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Biochemistry & Molecular Biology Journal

ISSN: 2471-8084

Internat i ona l Conference on

Biotechnology, Biomarkers

& Systems Biology

M a r c h 0 4 - 0 5 , 2 0 1 9

Am s t e r d a m , N e t h e r l a n d s

Biotechnology, Biomarkers & Systems Biology 2019

James Andrew Henry, Biochem Mol biol J 2019, Volume:5

DOI: 10.21767/2471-8084-C1-024

Background:

In 2017, a program on patient blood management was posted to

the National External Quality Assurance Scheme conference for hemostasis

and thrombosis [1]. This subsequent coagulum-OMIC framework is a standard

for predictive value within personalized and regeneration medicine. An OMIC

model is a foresight by the author of this program to achieve OMIC flow [View

Fig. 1.]. This model sustains the success of Coagulum-OMICS when supported

with the ISO 9000 series. [2] [3] [4].

Study:

ISO 9001 and 9004 are powerful tools to identify and define good

practice in an OMIC model. ISO 9001 is a process based standard and an

ideal standard for OMIC interfaces. The greater challenge in haemostasis

and thrombosis is the end to end process involves several parts of healthcare

under different clinical management or vendor arrangements. The flexibility of

ISO 9004 makes it an ideal tool to access Coagulum-OMICs and sustain the

success of personalised and regeneration medicine.

Program Development:

A strategy for Research, Family, Organ and Acute

Coagulum-OMICs commences biphasic policy objectives for genomics as a

primary care with viscoelastic science, coagulum and platelet proteomics [Fig.

2]. Model OMIC development, resources, performance review and innovation,

become learned. OMIC teams self-assess the Coagulum-OMICs to identify

conformity with the model. Regional committees are supported by a joint

working group on quality assurance to manage or improve OMICs

Conclusion:

A model for blood coagulum-OMICs is a benchmark to sustain

excellence in the future of biological systems. The agility of Coagulum-OMICS

to transverse primary and secondary care with genomic [pharma] pre-exams

and viscoelastic or proteomic exams makes it a perfect learning initiative, self-

assessment tool and governance program. The caveat is a need for expertise

to sustain the success of coagulum-OMICs, in situ, with personalised and

regeneration medicine.

Biography

James Henry completed his Master of Science (Upper Merit)

in 2009 from Middlesex University U.Kin Molecular Pathology.

Also he completed his Master of Science (Distinct) in 2014

fromUniversity of Greenwich U.K in Patient Blood Management

Quality Systems. In 2014 a Patient BloodManagement program

was overseen by a U.K national governance representative,

sponsored by an anesthetic lead and edited by an MHRA

inspector who stated “this program is suitable for the NHS”. In

2017 that program was posted to the National External Quality

Assurance Scheme and then to the British Blood Transfusion

Society. In 2018, ISO published the “Quality of an organization —

Guidance to achieve sustained success”. The author of “Blood

Coagulum-OMICs” has developed a model for hemostasis and

thrombosis genomic pre-exams and a viscoelastic & proteomic

examination to improve predictive value in personalized and

regeneration medicine.

jameshenrybms@hotmail.com

Personalized and Regeneration Medicine require

a Coagulum-OMICs Model

James Andrew Henry

Atlantis BMS Limited, UK