A biodegradable antibiotic delivery system based on poly-(trimethylene carbonate) for the treatment of osteomyelitis

Background and purpose Many investigations on biodegradable materials acting as an antibiotic carrier for local drug delivery are based on poly(lactide). However, the use of poly(lactide) implants in bone has been disputed because of poor bone regeneration at the site of implantation. Poly(trimethylene carbonate) (PTMC) is an enzymatically degradable polymer that does not produce acidic degradation products. We explored the suitability of PTMC as an antibiotic releasing polymer for the local treatment of osteomyelitis

The riddle of the dual expression of IgM and IgD

Signalling through the B cell antigen receptor (BCR) is required for peripheral B lymphocyte maturation, maintenance, activation and silencing. In mature B cells, the antigen receptor normally consists of two isotypes, membrane IgM and IgD (mIgM, mIgD). Although the signals initiated from both isotypes differ in kinetics and intensity, in vivo, the BCR of either isotype seems to be able to compensate for the loss of the other, reflected by the mild phenotypes of mice deficient for mIgM or mIgD. Thus, it is still unclear why mature B cells need expression of mIgD in addition to mIgM. In the current review we suggest that the view that IgD has a simpIy definable function centred around the basic signalling function should be replaced by the assumption that IgD fine tunes humoral responses, modulates B cell selection and homeostasis and thus shapes the B cell repertoire, defining IgD to be a key modulator of the humoral immune response

Minimal residual disease levels in bone marrow and peripheral blood are comparable in children with T cell acute lymphoblastic leukemia (ALL), but not in precursor-B-ALL

Sensitive and quantitative detection of minimal residual disease (MRD) in bone marrow (BM) samples of children with acute lymphoblastic leukemia (ALL) is essential for evaluation of early treatment response. In this study, we evaluated whether the traumatic BM samplings can be replaced by peripheral blood (1313) samplings. MRD levels were analyzed in follow-up samples of 62 children with precursor-B-ALL (532 paired BM-PB samples) and 22 children with T-ALL (149 paired BM-PB samples) using real-time quantitative PCR (RQ-PCR) analysis of immunoglobulin and T cell receptor gene rearrangements with sensitivities of 10(-3) to 10(-5) (one ALL cell in 103 to 105 normal cells). In 14 of the 22 T-ALL patients, detectable MRD levels were found in 67 paired BM-PB samples: in 47 pairs MRD was detected both in BM and 1313, whereas in the remaining pairs very low MRD levels were detected in BM (n = 11) or PB (n = 9) only. The MRD levels in the paired BM-PB samples were very comparable and strongly correlated (r(s) = 0.849). Comparable results were obtained earlier by immunophenotyping in 26 T-ALL patients (321 paired BM-PB samples), which also showed a strong correlation between MRD levels in paired BM and PB samples (r(s) = 0.822). In 39 of the 62 precursor-B-ALL patients, MRD was detected in 107 BM-PB pairs: in 48 pairs MRD was detected in both BM and PB, in 47 pairs MRD was solely detected in BM (at variable levels), and in 12 pairs only the 1313 sample was MRD-positive at very low levels (less than or equal to10(-4)). Furthermore, in the 48 double-positive pairs, MRD levels in BM and PB varied enormously with MRD levels in BM being up to 1000 times higher than in the corresponding PB samples. Consequently, BM samples cannot easily be replaced by PB sampling for MRD analysis in childhood precursor-B-ALL, in line with their BM origin. In T-ALL, which are of thymic origin, BM sampling might be replaced by PB sampling, because the dissemination of T-ALL cells to BM and PB appears to be comparable