An inkjet-printed polysaccharide matrix for on-chip sample preparation in point-of-care cell counting chambers.

On-chip sample preparation in self-contained microfluidic devices is a key element to realize simple, low-cost, yet reliable diagnostics that can be carried out at the point-of-care (POC) with minimal training requirements by unskilled users. To address this largely unmet POC medical need, we have developed an optimized polysaccharide matrix containing the reagents which substantially improves our fully printed POC CD4 counting chambers for the monitoring of HIV patients. The simply designed counting chambers allow for capillary-driven filling with unprocessed whole blood.

All-printed cell counting chambers with on-chip sample preparation for point-of-care CD4 counting.

We demonstrate the fabrication of fully printed microfluidic CD4 counting chips with complete on-chip sample preparation and their applicability as a CD4 counting assay using samples from healthy donors and HIV-infected patients. CD4 counting in low-income and resource-limited point-of-care settings is only practical and affordable, if disposable tests can be fabricated at very low cost and all manual sample preparation is avoided, while operation as well as quantification is fully automated and independent of the skills of the operator. Here, we show the successful use of (inkjet) printing methods both to fabricate microfluidic cell counting chambers with controlled heights, and to deposit hydrogel layers with embedded fluorophore-labeled antibodies for on-chip sample preparation and reagent storage.

Inability of monoclonal anti-light chain antibody to detect clonal B-cells in a patient with follicular lymphoma by multicolor flow cytometry.

Background: Our recent publication "Inability of a monoclonal anti-light chain antibody to detect clonal plasma cells in a patient with multiple myeloma by multicolor flow cytometry," underlined the importance of choice of antibodies to detect cytoplasmic light chains. Our present study extends this finding for detection of surface immunoglobulin (SIg) light chains on clonal B-cells.

Methods: Multicolor flow cytometry was used for analyzing bone marrow (BM) from a patient with a CD10-positive follicular lymphoma for infiltrating clonal B-cells.

A ZMYM2-FGFR1 8p11 myeloproliferative neoplasm with a novel nonsense RUNX1 mutation and tumor lysis upon imatinib treatment.

The 8p11 myeloproliferative neoplasm (8p11 MPN) is a rare disorder that is molecularly characterized by fusions of diverse partners to the tyrosine kinase receptor gene FGFR1. It can rapidly transform to acute myeloid leukemia. Here we report on a case with a t(8;13)(p11.

Inability of a monoclonal anti-light chain antibody to detect clonal plasma cells in a patient with multiple myeloma by multicolor flow cytometry.

Background: Multicolor flow cytometry (MFC) is increasingly important for the diagnosis and minimal residual disease (MRD) assessment of patients with plasma cells (PC) dyscrasias, like multiple myeloma. Recently published information shows that immunophenotype of myeloma PC can change over time and normal PC are heterogeneous in the expression of CD19 and CD56. This implies that for a sensitive, reliable detection of MRD clonality assessment by the detection of cytoplasmic kappa and lambda light chains is advisable.