OBJECTIVE: To analyze a series of uremic tumoral calcinosis (UTC) in patients receiving longterm dialysis therapy. METHODS: Twelve patients receiving longterm hemodialysis affected by tumoral calcinosis were analyzed. Clinical, radiological, and pathological features were evaluated and pathogenic factors were reviewed. RESULTS: The most common sites for UTC were the elbow, hip, hand, and wrist. The lesions were multiple (67%, n = 8), of large size, and symptomatic with joint mobility impairment (75%, n = 9) as well as nerve compression (33%, n = 4). High serum calcium and phosphate concentrations were detected in 50% (n = 6) and 100% of the patients, respectively. An increased calcium-phosphorus product (Ca x P) was observed in all patients, either due to overt secondary hyperparathyroidism (42%, n = 5), or secondary to iatrogenic hypercalcemia and/or severe hyperphosphoremia of multifactorial etiology (i.e., prolonged and excessive administration of calcitriol and calcium carbonate, insufficient dialysis and inadequate phosphorus chelating therapy, etc.) (58%, n = 7). Several treatment strategies were followed (surgical excision, parathyroidectomy, renal transplant) in combination with aggressive medical therapy to decrease Ca x P product, achieving complete remission in 83% of the patients. CONCLUSION: UTC lesions show clinical and pathogenic features that differ from those of idiopathic tumoral calcinosis. The most important pathogenic factor involved in UTC is an increase in Ca x P, not necessarily related to hyperparathyroidism. Combined treatment strategies allow complete remission in a high proportion of patients. A low Ca x P is necessary to prevent development of UTC.
OBJECTIVE: To analyze a series of uremic tumoral calcinosis (UTC) in patients receiving longterm dialysis therapy. METHODS: Twelve patients receiving longterm hemodialysis affected by tumoral calcinosis were analyzed. Clinical, radiological, and pathological features were evaluated and pathogenic factors were reviewed. RESULTS: The most common sites for UTC were the elbow, hip, hand, and wrist. The lesions were multiple (67%, n = 8), of large size, and symptomatic with joint mobility impairment (75%, n = 9) as well as nerve compression (33%, n = 4). High serum calcium and phosphate concentrations were detected in 50% (n = 6) and 100% of the patients, respectively. An increased calcium-phosphorus product (Ca x P) was observed in all patients, either due to overt secondary hyperparathyroidism (42%, n = 5), or secondary to iatrogenic hypercalcemia and/or severe hyperphosphoremia of multifactorial etiology (i.e., prolonged and excessive administration of calcitriol and calcium carbonate, insufficient dialysis and inadequate phosphorus chelating therapy, etc.) (58%, n = 7). Several treatment strategies were followed (surgical excision, parathyroidectomy, renal transplant) in combination with aggressive medical therapy to decrease Ca x P product, achieving complete remission in 83% of the patients. CONCLUSION: UTC lesions show clinical and pathogenic features that differ from those of idiopathic tumoral calcinosis. The most important pathogenic factor involved in UTC is an increase in Ca x P, not necessarily related to hyperparathyroidism. Combined treatment strategies allow complete remission in a high proportion of patients. A low Ca x P is necessary to prevent development of UTC.