Abstract: Provided herein is a method for providing information about virus infection and/or virus infection disease in a subject, comprising: making a determination on the detection and/or stage classification of virus infection and/or virus infection disease in the subject using an indicator associated with a D-amino acid in the subject; and providing information about virus infection and/or virus infection disease in the subject based on the results of the determination.

Abstract: The purpose of the present invention is to provide: a method for predicting the prognosis for kidney disease for a subject on the basis of the amount of D- and L-amino acids, from a blood sample; and an analysis system that determines prognosis predictions. This purpose is achieved by using at least one amino acid to predict the prognosis for kidney disease, said amino acid being selected from the group consisting of D-serine, D-asparagine, D-proline, D-alanine, D-leucine, D-lysine, D-allo-isoleucine, L-glutamic acid, L-alanine, L-tryptophan, and L-asparagine.

Abstract: The purpose of the present invention is to provide: a method for predicting the prognosis for kidney disease for a subject on the basis of the amount of D- and L-amino acids, from a blood sample; and an analysis system that determines prognosis predictions. This purpose is achieved by using at least one amino acid to predict the prognosis for kidney disease, said amino acid being selected from the group consisting of D-serine, D-asparagine, D-proline, D-alanine, D-leucine, D-lysine, D-allo-isoleucine, L-glutamic acid, L-alanine, L-tryptophan, and L-asparagine.

Abstract: The purpose of the present invention is to provide: a method for predicting the prognosis for kidney disease for a subject on the basis of the amount of D- and L-amino acids, from a blood sample; and an analysis system that determines prognosis predictions. This purpose is achieved by using at least one amino acid to predict the prognosis for kidney disease, said amino acid being selected from the group consisting of D-serine, D-asparagine, D-proline, D-alanine, D-leucine, D-lysine, D-allo-isoleucine, L-glutamic acid, L-alanine, L-tryptophan, and L-asparagine.

Abstract: The purpose of the present invention is to provide: a blood sample analysis method for determining diabetes complications in subjects with kidney damage on the basis of D- and L-amino acid content, from a blood sample; a method for examining diabetes complications; and a sample analysis system that outputs pathological information about diabetes complications. The purpose of this invention is achieved by using at least one amino acid selected from the group consisting of D-aspartic acid, D-proline, L-glutamine, and L-isoleucine, in order to determine diabetes complications.

Abstract: The present invention relates to a method for determining the prognosis of renal failure, which comprises measuring fibroblast growth factor-23 and 25-hydroxyvitamin D in a biological sample, and a kit for determining the prognosis of renal failure, which comprises a reagent for measuring fibroblast growth factor-23 and a reagent for measuring 25-hydroxyvitamin D The present invention provides a method for determining the prognosis of renal failure and a kit for determining the prognosis of renal failure, which are useful for deciding on a therapeutic strategy, such as selection of medication, introduction of a stricter diet therapy, and early introduction of dialysis treatment.

Abstract: A process for detecting presumed IgA nephropathy by detection of Treponema bacteria and/or Campylobacter bacteria present in a sample from the tonsil of a subject who, optionally, has a positive result in a urinary protein test and/or a urinary occult blood test, or whom is diagnosed with possible IgA nephropathy. Also, a process for detecting an IgA nephropathy patient for whom tonsillectomy is effective by detecting Treponema bacteria or Campylobacter bacteria.

Abstract: The present invention provides a method for gene transfer through the vascular system or a ureter. In a preferable embodiment of this invention, an aqueous solution containing an expression vector comprising a desired gene is injected through the vascular system or a ureter of a desired organ to introduce the gene into the injected area. Specifically, the method of the present invention is effective for ex vivo gene therapy wherein the hepatocyte growth factor (HGF) gene is introduced by electroporation into a kidney to be transplanted. According to the present invention, the HGF functions continuously on the kidney to be transplanted, and the HGF within the treated area does not affect other organs of the body. Thus, the method of the present invention is a safe and effective treatment for maintaining the survival of transplanted kidneys.

Abstract: Based on detection of Treponema bacteria or Campylobacter bacteria present in a sample derived from the tonsil of a subject who has a positive result on at least one of a urinary protein test and a urinary occult blood test, or of a patient diagnosed with possible IgA nephropathy, presumed IgA nephropathy can be detected with a high accuracy, in a simple and quick manner without physical burden on subjects. Also, an IgA nephropathy patient for whom tonsillectomy is effective in therapy of IgA nephropathy can be selected with a high accuracy, in a simple and quick manner without physical burden on subjects.

Abstract: The present invention provides a method for gene transfer through the vascular system or a ureter. In a preferable embodiment of this invention, an aqueous solution containing an expression vector comprising a desired gene is injected through the vascular system or a ureter of a desired organ to introduce the gene into the injected area. Specifically, the method of the present invention is effective for ex vivo gene therapy wherein the hepatocyte growth factor (HGF) gene is introduced by electroporation into a kidney to be transplanted. According to the present invention, the HGF functions continuously on the kidney to be transplanted, and the HGF within the treated area does not affect other organs of the body. Thus, the method of the present invention is a safe and effective treatment for maintaining the survival of transplanted kidneys.

Abstract: The present invention provides a viral vector that ensures highly efficient gene transfer into renal cells and its use. The use of a Paramyxovirus vector enables gene transfer into renal cells with high efficiency. The gene transferred by in vivo administration can be continuously expressed in the renal cells over a prolonged period. The vector of the present invention is suitably used in gene therapy for kidney.