True and 'choke' anastomoses between perforator angiosomes: part i. anatomical location

Effects of arterial blood supply and venous return on multi-territory perforator flap survival

This study aimed to design arterial ischemic and venous congested areas on the same multi-territory perforator flap, assessing the effects of arterial blood supply and venous return on flap survival. Totally 68 rats were randomly divided into the experimental (Exp) and control (Con) groups. In the Exp group, flaps were based on left superficial epigastric artery and right superficial epigastric vein. In the Con group, flaps were based on the left superficial epigastric artery and vein. Immediate postoperative ink-gelatin angiography, epidermal metabolite levels detection, tissue edema measurement, survival rate evaluation in half of the flaps and average microvessel density assessment were performed. Blood in the Exp group flowed through most angiosomes, but only flowed around pedicled vessels in the Con group; metabolite levels of left halves in the Con and Exp groups were comparable with those of right halves. Angiosomes with high water contents occurred in the Exp group. Survival rates of left halves in the Con and Exp groups were higher than those of right halves, and more microvessels were found in the left ventral areas of both groups compared with the right ventral area in the Exp group. These findings revealed that on the same multi-territory perforator flap, arterial blood supply, affected by venous return, is a prerequisite for flap survival.

Percutaneous endoscopy in direct real-time observation of choke vessels in rat perforator flap model

Background

Most of the techniques used to investigate choke vessels are indirect. The aim of the present study is to assess the effectiveness of percutaneous endoscopy in direct real-time visualization of choke vessels in rat perforator flap models.

Methods

A classic perforator flap on the rat dorsum was designed (n = 12). An additional incision was made to place the percutaneous endoscope. Evans blue dye was injected from the common carotid artery to distinguish choke arteries from veins. Blood perfusion status was assessed using full-field laser perfusion imaging (FLPI) and the oxygen/carbon dioxide levels. Photographs of choke vessels were taken and compared at 1 h, 1 day, 4 days, and 7 days postoperation. The flap survival area was examined on day 7.

Results

The average survival rate of perforator flaps was 70.1 ± 10.8%. The choke arteries but not choke veins were stained blue after injection of Evans blue dye. The choke arteries constricted instantly after surgery, dilated to a maximum diameter on postoperation day 4, and returned to the preoperation status on day 7. The choke veins dilated instantly after the operation, reached their largest diameters on postoperation day 4, and remained dilated on day 7. The behaviors of choke vessels were consistent with the FLPI results and oxygen/carbon dioxide statuses.

Conclusion

Percutaneous endoscopy can provide direct real-time visualization of choke vessels in living rat perforator flap models and enable the identification of choke arteries and veins. This novel technique represents an ideal platform for investigating choke vessels in perforator flap models.

Use of infrared thermography for the assessment of free flap perforators in autologous breast reconstruction: A systematic review

Perforator-based flaps have in recent years become the mainstay of autologous breast reconstruction practice. Imaging modalities ranging from Doppler ultrasound to CT angiography demonstrate varying utility in the preoperative identification and localisation of perforators. Despite these available radiological investigations, finding and quantitatively assessing perforators remain a time-consuming and tedious process that is often complicated by a number of factors including variable anatomy prior surgery and body habitus. Thermographic imaging shows promise as a novel modality for preoperative localisation of perforator vessels. This review summarises the currently available evidence for its application in perforator mapping for abdominal-based autologous breast reconstruction. We discuss the development of the technology over the years, its current use, its advantages and how it may impact on reconstructive breast surgery.

Interperforator Flow Pattern and Clinical Application of Distal Extended Peroneal Artery Perforator Flaps

Introduction

Peroneal artery perforator flaps are the most widely used pedicled flaps for soft tissue defects of the distal lower extremity. Most research regarding peroneal artery flaps focuses on the location, diameter, and number of peroneal artery perforators. However, there is little literature regarding interperforator flow patterns within the peroneal artery perforator flaps. The aims of the present study were to describe interperforator flow patterns of the distally based extended peroneal artery perforator flaps through digital subtraction angiography and review their clinical application.

Methods

Twelve consecutive patients underwent digital subtraction angiography of the lower-limb arteries. The number and classification of peroneal artery perforators and the interperforator flow patterns were observed. Based on these observations, distally based extended peroneal artery perforator flaps were designed to repair nonhealing wounds located on the ankles and feet of 14 patients.

Results

The peroneal artery gives out grades I to IV perforators in the lateral leg. There were 2 to 7 grade I perforators and true anastomoses between adjacent grade II perforators, which generate directly linked vessels in the middle leg. The grade III or IV perforators form a reticular vascular network through a large number of chock and potential anastomoses. All flaps survived and had excellent appearance and texture.

Conclusions

Distally based extended peroneal artery perforator flaps appear reliable for repairing wounds located on or around the ankle and front foot. However, whether the middle perforator or peroneal artery should be used depends on the condition of the anastomosis between direct linking vessels and the distal perforator.

The hemodynamic and molecular mechanism study on the choke vessels in the multi-territory perforator flap transforming into true anastomosis

BACKGROUND

The aim of this study was to explore the hemodynamic and morphological changes of the choke vessels, and to investigate the role of HIF-1α in the flap adaptation to hypoxic and choke vessel transformation after multi-territory perforator flap transplantation.

METHODS

Animal model of single pedicle multi-territory perforator flap was established in the back of SD rats and the blood supply characteristics were studied by gelatin-oxide perfusion technique. HE staining and stereomicroscope were used to observe vascular changes. Afterward, the influence of hypoxia on cell proliferation and apoptosis were detected by MTT assay and flow cytometry, respectively. Besides, the expression of HIF-1α, iNOS and VEGF expression of HUVECs under hypoxia were detected by qRT-PCR and Western blot.

RESULTS

The results revealed that all the choke vessels immediately began to expand after operation. The day after operation, some of the choke vessels continued to grow and expand, turning into the true anastomosis, while the others gradually dwindled and finally disappeared. Compared with the control group, the day after transplantation, the expression levels of both HIF-1α and iNOS were significantly increased. The only different was that HIF-1α was then maintained a high level, iNOS was significantly decreased aftertimes. What's more, the expression of VEGF was increased to the maximum at 3 days after operation and then decreased. In HUVECs, hypoxia increased the expression of HIF-1α, iNOS and VEGF protein. Besides, it also promoted the proliferation and inhibited the apoptosis. In addition, we also found that hypoxia-induced VEGF and iNOS upregulation is mediated by HIF-1α overexpression and HIF-1α knockout can reverse the effects induced by hypoxia.

CONCLUSIONS

We found that HIF-1α may participate in the early vascular dilatation of transregional skin flap by inducing iNOS expression and promoting the reconstruction of choke vessels through increase VEGF expression.

The Role of Anastomotic Vessels in Controlling Tissue Viability and Defining Tissue Necrosis with Special Reference to Complications following Injection of Hyaluronic Acid Fillers

BACKGROUND

Most target areas for facial volumization procedures relate to the anatomical location of the facial or ophthalmic artery. Occasionally, inadvertent injection of hyaluronic acid filler into the arterial circulation occurs and, unrecognized, is irreparably associated with disastrous vascular complications. Of note, the site of complications, irrespective of the injection site, is similar, and falls into only five areas of the face, all within the functional angiosome of the facial or ophthalmic artery.

METHODS

Retrospective and prospective studies were performed to assess the site and behavior of anastomotic vessels connecting the angiosomes of the face and their possible involvement in the pathogenesis of tissue necrosis. In vivo studies of pig and rabbit, and archival human total body and prospective selective lead oxide injections of the head and neck, were analyzed. Results were compared with documented patterns of necrosis following inadvertent hyaluronic acid intraarterial or intravenous injection.

RESULTS

Studies showed that the location of true and choke anastomoses connecting the facial artery with neighboring angiosomes predicted the tissue at risk of necrosis following inadvertent intraarterial hyaluronic acid injection.

CONCLUSION

Complications related to hyaluronic acid injections are intimately associated with (1) the anatomical distribution of true and choke anastomoses connecting the facial artery to neighboring ophthalmic and maxillary angiosomes where choke vessels define the boundary of necrosis of an involved artery but true anastomoses allow free passage to a remote site; or possibly (2) retrograde perfusion of hyaluronic acid into avalvular facial veins, especially in the periorbital region, and thereby the ophthalmic vein, cavernous sinus, and brain.

Recurrent branch of anterior interosseous artery perforator-based propeller flap for distal forearm injuries: Report of 2 cases

Despite various options for the reconstruction of soft tissue defects in the distal forearm, perforator-based propeller flap is rarely used. Here, we presented 2 cases of distal forearm injuries that were repaired using the recurrent branch of anterior interosseous artery perforator-based propeller flap. Patients in these cases were 57 and 67 years of age. Wounds resulting from farming machine injury and pyogenic extensor tenosynovitis following cat bite wounds were localized to the distal forearm and dorsum of the hand. Defect dimensions were 5 cm × 10 cm and 5 cm × 8 cm. The 12 cm × 7 cm and 21 cm × 4 cm sized recurrent branch of anterior interosseous artery perforator-based propeller flap was designed adjacent to the wounds. In the latter case, the absence of the posterior interosseous artery in the distal forearm was observed. One perforator from the recurrent branch of the anterior interosseous artery emerged through the septum between the extensor digiti minimi and extensor carpi ulnaris 7.5 cm and 6.0 cm proximal to the ulnar head in cases 1 and 2, respectively. Perforators were identified using multidetector computed tomographic angiography and handheld Doppler. Extending to two-thirds or almost the full length of the forearm, the flaps were raised and rotated by 90° and 120° to cover the defect. The donor sites were closed using free skin graft. Both flaps survived. Except for minor wound dehiscence and hemarthrosis, no other postoperative complications occurred. Patients returned to work or daily activities at 3- and 4-month follow-up after surgery.

In-Vivo Quantitative Mapping of the Perforasomes of Deep Inferior Epigastric Artery Perforators

Background

There is limited understanding of anatomy of perforator angiosomes, or "perforasomes," of the deep inferior epigastric artery (DIEA). A perforasome is defined as the territory perfused by a single perforator vessel of a named artery, such as the DIEA. Given the clinical significance of this anatomical concept in microsurgical breast reconstruction, this study is a quantitative investigation of DIEA perforasome characteristics and patterns associated with perforasome size, perforator caliber, location and branching, using computed tomographic (CT) angiography.

Methods

Twenty abdominal arterial-phase CT angiograms were analyzed in 3 dimensions using software (Horos). DIEA perforasomes were mapped, yielding data on 40 medial-row and 40 lateral-row perforasomes. Perforator branch extents and number were measured using 3-dimensional multi-planar reconstruction, and perforator caliber on axial slices.

Results

Perforasomes exhibited eccentric branching distributions in horizontal and vertical axes, that is, a majority of perforators were not centrally located within their perforasomes. Lateral-row perforasomes displayed greater horizontal eccentricity than medial-row. There was a positive correlation between perforator caliber and perforasome size. Medial-row perforators had more branches and larger caliber than lateral-row.

Conclusions

This is the first article to quantify relationships between perforators and their territories of supply in vivo, augmenting current understanding of perforasome theory. DIEA perforasomes can be readily visualized and mapped with CT angiography, which may enable effective preoperative flap planning in DIEA perforator flap breast reconstruction. Future investigation may highlight the importance of this information in improving surgical outcomes, including flap survival and fat necrosis reduction, through careful, perforasome-based flap design.

Single-Artery Human Ear Graft Procurement: A Simplified Approach

In the field of experimental facial vascularized composite tissue allotransplantation, a human auricular subunit model, pedicled on both superficial temporal and posterior auricular arteries, was described. Clinical cases of extensive auricular replantation, however, suggested that a single artery could perfuse the entire flap. In this study, variants of this single-pedicle approach have been studied, aiming to develop a more versatile replantation technique, in which the question of venous drainage has also been addressed. For arterial perfusion study, the authors harvested 11 auricular grafts, either on a single superficial temporal artery pedicle (n = 3) or a double superficial temporal and posterior auricular artery pedicle (n = 8). The authors then proceeded to selective barium injections, in the superficial temporal, posterior auricular, or both superficial temporal and posterior auricular arteries. Arteriograms were acquired with a micro-computed tomographic scan and analyzed on three-dimensionally reconstructed images. Venous drainage was investigated in eight hemifaces, carefully dissected after latex injection. Observations showed a homogenous perfusion of the whole auricle in all arterial graft variants. Venous drainage was highly variable, with either a dominant superficial temporal vein (37.5 percent), dominant posterior auricular vein (12.5 percent), or co-dominant trunks (50 percent). The authors demonstrated that auricular subunit vascularized composite tissue allotransplantation can be performed on a single artery, relying on the dynamic intraauricular anastomoses between superficial temporal artery and posterior auricular branches. Potentially, this vascular versatility is prone to simplify the subunit harvest and allows various strategies for pedicle selection. Venous drainage, however, remains inconstant and thus the major issue when considering auricular transplantation.

CLINICAL QUESTION/LEVEL OF EVIDENCE

Therapeutic, V.

Comparison of perioperative complications of pedicled island flap in reconstruction of extremities

PURPOSE

The aim of this study was to analyze the differences in perioperative complications for pedicled island flaps in the reconstruction of extremities and to identify the factors contributing to pedicled island flap necrosis. Furthermore, the flap indications based on these outcomes are summarized.

METHODS

Based on the inclusion criteria, 228 skin flaps were included in this study. Univariate and multivariate analyses were used to identify the risk factors for pedicled island flap necrosis. Differences in perioperative complications between upper and lower extremities were analyzed using the chi-square test or Fisher's exact test.

RESULTS

The average age of the patients was 38 years. The overall complication rate was 21.93%, including partial flap necrosis (10.09%) and total flap necrosis (5.70%). The overall complication rate and flap necrosis rate in upper extremity reconstruction were significantly lower than the rates in lower extremity reconstruction. Flap area and postoperative wound infection were statistically significant risk factors for pedicled island flap necrosis in extremity reconstruction. Preoperative contamination of the wound bed was a statistically significant risk factor for postoperative wound infection.

CONCLUSIONS

The flap area and postoperative wound infection were both independent risk factors for pedicled island flap necrosis in extremity reconstruction. The causes contributing to the differences in perioperative complications between upper and lower extremities reconstruction included preoperative contamination of the wound bed, postoperative wound infection, and the flap area but were also related to anatomical factors of the skin flap. Pedicled island flaps are more suitable for small- and medium-sized soft tissue defects.

Risk factors for pedicled flap necrosis in hand soft tissue reconstruction: a multivariate logistic regression analysis

BACKGROUND

Few clinical retrospective studies have reported the risk factors of pedicled flap necrosis in hand soft tissue reconstruction. The aim of this study was to identify non-technical risk factors associated with pedicled flap perioperative necrosis in hand soft tissue reconstruction via a multivariate logistic regression analysis.

METHODS

For patients with hand soft tissue reconstruction, we carefully reviewed hospital records and identified 163 patients who met the inclusion criteria. The characteristics of these patients, flap transfer procedures and postoperative complications were recorded. Eleven predictors were identified. The correlations between pedicled flap necrosis and risk factors were analysed using a logistic regression model.

RESULTS

Of 163 skin flaps, 125 flaps survived completely without any complications. The pedicled flap necrosis rate in hands was 11.04%, which included partial flap necrosis (7.36%) and total flap necrosis (3.68%). Soft tissue defects in fingers were noted in 68.10% of all cases. The logistic regression analysis indicated that the soft tissue defect site (P = 0.046, odds ratio (OR) = 0.079, confidence interval (CI) (0.006, 0.959)), flap size (P = 0.020, OR = 1.024, CI (1.004, 1.045)) and postoperative wound infection (P < 0.001, OR = 17.407, CI (3.821, 79.303)) were statistically significant risk factors for pedicled flap necrosis of the hand.

CONCLUSION

Soft tissue defect site, flap size and postoperative wound infection were risk factors associated with pedicled flap necrosis in hand soft tissue defect reconstruction.

Clinical Application and the Free Posterior Thigh Perforator Flap

OBJECTIVE

The posterior thigh region has been neglected as a donor site for free perforator flaps, likely due to difficulties in positioning the patient during surgery. This study describes the clinical application of the posterior thigh perforator flap based on the third perforating artery of the profunda femoris artery (PFA).

METHODS

The free posterior thigh perforator flap based on the third perforating artery of the PFA was used for reconstruction of soft tissue defects in nine patients between February 2010 and May 2014.

RESULTS

Flap sizes ranged from 12 × 7 cm to 20 × 13 cm. The length of the vascular pedicle averaged 10.28 cm, and the mean diameters of the third perforating artery and venae comitantes were 1.68 and 1.14 mm, respectively. All of the perforators originated from the PFA. Of the 9 free flaps used in 9 patients, 7 flaps survived completely. There were no early complications in these flaps. During the follow-up period, no patient experienced cold intolerance, scar contracture, or scar pain. There were no functional impairments at the donor or recipient sites.

CONCLUSIONS

The posterior thigh flap based on the third perforating artery of the PFA is an excellent option for reconstructing soft tissue defects. The anatomical location of the third perforating artery is relatively consistent. The vascular pedicle is relatively longer and has large caliber vessels. The scar at the donor site can be well concealed with low morbidity. The skin color and texture of this flap show satisfactory results.

Inflammatory response associated with choke vessel remodeling in the extended perforator flap model

Ischemic necrosis of the surgical flap is a common complication. The behavior of choke vessels has an important role in skin flap survival. However, the mechanism of choke vessel remodeling has remained elusive. The purpose of the present study was to investigate the possible association between inflammatory responses and choke vessel remodeling in the extended perforator flap model in rats. After flap elevation, the animals were randomly divided into three groups (n=6 in each) for tissue analysis at three, five or seven days after flap surgery. Six additional rats served as a control group (no flap elevation). Tissue samples were collected from the choke zone for histological, western blot and PCR analyses. Monocyte chemoattractant protein-1 (MCP-1) and tumor necrosis factor-α (TNF-α) as inflammatory cytokines were examined in the present study. Histopathological analysis showed that dilation of choke vessels and increased vessel wall thickness was obvious after flap elevation. It also showed edema, inflammation cell aggregation after the operation. Compared with the control group, the protein and mRNA expression levels of MCP-1 and TNF-α were significantly increased at days 3, 5 and 7 after flap elevation, while reaching a maximum at day 5. These findings indicated that inflammatory responses may have an important role in choke vessel remodeling. MCP-1 and TNF-α may be considered as potential targets for modulating the behavior of choke vessels.

Free serratus anterior artery perforator flap: a case report with an anatomic and radiological study

Perforator flaps have become very popular in reconstructive surgery. The thoracodorsal and lateral thoracic artery perforator flaps are highly studied, and successful clinical series have been reported, whereas the literature concerning the lateral intercostal and serratus anterior artery perforator flaps is quite poor and their vascular anatomy needs yet to be clarified. We describe a case of free serratus anterior artery perforator flap for the reconstruction of a dorsal defect of the foot, followed by an anatomic and radiological study. A 17-year-old boy reported a fracture of the first and second metatarsal bone of the left foot, with a dorsal skin defect, due to a motorcycle accident. After the osteosynthesis treatment, a perforator was identified through a handheld Doppler in the lateral chest area and a cutaneous paddle was designed. Retrograde dissection revealed the perforator's direct link to the serratus anterior pedicle. In our knowledge, an elucidated method to preoperatively visualize the perforating vessel of the serratus anterior artery has not yet been described. Thus, an anatomic study on 8 hemithorax and a radiological study on 33 computed tomographic angiographies of the chest were carried out to clarify the vascular anatomy of the serratus anterior artery perforators and to verify the possibility of their preoperative visualization. The authors believe that the serratus anterior artery perforator could be preoperatively investigated, thus making this flap a valuable option when harvesting a perforator flap in the lateral chest area.

Microcirculatory Evaluation of the Abdominal Skin in Breast Reconstruction with Deep Inferior Epigastric Artery Perforator Flap

No studies have assessed the perfusion of the undermined abdominal skin in breast reconstruction with deep inferior epigastric artery perforator flap. A greater understanding of the procedure’s impact on the perfusion of the abdominal skin can be valuable in predicting areas susceptible to necrosis.

Reliability of eccentric position of the pedicle instead of central position in a thoracodorsal artery perforator flap

INTRODUCTION

To obtain longer vascular pedicle in perforator flaps, surgeons often use eccentrically rather than centrally located perforators. The aim of this study was to compare the safety and reliability of thoracodorsal artery perforator (TDAP) flaps harvested with centrally or eccentrically located perforators.

METHODS

Between January 2008 and March 2012, 100 TDAP flaps were used to reconstruct the lower extremity defects. Flaps longer than 10 cm, with a single musculocutaneous perforator, and one artery-one vein anastomoses were included. The cases were divided into two groups according to perforator location; Central perforators in 60 cases (group 1), and peripheral perforators in 40 cases (group 2). Total pedicle length was between the points where the perforator enters the flap to the end of the pedicle. Real pedicle length was from flap margin to the end of the pedicle. The flap dimension, total pedicle length, real pedicle length, and flap related complications were measured.

RESULTS

The flaps were smaller in group 1 than in group 2 (159.6 ± 94.08 vs.189.95 ± 134.30 cm² , P = 0.455). Total pedicle length was almost the same (12.12 ± 1.57 vs.12.88 ± 2.10 cm, P = 0.420), but the mean real pedicle length was longer in group 2 (6.13 ± 1.33 vs.11.65 ± 2.08 cm, P < 0.05). There were 4 cases of partial loss of flap in group 1 and 3 partial loss and one total flap loss in group 2 without significant difference (P = 0.547).

CONCLUSIONS

Using eccentrically located perforators is simple method of extending real pedicle length, but there have been concerns regarding flap perfusion and distal vascularity. Our findings suggest that, in TDAP flaps, both eccentric and central perforator are safe options. © 2014 Wiley Periodicals, Inc. Microsurgery 37:44-48, 2017.

The dynamic anatomy and patterning of skin

The skin is often viewed as a static barrier that protects the body from the outside world. Emphasis on studying the skin's architecture and biomechanics in the context of restoring skin movement and function is often ignored. It is fundamentally important that if skin is to be modelled or developed, we do not only focus on the biology of skin but also aim to understand its mechanical properties and structure in living dynamic tissue. In this review, we describe the architecture of skin and patterning seen in skin as viewed from a surgical perspective and highlight aspects of the microanatomy that have never fully been realized and provide evidence or concepts that support the importance of studying living skin's dynamic behaviour. We highlight how the structure of the skin has evolved to allow the body dynamic form and function, and how injury, disease or ageing results in a dramatic changes to the microarchitecture and changes physical characteristics of skin. Therefore, appreciating the dynamic microanatomy of skin from the deep fascia through to the skin surface is vitally important from a dermatological and surgical perspective. This focus provides an alternative perspective and approach to addressing skin pathologies and skin ageing.

Comparison of Limited and Full Dissection Abdominoplasty Using Laser Fluorescence Imaging to Evaluate Perfusion of the Abdominal Skin

BACKGROUND

In an effort to reduce risk, some surgeons promote a limited dissection abdominoplasty technique. They believe that preserving musculocutaneous perforators improves blood supply to the overlying abdominal tissue and that improved vascularity avoids seromas and reduces wound healing problems. Laser fluorescence imaging is a new method that allows quantitative measurements of perfusion.

METHODS

Twenty-two consecutive women undergoing abdominoplasty agreed to participate in this prospective study. The inclusion rate was 100 percent. The SPY Elite Intraoperative Perfusion Assessment System was used to quantitate flap perfusion. Patients served as their own controls to avoid confounders. All patients received superwet infusions followed by liposuction of the abdomen and flanks. First, a limited dissection was performed, preserving medial musculocutaneous perforating blood vessels and the Scarpa fascia on the lower abdomen. The rectus fascia was repaired in all cases. A temporary superficial fascial wound closure was performed. The patient was imaged after injection of the contrast agent. The dissection was then extended to a full abdominoplasty and the Scarpa fascia was removed from the lower abdomen. The patient was reimaged. Wound tension was also measured.

RESULTS

Complications included one distal deep venous thrombosis, one infection, and one seroma. There were no cases of marginal necrosis or dehiscence. There was no significant difference (p < 0.05) in perfusion measurements comparing the limited and full dissections. Wound tensions were significantly less (p < 0.001) in the full-dissection group.

CONCLUSION

The limited dissection abdominoplasty does not provide a significant improvement in perfusion compared with a full dissection.

CLINICAL QUESTION/LEVEL OF EVIDENCE

Therapeutic, II.

Transversally oriented pedicled perforator flaps: A reliable alternative for lower leg reconstruction

BACKGROUND

The use of a transverse pattern for perforator flap design and its possible clinical applications in the field of lower leg reconstruction are previously unreported in the medical literature. The purpose of this report is to describe our clinical experience with the use of transversally oriented pedicled perforator flaps in lower leg reconstruction.

PATIENTS AND METHODS

Seven patients underwent lower leg reconstruction with transversally oriented pedicled perforator flaps. Patients age ranged from 42 to 68 years. All defects resulted from skin cancer ablation. Defect sizes ranged from 9 × 5 to 5 × 2.5 cm. The technique was applied to patients presenting with vertically oriented, long, and narrow defects, not feasible for primary closure, with the only audible perforators detected at a significant distance from the wound.

RESULTS

All flaps were based on a single perforator vessel. One of them was converted to a perforator-plus peninsular flap design, which retained an additional source of blood supply from the opposite skin bridge. The flaps were always mobilized in V-Y fashion. Donor sites were always closed primarily. Flap dimensions ranged from 15 × 7 to 8 × 3.5 cm. Operative time ranged from 40 to 90 minutes. All flaps survived uneventfully. Follow-up ranged from 6 months to 2 years. All patients were satisfied with the surgical outcome.

CONCLUSIONS

The use of transversally oriented pedicled perforator flaps proved to be a reliable alternative option to reconstruct small to medium size defects of the lower leg.

Indocyanine green laser angiography improves deep inferior epigastric perforator flap outcomes following abdominal suction lipectomy

BACKGROUND

The reliability of deep inferior epigastric artery perforator (DIEP) flap reconstruction following abdominal liposuction is controversial. The authors' early cases were technically successful; however, they experienced high partial flap loss and fat necrosis rates. The authors sought to compare DIEP flap outcomes in the setting of prior liposuction after the use of intraoperative indocyanine green angiography compared to when flaps were assessed on clinical grounds alone.

METHODS

A retrospective review of a consecutive series of DIEP flaps following liposuction at a single institution was performed, comparing those evaluated on clinical grounds alone and those in which indocyanine green angiography was used intraoperatively. Outcomes measured included anastomotic complications, total flap loss, partial flap loss, fat necrosis, and postoperative abdominal wounds.

RESULTS

Thirteen DIEP flaps following prior liposuction were performed on 11 patients from July of 2003 through January of 2014. All patients had preoperative imaging with duplex ultrasound or computed tomographic angiography to analyze perforator suitability before surgical exploration. Seven flaps were evaluated intraoperatively on clinical grounds alone. Six flaps were assessed and modified based on indocyanine green angiography. All flaps were successful; however, partial flap loss and fat necrosis rates dropped from 71.4 percent to 0 percent when indocyanine green angiography was used intraoperatively (p = 0.02).

CONCLUSIONS

Indocyanine green angiography is an excellent vascular imaging modality for intraoperative use to assess flap perfusion, and improves outcomes in DIEP flaps when harvested after prior abdominal suction lipectomy.

The medial arm pedicled perforator flap: application of phenomenon of one perforator perfusing multiple perforator angiosomes

BACKGROUND

The medial arm is an optimal potential donor site for treating skin defects around the elbow. However, whether a reliable pedicled perforator flap could be harvested from the medial arm remains unanswered. The purpose of this study was to report the technique and our results using the medial arm pedicled perforator flaps.

METHODS

A total of eight flaps in seven patients underwent the medial arm pedicled perforator flaps to treat skin defects around the elbow. The flap was pedicled on one perforator 1.3±0.3mm in diameter within 3cm above the medial epicondyle. The flap size varied between 10 and 20cm in length and between 6 and 10cm in width.

RESULTS

Of the eight flaps in seven patients, seven flaps survived uneventfully except that one suffered venous insufficiency. Six patients were followed up for 1 month to 2 years. One patient was lost to follow-up after 7 days. The wounds in all patients healed satisfactorily. No deep wound infection and wound dehiscence developed. No revision surgery was performed in the survived flaps.

CONCLUSIONS

The survival of the medial arm pedicled perforator flap confirms the phenomenon of one perforator perfusing multiple perforator angiosomes in the medial arm, although this study has the retrospective clinical nature and limited number of the patients. The medial arm pedicled perforator flap is a useful tool to treat skin defects around the elbow.

Flap decisions and options in soft tissue coverage of the lower limb

THE LOWER EXTREMITIES OF THE HUMAN BODY ARE MORE COMMONLY KNOWN AS THE HUMAN LEGS, INCORPORATING: the foot, the lower or anatomical leg, the thigh and the hip or gluteal region. The human lower limb plays a simpler role than that of the upper limb. Whereas the arm allows interaction of the surrounding environment, the legs' primary goals are support and to allow upright ambulation. Essentially, this means that reconstruction of the leg is less complex than that required in restoring functionality of the upper limb. In terms of reconstruction, the primary goals are based on the preservation of life and limb, and the restoration of form and function. This paper aims to review current and past thoughts on reconstruction of the lower limb, discussing in particular the options in terms of soft tissue coverage. This paper does not aim to review the emergency management of open fractures, or the therapy alternatives to chronic wounds or malignancies of the lower limb, but purely assess the requirements that should be reviewed on reconstructing a defect of the lower limb. A summary of flap options are considered, with literature support, in regard to donor and recipient region, particularly as flap coverage is regarded as the cornerstone of soft tissue coverage of the lower limb.

Effect of single tibial artery revascularization on microcirculation in the setting of critical limb ischemia

BACKGROUND

Benefits of 2-dimensional (2D) angiosome-oriented infrapopliteal revascularization remain controversial. The aim of this retrospective study was to clarify the effect of single tibial artery revascularization on the dorsal and plantar microcirculation of critically ischemic limbs based on skin perfusion pressure (SPP).

METHODS AND RESULTS

Fifty-seven interventions that only involved either anterior tibial artery (ATA) or posterior tibial artery (PTA) revascularization were included in this study. SPP was measured on the dorsal side (theoretically ATA perfusion area) and the plantar side (theoretically PTA perfusion area) before and after the procedure. Dorsal and plantar SPP increased significantly, from 33 (IQR 23-40.5) to 52 (IQR 32.5-65) mm Hg (P<0.0001) and 31.6±16.1 to 44.8±19.2 mm Hg (P=0.001) after ATA revascularization, respectively, and from 29.3±14.0 to 42.4±19.7 mm Hg (P=0.003) and 29.3±9.8 to 43.5±15.9 mm Hg (P<0.001) after PTA revascularization, respectively. Both ATA and PTA revascularization were not associated with any significant differences in ΔSPP between the dorsal and the plantar regions of the foot. Only 64% and 58% of ATA revascularization cases showed higher post-SPP and ΔSPP on the dorsal side than on the plantar side, respectively. Also, only 47% and 40% of PTA revascularization cases showed higher post-SPP and ΔSPP on the plantar side than on the dorsal side, respectively.

CONCLUSIONS

Single tibial artery revascularization, whether of the ATA or PTA, yielded comparable improvements in microcirculation of the dorsal and plantar foot. Approximately half of the feet revascularized had a change in microcirculation that was not consistent with the 2D angiosome theory.