Methods and design are provided of a lung health diagnostic (LHDx) assay for diagnosis, validation and prognosis-based intervention of chronic obstructive pulmonary disorder (COPD)-emphysema and age-related lung disease in a subject, wherein COPD and age-related lung disease diagnosis comprises generating aggresome positive quantitative data from saliva, respiratory or body fluid sample of the subject by direct quantitative and/or direct analysis including immunoprecipitation and immunoconjugate(s) fluorescence, signal intensity and/or morphological characteristics, (b) obtaining baseline/clinical data or individual risk factors from the said subject and (c) combining the aggresome data with the clinical data or individual risk factors or vice versa to predict, diagnose or validate COPD-emphysema or age-related lung condition in the subject. In addition, a UV LED device is used as a reader for lateral flow assay (LFA) with QD immunoconjugate(s), wherein images of LFA test lines of LFA test strips are captured by an image sensor such as camera or scanner using a smartphone, tablet or point of care (POC) reader device.

The present invention relates to methods of treating Asthma using Semaphorin 3A. The invention further relates to assessing Asthma severity or treatment efficacy, comprising determining Semaphorin 3A level in a biological sample of a subject afflicted with Asthma.

Provided is a kit for asthma diagnosis comprising a strip including a base part, a first reaction part formed on the base part, and a developing membrane formed between the first reaction part and the base part, in which the first reaction part includes a monoclonal antibody expressed from a hybridoma cell line of Accession Number KCLRF-BP-00389 (Accession Date: Jan. 9, 2017, Accession Institute: Korea Cell Line Research Foundation (KCLRF)) and the second reaction part includes a monoclonal antibody expressed from a hybridoma cell line of Accession Number KCLRF-BP-00389 (Accession Date: Jan. 9, 2017, Accession Institute: Korea Cell Line Research Foundation (KCLRF)).

The present invention relates to in vitro methods for the diagnosis of chronic obstructive pulmonary disease (COPD), wherein the expression of the marker gene DMBT1 is determined. In particular, the invention relates to an in vitro diagnostic method of assessing the susceptibility of a subject to develop progressive COPD involving the appearance of irreversible lung damage, wherein the expression of the marker gene DMBT1 and optionally one or more further marker genes selected from KIAA1199, TMSB15A, DPP6, SLC51B, NUDT11, ELF5, AZGP1, PRRX1, AQP3, SFN, GPR110, GDF15, RASGRF2, RND1, PLA1A, FGG, CEACAM5, HYAL2, AHRR, CXCL3, CYP1A1, CYP1B1, CYP1A2, CST6, NTRK2, COMP, ITGA10, CTHRC1, TAL1, FIBIN, BEX5, BEX1, ESM1 and GHRL is determined. The invention also relates to an in vitro method of diagnosing stable COPD or assessing the susceptibility of a subject to develop stable COPD, wherein the expression of DMBT1 and optionally one or more further marker genes selected from KIAA1199, TMSB15A, DPP6, SLC51B, NUDT11, ELF5, AZGP1, PRRX1, AQP3, SFN, GPR110, GDF15, RASGRF2, RND1, PLA1A, FGG, CEACAM5, HYAL2, AHRR, CXCL3, CYP1A1, CYP1B1, CYP1A2, CST6, NTRK2, COMP, ITGA10, CTHRC1, TAL1, FIBIN, BEX5, BEX1, ESM1 and GHRL is determined. Furthermore, the invention relates to the use of primers for transcripts of the aforementioned marker genes, the use of nucleic acid probes to transcripts of these marker genes, the use of microarrays comprising nucleic acid probes to transcripts of these marker genes, and the use of antibodies against the proteins expressed from these marker genes in corresponding in vitro methods. In vitro methods of monitoring the progression of COPD are also provided, in which the expression of marker genes according to the invention is determined.

The invention in some aspects provides methods of determining the likelihood that a subject has COPD based on the expression of informative-genes. In other aspects, the invention provides methods for determining an appropriate diagnostic intervention plan for a subject based on the expression of informative-genes. Related compositions and kits are provided in other aspects of the invention.

A method to determine the severity of a disease of chronic inflammation in a patient, comprising the steps of (1) collection or preparation of a bodily fluid, tissue or lavage and (2) measurement of ALX receptor ligands or ALX receptor expression in the fluid, tissue, or lavage, wherein the level of ALX receptor ligands predicts a clinical outcome or choice of treatment modality, is disclosed.

Described are compositions and methods for diagnosing acute exacerbations of chronic obstructive pulmonary disease (AECOPD). Multiple reaction monitoring mass spectrometry (MRM-MS) was used to quantify the amount of protein biomarkers in plasma samples from human subjects. The amount of the biomarkers in the sample can distinguish AECOPD from a stable or convalescent state of COPD, or from a subject without COPD.

The present invention relates to in vitro methods for the diagnosis of chronic obstructive pulmonary disease (COPD), wherein the expression of the marker gene DMBT1 is determined. In particular, the invention relates to an in vitro diagnostic method of assessing the susceptibility of a subject to develop progressive COPD involving the appearance of irreversible lung damage, wherein the expression of the marker gene DMBT1 and optionally one or more further marker genes selected from KIAA1199, TMSB15A, DPP6, SLC51B, NUDT11, ELF5, AZGP1, PRRX1, AQP3, SFN, GPR110, GDF15, RASGRF2, RND1, PLA1A, FGG, CEACAM5, HYAL2, AHRR, CXCL3, CYP1A1, CYP1B1, CYP1A2, CST6, NTRK2, COMP, ITGA10, CTHRC1, TAL1, FIBIN, BEX5, BEX1, ESM1 and GHRL is determined. The invention also relates to an in vitro method of diagnosing stable COPD or assessing the susceptibility of a subject to develop stable COPD, wherein the expression of DMBT1 and optionally one or more further marker genes selected from KIAA1199, TMSB15A, DPP6, SLC51B, NUDT11, ELF5, AZGP1, PRRX1, AQP3, SFN, GPR110, GDF15, RASGRF2, RND1, PLA1A, FGG, CEACAM5, HYAL2, AHRR, CXCL3, CYP1A1, CYP1B1, CYP1A2, CST6, NTRK2, COMP, ITGA10, CTHRC1, TAL1, FIBIN, BEX5, BEX1, ESM1 and GHRL is determined. Furthermore, the invention relates to the use of primers for transcripts of the aforementioned marker genes, the use of nucleic acid probes to transcripts of these marker genes, the use of microarrays comprising nucleic acid probes to transcripts of these marker genes, and the use of antibodies against the proteins expressed from these marker genes in corresponding in vitro methods. In vitro methods of monitoring the progression of COPD are also provided, In which the expression of marker genes according to the invention is determined.

Provided herein relates to systems and methods for producing and using a body having a central channel separated by one or more membranes. The membrane(s) are configured to divide the central channel into at least one mesochannel and at least one microchannel. The height of the mesochannel is substantially greater than the height of the microchannel. A gaseous fluid can be applied through the mesochannel while a liquid fluid flowing through the microchannel. The systems and methods described herein can be used for various applications, including, e.g., growth and differentiation of primary cells such as human lung cells, as well as any other cells requiring low shear and/also stratified structures, or simulation of a microenvironment in living tissues and/or organs (to model physiology or disease states, and/or to identify therapeutic agents and/or vaccines). The systems and methods can also permit co-culture with one or more different cell types.

Provided is a compound of the general formula (I):

##STR00001##

The compound of formula (I) is suitable for treating pulmonary fibrosis, such as Idiopathic pulmonary fibrosis in a mammal. Also provided is a method for treatment of pulmonary fibrosis, such as Idiopathic pulmonary fibrosis in a human subject having a galectin-3 level indicative of pulmonary fibrosis or exacerbation of symptoms as well as a method for making said compound.