thigh flap are scant.1–4 Venous congestion would seem to be the main complication limiting its appeal. In our first three conventional reverse-flow anterolateral thigh flaps, venous congestion occurred in every case and, although subsiding within days, it did jeopardize flap viability, with one episode of partial flap necrosis. In the subsequent case, venous drainage was augmented by anastomosis to the great saphenous vein, as described, allowing physiologic venous drainage from the flap. In this case, congestion did not arise. This technique added approximately 30 minutes to the operating time. Antegrade augmentation of venous drainage in the reverse-flow anterolateral thigh flap by anastomosis of one concomitant vein to the great saphenous vein may improve the reliability of this useful flap. ACKNOWLEDGMENT The authors thank C. P. O'Boyle, M.D., for assistance with the preparation of this article. DISCLOSURE None of the authors has a financial interest to declare in relation to the content of this article. Cheng-Hung Lin, M.D. Chung-Chen Hsu, M.D. Chih-Hung Lin, M.D. Yi-Chieh Chen, M.D. Fu-Chan Wei, M.D. Department of Plastic and Reconstructive Surgery Chang Gung Memorial Hospital Chang Gung Medical College and Chang Gung University Taipei, Taiwan

Treatment for soft tissue defect combined with infection in the knee and upper leg used reverse anterolateral thigh flap or musculocutaneous flap.

Objective To investigate the clinical effect of reverse anterolateral thigh flap with lateral superior genicular artery or musculocutaneous flap for treating soft tissue defect combined with infection in the knee and upper leg. Methods From March 2007 to March 2008, 11 patients with soft tissue defect combined with infection in the knee and upper leg were treated in our hospital. There were 8 males, 3 fe-males, with the mean age of 33.4 years (range, 23-65 years), left thigh for 7 patients and right thigh for 4 patients. The course of disease was ranged for 6 hours to 8 months. One patient was caused by a open injury leading to skin and soft tissue defect in the anteroinferior knee combined with the fracture of tibial plateau, and was treated with debridement, internal fixation and transferring flap; ten patients were caused by the chronics infection with skin and soft tissue defect, and were treated with transferring anterolateral thigh flap later after treating with anti-infection, debridement and drainage. The injury area ranged from 6.3 cm×3.0 cm to 12 cm×7 cm. Results All patients were followed up for 3 to 6 months, with the average 4.7 months. All the flaps kept alive after operation. Three cases were debrided again in the followed 1-2 weeks because of the unhealing borderline of the flaps. Nine cases were sutured without need for skin graft, 2 cases had partial skin graft. No infection and necrosis were found in all flaps and the flaps were all alive after 3 months fol-low-up. The knee joints of all patients had a good motion. Conclusion The soft tissue defect combined with infection in the knee and upper leg can be treated with reverse anterolateral thigh flap, after controlling in-fection successfully. The flaps were thin and easy to alive, the musculocutaneous flaps can obturate the space and anti-infection. This method can reduce the operative trauma especially without need for the skin graft and get a good effect. Key words: Surgical flaps; Soft tissue injuries; Infection

Pseudoaneurysm of the Medial Superior Genicular Artery after Arthroscopic Partial Meniscectomy

We describe a case of 43-year-old man who had a pseudoaneurysm of the medial superior genicular artery after arthroscopic partial meniscectomy with standard anterolateral and anteromedial portals. Pseudoaneurysm of the medial superior genicular artery has been reported at the previous superomedial portal site after arthroscopy. Described herein is a unique case that involved the medial superior genicular artery at the previous anteromedial portal site after arthroscopy. The pseudoaneurysm was successfully treated with transcatheter embolization.

A Case of Therapeutic Embolization of Hemarthrosis due to Pseudoaneurysm

Hemarthrosis can occur in patients with a predisposition to hemorrhage such as hemophilia or anticoagulant therapy. A 72-year-old man presented with an acute painful swelling in the right knee. He was on anticoagulant therapy after a mechanical aortic valve replacement due to aortic valve insufficiency. There was no history of trauma and international normalized ratio (INR) was maintained at 3.76. On arthrocentesis of the knee, bloody synovial fluid was obtained. With the diagnosis of hemarthrosis, INR was maintained at 2. With immobilization, the knee pain gradually improved. Three weeks after discharge, right knee painful swelling was exacerbated, and arthrocentesis again revealed bloody synovial fluid. After magnetic resonance imaging (MRI) was performed, pseudoaneurysm of the right lateral superior genicular artery was diagnosed. The angiographic embolization was performed after which, he showed marked improvement. Knee MRI should be considered in hemarthrosis with atypical clinical progress, because it can detect lesions amenable to therapeutic intervention as in this case.

An inconstant ligament in the popliteal region associated to the superior genicular arteries: surgical importance

In the dissection of 60 knees of 30 cadavers (13 women and 17 men), a ligament was located in the posterior femur face above the lateral or medial condyle. This ligamentous structure was found in 12 (20%) out of 60 knees studied (38% of the women and 35% of the men). It had a vertical arrangement and a constant direct relation to the superior (lateral or medial) genicular artery, and in no case it appeared as a posterior reinforcement of the capsule. The superior vessels were fixed by this ligament. This fixation may provide stability to the vascular tree but it could be a cause of post-surgical hemarthrosis in arthroscopy of the posterior knee area or in posterior or lateral knee approaches or it could be even implicated in vascular injury of the popliteal artery during knee dislocation. The objective was to describe this inconstant ligament and to study its clinical relevance for surgical procedures, and particularly for those using the posterior approach to the knee joint.

Distally Based Anterolateral Thigh Flap: An Anatomic and Clinical Study

The distally based anterolateral thigh flap has been used for coverage of soft-tissue defects of the knee and upper third of the leg. This flap is based on the septocutaneous or musculocutaneous perforators derived from the lateral circumflex femoral system. The purpose of this study was to examine the results of anatomical variations of the descending branch of the lateral circumflex femoral artery and the retrograde blood pressure of the descending branch of the lateral circumflex femoral artery so that the surgical technique for raising and transferring a distally based anterolateral thigh flap to the knee region could be improved. The authors have actually used this flap in three cases. In 11 thighs of six cadavers, the descending branch of the lateral circumflex femoral artery had a rather consistent connection with the lateral superior genicular artery or profunda femoral artery in the knee region. The pivot point, located at the distal portion of the vastus lateralis muscle, ranges from 3 to 10 cm above the knee. In their three cases, the maximal flap size was 7.0 x 16.0 cm and was harvested safely, without marginal necrosis. The mean pedicle length was 15.2 +/- 0.7 cm (range, 14.5 to 16 cm). The average proximal and distal retrograde blood pressure of the descending branch of the lateral circumflex femoral artery was also studied in another 11 patients, and the anterolateral thigh flap being used for reconstruction of head and neck defects showed 58.3 and 77.7 percent of proximal antegrade blood pressure, respectively. The advantages of this flap include a long pedicle length, a sufficient tissue supply, possible combination with fascia lata for tendon reconstruction, and favorable donor-site selection, without sacrifice of major vessels or muscles.

The vascular supply of the extended tensor fasciae latae flap: how far can the skin paddle extend?

The vascular supply of the tensor fasciae latae flap and of the lateral thigh skin was studied in 10 cadavers to evaluate whether the lateral thigh skin toward the knee could be incorporated into an extended tensor fasciae latae flap. Within each cadaver, vascular injection of radiopaque material preceded flap elevation in one limb and followed flap elevation in the contralateral limb. Flaps raised after vascular injection were examined radiographically to evaluate the vascular anatomy of the lateral thigh skin independent of flap elevation. When vascular injection was made into the profunda femoris, the upper two-thirds of the flaps was better visualized than the distal third. When the injection was made into the popliteal artery, the vasculature of the distal third of the flaps was better visualized. Flaps raised before vascular injection were examined radiographically to delineate the anatomical territory of the vascular pedicle that had been injected. In these flaps, consistent cutaneous vascular supply was only seen in the skin overlying the tensor fasciae latae muscle, confirming that musculocutaneous perforators are the predominant means by which the pedicle of the tensor fasciae latae flap supplies the skin of the lateral thigh. Extended tensor fasciae latae flaps were elevated bilaterally in one cadaver, and selective methylene blue injections were made into the lateral circumflex femoral artery on one side and into the superior lateral genicular artery on the contralateral side. Methylene blue was observed in the proximal and distal thirds of the skin paddles, respectively, leaving unstained midzones. The vascular network of the lateral thigh skin could be divided into three zones. The lateral circumflex femoral artery and the third perforating branches of the profunda femoris artery perfuse the proximal and middle zones of the lateral thigh skin, respectively. The superior lateral genicular artery branch of the popliteal artery perfuses the distal zone. The middle and distal zones meet 8 to 10 cm above the knee joint, where the skin paddle of the tensor fasciae latae flap becomes unreliable. These data indicate that if the aim is to incorporate the skin over the distal thigh in an extended tensor fasciae latae flap without resorting to free-tissue transfer, then either a carefully planned delay procedure or an additional anastomosis to the superior lateral genicular artery is required.

Therapeutic embolization of the genicular arteries for recurrent hemarthrosis after total knee arthroplasty

The case of a recurrent hemarthrosis initially presenting 30 months after a total knee arthroplasty in a patient on lifelong warfarin is described. Angiography was used to aid in the diagnosis, and therapeutic selective embolization of the superior genicular arteries was performed with satisfactory clinical results.

Instructional Course Lectures, The American Academy of Orthopaedic Surgeons - Common Complications of Total Knee Arthroplasty*†

AYERS, DAVID C. M.D.‡, SYRACUSE, NEW YORK; DENNIS, DOUGLAS A. M.D.§, DENVER, COLORADO; JOHANSON, NORMAN A. M.D.¶, PHILADELPHIA; PELLEGRINI, VINCENT D. JR. M.D.,#, HERSHEY, PENNSYLVANIA Author Information

Patellar Fractures in Posterior Stabilized Knee Arthroplasties

In the present study, a significantly higher rate of lateral release was demonstrated in the patients with patellar fractures despite the relative high overall lateral release rate (82%). Although the complication of patellar fractures in total knee arthroplasty has a multifactorial etiology, these findings implicate lateral retinacular release as a significant factor. It is unclear whether the lateral retinacular release was a direct result of the surgical technique or whether it was necessitated by the anatomy of the patellofemoral articulation in this component system. Lateral release may continue to be performed as needed during total knee arthroplasty to maintain optimal patellofemoral mechanics. However, if it is performed, an attempt should be made to preserve the lateral superior genicular artery.

Therapeutic embolization of false aneurysms of the superior medial genicular artery after operations on the knee. A report of two cases.

Therapeutic embolization of false aneurysms of the superior medial genicular artery after operations on the knee. A report of two cases.

The lower posterolateral thigh flap

The vascular basis of a new distally based flap in the distal third of the posterolateral thigh has been studied in 30 cadaver limbs. This flap is supplied mainly by direct cutaneous branches of the popliteal artery and of the lateral superior genicular artery. Its use as a distally based fasciocutaneous flap for defects of the knee is illustrated and its potential as a free flap is discussed. A classification of various flaps from the posterolateral region of the thigh is also proposed. In the light of the anatomical studies, the cutaneous blood supply of the distal posterolateral region and other regions of the thigh is reviewed.