Efficacy of combining a medial superior malleolar perforator flap from the posterior tibial artery with a vacuum-assisted closure dressing for skin and soft tissue defects of the Achilles tendon area.

OBJECTIVE: This randomized clinical trial aimed to investigate the clinical efficacy of combining a medial superior malleolar perforator flap from the posterior tibial artery (PTAPF) with a vacuum-assisted closure (VAC) dressing for skin and soft tissue defects in the Achilles tendon area. METHODS: Twenty-eight patients were randomly divided into two equally sized groups: the control group received treatment with a medial superior malleolar perforator flap, while the experimental group was treated with a perforator flap from the posterior tibial artery in combination with a VAC dressing. Perioperative data, including average operative time, intraoperative blood loss, intraoperative complications, time to ambulation, and hospital stay after surgery, were recorded. Clinical outcomes were assessed based on the time to first weight-bearing walking, time to full weight-bearing activity, Visual Analog Scale (VAS) score, American Orthopaedic Foot and Ankle Society hindfoot and ankle score, and the range of motion for ankle plantar flexion. RESULTS: The patients were monitored for 3-12 months (average, 8.5), and it was observed that the flaps remained stable without enlargement, and their texture and color were similar to the surrounding tissue. Significantly enhanced postoperative indices were noted in the experimental group compared to the control group (P<0.05). CONCLUSION: The medial superior malleolar perforator flap from the posterior tibial artery, especially when combined with a VAC dressing, proves to be an effective method for repairing medium-sized skin defects in the Achilles tendon area. This approach offers several benefits, including a reliable blood supply, simplicity of the procedure, decreased damage to the donor site, improved aesthetic outcomes, and fewer postoperative complications.

Posterior perforator tibial artery flaps for soft tissue defects of limbs: a retrospective cohort study.

PURPOSE: To investigate the clinical effect of posterior perforator tibial artery flaps on repairing soft tissue defects of limbs. METHODS: From June 2012 to June 2021, 14 cases of soft tissue defects of limbs were repaired with pedicled or free flaps of posterior perforator tibial artery. Among them, there were 9 cases of pedicled flaps and 5 cases of free flaps. The donor sites were closed directly or covered with skin grafting. The defects area varied from 3 × 5 cm to 7 × 16 cm. All cases were followed up for 1 year to 2 years. RESULTS: All flaps survived completely except 3 cases with distal end necrosis and the 3 cases healed after dressing change. There were not any other complications at both donor and recipient sites. Appearance of the recipient sites was close to the surrounding skin. All patients were satisfied with the results. CONCLUSION: Posterior perforator tibial artery flaps have the advantages of relatively simple technique, few damage, few complications and satisfying appearance. It is a good choice for soft tissue defects of limbs.

Repairing of recurrent leg ulcer induced by hydroxyurea with posterior tibial artery perforator propeller flap: Case report.

INTRODUCTION AND IMPORTANCE: Hydroxyurea is a cytotoxic drug commonly used to treat various myeloproliferative disorders. However, prolonged oral administration of this drug may trigger skin side effects and ulcers. There are few clinical reports on treating leg ulcers caused by hydroxyurea and even fewer clinical reports on managing recurrent ulcers after treatment. CASE PRESENTATION: An 87-year-old woman with essential thrombocythemia presented with a painful skin ulcer on her left calf. After failed outpatient treatment, she opted for hospitalisation for free skin grafting. Four months later, ulcers reappeared at the transplant site, leading to her readmission to the hospital. The diagnosis revealed that the leg ulcers were caused by hydroxyurea. Despite this, she persisted with hydroxyurea treatment and subsequently underwent posterior tibial artery perforator flap surgery. During the two-year follow-up, a new ulcer developed on the medial condyle of her other calf. However, no new ulcers or local pain were observed in the area where perforator flap grafting was performed. CLINICAL DISCUSSION: Leg ulcers caused by hydroxyurea are rare clinically and can easily be misdiagnosed. There is currently minimal research on ulcer recurrence after treatment. Posterior tibial perforator flaps may more effectively promote the healing of recurrent ulcers. CONCLUSION: Compared to conservative treatment and skin grafting surgery, the posterior tibial artery perforator flap offers a dependable blood supply and enhances the likelihood of wound healing. It can be considered an option, particularly for recurrent and refractory ulcers, even without discontinuing medication.

Posterior Tibial Artery Aneurysm Caused by Trauma: A Case Report.

In this study, we present a case of 59-year-old man with a posterior tibial artery (PTA) aneurysm. Mostly, PTA aneurysm is caused by trauma, infection, and iatrogenic injury. The patient had a history of ankle trauma that occurred 2 years ago. Computed tomography and ultrasonography showed a 7×14 mm PTA aneurysm. The aneurysm was resected and primary end-to-end anastomosis was performed. So far, there are only few reported cases of PTA aneurysm. Herein, we describe the surgical strategy and provide detailed intraoperative images.

Clinical application of posterior tibial artery or peroneal artery perforator flap in curing plate exposure after ankle fracture fixation.

The study aims to evaluate the clinical application of posterior tibial artery or peroneal artery perforator flap in the treatment of plate exposure after ankle fracture fixation. A posterior tibial artery or peroneal artery perforator flap was used on 16 patients with plate exposure after ankle fracture fixation in our hospital between July 2018 and July 2021. The time required to harvest the flap, the amount of intraoperative blood loss, the duration of postoperative drainage tube placement, the outcome of the flap and the healing observed at the donor site are reported. The sizes of the flaps were 2.5-7.0 cm × 5.0-18.0 cm and averaged 4.0 cm × 12.0 cm. The time required to harvest the posterior tibial artery or peroneal artery perforator flap ranged from 35 to 55 min and averaged 45 min. The amount of intraoperative blood loss ranged from 20 to 50 mL and averaged 35 mL. The duration of postoperative drainage tube placement ranged from 3 to 5 days and averaged 4 days. A total of 15 flaps survived and one flap had partial necrosis and survived after conservative treatment. All donor area defects were directly sewed and stitched without complications. There are multiple advantages of the posterior tibial artery or peroneal artery perforator flap, including simple preparation technique, reliable repair of the defects and without the need for performing microvascular anastomosis. It can be safely used in curing plate exposure after ankle fracture fixation and worth popularizing in grassroots hospitals.

Successful Endovascular Therapy Using the Transtibial Approach in a Patient With a History of Iliofemoral and Femorofemoral Surgical Bypass.

Multiple stenotic lesions may restrict the access sites for endovascular therapy in the lower extremity arteries. Because guide sheaths used for endovascular therapy have recently become easier to insert, they are directly inserted into the posterior tibial or dorsalis pedis artery to perform the transtibial approach. We herein describe an 81-year-old man who was admitted to our hospital because of claudication of the left lower extremity. He had a history of left iliofemoral and femorofemoral bypass surgery. The patient's symptom was due to a stenotic lesion extending from the left common femoral artery to the distal part of the left superficial femoral artery. In an angiographic procedure using the antegrade approach via the right radial artery, a multipurpose catheter became stuck in the middle of the left iliofemoral bypass. The antegrade ipsilateral approach was too close to the stenotic lesion for the insertion of the guide sheath. Therefore, a retrograde approach using a 5-French guide sheath inserted via the dorsalis pedis artery was successfully performed.

Impact of Dynamic Change of Meandering of Parallel Artery to the Idiopathic Tarsal Tunnel Syndrome.

In idiopathic tarsal tunnel syndrome (TTS), walking seems to make symptoms worse. The findings imply that an ankle movement dynamic component may have an impact on the etiology of idiopathic TTS. We describe how the ankle movement affects the nerve compression caused by the surround tissue, particularly the posterior tibial artery. We enrolled 8 cases (15 sides) that had TTS surgery after tarsal tunnel (TT) MRI preoperatively. Dorsiflexion and plantar flexion were the two separate ankle positions used for the T2* fat suppression 3D and MR Angiography of TT. Based on these findings, we looked at how the two different ankle positions affected the posterior tibial artery's ability to compress the nerve. Additionally, we assessed the posterior tibial artery's distorted angle. We divided the region around the TT into four sections: proximal and distal to the TT and proximal half and distal half to the TT. Major compression cause was posterior tibial artery. Most severe compression point was proximal half in the TT in all cases without one case. In each scenario, the nerve compression worsens by the plantar flexion. The angle of the twisted angle of the posterior tibial artery was significantly worsened by the plantar flexion. In idiopathic TTS, deformation of posterior tibial artery was the primary compression component. Nerve compression was exacerbated by the plantar flexion, and it was attributable with the change of the distorted angle of the posterior tibial artery. This could be a contributing factor of the deteriorating etiology by walking in idiopathic TTS.

The bifurcation and topography of the posterior tibial artery within the tarsal tunnel.

PURPOSE: The tarsal tunnel (TT) is a fibro-osseous anatomical space coursing from the medial ankle to the medial midfoot. This tunnel acts as a passage for both tendinous and neurovascular structures, including the neurovascular bundle containing the posterior tibial artery (PTA), posterior tibial veins (PTVs) and tibial nerve (TN). Tarsal tunnel syndrome (TTS) is the entrapment neuropathy that describes the compression and irritation of the TN within this space. Iatrogenic injury to the PTA plays a significant role in both the onset and exacerbation of TTS symptoms. The current study aims to produce a method to allow clinicians and surgeons to easily and accurately predict the bifurcation of the PTA, to avoid iatrogenic injury during treatment of TTS. METHODS: Fifteen embalmed cadaveric lower limbs were dissected at the medial ankle region to expose the TT. Various measurements regarding the location of the PTA within the TT were recorded and multiple linear regression analysis performed using RStudio. RESULTS: Analysis provided a clear correlation (p < 0.05) between the length of the foot (MH), length of hind-foot (MC) and location of bifurcation of the PTA (MB). Using these measurements, this study developed an equation (MB = 0.3*MH + 0.37*MC - 28.24 mm) to predict the location of bifurcation of the PTA within a 23° arc inferior to the medial malleolus. CONCLUSIONS: This study successfully developed a method whereby clinicians and surgeons can easily and accurately predict the bifurcation of the PTA, to avoid iatrogenic injury that would previously lead to an exacerbation of TTS symptoms.

A Randomized Trial to Compare Ultrasound-Guided Dorsalis Pedis Versus Posterior Tibial Artery Cannulation in Neurosurgical Patients.

Introduction Dorsalis pedis or posterior tibial artery is selected as an alternative to radial artery cannulation when there is no access or unsuccessful cannulation of a radial artery. This study aimed to compare the two major arteries of the foot (dorsalis pedis and posterior tibial) in terms of their ultrasound (USG)-guided cannulation characteristics in patients posted for elective neurosurgical procedures. Methods All consenting patients, 18-65 years of age, scheduled for elective neurosurgical procedures under general anesthesia requiring arterial cannulations were enrolled. The first-pass success rate, assessment time, cannulation time, total procedural time, and the number of cannulation attempts for both procedures were estimated. Results A total of 90 patients were included in the study. The assessment time, cannulation time, and total time for arterial cannulation were significantly greater in the dorsalis pedis artery group than in the posterior tibial artery group (p < 0.001). Successful arterial cannulation in the first attempt was 73.3% in the dorsalis pedis, whereas it was 80% in the posterior tibial group but comparable (p = 0.455). The successful cannulation outcome was slightly more in the posterior tibial artery group but comparable (p = 1.00). Conclusion First-pass successful cannulation rates in the posterior tibial and the dorsalis pedis artery are comparable. However, the assessment time, cannulation time, and total procedural time are higher and statistically significant for dorsalis pedis artery cannulation compared to the posterior tibial artery group.

[Application of augmented reality technique in repairing soft tissue defects of lower limbs with posterior tibial artery perforator flap].

Objective: To investigate the accuracy and reliability of augmented reality (AR) technique in locating the perforating vessels of the posterior tibial artery during the repair of soft tissue defects of the lower limbs with the posterior tibial artery perforator flap. Methods: Between June 2019 and June 2022, the posterior tibial artery perforator flap was used to repair the skin and soft tissue defects around the ankle in 10 cases. There were 7 males and 3 females with an average age of 53.7 years (mean, 33-69 years). The injury was caused by traffic accident in 5 cases, bruising by heavy weight in 4 cases, and machine injury in 1 case. The size of wound ranged from 5 cm×3 cm to 14 cm×7 cm. The interval between injury and operation was 7-24 days (mean, 12.8 days). The CT angiography of lower limbs before operation was performed and the data was used to reconstruct the three-dimensional images of perforating vessels and bones with Mimics software. The above images were projected and superimposed on the surface of the affected limb using AR technology, and the skin flap was designed and resected with precise positioning. The size of the flap ranged from 6 cm×4 cm to 15 cm×8 cm. The donor site was sutured directly or repaired with skin graft. Results: The 1-4 perforator branches of posterior tibial artery (mean, 3.4 perforator branches) in 10 patients were located by AR technique before operation. The location of perforator vessels during operation was basically consistent with that of AR before operation. The distance between the two locations ranged from 0 to 16 mm, with an average of 12.2 mm. The flap was successfully harvested and repaired according to the preoperative design. Nine flaps survived without vascular crisis. The local infection of skin graft occurred in 2 cases and the necrosis of the distal edge of the flap in 1 case, which healed after dressing change. The other skin grafts survived, and the incisions healed by first intention. All patients were followed up 6-12 months, with an average of 10.3 months. The flap was soft without obvious scar hyperplasia and contracture. At last follow-up, according to the American Orthopedic Foot and Ankle Association (AOFAS) score, the ankle function was excellent in 8 cases, good in 1 case, and poor in 1 case. Conclusion: AR technique can be used to determine the location of perforator vessels in the preoperative planning of the posterior tibial artery perforator flap, which can reduce the risk of flap necrosis, and the operation is simple.

An anatomical study of the tibial nerve branches innervating the posterior tibial artery.

The arteries of the lower limbs are innervated by vascular branches (VBs) originating from the lumbar sympathetic trunk and branches of the spinal nerve. Although lumbar sympathectomy is used to treat nonreconstructive critical lower limb ischemia (CLLI), it has limited long-term effects. In addition, the anatomical structure of tibial nerve (TN) VBs remain incompletely understood. This study aimed to clarify their anatomy and better inform the surgical approach for nonreconstructive CLLI. Thirty-six adult cadavers were dissected under surgical microscopy to observe the patterns and origin points of VBs under direct vision. The calves were anatomically divided into five equal segments, and the number of VB origin points found in each was expressed as a proportion of the total found in the whole calf. Immunofluorescence staining was used to identify the sympathetic nerve fibers of the VBs. Our results showed that the TN gave off 3-4 VBs to innervate the posterior tibial artery (PTA), and the distances between VBs origin points and the medial tibial condyle were: 24.7 ± 16.3 mm, 91.7 ± 66.1 mm, 199.6 ± 52.0 mm, 231.7 ± 38.5 mm, respectively. They were mainly located in the first (40.46%) and fourth (31.68%) calf segments, and immunofluorescence staining showed that they contained tyrosine hydroxylase-positive sympathetic nerve fibers. These findings indicate that the TN gives off VBs to innervate the PTA and that these contain sympathetic nerve fibers. Therefore, these VBs may need to be cut to surgically treat nonreconstructable CLLI.

Comparison of Ultrasound-Guided Versus Palpatory Method of Posterior Tibial Artery Cannulation: A Prospective Randomized Controlled Study.

INTRODUCTION: Superficial arteries, such as radial and dorsalis pedis arteries, are commonly cannulated for invasive blood pressure monitoring. Failure to cannulate these arteries necessitates alternate arteries, such as the posterior tibial artery (PTA). The deep-seated anatomy of PTA makes arterial cannulation precarious by the palpatory technique. Ultrasound guidance during PTA cannulation may overcome this problem. With this background, we evaluated the ultrasound-guided (USG) versus palpatory method for PTA cannulation with respect to the first attempt's success and number of attempts. METHODS: A total of 240 American Society of Anesthesiology (ASA) physical status I-IV adult patients undergoing major surgeries requiring arterial cannulation were randomly allocated (1:1) to group A (USG-guided cannulation, n = 120) and Group B (cannulation by palpatory technique, n =120). PTA was cannulated by either of the techniques according to randomization. Data were analyzed and compared in both groups for first-attempt success, number of attempts, assessment time, cannulation time, and complications. RESULT: The successful cannulation in the first attempt in Group A was 25.8% (n = 31), and in Group B, it was 12.5% (n = 15) (p = 0.009). In Group A, 78.3% of patients (n = 94) had successful cannulation, and in group B, 65% of patients (n =78) had successful cannulation (p = 0.022). Both groups had similar assessment time (p = 0.348) and cannulation time (p = 0.864). CONCLUSION: USG-guided PTA cannulation offers a greater chance of success without any added increase in procedure time.

Posteromedial structure protection during ankle replacement: Surgical technique.

Residual pain after ankle replacement may implicate lesions in posteromedial structures, including the posterior tibial pedicle and tendon. The technique described here protects these structures, by positioning a malleable plate via a medial retromalleolar counter-approach. The technique seems not to cause any specific iatrogenicity. We advocate systematic implementation of this kind of protection in ankle replacement surgery. LEVEL OF EVIDENCE: IV, retrospective study.

An Experience With an Exoscope System (ORBEYE) for Surgery for Tarsal Tunnel Syndrome: A Case Report.

Surgery for peripheral entrapment neuropathy aims to decompress the affected nerve and optimize the visualization of anatomical details during surgery. This paper describes our experience using the ORBEYE exoscope (Olympus) during surgery for tarsal tunnel syndrome (TTS). The patient was a 70-year-old male with complaints of bilateral pain and numbness on the plantar surface of the bilateral soles and medial halves of both lower limbs. He was diagnosed with idiopathic TTS with the American Orthopedic Foot and Ankle Score (AOFAS) of 20/100. Surgery for the right foot was performed under local anesthesia with the patient's body in the lateral position. All procedures were performed using the ORBEYE exoscope view. The posterior tibial artery (PTA) was transposed, and the flexor retinaculum was reconstructed between the PTA and posterior tibial nerve. Indocyanine green (ICG) video angiography confirmed the absence of PTA flow disturbance. One month after the first operation, left foot surgery was performed. Three months later, the AOFAS had improved from 20/100 to 50/100. The ORBEYE exoscope is useful in TTS treatment and represents a feasible and comfortable technique for entrapment neuropathy surgery. In addition, ICG capability is an effective tool for confirming blood flow in PTA after transposition.

Medial Soft tissue and medial malleolus loss-the posterior tibial artery perforator technique combined with iliac crest autograft to Stabilize the ankle and cover Soft tissue defect: A case Series.

PURPOSE: The purpose of this study was to investigate clinical efficacy of posterior tibial artery perforator technique combined with iliac crest autograft in treatment of medial soft tissue and medial malleolus loss. METHODS: This study involved 11 cases of medial soft tissue and medial malleolus loss from October 2011 to March 2016. Patients were treated with posterior tibial artery perforator technique combined with iliac crest autograft, and given routine treatment, such as rehydration, anti-inflammation, anticoagulation and vasodilation. Ankle function of patients was evaluated according to the American Orthopedic foot and ankle Association (AOFAS) ankle-hind foot scoring system. RESULTS: All flaps survived without bone exposure, and the appearance of skin flaps was satisfactory. There was one case of arterial crisis, one case of venous crisis, one case of skin edge necrosis and one case of incision infection. Wounds of the above patients were healed. Skin flap was soft and elastic without secondary contracture. The two-point discrimination of skin flap was 5-11 mm. The ankle range of motion was 10-60°. X-Ray showed that grafts healed within 8.6 months. According to AOFAS evaluation, four cases were excellent, four cases were good, and three cases were poor. The excellent and good rate was 72.8%. CONCLUSIONS: In this study, posterior tibial artery perforator technique combined with iliac crest autograft was used to treat medial soft tissue and medial malleolus loss. The findings demonstrated that this treatment was reliable and efficacious.

A Triplex Ultrasound Evaluation of Preclinical Changes in Type 2 Diabetes in Foot Arteries.

BACKGROUND AND OBJECTIVE:  Type 2 diabetes mellitus (T2DM) is a significant health problem that is becoming more prevalent worldwide. This study aimed to assess hemodynamic and morphological parameters in diabetic patients' foot arteries and compare them to those obtained in asymptomatic control group. MATERIALS AND METHODS:  This is a cross-sectional case-control study. B-mode ultrasound, color Doppler, and pulse wave Doppler were conducted to assess the dorsalis pedis arteries (DPAs) and posterior tibial arteries (PTAs). The morphological, total vascular diameter, wall thickness, and flow Doppler indices were measured. A total of 200 hundred participants were selected randomly using a random sampling technique. One hundred diabetic patients and 100 non-diabetic persons were determined. RESULTS: In diabetic patients, the overall grayscale diameter and wall thickness of foot arteries were statistically significantly larger than the asymptomatic group in the right DPA (p<0.01), left DPA (p<0.001), right PTA (p<0.001), and left PTA (p<0.001). In the diabetic group, the level of hemoglobin A1c (HbA1c) was positively correlated with blood flow resistive index (RI) in the right DPA (r=0.839; p<0.001), left DPA (r=0.801; p<0.001), right PTA (r=0.801; p<0.001), and left PTA (r=0.801; p<0.001). No significant differences were noted in both groups in blood flow Doppler parameters - pulsatility index (PI) and resistive index (RI). CONCLUSION:  Overall grayscale diameters of foot arteries are larger in the diabetes group than in the control group, indicating arterial wall thickening as an early indicator of diabetes-related alterations. PI of both DPA and RI of right DPA were increased in diabetic patients more than the control group. The level of glycosylatedhemoglobin A1c (HbA1c) was strongly linked with the blood flow resistive index in diabetes patients.

Previously Unreported Case of Variant Posterior Tibial Vein Forming a Loop Adjacent to the Posterior Tibial Artery.

The posterior tibial vein (PTV) is formed distally by the medial and lateral plantar veins and ends proximally at the joining with the peroneal vein. Variations of the PTV can result in unique clinical presentations. Such variations at the proximal location have been classified previously, but few have been identified distally. In an adult male cadaver, we identified a unilateral distal PTV variation that bifurcated posterior to the medial malleolus. This bifurcation rejoined inferiorly to the medial malleolus and formed a loop that was transected by the posterior tibial artery from deep to superficial. Although this PTV variation is rare, we believe it could be clinically significant for tarsal tunnel syndrome (TTS) and catheter-directed thrombolysis (CDT) of deep vein thrombosis (DVT). Such anatomical variations should be documented and added to clinical databases to improve patient outcomes and diagnostic techniques.

Perforator propeller flaps for lower extremity soft-tissue defect reconstruction: Shortening the learning curve.

Background: The perforator propeller flap is an advantageous option for soft tissue reconstruction in the lower limb as it ensures the preservation of the main artery and muscle, eliminates the need for microsurgical reconstruction as well as provides "like with like" resurfacing of the defects. Despite this, it remains a technically demanding reconstructive option for residents and surgeons with little experience in perforator dissection. We aimed to evaluate the clinical outcomes of our patients whose soft tissue defects were addressed with propeller flaps. Methods: A retrospective study of all propeller flap based reconstruction done on patients with soft tissue defects involving the distal third of the leg was undertaken from August 2018 to December 2020. Results: 28 patients were treated with propeller flaps for various lower extremity defects. The median defect size was 12 cm2. The posterior tibial artery (PTA) was used in eleven cases (39.3%) and the peroneal artery (PA) in seventeen of the cases (60.7%). The complication rate was 28.6% (n = 8). The complete flap necrosis rate was 10.7% (n = 3) and partial flap necrosis rate was 7.1% (n = 2), The rate of venous congestion was 7.1% (n = 2) and wound dehiscence occurred in 3.5% (n = 1). There was a significant negative correlation between the number of cases performed by a resident and the operative time. Conclusion: Although propeller flaps are a reliable option to address lower extremity defects, they have a long learning curve and require a good amount of experience and perforator dissection skills to reduce the probability of flap failure. We are of the opinion that residents should be adequately trained in this procedure to ensure optimal outcome delivery.

Risk factors related to the partial necrosis of the posterior tibial artery perforator-plus fasciocutaneous flap.

PURPOSE AND BACKGROUND: The posterior tibial artery perforator-plus fasciocutaneous (PTAPF) flap is commonly used for defects over the distal lower extremity. However, the causes of partial necrosis of the PTAPF flap are unknown. This paper aimed to explore the factors related to the partial necrosis of the PTAPF flap. METHODS: A retrospective study was conducted on 59 patients who received the PTAPF flap for soft-tissue defects between September 2007 and September 2017. The clinical outcomes of the flap were evaluated, and the patient and surgical factors related to flap survival were analyzed. RESULTS: Of the 59 patients, 9 (15.25%) flaps exhibited partial necrosis. No significant differences were found between the survival and partial necrosis groups regarding gender, age, soft tissue defect site, length and width of the fascia pedicle, length of the skin island, length-width ratio (LWR), and pivot point (P > 0.05). However, the survival group showed significantly less width of the skin island and total length of the flap than the partial necrosis group (P < 0.05). Multiple logistic regression analysis revealed that the width of the skin island was an independent risk factor affecting partial flap necrosis (OR = 4.028; P = 0.041). CONCLUSIONS: The PTAPF flap can be effectively used to repair small and medium wounds of the lower and middle leg, ankle and foot. As the width of the skin island exceeds 6 cm, the risk of partial flap necrosis significantly increases.

True Aneurysm on Posterior Tibial Artery as Late Complication of SARS-CoV-2.

We describe the story of a 70- year-old Italian male that almost 4 months later respiratory infection by SARS-CoV-2 presented a rapid evolution of a true aneurism of the right posterior tibial artery (PTA).