Skeletal retention of bisphosphonate (pamidronate) and its relation to the rate of bone resorption in patients with breast cancer and bone metastases.

UNLABELLED: Bisphosphonate pharmacokinetics may affect individual responses. Skeletal retention of pamidronate infused monthly to patients with bone metastases was highly variable (12-98%) and did not diminish with time, showing the capacity of the skeleton to retain large amounts of bisphosphonate. Relationships between skeletal retention of pamidronate and rate of bone resorption are complex and depend on previous treatment and the total amount of retained bisphosphonate. INTRODUCTION: Bisphosphonates (BPs) given intravenously every 3-4 weeks are effective in the management of metastatic bone disease from breast cancer, but responses among patients vary, and it is not known whether current dose and dose intervals are appropriate for an individual patient. An influence of pharmacokinetics of BPs on antiresorptive action may contribute to this variation in response. To test this hypothesis, we determined the skeletal retention of intravenous pamidronate and its association to the rate of bone resorption in patients with bone metastases from breast cancer. MATERIALS AND METHODS: In a cross-sectional study, 24-h urinary excretion of pamidronate and the biochemical marker of bone resorption N-terminal telopeptide of type 1 collagen and serum alkaline phosphatase were measured in 40 patients with bone metastases from breast cancer at the beginning, after 3-6 months, and after 1 year of treatment with intravenous pamidronate 90 mg every 3-4 weeks. RESULTS AND CONCLUSIONS: Skeletal retention (dose--amount excreted into urine) 2 days after infusion varied between 12% and 98% (mean, 62%) of the administered dose, but there were no differences in retention between patients receiving pamidronate for the first time or after 3-6 months or after 1 year of treatment. Retention of pamidronate was related to the prevalent rate of bone turnover in previously untreated patients, whereas no such relationship was found in previously treated patients. Rate of bone resorption after treatment seemed to be related to the amount of pamidronate retained. During 1 year of treatment, retention of pamidronate remained constant, indicating no saturation of skeletal binding sites with treatment. The variability in retention among individual patients can be attributed to the number of available binding sites. This is related, however, to bone turnover only before the start of treatment. The apparent relationships between skeletal retention and antiresorptive effect could have implications for the design of optimal therapeutic regimens with BPs in patients with bone metastases from breast cancer.

Absorption of the oral bisphosphonate alendronate in osteoporotic patients with Crohn's disease.

The absorption of bisphosphonates from the gut is poor. The question arises whether the absorption of alendronate, and thus its bioavailability, is further altered by the local inflammatory process in patients with Crohn's disease, thereby potentially affecting clinical outcome when used in the treatment of osteoporosis. To address this question, urinary excretion of alendronate was evaluated 3 months and 6 months after start of treatment with oral alendronate at a dose of 10 mg/day in 19 osteoporotic patients with stable Crohn's disease, 12 of whom had an intestinal resection. Biochemical parameters of bone turnover and BMD were also measured at start and at 6 months. Thirteen patients had been previously treated with glucocorticoids and five were currently using them. The average 24-h urinary excretion of alendronate was 0.5-0.6% of the dose administered, a figure comparable to that reported for osteoporotic patients without gut pathology. There was a significant decrease from baseline in urine N-telopeptides of collagen cross-links (NTx)/creatinine (60%) associated with an increase in lumbar spine BMD of already 2% after 6 months of treatment. Our data suggest that in patients with Crohn's disease, alendronate is adequately absorbed from the intestine and retained in the skeleton. This adequacy is confirmed by appropriate suppression of bone resorption and increase in lumbar spine BMD. These data hold significant implications for the clinical management of patients with Crohn's disease and osteoporosis.

Rapid enrichment of human papillomavirus (HPV)-specific polyclonal T cell populations for adoptive immunotherapy of cervical cancer.

The majority of cervical cancers are caused by human papillomavirus type 16 (HPV16). Cervical cancer is associated with an ineffective host immune response against the HPV16 oncoproteins, characterized by the lack of the strong E6-specific T-helper type 1 (Th1) immunity that is generally present in healthy individuals, the presence of improperly polarized HPV16E6- and E7-specific CD4(+) T cells and increased numbers of regulatory T cells. Therefore, immunotherapeutic intervention is likely to require a modality that deletes the regulatory T cell component and enhances the HPV16-specific Type 1 T cell response. HLA-matched allogeneic stem cell transplantation may offer such a modality, because it involves the eradication of host immune cells and enables the transfer of donor derived tumor-specific T cells to the patient. As a first step in the development of such a treatment, we evaluated the success rate of a protocol for enrichment of HPV16E6-specific CD4(+) T cells from healthy donor PBMC on the basis of their IFNgamma secretion. After a short in vitro stimulation with overlapping 30 amino acid long HPV16E6 peptides, we enriched the IFNgamma secreting cells by magnetic cell sorting. The obtained polyclonal CD4(+) T cell populations recognized distinct epitopes within HPV16E6, as well as E6 protein, processed and presented by autologous professional antigen presenting cells. The described protocol proved successful in PBMC from more than half of the healthy adult blood donors. These HPV16E6-specific CD4(+) T cells may turn out to be an essential component of future adoptive T cell therapy for advanced cervical cancer, by orchestrating CTL dependent and independent tumoricidal mechanisms.

Short term whole body retention in relation to rate of bone resorption and cartilage degradation after intravenous bisphosphonate (pamidronate) in rheumatoid arthritis.

OBJECTIVE: Bisphosphonates (BP) inhibit osteoclast-mediated bone resorption, and have been reported to decrease the rate of cartilage degradation. The anti-resorptive effect of BP is determined by the amount of BP retained by the skeleton. In rheumatoid arthritis (RA) the uptake is not confined only to the skeleton, but BP is also retained in joints, which could have implications for dose regimens. We investigated the whole body retention (WBR) of pamidronate and its relationship to bone resorption and cartilage degradation in patients with active RA. METHODS: Twenty-six patients received placebo, 45 mg, or 90 mg intravenous pamidronate. Serum and urine samples were collected before and for 12 days after drug administration. Rate of bone resorption was assessed by the biochemical markers: serum carboxy terminal cross-linked telopeptide of type I collagen, urinary carboxy terminal cross-linked telopeptide of type I collagen normalized to creatinine and urinary amino-terminal telopeptide of type I collagen normalized to creatinine; and rate of cartilage degradation by urinary carboxy terminal telopeptide of type II collagen normalized to creatinine. WBR was derived from urinary excretion of pamidronate data. RESULTS: Pamidronate induced a rapid and sustained decrease in the level of biochemical markers of bone resorption and cartilage degradation. The mean WBR of pamidronate was 69% of the administered dose, and showed a remarkably wide range (41-96%). The decrease in rate of bone resorption, but also rate of cartilage degradation appeared to be related to the WBR of pamidronate. CONCLUSION: This is the first study in which the effect of BP treatment has been studied in relation to the amount of BP retained by the body in patients with active RA. The total amount of BP retained by the body shows a remarkably wide range and is comparable with literature on patients with osteoporosis. The apparent relationships between the amount of BP retained by the body and the effect could have implications for therapeutic regimens in patients with RA.

New chelation strategy allows for quick and clean 99mTc-labeling of synthetic peptides.

Analogues of bombesin have been synthesized in which a N2S2 (bis-mercaptoacetyl functionalized diaminopropionic acid) or a N3S (mercaptoacetyl-Gly-Gly-Gly) radiometal-chelating center has been incorporated that allows radiolabeling of these peptides with 99mTc without the need for conjugation or harsh reaction conditions. A mild radiolabeling is possible by using an acetyl-moiety as sulfur protecting group, which can be removed by mild hydroxylamine-treatment at room temperature before radiolabeling. Retained receptor binding is demonstrated in competitive binding experiments with 99mTc-radiolabeled peptides and PC-3 cells with bombesin receptors.

A compartmental pharmacokinetic model of cyclosporin and its predictive performance after Bayesian estimation in kidney and simultaneous pancreas-kidney transplant recipients.

BACKGROUND: Therapeutic drug monitoring of cyclosporin A (CsA) is an obvious necessity because of its unpredictable absorption and narrow therapeutic window. The use of limited sampling models (LSMs) has improved the estimation of the systemic exposure [area under curve (AUC)] compared with C(0h) monitoring, but these equations are rigid and not reliable in patients with an abnormal absorption profile. We developed and validated a limited sampling (t=0, 2 and 3 h) strategy, based on a compartmental population pharmacokinetic (PK) model for CsA after kidney transplantation alone (KTA) and simultaneous pancreas-kidney transplant (SPKT) recipients, a group of patients with unpredictable absorption kinetics. METHODS: A two-compartment model with lag time and first-order absorption was calculated using a PK software package from data of 20 KTA and SPKT recipients and validated prospectively in 20 KTA and 20 SPKT recipients. Calculated population PK parameters were individualized for each of the remaining 40 patients based on their CsA dosing and on one or a combination of measured CsA blood concentrations using the Bayesian fitting method. AUCs were calculated from individualized PK parameters. AUCs were also calculated using previously published LSMs. Relationships between AUCs calculated by the models and the 'golden standard' AUC (trapezoidal rule) were investigated by Pearson correlation test. RESULTS AND CONCLUSIONS: A population two-compartment model is presented to reliably estimate the CsA AUC in KTA and SPKT recipients. The performance of the model to estimate the AUC is comparable to the performance of two published LSMs in KTA patients, but markedly better in SPKT patients. Combined with Bayesian fitting, the model is very flexible since sampling times are not rigid and can be varied as long as dosing and sampling times are recorded accurately. The model has already proven to be clinically useful and is currently used to further investigate CsA in an integrated pharmacokinetic/pharmacodynamic model.

Relationships between pharmacokinetics and rate of bone turnover after intravenous bisphosphonate (olpadronate) in patients with Paget's disease of bone.

Bisphosphonates are the treatment of choice of Paget's disease, but variable responses have been reported, and despite the availability of potent bisphosphonates, biochemical remission is not achieved in a substantial number of patients. This may, in part at least, be because of the influence of pharmacokinetics of bisphosphonates on their pharmacodynamics. That is the response of bone turnover to treatment. To address this issue, we examined the pharmacokinetics and pharmacodynamics of the bisphosphonate olpadronate given intravenously to 75 patients with Paget's disease, using a specific assay for olpadronate concentrations in serum and urine. The skeletal uptake of olpadronate varied greatly among patients and ranged between 10% and 90% of the administered dose. The two major determinants of skeletal uptake were renal function and prevalent rate of bone turnover. Serum and urinary data were well described by a physiology-based four-compartment pharmacokinetic model that takes into account the distribution of the bisphosphonate in the bone and its subsequent elimination. Bone turnover was suppressed to well within the normal range in virtually all patients. This, together with the absence of resolution of effect during 1 year, does not allow the construction of an adequate integrated pharmacokinetic/pharmacodynamic model. However, the pharmacokinetic model, described for the first time in Paget's disease, can accurately simulate the amount of bisphosphonate delivered to the skeleton with different dose regimens as well as the amount still present in bone after 1 year. Such approaches can lead to improved patient care and individualization of treatment of Paget's disease with bisphosphonates.

Pharmacokinetics of intravenous busulfan in children prior to stem cell transplantation.

AIMS: Intravenous formulations of busulfan have recently become available. Although busulfan is used frequently in children as part of a myeloablative regimen prior to bone marrow transplantation, pharmacokinetic data on intravenous busulfan in children are scarce. The aim was to investigate intravenous busulfan pharmacokinetics in children and to suggest a limited sampling strategy in order to determine busulfan systemic exposure with the minimum of inconvenience and risk for the patient. METHODS: Plasma pharmacokinetics after the first administration was investigated in six children using nonlinear mixed effect modelling. RESULTS: Pharmacokinetics showed little variability and were described adequately with a one-compartment model (population estimates CL,av=0.29 l h(-1) kg(-1); V,av=0.84 l kg(-1); t(1/2)=1.7-2.8 h). Combined with limited sampling and a Bayesian fitting procedure, the model can adequately estimate the systemic exposure to intravenous busulfan, which in children appears to be at the lower end of the adult range. CONCLUSIONS: Busulfan systemic exposure in children during intravenous administration can be estimated adequately with limited sampling and a Bayesian fitting procedure from a one-compartment model. Intravenous busulfan pharmacokinetics in children should be the subject of more research.

A pharmacokinetic and pharmacodynamic model for intravenous bisphosphonate (pamidronate) in osteoporosis.

BACKGROUND: Bisphosphonates are used extensively in the management of skeletal disorders including osteoporosis. Intermittent i.v. regimens with bisphosphonates are being explored as alternatives to oral regimens. The design of therapeutic regimens with bisphosphonates is mainly based on pharmacodynamic (PD) information. A combined pharmacokinetic (PK) and PD model of bisphosphonate action can help in the design of more effective therapeutic strategies. AIM: The objective of this study was to hypothesise on a PK/PD model for intermittent i.v. pamidronate in patients with osteoporosis. METHODS: Serum and urine pamidronate PKs were studied in nine patients with osteoporosis treated with pamidronate (15 mg/day via i.v. infusion) on five consecutive days. Long-term renal excretion of pamidronate was extrapolated from literature data on alendronate. The PD response (urinary hydroxyproline) was assessed in 13 patients with osteoporosis, who were given the same regimen every 3 months for 1 year. Pooled serum and urine data were fitted into a physiology-based compartment model. In order to develop a mechanistically based PK and PD model, three different Emax models were examined. RESULTS: A physiology-based three-compartment model was able to describe pamidronate PKs with a central compartment representing the serum, a second compartment representing the bone surface and a third compartment representing deep bone. The typical effect of 1 year of 3-monthly i.v. therapy was described adequately using an Emax model, in which the effect depended on both the amount of pamidronate attached to bone (second compartment) and on the amount of pamidronate buried into bone (third compartment). CONCLUSIONS: A combined PK/PD model for pamidronate is described which incorporates the specific pharmacology of bisphosphonates. The model may be used to describe long-term effects of an i.v. pamidronate regimen in osteoporotic patients.

Frequent detection of human papillomavirus 16 E2-specific T-helper immunity in healthy subjects.

The incidence of genital human papillomavirus (HPV) infections is high in young, sexually active individuals. Most infections are cleared within 1 year after infection. The targets for the cellular immune response in this process of viral clearance remain to be identified, but the expression pattern of the E2 protein in early infection and low-grade cervical intraepithelial neoplasia renders this early protein a candidate antigen. Therefore, we studied the HPV16 E2-specific T-cell responses in more detail. Very strong proliferative responses against one or more peptide-epitopes derived from this antigen can be found in peripheral blood mononuclear cell cultures of approximately half of the healthy donors. Additional analysis revealed that at least a majority of these responses represent reactivity by memory CD4(+) T-helper (Th) 1-type cells capable of secreting IFN-gamma on antigenic stimulation. Interestingly, all of the E2 peptides against which strong responses were detected are clustered in the key functional domains of the E2 protein, which are conserved to considerable extent between HPV types. This suggests that HPV16 E2-specific Th memory may be installed through encounter with HPV types other than HPV16. Indeed, one HPV16 E2-specific Th clone was found to cross-react against homologuous peptides from other HPV types, but three other Th clones failed to show similar cross-reactivity. Therefore, part of the HPV16 E2-specific Th memory may relate to previous encounter of other HPV types, whereas the majority of the immune repertoire concerned is most likely established through infection with HPV16 itself. Our data are the first to reveal that the T-cell repertoire of healthy donors can contain particularly high frequencies of E2-specific memory Th cells and suggest that boosting of this immunity can be used for preventive and therapeutic vaccination against HPV-induced lesions.