About The Journal
In-vitro In-vivo In-silico Journal (IIIJ) is a premier platform dedicated to publishing high-impact research that bridges experimental and computational approaches in drug development. We focus on groundbreaking studies that integrate in-vitro, in-vivo, and in-silico methodologies to drive innovation in pharmaceutical sciences.
Our scope encompasses a diverse range of topics, including drug discovery, toxicity assessments, pharmacokinetics, and pharmacodynamics, as well as cutting-edge computational models. IIIJ is committed to advancing the development of novel therapies and improving our understanding of disease mechanisms.
We invite global contributions that explore the full lifecycle of drug development, from early-stage research to clinical applications. IIIJ is more than just a journal - it is a catalyst for transforming ideas into real-world solutions that advance human health and provide hope for life-threatening diseases.
Keywords were outlined that suit the scope of the journal, not restricted to them. For further queries, contact us at [email protected]
Computational Biology and Bioinformatics:
- Network pharmacology
- Insilico drug discovery
- Insilico virtual screening
- Quantitative structure-activity relationship modeling
- Insilico network analysis
- Insilico systems biology
- Insilico high-throughput screening
- Insilico bioinformatics analysis
- Insilico homology modeling
- Insilico evolutionary biology analysis
- Insilico metabolic pathway analysis
In Vitro and In Vivo Techniques:
- In vitro testing methods
- In vivo animal models
- In vivo imaging techniques
- Invitro cancer models
- Invitro organ-on-a-chip technology
- In vivo electrophysiology techniques
- Invitro biomarker discovery
- In vivo physiology measurements
- Invitro stem cell culture
- In vivo immunology assays
- Invitro microfluidic technology
- In vivo optogenetics techniques
- Invitro drug metabolism studies
- Invitro bioassays for drug development
- In vivo neuroscience techniques
- In vivo behavioral assays
- Invitro epigenetic studies
- Invitro multi-omics analysis
- In vivo cardiac physiology measurements
- In vivo circadian rhythm studies
Reproductive Technologies and Treatments:
- Artificial insemination
- Implantation
- Frozen embryo transfer
- Ovulation induction
- Gamete intrafallopian transfer
- Assisted hatching
- Assisted reproductive technology (ART)
- IVF treatment
- Cleavage stage embryo
- Single embryo transfer
- Fertility surgery
- Polycystic ovarian syndrome
Experimental Design and Analysis:
- Experimental Design
- Precision Medicine
- Computational analysis
- Clinical trial simulations
Artificial Intelligence:
- AI-based drug discovery and development
- Machine learning in pharmacokinetics and toxicology
- Computational modeling of biological systems
- AI-driven simulations for preclinical and clinical research
- Deep learning applications in biomolecular interactions
Pharmacology and Toxicology:
- Pharmacogenomics
- Pharmaceutics
- Pharmacognosy
- Nuclear Pharmacy
- Antimicrobial Agents
- Pharmacokinetics and pharmacodynamics modeling
- Toxicology screening using invitro methods
- Pharmacophore modeling
- Drug metabolism prediction using computational models
- Quantitative systems pharmacology modeling
- High-content screening using invitro methods
- In vivo pharmacology studies
Chemistry:
- Medicinal Chemistry
- Food Chemistry
- Cheminformatics
- Genotoxicity
- Enzyme Inhibition
Genetic and Molecular Studies:
- DNA damage and repair
- Karyomapping
- Insilico protein structure prediction
- Gene expression analysis using invitro assays
- Insilico screening of natural compounds
- Molecular docking simulations
- Protein-ligand interaction simulations
- Genome-wide association studies using invitro assays
- Insilico protein-protein interaction analysis
- Insilico transcriptomics analysis
- Insilico pathway analysis
