A randomized double-blind study of gallium nitrate compared with etidronate for acute control of cancer-related hypercalcemia

New solutions for combatting implant bacterial infection based on silver nano-dispersed and gallium incorporated phosphate bioactive glass sputtered films: A preliminary study

Ag/Ga were incorporated into resorbable orthopaedic phosphate bioactive glasses (PBG, containing P, Ca, Mg, Na, and Fe) thin films to demonstrate their potential to limit growth of Staphylococcus aureus and Escherichia coli in post-operative prosthetic implantation. Dual target consecutive co-sputtering was uniquely employed to produce a 46 nm Ag:PBG composite observed by high resolution TEM to consist of uniformly dispersed ~5 nm metallic Ag nano-particles in a glass matrix. Ga3+ was integrated into a phosphate glass preform target which was magnetron sputtered to film thicknesses of ~400 or 1400 nm. All coatings exhibited high surface energy of 75.4-77.3 mN/m, attributed to the presence of hydrolytic P-O-P structural surface bonds. Degradation profiles obtained in deionized water, nutrient broth and cell culture medium showed varying ion release profiles, whereby Ga release was measured in 1400 nm coating by ICP-MS to be ~6, 27, and 4 ppm respectively, fully dissolving by 24 h. Solubility of Ag nanoparticles was only observed in nutrient broth (~9 ppm by 24 h). Quantification of colony forming units after 24 h showed encouraging antibacterial efficacy towards both S. aureus (4-log reduction for Ag:PBG and 6-log reduction for Ga-PBG≈1400 nm) and E. coli (5-log reduction for all physical vapour deposited layers) strains. Human Hs27 fibroblast and mesenchymal stem cell line in vitro tests indicated good cytocompatibility for all sputtered layers, with a marginal cell proliferation inertia in the case of the Ag:PBG composite thin film. The study therefore highlights the (i) significant manufacturing development via the controlled inclusion of metallic nanoparticles into a PBG glass matrix by dual consecutive target co-sputtering and (ii) potential of PBG resorbable thin-film structures to incorporate and release cytocompatible/antibacterial oxides. Both architectures showed prospective bio-functional performance for a future generation of endo-osseous implant-type coatings.

In Vitro Interaction of 5-Aminoorotic Acid and Its Gallium(III) Complex with Superoxide Radical, Generated by Two Model Systems

Increased levels of the superoxide radical are associated with oxidative damage to healthy tissues and with elimination of malignant cells in a living body. It is desirable that a chemotherapeutic combines pro-oxidant behavior around and inside tumors with antioxidant action near healthy cells. A complex consisting of a pro-oxidant cation and antioxidant ligands could be a potential anticancer agent. Ga(III) salts are known anticancer substances, and 5-aminoorotic acid (HAOA) is a ligand with antioxidant properties. The in vitro effects of HAOA and its complex with Ga(III) (gallium(III) 5-aminoorotate (GaAOA)) on the in vitro accumulation of superoxide and other free radicals were estimated. Model systems such as potassium superoxide (KO2), xanthine/xanthine oxidase (X/XO), and rat blood serum were utilized. Data suggested better antioxidant effect of GaAOA compared to HAOA. Evidently, all three ligands of GaAOA participated in the scavenging of superoxide. The effects in rat blood serum were more nuanced, considering the chemical and biochemical complexity of this model system. It was observed that the free-radical-scavenging action of both compounds investigated may be manifested via both hydrogen donation and electron transfer pathways. It was proposed that the radical-scavenging activities (RSAs) of HAOA and its complex with Ga(III) may be due to a complex process, depending on the concentration, and on the environment, nature, and size of the free radical. The electron transfer pathway was considered as more probable in comparison to hydrogen donation in the scavenging of superoxide by 5-aminoorotic acid and its gallium(III) complex.

Lanthanum, Gallium and their Impact on Oxidative Stress

The role metals play in living organisms is well established and subject to extensive research. Some of them participate in electron-exchange reactions. Such reactions cause generation of free radicals that can adversely impact biological systems, as a result of oxidative stress. The impact of 'non-biological' metals on oxidative stress is also a worthy pursuit due to the crucial role they play in modern civilization. Lanthanides (Ln) are widely used in modern technology. As a result, human exposure to them is increasing. They have a number of established medical applications and are being extensively researched for their potential antiviral, anticancer and anti-inflammatory properties. The present review focuses on lanthanum (La) and its impact on oxidative stress. Another metal, widely used in modern high-tech is gallium (Ga). In some respects, it shows certain similarities to La, therefore it is a subject of the present review as well. Both metals exhibit ionic mimicry which allows them to specifically target malignant cells, initiating apoptosis that makes their simple salts and coordination complexes promising candidates for future anticancer agents.

Exposure Potential and Health Impacts of Indium and Gallium, Metals Critical to Emerging Electronics and Energy Technologies

The rapid growth of new electronics and energy technologies requires the use of rare elements of the periodic table. For many of these elements, little is known about their environmental behavior or human health impacts. This is true for indium and gallium, two technology critical elements. Increased environmental concentrations of both indium and gallium create the potential for increased environmental exposure, though little is known about the extent of this exposure. Evidence is mounting that indium and gallium can have substantial toxicity, including in occupational settings where indium lung disease has been recognized as a potentially fatal disease caused by the inhalation of indium particles. This paper aims to review the basic chemistry, changing environmental concentrations, potential for human exposure, and known health effects of indium and gallium.

Electrolyte Disturbances in Critically Ill Cancer Patients: An Endocrine Perspective

Electrolyte disturbances are frequently encountered in critically ill oncology patients. Hyponatremia and hypernatremia as well as hypocalcemia and hypercalcemia are among the most commonly encountered electrolyte abnormalities. In the intensive care unit, management of critical electrolyte disturbances is focused on initial evaluation and immediate treatment plan to prevent severe complications. A PubMed search was performed to identify best available evidence for evaluation and management of dysnatremias, hypocalcemia, and hypercalcemia. Current literature was reviewed regarding the management of electrolyte disturbances. The role of new therapeutic options, for example, vaptans for hyponatremia, teriparatide for hypocalcemia, and denosumab for hypercalcemia, is discussed. Early diagnosis and appropriate management are expected to reduce adverse outcomes.

Antibacterial and antifungal potential of Ga-bioactive glass and Ga-bioactive glass/polymeric hydrogel composites

A bioactive glass series (0.42SiO₂ -0.10Na₂ O-0.08CaO-(0.40 - x)ZnO-(x)Ga₂ O₃ ) was synthesized, and it is efficacy against the Gram (-ve) bacteria Escherichia coli (E. coli), the Gram (+ve) bacteria Staphylococcus aureus (S. aureus), and the fungus Candida albicans (C. albicans), were characterized through liquid broth analysis. The glass series was also seeded in CMC-Dex hydrogels at three different loadings (0.05, 0.10, and 0.25 m² ), and the antibacterial and antifungal efficacies of the resulting composites were characterized using both liquid broth and agar diffusion analysis. Liquid broth analysis was conducted using liquid extracts, which for glass samples were obtained after incubation for up to 30 days in both ultrapure water and phosphate buffered saline (PBS), while glass-hydrogel extracts were obtained solely in PBS. Glass extracts (water) decreased C. albicans viability, while those obtained in PBS decreased the viability of both E. coli and C. albicans. Glass-hydrogel extracts exhibited slight inhibition of E. coli and C. albicans. However, none of the liquid extracts decreased S. aureus viability. Glass-hydrogel composites produced inhibition zones in all three microbial cultures, with the greatest efficacy against C. albicans. The results of this study suggest these materials have potential as bone void-filling materials which display antifungal, and possibly, antibacterial properties. © 2016 Wiley Periodicals, Inc. J Biomed Mater Res Part B: Appl Biomater, 105B: 1102-1113, 2017.

Design and properties of novel gallium-doped injectable apatitic cements

Different possible options were investigated to combine an apatitic calcium phosphate cement with gallium ions, known as bone resorption inhibitors. Gallium can be either chemisorbed onto calcium-deficient apatite or inserted in the structure of β-tricalcium phosphate, and addition of these gallium-doped components into the cement formulation did not significantly affect the main properties of the biomaterial, in terms of injectability and setting time. Under in vitro conditions, the amount of gallium released from the resulting cement pellets was found to be low, but increased in the presence of osteoclastic cells. When implanted in rabbit bone critical defects, a remodeling process of the gallium-doped implant started and an excellent bone interface was observed.

STATEMENT OF SIGNIFICANCE

The integration of drugs and materials is a growing force in the medical industry. The incorporation of pharmaceutical products not only promises to expand the therapeutic scope of biomaterials technology but to design a new generation of true combination products whose therapeutic value stem equally from both the structural attributes of the material and the intrinsic therapy of the drug. In this context, for the first time an injectable calcium phosphate cement containing gallium was designed with properties suitable for practical application as a local delivery system, implantable by minimally invasive surgery. This important and original paper reports the design and in-depth chemical and physical characterization of this groundbreaking technology.

An Interesting Case of Life-Threatening Hypercalcemia Secondary to Atypical Parathyroid Adenoma versus Parathyroid Carcinoma

Context. Severe hypercalcemia is a life-threatening condition. Atypical parathyroid adenoma and parathyroid carcinomas are uncommon causes which can be difficult to differentiate. Objective. We report a case of a 36-year-old male with very high serum calcium due to a possible atypical parathyroid adenoma versus parathyroid carcinoma. Case Illustration. A serum calcium level of 23.2 mg/dl was noted on admission. He was initially treated with IV hydration, pamidronate, and salmon calcitonin to lower his calcium levels. He also underwent a surgical en bloc resection of parathyroid mass. Pathology showed a mixed picture consistent with possible atypical adenoma versus parathyroid carcinoma. However, due to the possible involvement of the recurrent laryngeal nerve, parathyroid carcinoma was more likely. Also after operation the patient developed hungry bones syndrome and his calcium was replaced vigorously. He continues to be on calcium, vitamin D, and calcitriol supplementation. Results. A review of the literature was conducted to identify previous studies pertaining to parathyroid adenomas and parathyroid cancer. Conclusion. We thereby conclude that hypercalcemia requires very careful monitoring especially after operation. Also it can be very difficult to distinguish between atypical parathyroid adenomas and parathyroid carcinomas as in our case and no clear cut guidelines yet exist to differentiate the two based on histology.

Onco-nephrology: the pathophysiology and treatment of malignancy-associated hypercalcemia

Hypercalcemia complicates the course of 10%-30% of all patients with malignancies and can be a sign of very poor prognosis and advanced malignancy. Prompt recognition of the nonspecific signs and symptoms of hypercalcemia and institution of therapy can be lifesaving, affording the opportunity to address the underlying etiology. The mechanisms of malignancy-associated hypercalcemia generally fall into three categories: humoral hypercalcemia due to secreted factors (such as parathyroid-related hormone), local osteolysis due to tumor invasion of bone, and absorptive hypercalcemia due to excess vitamin D produced by malignancies. The mainstays of therapy for hypercalcemia are aggressive intravenous volume expansion with saline, bisphosphonate therapy, and perhaps loop diuretics. Adjunctive therapy may include calcitonin and corticosteroids. In refractory cases, gallium nitrate and perhaps denosumab are alternatives. In patients presenting with severe AKI, hemodialysis with a low-calcium bath can be effective. In most cases, therapy normalizes calcium levels and allows for palliation or curative therapy of the malignancy.

The effect of gallium nitrate on arresting blood flow from a wound

A novel application of gallium nitrate, hitherto unreported, in reducing bleeding time from an open wound is presented. Experiments performed using simple punctures in the forearm demonstrated a very substantial reduction in bleeding time when a solution of gallium nitrate was applied relative to a control. This outcome was shown to be unaffected by the anticoagulant properties of warfarin. The mechanism for such action of gallium nitrate is unknown and merits further investigation, as do the possibilities for such an application to improve both civilian and defense trauma treatment modalities.

Medical applications and toxicities of gallium compounds

Over the past two to three decades, gallium compounds have gained importance in the fields of medicine and electronics. In clinical medicine, radioactive gallium and stable gallium nitrate are used as diagnostic and therapeutic agents in cancer and disorders of calcium and bone metabolism. In addition, gallium compounds have displayed anti-inflammatory and immunosuppressive activity in animal models of human disease while more recent studies have shown that gallium compounds may function as antimicrobial agents against certain pathogens. In a totally different realm, the chemical properties of gallium arsenide have led to its use in the semiconductor industry. Gallium compounds, whether used medically or in the electronics field, have toxicities. Patients receiving gallium nitrate for the treatment of various diseases may benefit from such therapy, but knowledge of the therapeutic index of this drug is necessary to avoid clinical toxicities. Animals exposed to gallium arsenide display toxicities in certain organ systems suggesting that environmental risks may exist for individuals exposed to this compound in the workplace. Although the arsenic moiety of gallium arsenide appears to be mainly responsible for its pulmonary toxicity, gallium may contribute to some of the detrimental effects in other organs. The use of older and newer gallium compounds in clinical medicine may be advanced by a better understanding of their mechanisms of action, drug resistance, pharmacology, and side-effects. This review will discuss the medical applications of gallium and its mechanisms of action, the newer gallium compounds and future directions for development, and the toxicities of gallium compounds in current use.

Haematological emergencies managing hypercalcaemia in adults and children with haematological disorders

Hypercalcaemia is a common metabolic complication of malignant disease often requiring emergency intervention. Although it is more frequently associated with solid tumours, malignancy-associated hypercalcaemia (MAH) is seen in a significant number of patients with blood diseases. Its association with myeloma and adult T-cell leukaemia/lymphoma is well recognized but the incidence of hypercalcaemia in other haematological neoplasms, affecting adults and children, is less clearly defined. Haematologists need to be familiar with the clinical manifestations of, the differential diagnosis to be considered and the most effective management strategies that are currently available for MAH. The key components of management of MAH include aggressive rehydration, specific therapy to inhibit bone resorption and, crucially, treatment of the underlying malignancy. Bisphosphonates have revolutionized the management of MAH over the last 20 years, however the elucidation of molecular pathways implicated in MAH is facilitating the development of more targeted approaches to treatment.

A case of resistant hypercalcemia of malignancy with a proposed treatment algorithm

OBJECTIVE

To report and describe a case of refractory hypercalcemia of malignancy (HCM) associated with metastatic, transitional-cell carcinoma of the left ureter.

CASE SUMMARY

A 71-year-old male complaining of generalized weakness and night sweats for the past 3 months was sent to the emergency department when routine laboratory tests revealed a corrected serum calcium concentration of 14.4 mg/dL. Intravenous crystalloid fluids and pamidronate were administered with achievement of normocalcemia, and the patient was discharged. Computed tomography scan and liver biopsy revealed recurrent transitional-cell carcinoma with extensive liver metastasis. The patient returned approximately 1 week after discharge with a serum calcium level of 13.9 mg/dL. An initial decrease in serum calcium was observed with intravenous fluids, pamidronate, and calcitonin, but the normalization slowed and reversed within 3 days. Normocalcemia was achieved upon administration of zoledronic acid and the patient was discharged on day 14. The patient died 1 week after discharge from complications unrelated to hypercalcemia.

DISCUSSION

Hypercalcemia is common in patients with malignancy and is associated with potentially life-threatening sequelae. Four mechanisms of HCM have been recognized thus far, with ectopic tumor production of parathyroid hormone-related protein (PTHrP) being the leading cause. Treatment of HCM revolves around 2 principles: treatment of the underlying malignancy along with reduction of the serum calcium level. Evidence-based therapies for management include: intravenous crystalloid fluids with or without loop diuretics, bisphosphonates, calcitonin, gallium nitrate, and corticosteroids. Therapies used for this patient included aggressive hydration, calcitonin, and 3 distinct treatment courses of intravenous bisphosphonates with varying success. Other potential agents were explored for use in the event of continued hypercalcemia. These therapies remain viable options based on individual patient factors. To our knowledge, no published guidelines or algorithms exist for choosing between additional modalities in the treatment of refractory HCM.

CONCLUSIONS

For patients with HCM who do not achieve a response from bisphosphonates, or for those who need repeated dosing more often than expected, changing to a different drug class could be an alternative. The specific mechanism of hypercalcemia should be considered when developing a treatment regimen for patients who have had a suboptimal response to initial therapy with bisphosphonates. Multiple treatment modalities exist for the treatment of hypercalcemia, each with a different mechanism of action. As with the treatment of other disease states, we can use this knowledge to more specifically target the mechanism of the patient's disease.

New strategies for the treatment of metastatic bone disease

The introduction of bisphosphonates represents an important advance in the care of patients with metastatic bone disease. Nonetheless, we remain unable to prevent metastatic bone destruction. This review will discuss several novel therapies, including inhibitors of receptor activator of nuclear factor-kappabeta, c-Src, mammalian target of rapamycin, cathepsin K, and alpha(5)beta(3) integrins, which could improve our control over this devastating complication.

Oncologic Emergencies

It has been estimated that genitourinary malignancies will account for 25% of new cancer diagnoses in the United States in 2005 (Jemal et al. 2005). While the incidence of many of these malignancies has increased over the past two decades, the mortality rates appear to be decreasing. Early cancer detection combined with improvements in surgical and nonsurgical oncologic therapy account for these trends. Although not common, newly diagnosed cancer patients occasionally present in an emergent, life-threatening manner that warrants immediate medical or surgical intervention. As the prevalence of genitourinary malignancies continues to expand, additional patients can be expected to develop disease or treatment-related complications. This chapter will serve to review the diagnosis and management of oncologic emergencies as they pertain to the urologist.

Randomized, Double-Blind, Phase II Trial of Gallium Nitrate Compared with Pamidronate for Acute Control of Cancer-Related Hypercalcemia

BACKGROUND

Both gallium nitrate and pamidronate are highly effective for acute control of cancer-related hypercalcemia. However, the proportion of patients who actually achieve normocalcemia has varied in published reports. Therefore, we conducted an exploratory, randomized, double-blind trial that compared the efficacy and safety of gallium nitrate and pamidronate in hospitalized patients with cancer-related hypercalcemia.

PATIENTS AND METHODS

Eligible patients with hypercalcemia, defined as albumin-adjusted serum calcium > or = 12.0 mg/dL after intravenous hydration, were stratified on the basis of tumor histology (i.e., epidermoid or nonepidermoid) and by study site. Patients were then randomly assigned to receive intravenous gallium nitrate 200 mg/m2 daily for 5 days or intravenous pamidronate 60 mg (increased during the study to 90 mg for patients with initial serum calcium > or = 13.5 mg/dL) followed by placebo infusions for 4 days. The primary endpoint of the study was comparison of the proportion of patients who achieved normocalcemia.

RESULTS

Sixty-four patients were randomized, and all patients were evaluable for efficacy and safety. Normocalcemia was achieved in 22 of 32 (69%) patients treated with gallium nitrate compared with 18 of 32 patients (56%) treated with pamidronate. Patients randomized to pamidronate with initial serum calcium > or = 13.5 mg/dL did not respond better to 90 mg (3 of 6; 50%) than to 60 mg (7 of 13; 54%), or compared with the response to gallium nitrate in this subset (15 of 21; 71%). Response to pamidronate was also lower in patients with epidermoid cancers (33%, vs 68% for gallium nitrate). Duration of normocalcemia was examined using both an intent-to-treat analysis irrespective of response and an analysis that examined only responding patients. By intent-to-treat analysis, the median duration of normocalcemia was 1 day for the pamidronate group and 7 days for the gallium nitrate group. Estimated normocalcemic duration in responders was 10 days for the pamidronate group and 14 days for the gallium nitrate group. Both drugs were well tolerated, and clinically significant nephrotoxicity was not observed in either treatment group.

DISCUSSION

Gallium nitrate appears to be at least as effective as pamidronate for acute control of cancer-related hypercalcemia. Results from this trial suggest that gallium nitrate may be particularly useful in patients with epidermoid cancers or severe hypercalcemia at baseline, and in patients who have previously exhibited a poor response to bisphosphonates.

Current management strategies for hypercalcemia

The two most common causes of hypercalcemia are primary hyperparathyroidism and neoplastic disease. Parathyroidectomy is the only curative intervention for the former condition. In the rare cases of patients with primary hyperparathyroidism who present with clinical symptoms due to their hypercalcemia, pharmacological treatment may be required. Fluid repletion and intravenous (IV) administration of bisphosphonates are recommended in the literature. Calcium receptor agonists (calcimimetic agents) are at the present time only available for use within clinical trials. Cancer patients usually present with symptoms of hypercalcemia. Rapid institution of antihypercalcemic treatment is essential in preventing life-threatening deterioration. Fluid repletion and administration of bisphosphonates are the treatment mainstays in hypercalcemia of malignancy. Five bisphosphonates are currently licensed in Europe for treatment of tumor-associated hypercalcemia: etidronate, clodronate, pamidronate, ibandronate, and zoledronate. In the US, pamidronate and zoledronate are licensed for use in this indication. Bisphosphonates containing nitrogen atoms (e.g. pamidronate, ibandronate, and zoledronate) are more potent than those without (e.g. etidronate, clodronate, and tiludronate). In patients with malignant hypercalcemia, the efficacy of the individual bisphosphonate depends on dose administered and initial serum calcium concentration. At present, pamidronate has been studied in the greatest number of investigations and in the largest number of patients. In the literature, the efficacy of pamidronate in restoring normocalcemia ranges between 40% and 100%, depending on the dose used and baseline serum calcium concentration. More recently, one study reported that pamidronate was inferior to zoledronate. In this study, the duration of response was also longer in the two zoledronate groups (30 and 40 days) than in the pamidronate group (17 days). The most serious adverse events of bisphosphonates concern renal function. Increases in serum creatinine levels have been more frequently reported following treatment of tumor-associated hypercalcemia with etidronate (8%) and clodronate (5%) than with the nitrogen-containing bisphosphonates pamidronate (2%) and ibandronate (1%). The frequency of increases in serum creatinine levels following treatment with zoledronate is difficult to estimate. Administration of the nitrogen-containing bisphosphonates has been associated with transient (usually mild) fever, lymphocytopenia, malaise, and myalgias. These events occur within 36 hours of the first dose and are self-limiting. Hypocalcemia occurs in up to 50% of patients treated with bisphosphonates for hypercalcemia of malignancy, although symptomatic hypocalcemia is rare. The toxicity and low efficacy of plicamycin (mithramycin) mean that use of this agent should be restricted to patients with hypercalcemia of malignancy who fail to respond to IV bisphosphonates. Calcitonin is characterized by good tolerability but poor efficacy in normalizing the serum calcium level. However, a major advantage of calcitonin is the acute onset of the hypocalcemic effect, which contrasts with the delayed but more pronounced effect of bisphosphonates. Combination calcitonin and bisphosphonate treatment may therefore be of value when rapid reduction of serum calcium is warranted. Gallium nitrate may be a valuable treatment for hypercalcemia of malignancy. It is characterized by high efficacy and few adverse events apart from renal toxicity (10% of cases). However, data are very limited and further trials are necessary.

Systematic review of bisphosphonates for hypercalcaemia of malignancy

BACKGROUND

Bisphosphonates are the treatment of choice for hypercalcaemia of malignancy (HCM) but there is no consensus regarding which drug or dose should be given. We designed a systematic review to investigate the efficacy of bisphosphonates in the treatment of HCM.

METHODS

We identified randomized controlled trials (RCTs) by searching electronic databases, scanning of reference lists, and consultation with experts and pharmaceutical companies. Foreign papers were translated. Inclusion criteria were RCTs, confirmed malignant disease and measurement of serum calcium (ionized or corrected for albumin) postrehydration. The primary outcome was number of patients achieving normocalcaemia. Secondary outcomes were time to normocalcaemia, time to relapse and toxicity.

RESULTS

Twenty-seven papers and two abstracts, using intravenous bisphosphonates, fulfilled the inclusion criteria. Data from 26 studies were used in analyses. Due to the heterogeneity of studies, meta-analysis could not be performed. Pamidronate was more effective than placebo, mithramycin, etidronate (7.5 mg/kg) and low-dose clodronate (600 mg), but equal to higher dose clodronate (1500 mg). Clodronate and etidronate were superior to placebo; incadronate was superior to elcatonin; gallium nitrate was superior to etidronate. No difference was seen between alendronate and clodronate. Three dose finding studies showed no difference between 30-90 mg of pamidronate, but one well designed study showed increasing efficacy with increasing dose. Studies using increasing doses of ibandronate (0.6-4 mg), alendronate (2.5-15 mg), and incadronate (2.5-10mg), showed a dose response. Duration of administration of pamidronate did not affect efficacy (six studies).

CONCLUSION

Bisphosphonates normalize calcium in >70% patients with minimal side effects. Aminobisphosphonates are most effective at maintaining normocalcaemia and should be given in high dose irrespective of baseline serum calcium.

Endocrine paraneoplastic syndromes in lung cancer

Lung tumors are capable of synthesizing and secreting peptide proteins (hormones) that lead to a variety of endocrine paraneoplastic syndromes. Knowledge about the clinical manifestations, pathophysiology, and treatment of these syndromes has evolved over time. This article provides an up-to-date overview of this knowledge.

The use of zoledronic acid, a novel, highly potent bisphosphonate, for the treatment of hypercalcemia of malignancy

BACKGROUND

Hypercalcemia of malignancy is a serious complication of cancer that affects patients with and without bone metastases. A single infusion of pamidronate disodium, a nitrogen-containing bisphosphonate, effectively normalizes serum calcium in the majority of patients treated for up to 1 month. Zoledronic acid is a new-generation, heterocyclic nitrogen-containing bisphosphonate and the most potent inhibitor of bone resorption identified to date.

METHODS

The natural history, clinical presentation, and treatment of hypercalcemia of malignancy are reviewed, with a focus on the mechanisms of action and relative efficacy and safety of bisphosphonate therapies.

RESULTS

The improved efficacy of zoledronic acid compared with pamidronate disodium has been demonstrated in a pooled analysis of two randomized clinical trials in patients with hypercalcemia of malignancy. In these trials, both zoledronic acid and pamidronate disodium were safe and well tolerated; however, zoledronic acid treatment resulted in a significantly higher number of complete responses, more rapid calcium normalization, and more durable responses compared with pamidronate disodium.

CONCLUSIONS

Given the superior efficacy and comparable safety profile of zoledronic acid compared with pamidronate disodium, zoledronic acid is likely to become the treatment of choice for hypercalcemia of malignancy.

Paraneoplastic syndromes associated with bronchogenic carcinoma

Paraneoplastic syndromes associated with lung cancer are diverse in their presentation, pathophysiology, and implications. They can be seen as a diagnostic and therapeutic challenge or as an opportunity to detect an otherwise asymptomatic malignancy. Unraveling the mechanisms that produce these syndromes will lead to insight into tumor biology that will be translated into novel approaches for early detection and therapy.

Antalgic treatment of pain associated with bone metastases

Pain from metastases of primitive cancer is the first symptom of disease in 15--20% of patients and remains the most common cause of cancer-related pain. 30--70% of patients have metastases at diagnosis, and 80% of them at the moment of death. Functional impairment of skeleton, neurologic symptoms, pathological fractures and pain are the most important indications for palliative treatment which should result in tumor regression, relief in cancer-related symptoms and maintainance of functional integrity. Bone metastases are treated with the systemic therapies including radiotherapy, hormonal manipulation, biphosphonates, calcitonin, surgical treatment, and chemotherapy. Conventional use of opioids or non-steroidal anti-inflammatory drugs does not always produce satisfactory analgesic result in treated patients because of incidental and intermittent nature of pain and unacceptable side effects. Alternative strategies (peripheric and central nerve blocks, neurolysis) are frequently required. A proper use of different modalities of treatment enhances the probability of achieving relief of pain and maintaining an acceptable quality of life.

Complexes of gallium(III) and other metal ions and their potential in the treatment of neoplasia

The metal complexes of a variety of ligands show diverse pharmacological properties. The potential of these compounds as antineoplastic agents is underlined by the success of the clinically used platinum complex cisplatin (cis-[(NH(3))(2)PtCl(2)]). In the current review, specific examples of gallium, copper, ruthenium and titanium complexes are discussed with special relevance to their use in the treatment of cancer. Some of these complexes have demonstrated marked activity in a number of animal models and for some compounds, clinical trials are anticipated or have already begun. Collectively, the results in the literature indicate that the study of metal complexes as antineoplastic agents deserves continued intensive investigation.

Current drug therapy for multiple myeloma

Recent years have witnessed tremendous advances in the molecular pathogenesis and management of multiple myeloma. Standard chemotherapy (melphalan and prednisone; MP) has been the mainstay of treatment of multiple myeloma for about 3 decades. However, it is no longer considered the 'gold standard', particularly for those patients who will subsequently undergo intensive chemotherapy with autologous or allogeneic peripheral blood stem cell (PBSC) or bone marrow transplantation (BMT), or for patients with refractory myeloma. A variety of induction combination chemotherapy regimens have been developed, some of which have demonstrated an improved response rate and duration and a superior 5-year survival rate when compared with standard chemotherapy. The early use of high dose chemotherapy with autologous PBSC support or BMT has significantly increased the complete remission rate, and has prolonged event-free sur vival and overall survival. Allogeneic bone marrow or PBSC transplantation may be a good option for selected patients with poor prognostic features. The role of interferon-alpha in multiple myeloma is still inconclusive despite many years of clinical evaluation. The clinical application of chemosensitising agents that can inhibit P-glycoprotein (P-gp) expression and function, and particularly the development of more potent P-gp modulators such as valspodar (PSC 833) and elacridar (GF120918) has made it possible to reverse multidrug resistance in some refractory patients and to enhance the efficacy of chemotherapeutic agents. Immunotherapeutic approaches to purging of autologous bone marrow or PBSC, or as adjuvant therapy for minimal residual disease, show great promise. Finally, a number of new therapies specifically designed to treat many of the complications of multiple myeloma are improving clinical outcomes and quality of life for these patients.

The role of bisphosphonates for the treatment of bone disease in multiple myeloma

Palliative therapy is often a major objective for clinicians while treating advanced cancer. This is particularly true in multiple myeloma (MM), where bone involvement markedly influences the quality of life of patients. Bisphosphonates (BP) are a new class of drugs regulating bone turnover, which exert their activity mainly by inhibiting osteoclast bone resorption. Three BP (etidronate, ETD; clodronate, CDN; pamidronate, PMD) have so far been investigated in the clinical setting for treating bone disease in patients with MM. The results of these trials, including our own experience, are reviewed here. Although all three BP were effective in lowering hypercalcemia of MM patients, PMD, a second generation BP, clearly had the most substantial long term clinical benefits regarding bony complications, pain and quality of life. CDN also showed some activity in reducing the development of new lytic lesions, while no significant beneficial effect was seen in patients using ETD. Interestingly, some studies have reported an improved survival in subsets of MM patients receiving BP and this is in agreement with recent evidence of possible direct anti-neoplastic activities of these drugs mediated through reduction of IL-6 production and stimulation of neoplastic cell apoptosis.

Oncologic emergencies

The prognosis for the child with cancer has improved dramatically over the past decades. With this success comes the need for recognition and proper treatment of emergencies. Respiratory or circulatory failure may arise from compression of the SVC or airway. Epidural spinal cord compression by tumor may lead to irreversible paraplegia or urinary incontinence if intervention is not rapid. Raised intracranial pressure may be a life-threatening presentation of a brain tumor. Bone marrow failure, with anemia and thrombocytopenia, is associated with malignant infiltration of the marrow. Hyperleukocytosis carries a high risk of thrombotic events if not treated promptly. Coagulation abnormalities are seen in many childhood cancers at the time of diagnosis. Life-threatening metabolic abnormalities are observed at presentation in children with leukemia and lymphoma. Hypercalcemia, although rare, may be a difficult situation to correct. Immediate attention to these emergencies and appropriate treatment may save the life of a child with cancer or make his or her subsequent course just a little smoother.

Hypercalcemia and electrolyte disturbances in malignancy

Hypercalcemia and electrolyte abnormalities are common problems in patients with malignancy. In this article we discuss the pathophysiology, clinical features, and management of hypercalcemia, which is the most common metabolic abnormality. We also analyze the electrolyte disturbances that occur in association with malignancy, including hyponatremia, hypokalemia, hypomagnesemia, hypophosphatemia, and hyperkalemia. Recognition and treatment of these disturbances are important parts of the management of patients with malignant disease.

Acute management of cancer-related hypercalcemia

OBJECTIVE

To review the pathogenesis and pharmacologic treatment of acute hypercalcemia associated with malignancy.

DATA SOURCES

A MEDLINE search (1966 to 1995) of the English-language literature pertaining to acute hypercalcemia was performed. Additional literature was obtained from reference lists of articles identified through the search.

STUDY SELECTION AND DATA EXTRACTION

All articles discussing the etiology and medical management of cancer-related acute hypercalcemia were considered in this review. Clinical trials reporting efficacy and safety of antihypercalcemic agents were also included. Information selected in the review was based on the discretion of the authors.

DATA SYNTHESIS

Hypercalcemia is a life-threatening disorder associated with malignancy. It occurs in approximately 10-20% of patients with cancer. A variety of medications have been used in the management of hypercalcemia including bisphosphonates, calcitonin, furosemide, gallium nitrate, glucocorticoids, NaCl 0.9%, and plicamycin. Each of these agents has been reviewed with consideration of pharmacologic mechanism of action, evaluation of clinical trials, recommended dosages, efficacy, safety, cost, and role in treating cancer-related acute hypercalcemia.

CONCLUSIONS

Immediate management of cancer-related acute hypercalcemia to prevent death and provide symptomatic relief is warranted. Severity determined by symptoms, calcium concentrations, and the overall status of the patient are important considerations in selecting appropriate therapy. Although the specific role of individual agents may vary, hydration remains the cornerstone of therapy. NaCl 0.9%, calcitonin, and pamidronate disodium have established roles as dominant first-line agents for the management of acute hypercalcemia associated with malignancy.

Hypercalcemia of malignancy in the palliative care patient: a treatment strategy

Hypercalcemia of malignancy is most commonly due to the effects of parathyroid hormone-related peptide, which acts as a humoral factor to cause generalized osteoclast-mediated bone resorption and reabsorption of calcium by the kidney tubule, and may also act as a local resorptive factor adjacent to bone metastases. Local resorptive mechanisms are less common causes of malignant hypercalcemia than previously believed. Treatment begins with intravenous fluid rehydration, followed by a furosemide diuresis and the bisphosphonate pamidronate, 60-90 mg, intravenously. Gallium nitrate is an efficacious but inconvenient alternative to pamidronate. Calcitonin combined with pamidronate is a reasonable initial therapy for severe hypercalcemia to hasten normalization of the serum calcium. Steroids should be reserved for hypercalcemia due to tumor production of 1,25 dihydroxyvitamin D, or for steroid-responsive malignancies. Oral or parenteral bisphosphonates can be used to maintain normocalcemia. In addition to improving the morbidity of acute hypercalcemia, bisphosphonate therapy has been shown to reduce bone pain and pathological fractures in patients with bone metastases, and calcitonin also has a potent analgesic effect in these patients. Treatment for hypercalcemia should therefore be considered in the majority of patients in the palliative care setting.

The management of hypercalcemia of malignancy

Hypercalcemia (HCM) occurs in 10-15% of all malignancies, predominantly in patients with solid tumors. This metabolic complication leads to significant morbidity and impairment of quality of life. Recent insights into the pathophysiology of HCM include an understanding of the role of parathyroid-hormone-related peptide and several cytokines secreted by tumors. The osteoclast plays a central role as the final common pathway through which these hormones and cytokines act to cause bone lysis. These findings have led to the development of new treatment strategies. Foremost among these has been the introduction of agents such as the newer bisphosphonates and gallium nitrate, which are potent inhibitors of osteoclast-mediated bone resorption. The clinician can now choose from an array of therapeutic approaches based on a consideration of the mechanisms of action, individual clinical circumstances, efficacy, toxicities and costs of available agents. In addition to their use in the management of HCM, non-toxic drugs that effectively inhibit osteoclast function, such as the bisphosphonates, are playing an emerging role in the palliative treatment of the more common clinical problems of painful lytic bone metastases and osteoporosis.

Hypercalcemia and urologic malignancies

Hypercalcemia may be a manifestation of a variety of disorders including hyperparathyroidism, hypervitaminosis D, sarcoidosis, multiple myeloma, hyperthyroidism, acute osteoporosis, metastatic bone disease, and a number of primary malignancies. Hypercalcemia may be seen in as many as 1.5% of all patients with malignant disease, with or without bony metastases. The neoplasms most commonly associated with hypercalcemia include carcinoma of the lung (all cell types), breast cancer, squamous cell carcinomas, hematologic malignancies, and renal cell carcinoma. Observation of a number of instances of hypercalcemia attendant on urologic malignancies prompts the brief report of 4 characteristic cases with documentation of response to therapy. Management of severe and debilitating hypercalcemia is emphasized. Urologists should be aware of new agents available for such treatment.

Hypercalcemic crisis

Hypercalcemic crisis or severe hypercalcemia represents a life-threatening emergency. The most common cause is hypercalcemia of malignancy, although granulomatous diseases, previously undetected primary hyperparathyroidism, medication-induced hypercalcemia, and a few rarer causes may result in this endocrine emergency as well. The clinical presentation and prognosis depend on the acuity of the development of hypercalcemia, the degree of hypercalcemia, and the underlying cause. Certainly, patients with malignancy who develop hypercalcemia superimposed on their already debilitated state are more likely to have a poor outcome than a previously relatively healthy patient with thiazide-induced hypercalcemia, for example. The clinical presentation of patients with hypercalcemic crisis varies depending once again on the underlying cause and degree and rapidity of the hypercalcemia. Most patients experience some constitutional symptoms, neurologic symptoms, gastrointestinal symptoms, and renal manifestations of hypercalcemia. Immediate and effective therapy directed toward the pathophysiology of hypercalcemia is essential. General measures must be implemented to reverse the dehydration, to promote urinary calcium excretion, to avoid prolonged immobilization, and to identify the underlying cause of hypercalcemia. Specific measures directed at inhibiting bone resorption, increasing renal sodium and calcium excretion, and occasionally at decreasing intestinal absorption of calcium (or more specifically blocking vitamin D metabolism) should also be implemented. Obviously the more reversible the underlying cause of hypercalcemia, the more aggressive one should be with the therapy. The literature was reviewed to compile comparative data that practitioners may use in choosing among the various pharmacologic therapies available for the treatment of acute hypercalcemia. Despite all the advances in the field, hypercalcemic crisis still carries a significant mortality risk, although with appropriate therapy with the aforementioned general and specific measures, the calcium level can effectively be lowered in most patients.

Etidronic acid. A review of its pharmacological properties and therapeutic efficacy in resorptive bone disease

Etidronic acid is an orally and intravenously active bisphosphonate, which is believed to inhibit resorption of bone via a number of cellular mechanisms, including alteration of osteoclastic activity. In studies of patients with symptomatic Paget's disease, etidronic acid 5 to 20 mg/kg/day administered orally rapidly decreased the biochemical indices of bone turnover. Mineralisation defects in forming bone may be avoided by the use of an initial dosage of 5 mg/kg/day for up to 6 months; dosages above 10 mg/kg/day should be limited to 3 months' duration, and dosages greater than 20 mg/kg/day should be avoided. Although 3-day intravenous therapy with etidronic acid 7.5 mg/kg/day has shown superior efficacy to rehydration and forced diuresis in the management of hypercalcaemia of malignancy, the efficacy of the drug is lower than that of the newer bisphosphonates, pamidronic acid and clodronic acid. Clinical studies involving postmenopausal women with established osteoporosis have indicated that oral etidronic acid 400 mg/day for 14 days as part of a 90-day cycle, repeated for up to 3 years, increases the bone mineral density (BMD) of the lumbar vertebrae and appears to reduce the incidence of vertebral fracture. Published data suggest that etidronic acid shows similar efficacy to hormone replacement therapy (HRT) in these respects. The above dosage also appears to be effective in preventing corticosteroid-induced osteoporosis when administered as part of an intermittent, cyclical regimen. Etidronic acid in higher dosages (10 to 20 mg/kg/day orally) is effective in reducing the incidence of heterotopic ossification and its ensuing complications in both neurological and post-surgical patients. Etidronic acid is well tolerated by the majority of patients, with gastrointestinal complaints reported most commonly, but tends to delay the normal mineralisation of forming bone when administered continuously at higher dosages for prolonged periods. This is of little consequence where short term treatment is involved, but may be detrimental to those patients receiving longer courses of therapy. This effect may be minimised or avoided by using the lowest effective dosage for as short a time as possible (as in the above recommendations for Paget's disease), or by the use of intermittent cyclical therapy (as in the management of osteoporosis). Etidronic acid therefore retains a role in the management of resorptive bone disease, particularly in the treatment of Paget's disease, the prevention of heterotopic ossification, and as a second-line option in postmenopausal osteoporosis. However, the development of newer bisphosphonates requires that these compounds be continually compared and re-evaluated.

Evaluation of a 24-hour infusion of etidronate disodium for the treatment of hypercalcemia of malignancy

BACKGROUND

Hypercalcemia is a serious and common complication of malignancy. Etidronate, a known inhibitor of osteoclastic bone resorption, is approved in the therapy of hypercalcemia of malignancy (HCM) at a dose of 7.5 mg/kg/day infused during a period of 2-4 hours on 3 consecutive days. A multicenter study was conducted to evaluate the safety and efficacy of a single 24-hour infusion of etidronate disodium in patients with HCM.

METHODS

Selected patients with HCM had disease refractory to at least 24-hours of intravenous fluid (more than 3 l/day) with two albumin-adjusted serum calcium concentrations greater than 11.5 mg/dl drawn 24 hours apart before etidronate treatment. Thirty patients were enrolled; 13 received 25 mg/kg for 24 hours, 12 received 30 mg/kg for 24-hours, 3 received incorrect doses (2 overdoses, and 1 underdose) and 2 died of disease-related complications before day 7. Of the 25 evaluable patients, 15 were men and 10 were women. Median age was 53 years (range, 20-75 years). Twelve patients (6 in each treatment group) had confirmed skeletal metastases.

RESULTS

During the week after treatment, the 25 mg/kg group had adjusted serum calcium levels fall from a mean preinfusion baseline of 13.3 +/- 0.3 mg/dl (plus or minus the standard error of the mean) to a mean nadir of 10.9 +/- 0.4 mg/dl (the average of each patient's lowest calcium values). The 30 mg/kg group had adjusted serum calcium levels fall from a mean preinfusion baseline of 13.8 +/- 0.4 mg/dl to a mean nadir of 10.5 +/- 0.3 mg/dl. The average day that nadir occurred was day 5.7 for the 25 mg/kg group and day 5.6 for the 30 mg/kg group. The mean maximum reduction (delta) derived from the patients' nadirs in the 25 mg/kg dose group was 2.5 +/- 0.4 mg/dl and 3.3 +/- 0.3 mg/dl for the 30 mg/kg dose. Time to effect (either a partial response defined as a 15% or greater decrease in the adjusted serum calcium from the preinfusion value or a complete eucalcemic response defined as a reduction to the laboratory's eucalcemic range) occurred on average on day 4.6 in the 25 mg/kg group and day 3.7 in the 30 mg/kg group. Nine of the 13 (69%) patients in the 25 mg/kg treatment group had either partial or complete response to the 24-hour infusion. Five of these patients (38% of the 13 patients) of the 25 mg/kg group had serum calcium levels fall to their laboratory's eucalcemic range before day 7 (a complete response), 4 (31%) had partial response only, and 4 had no response. In the 30 mg/kg group, 11 of 12 (92%) patients had at least partial responses. Eight of the 12 (67%) patients had adjusted serum calcium concentrations fall to the eucalcemic range by day 7, 3 (25%) had a partial response, and 1 had no response. Reported adverse experiences generally were attributable to the underlying disease. The reduction in the serum calcium throughout the week for the 30 mg/kg dose group was significantly greater than that for the 25 mg/kg group (analysis of variance, P < 0.0001).

CONCLUSIONS

Etidronate, when administered intravenously at 30 mg/kg during a period of 24 hours, apparently was safe and effective in this study for treatment of hypercalcemia in patients with a wide variety of tumor types. This regimen may offer a more convenient method of administration than does standard etidronate therapy for the treatment of HCM.

Effects of treatment of malignancy-associated hypercalcemia on serum parathyroid hormone-related protein

Parathyroid hormone-related protein (PTHrP) is the primary mediator of hypercalcemia in patients with malignancy-associated hypercalcemia. We conducted this study to examine the effects of treatment with a bisphosphonate on serum PTHrP. We analyzed 41 episodes of hypercalcemia occurring in 38 patients: 22 patients received alendronate, and 16 were treated with pamidronate. At baseline, 29 patients had an increased serum PTHrP (group I) and 9 had low or undetectable levels (group II). The two groups did not differ significantly in baseline hypercalcemia (3.26 versus 3.41 mM) or the response of serum calcium to therapy. Serum calcium was normalized in 88% of group I and 70% of group II patients. Lowering of the mean calcium level was not associated with a change in the level of PTHrP in group I patients (40.2 versus 36.7 pgEq/ml) or group II patients. We also analyzed data on serum PTH and 1,25-(OH)2D in 20 of the patients. Serum PTH rose with treatment in group I patients (9.7-40.2 pg/ml, p < 0.05), as did the serum 1,25-(OH)2D (19.1-32.4 pg/ml, p < 0.001). Similarly, treatment of group II patients was associated with an increase in serum PTH (9.8-37.2 pg/ml) and serum 1,25-(OH)2D (22.9-40.2 pg/ml). The individual increases in 1,25-(OH)2D levels associated with therapy could not be predicted from the level of PTHrP or the changes in levels of serum calcium or PTH. Our data show that effective treatment of malignancy-associated hypercalcemia is not associated with a consistent change in serum levels of PTHrP. Therapy is associated with a variable increase in the serum levels of PTH and 1,25-(OH)2D.

Hypercalcemia complicating childhood malignancies

BACKGROUND

Hypercalcemia complicating malignancy is a frequent complication in adults, but little has been published about the pathogenesis or the true incidence of hypercalcemia in children with cancer.

METHODS

Hypercalcemia developing in childhood malignancies was studied retrospectively at St. Jude Children's Research Hospital to determine its incidence, the timing of its presentation, and its response to therapy.

RESULTS

Over a 29-year period, 25 children (median age, 9.5 years) had been diagnosed and treated for hypercalcemia that occurred during the course of their malignancy. These 25 represented 0.4% of the total number of children treated for cancer at the institution during that period. Their malignancies comprised acute leukemias (11; 0.6%), rhabdomyosarcoma (4; 1.2%), malignant rhabdoid tumor (2), Hodgkin disease (1), non-Hodgkin lymphoma (1), hepatoblastoma (2), neuroblastoma (1), brain tumor (1), angiosarcoma (1), and a solid malignant tumor of undetermined type.

CONCLUSIONS

Patients with acute lymphoblastic leukemia were more likely to present with hypercalcemia at the time of their initial diagnosis and to achieve resolution of this complication, whereas patients with solid tumors presented with hypercalcemia later in the course of their disease and had hypercalcemia that was more resistant to therapy. In contrast to adults with cancer, hypercalcemia of malignancy is extremely rare in children.

Newer agents for the treatment of malignant hypercalcemia

The treatment of malignant hypercalcemia has involved fluids, diuretics, and specific calcium-lowering therapy with mithramycin and calcitonin. However, newer agents have recently been approved for the treatment of hypercalcemia due to malignancy. This review will discuss three such agents, gallium, etidronate, and pamidronate. This review will concentrate on the clinical pharmacologic characteristics and the clinical trials of these newer agents. Their use in the clinical practice will be suggested based on review of the published literature.

Paraneoplastic syndromes associated with lung cancer

Paraneoplastic phenomena associated with primary lung cancer have diverse initial manifestations and epitomize the systemic nature of human malignant disease. The spectrum of clinical features in patients with paraneoplastic syndromes ranges from mild systemic or cutaneous disease to hypercoagulability and severe neuromyopathic disorders. Although the diagnosis is often one of exclusion, an improved understanding of the pathogenesis involved in some of these syndromes has provided another means of recognizing the disorders and perhaps treating the affected patients. Proposed mechanisms of paraneoplastic processes include the aberrant release of humoral mediators such as hormones and hormone-like peptides, cytokines, and antibodies. In this update, we review the potential mechanisms, diagnosis, and treatment of paraneoplastic syndromes associated with lung cancer.

Medical treatment of tumor-induced hypercalcemia and tumor-induced osteolysis: challenges for future research

Tumor-induced hypercalcemia (TIH) and tumor-induced osteolysis (TIO) are essentially due to a marked increase in osteoclast-mediated bone resorption. Parathyroid-hormone-like protein plays an essential role in TIH, and maybe in TIO, but other substances, such as growth factors or cytokines, could contribute to the osteoclast activation and osteoblast inhibition secondary to the neoplastic infiltration of the skeleton. Treatment of TIH essentially consists of volume repletion and administration of potent anti-osteolytic drugs. Intravenous administration of the bisphosphonate clodronate or pamidronate is particularly useful for this. Pamidronate at a dose of 1.0-1.5 mg/kg as a single 4- to 24-h infusion can normalize serum calcium in about 90% of hypercalcemic cancer patients. The apparently low response rate of bone metastases to systemic antineoplastic therapy seems essentially to reflect the relative insensitivity of our current methods for assessing response in TIO. Quantitative evaluation of pain and of newly developed biochemical markers of bone turnover could be particularly useful for early assessment of response. Prolonged administration of oral pamidronate could reduce by almost one-half the complications of TIO, and iterative bisphosphonate infusions could induce a dramatic relief of bone pain in one-third and a sclerosis of lytic lesions in one-fourth of the cases. These data must, however, be confirmed in randomized blind trials and many questions remain unanswered concerning the optimal therapeutic schemes. Despite these limitations, medical therapy of TIO by non-cytotoxic means has already become a reality.