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Klippel Trenaunay Weber Syndrome


Klippel Trenaunay Weber Syndrome

Article Author:
Srividya Naganathan
Article Editor:
Prasanna Tadi
Updated:
7/8/2020 8:44:29 AM
For CME on this topic:
Klippel Trenaunay Weber Syndrome CME
PubMed Link:
Klippel Trenaunay Weber Syndrome

Introduction

Klippel Trenaunay syndrome (KTS) is a vascular malformation syndrome comprising of varying involvement of cutaneous capillaries, veins, and lymphatics with hypertrophy of soft tissue and bones of the affected limb. This syndrome is also referred to as capillary-lymphatic-venous malformation (CLVM), reflecting the changes seen in those vessels. This condition was first described in 1900 by 2 French Physicians-Maurice Klippel and Paul Trenaunay. KTS is a clinical diagnosis made by the presence of at least two of the three classic findings of localized cutaneous capillary malformations, venous abnormalities, and limb hypertrophy. The presence of arteriovenous malformations is now considered as a separate entity named as Parkes-Weber syndrome distinct from KTS.[1][2]

Etiology

Recent studies have linked the etiology of KTS to somatic mutations in phosphatidylinositol-4-5-bisphosphate 3 kinase, catalytic subunit (PIK3CA) gene. This leads to the activation of phosphatidylinositol-3-kinase (PI3K)/protein kinase and cell overgrowth by dysregulation of the mTOR1 pathway[3][4]. Mutations occur in the embryological stage of development involving angiogenesis, reflecting findings seen in this condition. Now, KTS is grouped under the umbrella of similar overgrowth syndromes - PIK3CA -related overgrowth spectrum (PROS).  Several overgrowth syndromes with overlapping clinical manifestations involving a number of mutations in the PIK3CA gene have been identified. In rare instances, translocations of chromosome 5-11 and 8-14 have been reported.[2]

Epidemiology

The estimated incidence is between 2 and 5 in 100,000 and is found equally in both sexes.[5]

History and Physical

KTS primarily involves the capillary, venous and lymphatic systems to varying degrees with tissue and bone hypertrophy. This condition predominantly affects lower limbs and unilaterally affecting the right and left side equally. In rare cases, upper extremity, head and neck area, and bilateral involvement may be seen.[6] Capillary manifestations are flat, red, or purple capillary port-wine stains and are seen in 90 to 100% of cases. This is usually the first clinical finding present at birth and enlarges as the child grows.[5] 

Venous malformations are seen in 70 to 100% of patients and consists of varicosities in the superficial and deep venous systems, persistent embryonic veins, and aplasia/hypoplasia with valvular incompetence.  The embryonic veins, which usually regress prior to birth, are persistent and are functionally incompetent leading to venous stasis and chronic thrombosis. Venous malformations can occur in the GI tract, especially in the colon, and can present with GI bleeds. On exam, dilated tortuous veins can be seen in the affected limb with swelling and discoloration. Patients can also present with recurrent deep vein thrombosis, leading to pulmonary embolism.[5][7][8] 

Lymphatic malformations are seen in 15 to 50% of cases and consists of lymphedema and cystic lymphatic collections.[9] Musculoskeletal findings include soft tissue and bone hypertrophy in an extremity leading to the limb-length discrepancy. Rare physical findings include syndactyly, polydactyly, and clinodactyly. Other uncommon symptoms include seizures, developmental delay, genito-urinary abnormalities presenting as hematuria.[9][10]

Evaluation

KTS is a clinical diagnosis with the presence of 2 of the three classic features. Imaging is recommended to evaluate the underlying venous/lymphatic malformations and soft tissue/bone hypertrophy mapping the extent of disease and complications. A color doppler ultrasound can be an initial step to assess varicosities, venous malformation, or the presence of thrombus formation. However, MRI and MRV can be more useful to assess the extent of all the underlying malformations.[5][10] Elevated D-dimer is seen in most patients.[7]

Treatment / Management

A multi-disciplinary team approach with care coordination is optimal in patients with KTS. The mainstay is symptomatic care with medical management, with only a few cases needed surgical intervention.

Skincare is important to prevent superficial infections and to bleed secondary to scratching. Children are monitored closely for limb length discrepancy and referred to orthopedics for orthotics or surgical corrections as needed. Compression stockings, limb elevation, and intermittent pneumatic compression devices are used to minimize lymphedema and venous insufficiency. Sclerotherapy-both conventional and micro-foam have been used for capillary, venous, and lymphatic malformation with promising results.

Laser treatment can be offered for port-wine stains.[6] Surgical management is reserved only for cases refractory to medical therapy and consists of endovascular ligation of embryonic veins and stripping of severe varicose veins.[7] Estrogen containing contraceptives should be avoided due to the risk of thrombosis.

Pregnant patients need anti-thrombotic therapy as prophylaxis due to a high risk of deep venous thrombosis and pulmonary embolism.[4] Bleeding due to coagulopathy should be recognized promptly and treated with supportive care, fresh frozen plasma, and low molecular weight heparin. Patients undergoing surgical procedures should receive low molecular weight heparin prior to the procedure to reduce the risk of intravascular coagulation.

Rapamycin is a relatively newer therapy that can halt the progression of vascular malformation and improve the quality of life in patients with KTS. This drug works by inhibiting the PI3K/ AKT/mTOR pathway. Rapamycin-protein complex inhibits the action of mTOR1, leading to the arrest of cell growth, thereby preventing tissue overgrowth. Patients on this medication need to be monitored closely for adverse effects and toxicity such as hematological and lipid abnormalities.[9]

Differential Diagnosis

KTS should be differentiated by the other overgrowth syndromes presenting as hemihypertrophy and other vascular syndromes with cutaneous lesions such as CLOVES (Congenital Lipomatous Overgrowth Vascular malformation with Epidermal nevus and Skeletal abnormalities); MCAP syndrome (megalencephaly-capillary malformation); DCMO (diffuse capillary malformation with overgrowth); FAO(fibro adipose overgrowth); Proteus syndrome-post-natal skeletal and connective tissue overgrowth with epidermal nevi and vascular malformation; Beckwith-Wiedemann syndrome characterized by hemihypertrophy, neonatal hypoglycemia, omphalocele, ear abnormalities; Maffucci syndrome-multiple enchondromas; plexiform neurofibromatosis in NF-1 presenting as localized hypertrophy.[11]

A special distinction should be made with respect to Parkes-Weber syndrome (PWS) as KTS and PWS can be easily confused and often mistaken for the other. PWS is characterized by soft-tissue and bone hypertrophy with high-flow arteriovenous malformations and fistulas.[1]

Prognosis

KTS has a wide spectrum of clinical findings, and the prognosis is related to the severity of vascular malformations. The malformations progress over time with ongoing overgrowth and worsening venous insufficiency. Acute bleeding from GI malformation can lead to exsanguinating blood loss with mortality risk if not promptly treated. Recurrent deep venous thrombosis leads to the risk of pulmonary embolism, which can be massive and fatal.[2]

Complications

Cellulitis of an affected extremity due to stasis and the lymphatic leak can lead to sepsis from neglected skincare. Severe stasis from venous and lymphatic abnormalities lead to an increased risk of localized coagulopathy with elevated D-dimer levels in patients with KTS. Bleeding from GI tract vascular malformations can be chronic and occult, requiring multiple transfusions and iron supplementation, or bleeding may be life-threatening with associated disseminated intravascular coagulopathy (DIC). Recurrent pulmonary embolism secondary to deep venous thrombosis can cause chronic changes in the small vessels resulting in pulmonary hypertension. Limb hypertrophy may require de-bulking surgeries for mobility and ambulation.[9][10]

Deterrence and Patient Education

Patients with Klippel-Trenaunay syndrome need to be aware of the progressive nature of this condition. In children who are diagnosed with KTS, parents need to be educated on possible complications and to ensure close follow up to monitor for limb length discrepancy and timely management. Patients should be educated on proper skincare to prevent complications arising from superficial infection. Patients scheduled for elective surgeries should be aware of the need for anti-thrombotic prophylaxis two weeks prior to surgical procedures. Pregnant women need to be closely monitored for higher risk of thrombosis. Education should be provided to seek immediate medical education for acute gastrointestinal bleeding.

Enhancing Healthcare Team Outcomes

KTS is a complex vascular malformation syndrome with multi-system involvement. A collaborative approach among health care professionals is important to provide optimal care for these patients. The diagnosis is usually considered by the pediatric provider as clinical findings are often seen in the neonatal period and throughout childhood. Referral to a dermatologist for confirmation of the diagnosis and consultation with radiologists can aid in the appropriate evaluation of these patients. Patients with limb length discrepancy may benefit from orthopedic expertise for orthotics or epiphysiodesis and in cases of severe hypertrophy de-bulking procedures.

Hematologists are often involved due to the high risk of thrombosis and the need for prophylaxis during surgeries. Vascular surgery involvement may be required for chronic venous insufficiency for sclerotherapy, and in refractory cases, open surgical procedures. Larger institutions have specialized clinics for patients with Klippel-Trenaunay consisting of a multi-disciplinary team including dermatologists, orthopedists, dermatologists, and vascular surgeons. Medical and surgical care should be tailored to each patient, depending on the extent of the disease involvement. The primary care provider plays an important role in coordinating care among various specialists to optimize outcomes.


References

[1] Chagas CAA,Pires LAS,Babinski MA,Leite TFO, Klippel-Trenaunay and Parkes-Weber syndromes: two case reports. Jornal vascular brasileiro. 2017 Oct-Dec     [PubMed PMID: 29930667]
[2] Sharma D,Lamba S,Pandita A,Shastri S, Klippel-trénaunay syndrome - a very rare and interesting syndrome. Clinical medicine insights. Circulatory, respiratory and pulmonary medicine. 2015     [PubMed PMID: 25861232]
[3] Vahidnezhad H,Youssefian L,Uitto J, Klippel-Trenaunay syndrome belongs to the PIK3CA-related overgrowth spectrum (PROS). Experimental dermatology. 2016 Jan     [PubMed PMID: 26268729]
[4] Martinez-Lopez A,Salvador-Rodriguez L,Montero-Vilchez T,Molina-Leyva A,Tercedor-Sanchez J,Arias-Santiago S, Vascular malformations syndromes: an update. Current opinion in pediatrics. 2019 Dec     [PubMed PMID: 31693582]
[5] Alwalid O,Makamure J,Cheng QG,Wu WJ,Yang C,Samran E,Han P,Liang HM, Radiological Aspect of Klippel-Trénaunay Syndrome: A Case Series With Review of Literature. Current medical science. 2018 Oct     [PubMed PMID: 30341531]
[6] Sung HM,Chung HY,Lee SJ,Lee JM,Huh S,Lee JW,Choi KY,Yang JD,Cho BC, Clinical Experience of the Klippel-Trenaunay Syndrome. Archives of plastic surgery. 2015 Sep     [PubMed PMID: 26430625]
[7] Wang SK,Drucker NA,Gupta AK,Marshalleck FE,Dalsing MC, Diagnosis and management of the venous malformations of Klippel-Trénaunay syndrome. Journal of vascular surgery. Venous and lymphatic disorders. 2017 Jul     [PubMed PMID: 28624001]
[8] Yamaki T,Konoeda H,Fujisawa D,Ogino K,Osada A,Hamahata A,Nozaki M,Sakurai H, Prevalence of various congenital vascular malformations in patients with Klippel-Trenaunay syndrome. Journal of vascular surgery. Venous and lymphatic disorders. 2013 Apr     [PubMed PMID: 26992342]
[9] John PR, Klippel-Trenaunay Syndrome. Techniques in vascular and interventional radiology. 2019 Dec     [PubMed PMID: 31864529]
[10] Abdel Razek AAK, Imaging Findings of Klippel-Trenaunay Syndrome. Journal of computer assisted tomography. 2019 Sep/Oct     [PubMed PMID: 31609295]
[11] Harna B,Tomar S, Klippel Trenaunay Syndrome. Indian journal of pediatrics. 2020 Feb 8     [PubMed PMID: 32036598]