Mitsunaga Narushima

Characteristic indocyanine green lymphography findings in lower extremity lymphedema: the generation of a novel lymphedema severity staging system using dermal backflow patterns.

Background: Indocyanine green lymphography has been a highly useful modality in the clinical examination and surgical management of patients with lymphedema. No formal classification system of indocyanine green imaging findings according to the severity of lymphedema exists, however. The purpose of this study was to describe, analyze, and classify characteristic indocyanine green lymphography findings to uniformly guide surgical management of lymphedema using this modality. Methods: Forty-five patients (78 limbs) with lower extremity lymphedema underwent indocyanine green lymphography. All lymphography images were recorded in photographs and videos. Images were reviewed and analyzed to classify characteristic findings according to clinical severity as determined by Campisi clinical lymphedema staging. Results: Lymphography findings were classifiable into two patterns. Mild cases of lymphedema were characterized by a linear lymphatic channel pattern (linear pattern). In more severe cases, lymphatic channels demonstrated retrograde lymphatic flow (dermal backflow pattern) and diminution or absence of linear channel patterning. Three dermal backflow patterns, splash, stardust, and diffuse, were identified and correlated with the progression of lymphedema severity. These findings supported the generation of a novel anatomical lymphedema severity staging system, the dermal backflow staging system. Conclusions: Indocyanine green lymphography is a safe, minimally invasive, and useful tool for the surgical evaluation of extremity lymphedema. Characteristic indocyanine green lymphography patterns are consistent and correlate with clinical severity. The dermal backflow staging system can facilitate patient stratification, discussion between referring parties, and surgical planning.

Indocyanine green-enhanced lymphography for upper extremity lymphedema: a novel severity staging system using dermal backflow patterns.

Background: Management of arm lymphedema following breast cancer treatment is challenging, and emphasis should be put on early diagnosis and prevention of secondary lymphedema. Indocyanine green lymphography is becoming a method of choice for evaluation of lymphedema. Methods: Twenty patients with secondary arm lymphedema after breast cancer treatment underwent indocyanine green lymphography. Characteristic findings of indocyanine green lymphography were analyzed according to corresponding clinical stages and duration of edema. Based on changes in indocyanine green lymphography findings with progression of lymphedema, a new severity stage, arm dermal backflow stage, was developed and compared with clinical stages. Results: The indocyanine green lymphographic findings were classified into two large groups: linear pattern and dermal backflow patterns. The dermal backflow pattern could be subdivided into splash, stardust, and diffuse patterns. The dermal backflow patterns were found more frequently than the linear pattern in the proximal upper extremity (p = 0.001). The dermal backflow patterns also increased significantly in prevalence overall as the duration of lymphedema increased (p = 0.032). The arm dermal backflow stage was linearly correlated with clinical stage as described by the line y = 1.092x + 0.083 (R2 = 0.997; analysis of variance, p < 0.001). Conclusions: Indocyanine green lymphography is a safe and convenient evaluation method for lymphedema that allows qualitative pathophysiologic assessment of lymphedema. The arm dermal backflow stage, based on indocyanine green lymphographic findings, is a simple severity staging system that demonstrates a significant correlation with clinical stage. Indocyanine green lymphography may come to play an important role in early diagnosis of secondary arm lymphedema. CLINICAL QUESTION/LEVEL OF EVIDENCE: Diagnostic, V.

The earliest finding of indocyanine green lymphography in asymptomatic limbs of lower extremity lymphedema patients secondary to cancer treatment: the modified dermal backflow stage and concept of subclinical lymphedema.

Background: Early diagnosis and treatment are as important for management of secondary lymphedema following cancer treatment as in primary cancer treatment. Indocyanine green lymphography is the modality of choice for routine follow-up evaluation of patients at high risk of developing lymphedema after cancer therapy. Methods: Fifty-six limbs of 28 so-called unilateral secondary lower extremity lymphedema patients who underwent indocyanine green lymphography were compared with dermal backflow patterns of indocyanine green lymphography on 28 asymptomatic limbs and assessed using leg dermal backflow stage. Results: Of 28 asymptomatic limbs of secondary lower extremity lymphedema patients, the dermal backflow patterns were detected in 19 limbs but were absent in nine limbs. Significant differences were seen between asymptomatic limbs with dermal backflow patterns (n = 19) and limbs without them (n = 9): age, 51.4 ± 15.3 years versus 34.8 ± 12.7 years (p = 0.007); body weight, 75.1 ± 7.9 kg versus 50.1 ± 5.3 kg (p = 0.012); body mass index, 23.1 ± 4.2 versus 19.7 ± 1.8 (p = 0.005); leg dermal backflow stage of asymptomatic limb, 1.2 ± 0.4 versus 0.0 ± 0.0 (p < 0.001); and leg dermal backflow stage of symptomatic limb, 3.5 ± 0.6 versus 2.8 ± 0.8 (p = 0.033). Conclusions: The splash pattern is the earliest finding on indocyanine green lymphography of asymptomatic limbs of secondary lower extremity lymphedema patients. The leg dermal backflow stage allows early diagnosis of secondary lower extremity lymphedema even in a subclinical stage. The concept of subclinical lymphedema could play an important role in early diagnosis and prevention of lymphedema after cancer treatment. CLINICAL QUESTION/LEVEL OF EVIDENCE: Diagnostic, V.

Intraoperative lymphography using indocyanine green dye for near-infrared fluorescence labeling in lymphedema

A new method for easy detection of functional lymphatic vessels in the superficial layer is reported. In a clinical trial, lymphography using indocyanine green dye for near-infrared fluorescence labeling in lymphaticovenular anastomoses was performed in 5 patients with lymphedema. The technique is simple and enables a minimally invasive operation to be performed. The results indicate that this technique is useful for acceptance as one of the examinations to evaluation of lymphedema.

Lambda-Shaped Anastomosis with Intravascular Stenting Method for Safe and Effective Lymphaticovenular Anastomosis

Background: Lymphaticovenular anastomosis has become an increasingly common treatment for lymphedema. Supermicrosurgical techniques are essential for the successful performance of lymphaticovenular anastomosis. A positive correlation between the number of lymphaticovenular anastomoses performed and therapeutic efficacy has been reported, and in performing these anastomoses, the establishment of as many bypasses as possible is important. Methods: Forty limbs of 20 patients with lower extremity lymphedema who underwent lymphaticovenular anastomosis in our department were assessed. All cases were performed under local anesthesia using two to four surgical microscopes. A new method of anastomosis, lambda-shaped anastomosis assisted by intravascular stenting, was chosen in required cases. Results: Lymphaticovenular anastomoses resulted in 186 anastomoses on 20 patients with lower extremity lymphedema; the average number of anastomoses per case was 9.3 (range, five to 18). The number of surgical microscopes used ranged from two to four (average, 3.3), and the duration of the operation ranged from 3 to 5 hours (average, 4.1). In the cases of lambda-shaped anastomosis (n = 11), the number of anastomoses was significantly greater than in the cases without lambda-shaped anastomosis (n = 9; 10.2 ± 2.3 versus 8.2 ± 1.4; p < 0.05). Conclusions: Lambda-shaped anastomosis assisted by intravascular stenting is a safe and relatively easy method that can be performed by surgeons with less than 1 year of experience in microsurgery. This in turn allows efficient lymphaticovenular anastomoses to be performed simultaneously by a team of surgeons, resulting in an increased number of bypasses.

Indocyanine Green (ICG) Lymphography Is Superior to Lymphoscintigraphy for Diagnostic Imaging of Early Lymphedema of the Upper Limbs

Background Secondary lymphedema causes swelling in limbs due to lymph retention following lymph node dissection in cancer therapy. Initiation of treatment soon after appearance of edema is very important, but there is no method for early diagnosis of lymphedema. In this study, we compared the utility of four diagnostic imaging methods: magnetic resonance imaging (MRI), computed tomography (CT), lymphoscintigraphy, and Indocyanine Green (ICG) lymphography. Patients and Methods Between April 2010 and November 2011, we examined 21 female patients (42 arms) with unilateral mild upper limb lymphedema using the four methods. The mean age of the patients was 60.4 years old (35–81 years old). Biopsies of skin and collecting lymphatic vessels were performed in 7 patients who underwent lymphaticovenous anastomosis. Results The specificity was 1 for all four methods. The sensitivity was 1 in ICG lymphography and MRI, 0.62 in lymphoscintigraphy, and 0.33 in CT. These results show that MRI and ICG lymphography are superior to lymphoscintigraphy or CT for diagnosis of lymphedema. In some cases, biopsy findings suggested abnormalities in skin and lymphatic vessels for which lymphoscintigraphy showed no abnormal findings. ICG lymphography showed a dermal backflow pattern in these cases. Conclusions Our findings suggest the importance of dual diagnosis by examination of the lymphatic system using ICG lymphography and evaluation of edema in subcutaneous fat tissue using MRI.

The Intravascular Stenting Method for Treatment of Extremity Lymphedema with Multiconfiguration Lymphaticovenous Anastomoses

Background: In secondary extremity lymphedema, normal antegrade lymphatic flow is disrupted by the disease state. Attempts to capture aberrant retrograde lymphatic flow by means of microsurgical lymphaticovenous anastomoses have been hindered because of technical limitations. The authors applied the intravascular stenting method to the surgical correction of extremity lymphedema to generate multiconfiguration lymphaticovenous anastomoses capable of decompressing both proximal and distal lymphatic flow. Methods: Lymphatic channels were detected using indocyanine green injection and infrared scope imaging. Sites felt to be adequate for lymphaticovenous anastomosis were accessed through 2-cm skin incisions under local anesthesia. Using the intravascular stenting method, the authors performed a total of 39 lymphaticovenous anastomoses (15 flow-through, 11 end-to-end, eight end-to-side, two double end-to-end, two end-to-end/end-to-side, and one &pgr;-type) on both the proximal and distal ends of lymphatic channels in 14 female patients with upper (n = 2) and lower (n = 12) extremity lymphedema. Results: At an average follow-up of 8.9 months, average limb girth decreased 3.6 cm (range, 1.5 to 7 cm) or 11.3 percent (range, 4 to 33 percent). There was a greater reduction in cross-sectional area with increasing number of lymphaticovenous anastomoses per limb. Conclusions: The intravascular stenting method facilitated multiconfiguration lymphaticovenous anastomoses capable of decompressing both antegrade and retrograde lymphatic flow. This approach resulted in durable reduction of both upper and lower extremity lymphedema. As multiconfiguration lymphaticovenous anastomoses are now technically feasible, the influence of the number of lymphaticovenous anastomoses and the effectiveness of specific lymphaticovenous anastomosis configurations for the treatment of lymphedema deserves further study.

Minimally invasive lymphatic supermicrosurgery (MILS): indocyanine green lymphography-guided simultaneous multisite lymphaticovenular anastomoses via millimeter skin incisions.

AbstractAmong various surgical treatments, lymphaticovenular anastomosis (LVA), which bypasses congested lymph into venous circulation, is the least invasive surgical treatment. However, it usually entails skin incisions of around 3 cm, and operation time of around 4 hours. With multiple supermicrosurgeons under guidance of indocyanine green lymphography, LVAs can be simultaneously performed under local anesthesia within approximately 2 hours via small skin incisions with length less than 1 cm, allowing minimally invasive lymphatic supermicrosurgery (MILS). We performed MILS on 11 limbs of compression-refractory peripheral lymphedema cases. Length of skin incision for LVA ranged from 1 to 9 mm. Average operation time was 1.82 hours. Of the11 limbs, 10 showed postoperative volume reduction. Indocyanine green lymphography clearly visualizes superficial lymph flows, which helps us to decide precise skin incision sites and find lymphatic vessels in LVA surgery, shortening skin incision length and operation time. Minimally invasive lymphatic supermicrosurgery can serve as the most reasonable treatment of compression-refractory peripheral lymphedema.

Perforator Flaps and Supermicrosurgery

The introduction of supermicrosurgery, which allows the anastomosis of smaller caliber vessels and microvascular dissection of vessels ranging from 0.3 to 0.8mm in diameter, has led to the development of new reconstructive techniques. New applications of this technique are for crushed fingertip replantations with venule grafts, toe tip transfers for fingertip loss, partial auricular transfers for total tracheal and eyelid defects, and lymphaticovenular anastomoses under local anesthesia for lymphedema. Regarding free flaps, free perforator-to-perforator flaps, including deep inferior epigastric perforator or paraumbilical perforator flaps, gluteal artery perforator flaps, thoracodorsal artery perforator flaps, anterolateral thigh perforator flaps, superficial circumflex iliac artery perforator flaps, tensor fasciae lata perforator flaps, and medial plantar perforator flaps, with a short pedicle, have been used for extremity and facial defects. The success rate is almost the same as that of usual free flap transfers with large and long pedicles. The advantages of these flaps are the simple operation and the short time needed for flap elevation, plus the fact that the flaps can be obtained from anywhere in concealed areas. The disadvantages are the need for supermicrosurgical technique and the anatomic variation of these perforators.

A modified side-to-end lymphaticovenular anastomosis.

Lymphaticovenular anastomosis (LVA) is a useful treatment for compression‐refractory lymphedema with its effectiveness and minimal invasiveness. However, LVA requires supermicrosurgery, where lymphatic vessels with a diameter of 0.5 mm or smaller are anastomosed using 11‐0 or 12‐0 suture. To make LVA easier and safer, we adopted a modified side‐to‐end (S‐E) anastomosis in LVA surgery.