Aim & Scope
Biomedical and Biotechnological Sciences (ISSN: 2833-0951) is an international, Open Access publisher of peer-reviewed journals encompassing a broad spectrum of scientific research and technological disciplines.
Biomedical and Biotechnological Sciences (ISSN: 2833-0951) is originated with a rigid commitment of serving the scientific and research community by inviting innovations and a vision to encourage the existing scientists, experts and young scientists to enlighten the common society, encompassing a broad spectrum of scientific research and technological disciplines.
Biomedical and Biotechnological Sciences (ISSN: 2833-0951) is an Open Access single blinded peer-reviewed medical journal, publish original research articles, review papers, clinical studies, case reports, editorials, and perspectives etc. It seeks support from individuals, institutes, libraries, universities, funding agencies, and others.
Biomedical and Biotechnological Sciences (ISSN: 2833-0951) deals with the disorders and complications that are related biomedical research, biotechnology, and their clinical applications.
The current research in Biomedical and Biotechnological Sciences (ISSN: 2836-497X) involves in the development of new techniques to minimize these ailments and provides knowledge for researchers, practitioners and even for common people.
Biomedical and Biotechnological Sciences (ISSN: 2833-0951) accepts the articles in the fields of:
Molecular Biology, Cellular Biology, Genomics & Proteomics, Bioinformatics, Systems Biology, Stem Cell Research, Immunology & Immunotherapy, Pharmacology & Drug Development, Nanomedicine, Cancer Biology & Oncology, Human Genetics, Regenerative Medicine, Genetic Engineering, Genome Editing, Synthetic Biology, Biopharmaceuticals, Tissue Engineering, Biomaterials, Industrial Biotechnology, Environmental Biotechnology, Agricultural Biotechnology, Biofuels & Bioprocessing, Microbial Biotechnology, Bioremediation, Biosensors & Bioelectronics, Protein Engineering, Translational Medicine, Biomarkers in Disease Diagnosis, Drug Discovery & Development, Vaccine Development, Antimicrobial Resistance (AMR), Artificial Organs, Gene Therapy, Computational Biology, Lab-on-a-Chip Technologies, Medical Imaging & Diagnostics, Nanotechnology in Medicine, Artificial Intelligence in Healthcare, Organoid & Organ-on-a-Chip Models, Wearable Biosensors, 3D Bioprinting, Precision Medicine, Quantum Biology, Epigenetics in Disease, Bioethics in Genetic Engineering, Regulatory Affairs in Biotechnology, Data Privacy in Biomedical Research, Intellectual Property in Biotechnology.
Authors can contribute their valuable submission through online and/or to info@mediresonline.org
Molecular Biology: Is the branch of biology that studies the structure, function, and interactions of cellular molecules, particularly DNA, RNA, and proteins. It explores how these molecules control genetic expression and regulate cellular processes. Techniques in molecular biology are essential for research in genetics, medicine, and biotechnology. It provides insights into disease mechanisms and therapeutic development.
Cellular Biology (or Cell Biology): Is the study of cells, their structure, function, and life processes. It examines cell organelles, communication, division, and energy metabolism. Understanding cellular mechanisms is crucial for insights into growth, development, and disease. This field underpins research in medicine, genetics, and biotechnology.
Bioinformatics: Is an interdisciplinary field that combines biology, computer science, and statistics to analyze and interpret biological data. It is widely used for studying genes, proteins, and genomes. Bioinformatics tools help in drug discovery, disease research, and personalized medicine. It enables efficient management and understanding of large-scale biological information.
Pharmacology: Is the branch of medicine and science that studies drugs, their actions, uses, and effects on the body. It involves understanding how drugs interact with biological systems to treat or prevent diseases. Pharmacology also examines drug metabolism, side effects, and therapeutic applications. It is essential for developing safe and effective medications.
Cancer Biology: Is the study of the cellular and molecular mechanisms that lead to cancer development and progression. It explores genetic mutations, cell cycle dysregulation, and tumor microenvironment. Understanding these processes helps in diagnosing, preventing, and treating cancers. Research in cancer biology is fundamental for developing targeted therapies and improving patient outcomes.
Industrial Biotechnology: Is the application of biological systems, organisms, or enzymes to produce goods and services on an industrial scale. It is used in sectors like pharmaceuticals, agriculture, biofuels, and food production. This field emphasizes sustainable and eco-friendly manufacturing processes. Advances in industrial biotechnology improve efficiency, reduce waste, and create innovative products.
Medical Imaging: Is the branch of medicine that uses technology to visualize the internal structures of the body. Common techniques include X-ray, CT scan, MRI, ultrasound, and nuclear imaging. It helps in diagnosing diseases, guiding treatment, and monitoring patient progress. Accurate imaging is essential for effective medical care and surgical planning.
Wearable Biosensors: Are devices worn on the body that continuously monitor physiological or biochemical signals. They track parameters like heart rate, glucose levels, or oxygen saturation in real time. These sensors help in early disease detection, personalized healthcare, and fitness monitoring. Advances in wearable biosensors improve patient care and remote health management.
Precision Medicine: Is a medical approach that tailors treatment and prevention strategies to an individual’s genetic, environmental, and lifestyle factors. It aims to provide the most effective therapy based on a patient’s unique profile. This approach improves treatment outcomes and reduces adverse effects. Precision medicine is widely applied in oncology, rare diseases, and personalized healthcare.
Biomedical Research: Is the scientific study of biological processes and diseases to improve human health. It includes basic, translational, and clinical research to understand disease mechanisms, develop treatments, and advance medical knowledge. Findings from biomedical research inform drug development, diagnostics, and public health strategies. It is fundamental for innovation and improving patient care.
