Objective: As 80% of intrauterine bone mineralization takes place during the last trimester of pregnancy, preterm infants should be supplemented postnatally with optimal doses of calcium, phosphate and vitamin D. Calcium and phosphate excretion in the urine may be used to monitor individual mineral requirements, but are sometimes difficult to interpret. The objective of this study was to assess the value of quantitative ultrasound (QUS) for the analysis of bone status in neonates.Study Design: All admissions to three independent tertiary neonatal intensive care units were studied. In 172 preterm and term infants with a gestational age between 23 and 42 weeks (mean 33.8 ± 5.0) and a birth weight from 405 to 5130 g (mean 2132±1091 g) bone status was evaluated prospectively by quantitative ultrasound velocity using a standardized protocol. Infants were followed in regular intervals up to their first discharge home. While measurements were conducted in weekly intervals initially (n ¼ 55), 2-week intervals were regarded as sufficient thereafter due to limited changes in QUS values within the shorter period. Infants with a birth weight below 1500 g were followed during outpatient visits until up to 17 months of age.Result: The intra-individual day-to-day reproducibility was 0.62%. QUSvalues from the first week of life correlated significantly with gestational age and birth weight (r ¼ 0.5 and r ¼ 0.6; P<0.001). Small-forgestational-age infants showed lower values for QUS than appropriate-forgestational-age infants allowing for their gestational age. Follow-up measurements correlated positively with age and weight during the week of measurement (r ¼ 0.2 and r ¼ 0.4; P ¼ 0.001). Comparing bone quality at 40 weeks of age in infants born at term versus infants born at 24 to 28 weeks, preterm infants showed significantly lower QUS than term infants (P<.0001).There was a significant correlation of QUS with serum alkaline phosphatase (P ¼ 0.003), the supplementation with calcium, phosphate and vitamin D (P< 0.001 each), as well as risk factors for a reduced bone mineralization. No correlation was found between QUS and calcium or phosphate concentration in serum or urine.Conclusion: QUS is a highly reproducible, easily applicable and radiation-free technique that can be used to monitor bone quality in individual newborns. Further prospective randomized-trials are necessary to evaluate, if therapeutic interventions based on QUS are able to prevent osteopenia of prematurity.
#2048 Background: The presence of disseminated tumor cells (DTC) in the bone marrow is associated with an increased risk for subsequent bone metastases. Bisphosphonates reduce the occurence of bone metastases in patients (pts) with primary breast cancer (BC) with DTC. The aim of this trial was to evaluate the effect of adjuvant zoledronic acid (ZOL) on DTC in the bone marrow and the Patients and methods: Eligibilty criteria for this prospective, randomized multicenter trial were primary BC pts (pT1-4, N1-2, M0) with positive bone marrow status as determined by a standardized immunocytochemistry staining procedure. Ninety-eight pts were enrolled between April 2002 and January 2006. Randomization and medication had to be started within 28 days of primary surgery. Consenting pts were randomized to the treatment arm (ZOL 4mg i.v. q 4 weekly) or control arm. During the study, all pts received adjuvant treatment in the form of chemotherapy ± hormonal therapy or hormonal therapy alone. Bone marrow aspirations were performed to analyze the presence of DTC at surgery (baseline) and 12 months later. Efficacy and tolerability of intravenous ZOL in pts with primary Result: Bone marrow status was available for 76 patients both at baseline and 12 months after surgery. At baseline a median of 2.0 / range 1-6 (mean 2.1±1.1) DTC were detected in the ZOL group and a median of 2.0 / range 1-35 (mean 2.9±5.5) DTC in the control group. In both groups the number of detected tumor cells decreased during the 12 months follow-up with 0.5±0.8 (median 0.0; 0-2) DTC in the ZOL group and 0.9±0.8 (median 1.0; 0-2) DTC in the control group. By ANCOVA analysis a trend was seen towards a reduction of the number of DTC in the ZOL group compared with the control group (p=0.066). In addition, bone marrow-positive pts treated with ZOL were more likely to become bone marrow negative after 12 months (66.7% versus 35.1%, (p=0.009) compared to the control group. Most frequently reported AEs were musculoskeletal,arthralgia and myalgia in Conclusions: In this first prospective, randomized, multicenter trial we were able to show, that both treatment groups have a reduction in the number of DTC after 12 months as compared to baseline. There is a tendency to more reduction of DTC in the ZOL group. More pts under ZOL achieved a change from positive to negative bone marrow status than controls (p=0.009). Treatment with ZOL was safe and well tolerated. Citation Information: Cancer Res 2009;69(2 Suppl):Abstract nr 2048.
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