13^th International Conference on Clinical Chemistry November 05-06, 2021 Rome, Italy

The Diagnostic, staging, prognostication, tracking, and epidemiological surveillance are all performed in the clinical chemistry laboratory. Clinical chemists have been tasked with validating, automating, and extending previously semi-automated processes for the COVID-19 virus, despite the fact that molecular diagnostic research for the virus accounts for the majority of the work. The usefulness of molecular diagnostic and serology tests is growing and serology testing for patients with COVID-19.

Clinical biochemistry and Medical biochemistry. Both deal with the study of chemistry of life .Clinical Biochemistry is a peer-reviewed scientific discipline that studies the analytical and clinical aspects of laboratory tests used in humans for diagnosis, molecular biology and genetics, prognosis, treatment and therapy, and disease monitoring.

Analytical chemistry is the study and application of instruments and methods for separating, identifying, and quantifying matter. 1st Separation, recognition, and quantification can be used alone or in combination with other methods in practise. Separation is the process of isolating analytes. Quantitative analysis decides the numerical quantity or concentration, while qualitative analysis defines analytes.

The tests used to diagnose the hemostasis system are known as blood clotting tests. The coagulometer is a medical laboratory analyzer that is used to check the hemostasis mechanism. Different methods of activation and observation of the formation of blood clots in blood or blood plasma are available with modern coagulometers.

Clinical Research Informatics is the application of informatics to the discovery and management of new health and disease expertise. It requires knowledge processing for clinical trials as well as informatics for secondary research that uses clinical data.

Immunochemistry is the analysis of the immune system's chemistry. 1st The structures, functions, interactions, and development of the chemical components of the immune system (antibodies/immunoglobulins, toxin, epitopes of proteins like CD4, antitoxins, cytokines/chemokines, antigens) are studied. Immune responses and immune materials/products determination by immuno are also included. The elements of the immune system's identities and functions Immunochemistry also refers to the visualisation of chemically labelled antigen molecules using immune system components, especially antibodies.

Mass spectrometry's clinical laboratory success has traditionally been limited to drug of abuse confirmations, new born screening, and steroid analysis. Mass spectrometry's clinical applications are growing, and the technique is now used in almost every field of laboratory medicine.

Mass spectrometry has historically been used in clinical laboratories for drug of abuse confirmations, new born screening, and steroid analysis. The clinical applications of mass spectrometry are expanding, and the technique is now used in almost every area of laboratory medicine. Computational chemistry is the study of the structures and properties of molecules and materials using computer modelling and simulation, including ab initio methods focused on quantum chemistry and analytical approaches.

Clinical nutrition refers to the nutrition of patients in medical settings. In this context, clinical refers to the treatment of patients, which includes not just outpatients in clinics, but also (and mostly) inpatients in hospitals. It largely encompasses the scientific disciplines of nutrition and dietetics. It seeks to maintain a healthy energy balance in patients while also supplying enough levels of other nutrients such as vitamins and minerals.

Empirical chemistry education research (CER) studies accounted of the publications in the four science education journals, according to our findings. Conceptions and conceptual transformation were the most often published topic of research, and the majority of studies used mixed techniques. CER studies differ from chemistry research in that the systems being examined (for the most part) are made up of humans rather than molecules, and hence are subject to the whims of human behaviour. Learning scientists' techniques have influenced CER studies over the years.

Clinical chemistry and laboratory medicine examine body fluids such as blood, semen, spinal fluid, faeces, skin, and other materials in order to perform qualitative and quantitative tests. A material or chemical constituent that is of interest in an analytical procedure is referred to as an analyte, part (in clinical chemistry), or chemical species. Analyses are the purest compounds on the planet.

Clinical chemistry (sometimes referred to as chemical pathology, clinical biochemistry, or medical biochemistry) is a branch of chemistry that deals with the examination of body fluids for diagnostic and therapeutic purposes. It is a type of biochemistry that is employed in practise (not to be confused with medicinal chemistry, which involves basic research for drug development. 

Forensic chemistry is a branch of chemistry and a subfield of it. Unidentified items discovered at  a crime scene may be identified with the aid of a forensic chemist. For detecting unknown substances, specialists in this area have a variety of methods and instruments.

The study of chemical processes within and pertaining to live beings is known as biochemistry or biological chemistry. Biochemistry is organised into three fields: structural biology, enzymology, and metabolism. It is a sub-discipline of both chemistry and biology.

This Drug Design session is intended to highlight the roadblocks that stand in the way of this noble approach to drug design, as well as advanced and current directional approaches that can be implemented on a multidisciplinary and transdisciplinary level to expand future opportunities in this sector.

Polymer chemistry is a branch of science that studies polymers and macromolecules' chemical production, structure, and chemical and physical properties. The principles and methods used within polymer chemistry are also applicable through a wide range of other chemistry sub-disciplines like organic chemistry, analytical chemistry, and physical chemistry. Many materials have polymeric structures, from fully inorganic metals and ceramics to DNA and other biological molecules, however, polymer chemistry is typically referred to in the context of synthetic materials.

Radiochemistry is a branch of chemistry that studies the characteristics and chemical interactions of non-radioactive isotopes using radioactive isotopes of elements (often within radiochemistry the absence of radioactivity leads to a substance being described as being inactive as the isotopes are stable). Much of radiochemistry is concerned with the application of radiation to the study of everyday phenomena.

Metabolism is the process by which living cells get, convert, and store energy from food. Metabolism is a complicated network of chemical reactions that takes place within the limits of a cell and may be broken down into self-contained components known as pathways. Catabolism, or the oxidative destruction of molecules, and anabolism are both aided by metabolic pathways.