Hypercalcemia of Malignancy

Journal of oncology practice / American Society of Clinical Oncology, 2016

Majalah Kedokteran Bandung, 2014

Hypercalcemia is one of the most common paraneoplastic syndromes in hospitalized malignancy patients. The aim of this study was to determine the clinical characteristics and treatment outcome in hypercalcemia of malignancy. This was a study using medical records of patients with malignancy hospitalized in the Departement of Internal Medicine, Dr. Hasan Sadikin Hospital Bandung between December 2008 and March 2011. Statistical analysis was performed by Wilcoxon and Mann-Whitney tests. There were 40 patients with hypercalcemia of malignancy, consisted of 22 hematologic malignancies and 18 solid tumors. Disturbance of consiousness were found in 4, dehydration in 18, constipation in 6, and nausea and vomiting in 6 subjects. In 16 subjects, no symptoms were found. All subjects received rehydration with normal saline. Bisphosphonate was given in 26 subjects. The difference of decreasing ion calcium level, between the groups who were treated with or without bisphosphonate was 0.59 (0.01-1.17) mg/dL, p=0.0001. In conclusion, hematologic and solid tumors are found in about the same proportion in hypercalcemia associated malignancy. Treatment either with or without bisphosphonate shows good results. [MKB. 2014;46(2):111-17]

The Western journal of medicine, 1990

The pathogenesis of hypercalcemia in malignancy has been enigmatic until recent years. Since the realization in 1980 that bioassays for parathyroid hormone detected a cross-reacting substance in malignancy, progress has been remarkably rapid. A parathyroid hormone-related protein was purified and identified by molecular cloning as a 141-amino acid peptide with limited homology to parathyroid hormone itself. Nonetheless, both peptides activate the parathyroid hormone receptor to produce hypercalcemia. It is now clear that the parathyroid hormone-related protein is the cause of hypercalcemia in most solid tumors, particularly squamous and renal carcinomas. New assays for the hormone as well as the related peptide have greatly simplified the differential diagnosis of hypercalcemia. At the same time, new agents for the treatment of hypercalcemia are becoming available, most notably the bisphosphonate drugs.

Cancer, 1978

Various hormones have been implicated in the genesis of hypercalcemia i n patients with malignancy. Ectopic secretion of PTH by tumor has been documented in only a few patients; rather, elevated levels of circulating iPTH have been presumed to reflect tumor production of hormone in most patients. Small fragments of PTH, as well as polypeptides larger than native PTH, have been described; their biological roles are unclear. The pattern of immunoreactivity, however, has been used to differentiate patients with ectopic hyperparathyroidism from patients with concomitant primary hyperparathyroidism. Vitamin D-like sterols produced by breast cancer seldom reach plasma levels necessary for physiological effects. Members of the prostaglandin family have been proposed to induce hypercalcemia through osteoclast activation o r alteration of the immune system and also to affect the frequency of bone metastases. At present, no direct evidence is available to prove a direct role for these effects and prostaglandins are most useful as possible indicators of disease activity.

World Journal of Oncology, 2016

Our aim is to describe the association between colorectal cancer (CRC) and humoral hypercalcemia of malignancy (HHM). Causes of hypercalcemia of malignancy include parathyroid hormone-related peptide (PTHrP) secretion, local osteolysis, calcitriol production and ectopic parathyroid hormone (PTH) secretion. Hypercalcemia of malignancy in patients with CRCs is a rare scenario. A patient with anal squamous cell carcinoma was admitted with hypercalcemia, suppressed PTH and hypophosphatemia. He was found to have metastatic anal squamous cell carcinoma to the liver. Further evaluation revealed elevated PTHrP and 1,25-dihydroxyvitamin D and low 25-hydroxyvitamin D. Over a 5-month course, the hypercalcemia responded poorly to bisphosphonates, transiently to prednisone, but showed marked improvement with chemotherapy. A review of English language publications in Pubmed and a reference search of retrieved articles revealed 29 cases of CRC causing PTHrP-mediated hypercalcemia. Most patients were middle-aged men (mean ± SD: 56.7 ± 13.4 years), with advanced metastatic cancer (85% with hepatic metastasis) and severe hypercalcemia (mean ± SD: 15.6 ± 1.9 mg/dL, 62% with Ca > 14). This condition is associated with high mortality (79%) and short survival (median 54.5 days, CI: 21-168). Despite being uncommon, HHM (PTHrP-mediated) should be considered in patients with metastatic CRC presenting with hypercalcemia. Clinicians should be aware that combined etiologies may be present, particularly in cases of resistant hypercalcemia. Treatment of the underlying malignancy is essential for calcium control.

Hormone and Metabolic Research

Hypercalcemia of malignancy is the most common life-threatening metabolic disorder in patients with advanced stage cancers and is a sign of poor prognosis. It usually presents with markedly elevated calcium level and is severely symptomatic. It is associated with hematological malignancies, such as multiple myeloma, non-Hodgkin lymphoma, leukemias and solid cancers, particularly renal and breast carcinomas as well as squamous cell carcinomas of any organ. Several mechanisms have been implicated in the development of hypercalcemia of malignancy amongst them the osteolytic related hypercalcemia, parathyroid hormone-related peptide (PTHrP) mediated hypercalcemia, extrarenal 1,25 dixydroxyvitamin D (calcitriol) mediated hypercalcemia and parathyroid hormone (PTH) related hypercalcemia either ectopic in origin or in patients with parathyroid carcinoma. Clinical history and and physical examination could point towards the correct diagnosis confirmed by the above-mentioned biochemical medi...

Postgraduate Medical Journal, 1998

American Journal of Pathology, 2001

The majority of patients with adult T-cell leukemia/ lymphoma (ATL) resulting from human T-cell lymphotropic virus type-1 (HTLV-1) infection develop humoral hypercalcemia of malignancy (HHM). We used an animal model using severe combined immunodeficient (SCID)/beige mice to study the pathogenesis of HHM. SCID/beige mice were inoculated intraperitoneally with a human ATL line (RV-ATL) and were euthanized 20 to 32 days after inoculation. SCID/beige mice with engrafted RV-ATL cells developed lymphoma in the mesentery, liver, thymus, lungs, and spleen. The lymphomas stained positively for human CD45RO surface receptor and normal mouse lymphocytes stained negatively confirming the human origin of the tumors. The ATL cells were immunohistochemically positive for parathyroid hormone-related protein (PTHrP). In addition, PTHrP mRNA was highly expressed in lymphomas when compared to MT-2 cells (HTLV-1-positive cell line). Mice with lymphoma developed severe hypercalcemia. Plasma PTHrP concentrations were markedly increased in mice with hypercalcemia, and correlated with the increase in plasma calcium concentrations. Bone densitometry and histomorphometry in lymphoma-bearing mice revealed significant bone loss because of a marked increase in osteoclastic bone resorption. RV-ATL cells

Unusual clinical course Background: Malignant hypercalcemia is a rare finding in the pediatric population, even more rare in hematological malignancies, such as leukemia. Case Report: We present a case of a 6-year-old female patient who was diagnosed with acute lymphoblastic leukemia, with secondary hypercalcemia. She started chemotherapy following the IC-BFM ALL2002 protocol with simultaneous calcitonin, diuretics and aggressive hydration for hypercalcemia, and went into complete remission after the induction therapy. After 4 months of chemotherapy, she was diagnosed with relapse associated again with malignant hypercalcemia, and underwent chemotherapy with the relapse protocol. There was no response after the first 2 cycles, so we decided to start her on clofarabine. Due to the severe hypercalcemia and consecutive osteolysis, she developed several bone fractures and needed gypsum immobilization. We started her again on calcitonin, but she developed severe adverse reactions, so we found it necessary to start bisphosphonates, first zoledronic acid intravenously, and afterwards clodronate orally. Consolidation of bone fractures was achieved, but due to prolonged immobilization she developed bedsores, superinfected with Lichtheimia corymbifera. We started posaconazole orally, but she rapidly went into severe sepsis with multiple organ failure. The leukemia showed no response to chemotherapy, progressed rapidly, and the patient died. Conclusions: Malignant hypercalcemia is associated with a poor prognosis in leukemia, and might need a more aggressive therapy.

Supportive Care in Cancer, 2012

Purpose Hypercalcemia is a frequent finding in cancer patients and can be observed in any type of cancer. The physician in charge of cancer patients often ignores nonmalignant causes of hypercalcemia. Our objective was to review the causes of hypercalcemia in a large series of cancer patients. Methods We have retrospectively studied in a Cancer Centre all consecutive hypercalcemic (Ca>10.5 mg/dl) patients over an 8-year period. Of 699 evaluated patients, 642 were analyzed after exclusion of patients whose hypercalcemia resolved after rehydration or who had a normal Ca level after correction for protein concentrations. Clinical information was gathered on the type of cancer, its histology, whether the disease was active or in complete remission, and on the presence of bone metastases. Biochemical data included serum Ca, P i , proteins in all patients, PTH in most patients, and PTHrP, 25OH-Vitamin D, 1,25(OH) 2-Vitamin D, TSH, and T4 in selected cases. Results By order of decreasing frequency, the main causes of hypercalcemia were cancer (69.0 %), primary hyperparathyroidism (24.6 %), hyperthyroidism (2.2 %), milk alkali syndrome (0.9 %), and sarcoidosis (0.45 %). In cancer-related causes, bone metastases accounted for 53.0 % of the cases, humoral hypercalcemia of malignancy (HHM) for 35.3 % while there were 11.7 % of cases apparently due to both HHM and bone metastases. Hypercalcemia was not due to cancer in 97 % (84/87) of the patients who were in complete remission. Even in patients with active neoplastic disease, the number of patients whose hypercalcemia was not due to cancer remained clinically relevant (115/5550 20.5 %). In the 158 patients with primary hyperparathyroidism, 92 patients were in complete remission and 66 patients had active neoplastic disease. Conclusions In this large series of hypercalcemia in cancer patients, the cause was not due to cancer in almost one third of the cases. Most patients considered to be in complete remission had hypercalcemia due to a benign condition. In that perspective, serum PTH determination is essential in the approach of hypercalcemic cancer patients since primary hyperparathyroidism is by far the first non-malignant cause of hypercalcemia.