To the Editor:
Cutaneous collagenous vasculopathy (CCV) is an uncommon microangiopathy that presents with progressive telangiectases on the lower extremities that can eventually spread to involve the upper extremities and trunk. Systemic involvement is uncommon. The diagnosis is confirmed by biopsy, which demonstrates dilated capillaries and postcapillary venules with eosinophilic hyalinized walls. Treatment generally has focused on the use of vascular lasers.1 We report a patient with advanced CCV and ocular involvement that responded to a combination of pulsed dye laser (PDL) therapy and sclerotherapy for cutaneous lesions.
A 63-year-old woman presented with partially blanchable, purple-black patches on the lower extremities (Figure 1). The upper extremities had minimal involvement at the time of presentation. A medical history revealed the lesions presented on the legs 10 years prior but were beginning to form on the arms. She had a history of hypertension and bleeding in the retina.
Histopathology revealed prominent dilation of postcapillary venules with eosinophilic collagenous materials in the vessel walls that was positive on periodic acid–Schiff stain, confirming the diagnosis of CCV. The perivascular collagenous material failed to stain with Congo red. Laboratory testing for serum protein electrophoresis, antinuclear antibodies, and baseline hematologic and metabolic panels revealed no abnormalities.
Over 3 years of treatment with PDL, most of the black patches resolved, but prominent telangiectatic vessels remained (Figure 2). Sclerotherapy with polidocanol (10 mg/mL) resulted in clearance of the majority of telangiectatic vessels. After each sclerotherapy treatment, Unna boots were applied for a minimum of 24 hours. The patient had no adverse effects from either PDL or sclerotherapy and was pleased with the results (Figure 3). An ophthalmologist had attributed the retinal bleeding to central serous chorioretinopathy, but tortuosity of superficial scleral and episcleral vessels progressed, suggesting CCV as the more likely cause (Figure 4). Currently, she is being followed for visual changes and further retinal bleeding.
Early CCV typically appears as blanchable pink or red macules, telangiectases, or petechiae on the lower extremities, progressing to involve the trunk and upper extremity.1-3 In rare cases, CCV presents in a papular or annular variant instead of the typical telangiectatic form.4,5 As the lesions progress, they often darken in appearance. Bleeding can occur, and the progressive patches are disfiguring.6,7 Middle-aged to older adults typically present with CCV (range, 16–83 years), with a mean age of 62 years.1,2,6 This disease affects both males and females, predominantly in White individuals.1 Extracutaneous manifestations are rare.1,2,6 One case of mucosal involvement was described in a patient with glossitis and oral erosions.8 We found no prior reports of nail or eye changes.1,2
The etiology of CCV is unknown, but different theories have been proposed. One is that CCV is due to a genetic defect that changes collagen synthesis in the cutaneous microvasculature. Another more widely held belief is that CCV originates from an injury that occurs to the microvasculature endothelial cells. Regardless of the cause of the triggering injury, the result is induced intravascular occlusive microthrombi that cause perivascular fibrosis and endothelial hyperplasia.2,6,7,9
Cutaneous collagenous vasculopathy may be influenced by systemic diseases. The most common comorbidities are hypertension, cardiovascular disease, diabetes mellitus, and hyperlipidemia.1,3,6-8 The presentation of CCV with a malignancy is rare; 1 patient was diagnosed with multiple myeloma 18 months after CCV, and another patient’s cutaneous presentation led to discovery of pancreatic cancer with metastasis.8,10 In this setting, the increased growth factors or hypercoagulability of malignancy may play a role in endothelial cell damage and hyperplasia. Autoimmune vascular injury also has been suggested to trigger CCV; 1 case involved antiribonucleoprotein antibodies, while another case involved anti–endothelial cell antibody assays.11 In addition, CCV has been reported in hypercoagulable patients, demonstrating another route for endothelial damage, with 1 patient being heterozygous for prothrombin G20210A, a report of CCV in a patient with cryofibrinogenemia, and another patient being found positive for lupus anticoagulant.11,12 Drugs also have been thought to influence CCV, including corticosteroids, lithium, thiothixene, interferon, isotretinoin, calcium channel blockers, antibiotics, hydroxyurea, and antidepressants.7,11