An object of the present invention is to provide a standard substance for quantification of PSA having a specific sugar chain that can be used in a general purpose quantification, wherein the standard substance has less unbalanced sugar chain expression patterns, can be manufactured with high reproducibility, and enables the quantification of patient's sample comprising a high concentration of PSA, and preparation method therefor, standard solution for PSA quantification, and PSA quantification method. The standard substance comprises a compound having the structure of a PSA with a sugar chain represented by any of the following formulae A to D, and is isolated and purified from a natural product, chemically or enzymatically altered from a natural product, or the compound is artificially synthesized.

Aspects of the disclosure relate to improved methods and systems for active surveillance of subject having non-aggressive prostate cancer.

A method for analyzing thrombogenic capacity or blood coagulation capacity, the method comprising adding calcium, a blood coagulation factor XII (FXII) inhibitor, and a kallikrein inhibitor to blood collected with a blood collection tube containing sodium citrate, to allow initiation of blood coagulation reaction, is provided. Preferably, heparin, heparan sulfate, and tissue factor are further added to the blood, and thrombogenic capacity or blood coagulation capacity is analyzed.

Plasma kallikrein binding proteins and methods of using such proteins are described.

Aspects of the disclosure relate to improved methods for predicting whether a prostate tissue biopsy obtained from a subject will contain detectable prostate cancer. In some embodiments, the disclosure provides improved prostate antigen standards for quantifying levels of prostate antigens.

Methods for detecting a prostate cancer in a subject comprise detecting a marker selected from an endosomal associated marker and/or a lysosomal associated marker from the subject.

A method and a kit are provided to quantify and qualify exosomes. Specifically the method and the kit quantify PSA-carrying exosomes for a purpose to diagnose prostate cancer and to distinguish between patients having a tumor and those having a benign prostate condition with increased blood levels of PSA. The method and the kit provide a fast, easy to use and accurate method for clinical settings.

Described herein are methods for diagnosing high-risk cancer in a subject by detecting PolySialic Acid (polySia) in a biological sample obtained from the subject, or by detecting polySia and one or more tissue-specific markers in a biological sample obtained from the subject.

The present invention generally relates, in some embodiments, to methods of determining a patient's prognosis for recurrence of prostate cancer and/or determining a course of treatment for prostate cancer following a radical prostatectomy.

Systems and methods for improved measurement of absorbance/transmission through fluidic systems are described. Specifically, in one set of embodiments, optical elements are fabricated on one side of a transparent fluidic device opposite a series of fluidic channels. The optical elements may guide incident light passing through the device such that most of the light is dispersed away from specific areas of the device, such as intervening portions between the fluidic channels. By decreasing the amount of light incident upon these intervening portions, the amount of noise in the detection signal can be decreased when using certain optical detection systems.