Fibronectin and fibrinogen biopolymer markers indicative of insulin resistance
Abstract
The instant invention involves the use of a combination of preparatory steps in conjunction with mass spectroscopy and time-of-flight detection procedures to maximize the diversity of biopolymers which are verifiable within a particular sample. The cohort of biopolymers verified within such a sample is then viewed with reference to their ability to evidence at least one particular disease state; thereby enabling a diagnostician to gain the ability to characterize either the presence or absence of said at least one disease state relative to recognition of the presence and/or the absence of said biopolymer, predict disease risk assessment, and develop therapeutic avenues against said disease.
Claims
exact text as granted — not AI-modified1 . An isolated biopolymer marker consisting of SEQ ID NO:4 which is diagnostic for insulin resistance.
2 . A method for diagnosing insulin resistance by determining the presence of a biopolymer marker consisting of SEQ ID NO:4 comprising:
(a) conducting mass spectrometric analysis on a sample obtained from a patient in a manner effective to maximize analysis of peptide fragments contained therein; (b) comparing a mass spectral profile of said biopolymer marker consisting of SEQ ID NO:4 to mass spectral profiles of peptides obtained and analyzed from said sample; and (c) confirming the presence of said biopolymer marker consisting of SEQ ID NO:4 in said sample by identifying a mass spectral profile having an ion peak at about 1683 daltons; wherein the presence of said biopolymer marker consisting of SEQ ID NO:4 is diagnostic for insulin resistance.
3 . The method of claim 2 , wherein said sample is an unfractionated body fluid or a tissue sample.
4 . The method of claim 2 , wherein said sample is selected from the group consisting of blood, blood products, urine, saliva, cerebrospinal fluid, and lymph.
5 . The method of claim 2 , wherein said mass spectrometric analysis is selected from the group of mass spectrometric techniques consisting of Surface Enhanced Laser Desorption Ionization (SELDI), MALDI Qq TOF, MS/MS, TOF-TOF, ESI-Q-TOF and ION-TRAP.
6 . The method of claim 2 , wherein said patient is a human.
7 . An insulin resistance diagnostic kit comprising: (a) a peptide consisting of SEQ ID NO:4, and (b) an antibody that binds to said peptide in a sample obtained from a patient.
8 . The insulin resistance diagnostic kit of claim 7 , wherein said antibody is immobilized on a solid support.
9 . The insulin resistance diagnostic kit of claim 7 , wherein said antibody is labeled.
10 . A method for screening for efficacy of disease process modulating agents for insulin resistance comprising:
(a) providing a sample of bodily fluid containing a biopolymer marker consisting of SEQ ID NO:4; (b) adding a quantity of said agent sufficient to interact with said biopolymer marker consisting of SEQ ID NO:4; and (c) determining the presence of an interaction between said agent and said biopolymer marker consisting of SEQ ID NO:4; wherein said interaction is determinative of efficacy of said disease process modulating agent.
11 . A method for diagnosing insulin resistance comprising:
(a) providing a sample; and (b) determining a presence of a biopolymer marker consisting of SEQ ID NO:4 in said sample; wherein the presence of said biopolymer marker consisting of SEQ ID NO:4 is diagnostic for insulin resistance.Join the waitlist — get patent alerts
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