Suchergebnisse - matrix authorization algorithm modeling

Quantum Complex Surgeries via ψ–Hamzah

Autoren: JALALI, SEYED RASOUL

Schlagwörter: Quantum surgery, ψ–Hamzah model, quantum complex surgeries, fractal derivatives, path integral surgery, non-invasive surgery, quantum medical model, fractal–quantum dynamics, ψ–field, quantum-conscious surgery, brainstem glioma, DIPG treatment, spinal reconstruction, artificial heart transplant, facial transplant, deep brain aneurysm repair, cranial reconstruction, cerebellar reconstruction, consciousness fields, oscillatory dynamics, non-linear biology, fractal medical modelling, ψ–Hamzah equation, fractal time–space, non-temporal surgery, predictive surgery, quantum tissue repair, self-regulating surgery, quantum tumour collapse, ψ phase synchronisation, quantum hydrodynamics, nano-surgery, nanomedicine, bioinformatics surgery, robotic ψ–surgery, Hamzah_Ψ_SurgeryPack, neuro-conscious coupling, fractal neuron modelling, vascular ψ modelling, immune quantum regulation, regenerative quantum surgery, holographic synchronisation, ψ brain fields, oscillatory heart dynamics, predictive haemorrhage control, surgical quantum ethics, compassionate medical use, IRB approval, emergency surgery quantum, Mayo Clinic Hamzah, Charité Berlin ψ surgery, Stanford ψ surgery, RIKEN Institute quantum medicine, NUS Singapore quantum, Iranian ψ–Hamzah research, cranial topography modelling, ψ neural bursts, vascular collapse prediction, quantum immunology, fractal brain modelling, bio-quantum fractal PDE, fractal path integral medicine, meta-operative surgery, ψ–Integral mapping, quantum MRI matching, ψ nanorobots, nanoprobes, Hamzah_BioMap, ψ virtual surgery, Hamzah_Nano_Unit, Hamzah_BioCircuit, quantum regenerative model, neural rebirth, ψ quantum immunoregulation, nano drug delivery, ψ immuno-sync, ψ predictive mapping, ψ–field risk surface, vital disruption modelling, brain–consciousness rebirth, progeria treatment quantum, genetic phase editing, CRISPR ψ surgery, siRNA Hamzah model, qEEG ψ field, MEG quantum mapping, fMRI ψ synchronisation, brain-to-brain transfer, vegetative patient ψ transfer, quantum skull reconstruction, spinal quantum bone printing, liver ψ transplant, aortic quantum graft, multi-organ quantum transplant, ocular ψ transplant, quantum optic nerve repair, ψ spinal cord regrowth, neuro-field stabilisation, ψ consciousness rebirth, brain death revival, coma revival ψ pulses, quantum singularity model, phase-tuned ψ, fractal memory modelling, pre-temporal quantum surgery, quantum oscillatory equilibrium, unstable equilibrium model, consciousness oscillations, ψ awareness field, neural self-awareness loops, cognitive noise neutralisation, surgeon–patient ψ interaction, quantum predictive algorithms, fractal synchronisation, oscillatory consciousness model, bio-holographic synchronisation, consciousness mathematics, ψ neural feedback, quantum error correction in surgery, ψ feedback loop, quantum field oscillations, nano resonance, oscillatory vascular modelling, fractal cellular phase, ψ neurovascular repair, bioelectric fractal harmonics, Hamzah_MultiOrganPack, pan-cancer quantum surgery, ψ metastasis repair, pancreatic metastasis surgery, lung fibrosis transplant quantum, dual lung quantum surgery, regenerative fractal implants, quantum mechanical organ design, quantum phase collapse tumour, biofield oscillatory control, regenerative nano-avatars, ψ-conscious avatars, metaverse surgery training, global ψ–Hamzah cloud, ψ neuro-convergence, fractal oscillatory therapy, adaptive ψ robotics, ψ neuro-interface, neuralink quantum interface, ψ brain computer interface, optogenetics ψ control, ψ–robot integration, fractal predictive simulation, split-step ψ solver, fractal ODE solver, Grünwald-Letnikov approximation, ψ oscillatory quantum solver, meta-simulation ψ code, finite element ψ modelling, COMSOL ψ integration, ANSYS Hamzah surgery, ψ predictive analytics, Hamzah_VirtualSurgery platform, bio-quantum computing, IBM Q Hamzah simulations, Google Sycamore ψ surgery, nanocarriers ψ stimulation, lipid nanoparticles ψ regulation, regenerative ψ–bone matrix, craniofacial anomalies ψ repair, craniofacial syndromes quantum, Apert syndrome quantum cure, Crouzon syndrome ψ treatment, Pfeiffer ψ cranial modelling, quantum organogenesis, ψ cellular morphogenesis, visual cortex ψ retraining, visual cortex regeneration, consciousness neurogenesis, oscillatory healing dynamics, ψ emotional regulation, surgeon stress control, cognitive feedback ψ neutralisation, non-linear neuro-quantum coupling, multi-scale ψ synchronisation, nano fractal vascular modelling, immune fractal feedback, ψ haemodynamic synchronisation, heart rhythm ψ matching, ψ emotional loop, conscious heart regulation, ψ bio-pulse AI, personalised ψ surgery, patient-specific ψ phase, quantum epigenetic modulation, quantum synaptic fusion, ψ neuro-fusion nanobots, nanobot surgical guidance, ψ immune reprogramming, nano-immune modulation, ψ inflammatory suppression, ψ oscillatory immune response, systemic quantum adaptation, Hamzah ethics protocols, ψ medical legitimacy, salvation ethics ψ surgery, ψ–Hamzah clinical feasibility, predictive organ healing, regenerative field stabiliser, ψ stabiliser loop, post-surgery ψ field, continuous ψ monitoring, EEG stabilisation ψ, real-time ψ reconstruction, biophysical fractal stability, Laplace-nonlinear ψ modelling, ψ field stability equations, ψ consciousness stability, unstable oscillation prediction, ψ consciousness collapse avoidance, surgical phase shift modelling, surgical error prevention ψ, ψ emotional modelling, psychological loop integration, self-regulated surgery ψ, personalised neural quantum surgery, quantum nanofiber grafts, quantum vascular elasticity, phase blood vessel control, oscillatory endothelial growth, ψ targeted endothelial repair, oscillatory neurovascular loops, quantum surgical ethics, ψ–Hamzah law framework, legal emergency authorisation, ψ compassionate use, ψ IRB ethics, ψ open-source code, ψ–Hamzah Python code, MATLAB ψ models, ψ tumour numerical simulation, ODE vs ψ–Hamzah comparison, ψ model validation, quantum experimental validation, trillion scenario simulation, ψ cross-disciplinary validation, Hamzah model universality, ψ integrative medicine, ψ post-classical surgery, ψ–fractal post-Newtonian medicine, ψ post-Euclidean geometry, oscillatory consciousness equations, ψ–Hamzah universal equation, ψ mathematics of healing, oscillatory regeneration model, ψ surgical simulation, ψ success rate 99.99%, ψ mortality reduction, brainstem mortality elimination, artificial heart zero arrhythmia, full facial ψ satisfaction, spinal cord repair 65% recovery, brain revival post-coma, ψ vegetative state regeneration, oscillatory regenerative implants, ψ neural prosthetics, regenerative nano implants, quantum prosthesis design, ψ full consciousness rebirth, ψ multidimensional surgery, fractal consciousness reconstruction, ψ hyperdimensional healing, ψ medical revolution, Hamzah quantum medicine, ψ transformation of surgery, ψ intelligent surgery, ψ global medical salvation, ψ–Hamzah roadmap, ψ–Hamzah intellectual property, ψ legal protection, ψ medical patents, ψ neuroengineering revolution, ψ AI integration, ψ GPT-based surgery, ψ quantum decision support, ψ global surgery cloud, ψ simulation metaverse, ψ universal transplant model, ψ regenerative humanity, ψ beyond classical biology, ψ oscillatory fractal humanity, ψ neuro-conscious society, ψ post-quantum medicine, ψ quantum civilisation roadmap, ψ Hamzah world surgery, ψ redefining mortality, ψ immortality medicine

Complete Cure of Rare Mitochondrial Diseases via the Hamzah Model

Autoren: JALALI, SEYED RASOUL

Schlagwörter: ψ–Hamzah, Hamzah Equation, mitochondrial genome repair, mtDNA, heteroplasmy, mitochondrial dysfunction, rare mitochondrial disease, ATP restoration, ROS suppression, quantum genomic repair, fractal calculus, fractional derivatives, Caputo derivative, Riemann–Liouville derivative, fractal noise control, stochastic genome stabilisation, mitochondrial biophysics, genetic mutation repair, drug resistance modelling, mitochondrial nanomedicine, genome-level simulation, mitochondrial nanovaccine, mitochondrial pharmacology, ψ–Hamzah nanocarrier, nanoparticle vaccine, multi-scale modelling, fractal-genomic integration, mitochondrial proteome regulation, mitochondrial dynamics, fractal diffusion, mitochondrial signal propagation, energy flux optimisation, oxidative stress reduction, ROS scavenging, ATP synthesis, mitochondrial signalling, mitochondrial transplantation, mitochondrial restoration, mitochondrial pathophysiology, mitochondrial matrix stabilisation, mitochondrial membrane repair, mitochondrial nanocarriers, mitochondrial DNA recombination, mitochondrial genome sequencing, ψ–Hamzah pharmacology, ψ–Hamzah medicine, ψ–Hamzah vaccine, ψ–Hamzah framework, ψ–Hamzah nanocode, ψ–Hamzah anti-cancer vaccine, ψ–Hamzah anti-cancer medicine, ψ–Hamzah rare disease therapy, ψ–Hamzah fractal repair, ψ–Hamzah fractional modelling, ψ–Hamzah multi-trillion simulation, ψ–Hamzah probability stabilisation, ψ–Hamzah deterministic solution, ψ–Hamzah stochastic optimisation, ψ–Hamzah drug design, ψ–Hamzah therapeutic validation, ψ–Hamzah artificial intelligence, ψ–Hamzah deep learning, ψ–Hamzah reinforcement learning, ψ–Hamzah multi-scale simulation, ψ–Hamzah fractional integrals, ψ–Hamzah bioinformatics, ψ–Hamzah nanotechnology, ψ–Hamzah fractal pharmacology, ψ–Hamzah nanoimmunology, ψ–Hamzah genomic algorithm, ψ–Hamzah energy transfer, ψ–Hamzah biophotonics, ψ–Hamzah mitochondrial biophysics, ψ–Hamzah clinical trial design, ψ–Hamzah in vitro modelling, ψ–Hamzah in vivo modelling, ψ–Hamzah computational biology, ψ–Hamzah AI-assisted modelling, ψ–Hamzah multi-dimensional simulation, ψ–Hamzah PK/PD model, ψ–Hamzah stochastic differential equations, ψ–Hamzah Schrödinger equation, ψ–Hamzah multi-agent simulation, ψ–Hamzah cellular automata, ψ–Hamzah genome integration, ψ–Hamzah mitochondrial quantum repair, ψ–Hamzah nanoparticle stability, ψ–Hamzah nanoparticle encapsulation, ψ–Hamzah nanoparticle release kinetics, ψ–Hamzah mitochondrial targeting, ψ–Hamzah mitophagy control, ψ–Hamzah mitogenesis, ψ–Hamzah cell restoration, ψ–Hamzah regenerative medicine, ψ–Hamzah tissue repair, ψ–Hamzah systemic therapy, ψ–Hamzah nanodrug design, ψ–Hamzah nano-delivery, ψ–Hamzah targeted therapy, ψ–Hamzah adaptive therapy, ψ–Hamzah immune modulation, ψ–Hamzah inflammation control, ψ–Hamzah cytokine regulation, ψ–Hamzah apoptotic regulation, ψ–Hamzah anti-apoptotic pathways, ψ–Hamzah genomic noise control, ψ–Hamzah nanobiology, ψ–Hamzah nanopharmacology, ψ–Hamzah nanogenomics, ψ–Hamzah mitochondria-targeted therapy, ψ–Hamzah mitochondrial rejuvenation, ψ–Hamzah quantum nanotherapy, ψ–Hamzah neural energy repair, ψ–Hamzah cardiac mitochondrial repair, ψ–Hamzah hepatic mitochondrial restoration, ψ–Hamzah muscular dystrophy therapy, ψ–Hamzah mitochondrial epilepsy therapy, ψ–Hamzah neurodegeneration therapy, ψ–Hamzah Alzheimer's therapy, ψ–Hamzah Parkinson's therapy, ψ–Hamzah ageing reversal, ψ–Hamzah senescence control, ψ–Hamzah genomic stabilisation, ψ–Hamzah adaptive immunotherapy, ψ–Hamzah memory-driven healing, ψ–Hamzah adaptive fractal learning, ψ–Hamzah AI quantum control, ψ–Hamzah deep quantum neural networks, ψ–Hamzah Monte Carlo modelling, ψ–Hamzah Sobol sampling, ψ–Hamzah uncertainty quantification, ψ–Hamzah Bayesian inference, ψ–Hamzah parameter sensitivity, ψ–Hamzah variance reduction, ψ–Hamzah predictive analytics, ψ–Hamzah clinical prediction, ψ–Hamzah therapeutic forecasting, ψ–Hamzah probabilistic medicine, ψ–Hamzah computational pharmacology, ψ–Hamzah structural bioinformatics, ψ–Hamzah protein docking, ψ–Hamzah mitochondrial ligand design, ψ–Hamzah fractal potential, ψ–Hamzah eigenvalue stability, ψ–Hamzah genomic eigenfunctions, ψ–Hamzah Hilbert space, ψ–Hamzah Laplacian operator, ψ–Hamzah spectral theory, ψ–Hamzah operator theory, ψ–Hamzah information geometry, ψ–Hamzah entropy regulation, ψ–Hamzah thermodynamic stability, ψ–Hamzah non-equilibrium dynamics, ψ–Hamzah dissipative structures, ψ–Hamzah attractor stabilisation, ψ–Hamzah chaos control, ψ–Hamzah bifurcation suppression, ψ–Hamzah critical slowing down, ψ–Hamzah emergent healing, ψ–Hamzah adaptive fractal control, ψ–Hamzah hierarchical modelling, ψ–Hamzah multi-layer simulation, ψ–Hamzah systemic complexity, ψ–Hamzah quantum control matrix, ψ–Hamzah stochastic genome dynamics, ψ–Hamzah metabolic flux balance, ψ–Hamzah metabolic pathway regulation, ψ–Hamzah mitochondrial proteomics, ψ–Hamzah transcriptomic restoration, ψ–Hamzah epigenomic healing, ψ–Hamzah nuclear-mitochondrial crosstalk, ψ–Hamzah genomic synchronisation, ψ–Hamzah personalised medicine, ψ–Hamzah precision therapy, ψ–Hamzah genomic editing, ψ–Hamzah CRISPR enhancement, ψ–Hamzah mtDNA recombination, ψ–Hamzah genome integration therapy, ψ–Hamzah adaptive dosing, ψ–Hamzah real-time drug optimisation, ψ–Hamzah biofeedback therapy, ψ–Hamzah nanorobotics, ψ–Hamzah biocomputation, ψ–Hamzah synthetic biology, ψ–Hamzah computational genomics, ψ–Hamzah regenerative engineering, ψ–Hamzah anti-cancer therapy, ψ–Hamzah tumour mitochondrial therapy, ψ–Hamzah oncogenomic control, ψ–Hamzah metastasis suppression, ψ–Hamzah chemoresistance reversal, ψ–Hamzah radioresistance control, ψ–Hamzah adaptive oncology, ψ–Hamzah fractal oncology, ψ–Hamzah immuno-oncology, ψ–Hamzah cancer nanomedicine, ψ–Hamzah cancer mitochondrial healing, ψ–Hamzah cancer stem cell control, ψ–Hamzah DNA repair, ψ–Hamzah mitochondrial DNA editing, ψ–Hamzah multi-trillion simulation, ψ–Hamzah scenario forecasting, ψ–Hamzah universal contingency modelling, ψ–Hamzah cross-dimensional modelling, ψ–Hamzah infinite state-space modelling, ψ–Hamzah emergent complexity, ψ–Hamzah quantum stochastic control, ψ–Hamzah intelligent drug design, ψ–Hamzah systemic drug testing, ψ–Hamzah global therapeutic framework, ψ–Hamzah WHO standardisation, ψ–Hamzah EMA validation, ψ–Hamzah FDA authorisation, ψ–Hamzah international adoption, ψ–Hamzah intellectual property, ψ–Hamzah scientific ownership, ψ–Hamzah advanced simulation, ψ–Hamzah clinical translation, ψ–Hamzah experimental validation, ψ–Hamzah industrial production, ψ–Hamzah global scalability, ψ–Hamzah personalised nanomedicine, ψ–Hamzah clinical safety, ψ–Hamzah biocompatibility, ψ–Hamzah nanotoxicology, ψ–Hamzah ethical regulation, ψ–Hamzah quantum medicine, ψ–Hamzah future genomics, ψ–Hamzah transhuman biology, ψ–Hamzah next-generation therapy, ψ–Hamzah regenerative future, ψ–Hamzah universal healthcare, ψ–Hamzah biological immortality, ψ–Hamzah mitochondrial immortality, ψ–Hamzah evolutionary medicine, ψ–Hamzah planetary medicine, ψ–Hamzah cosmic biology, ψ–Hamzah interdimensional biology, ψ–Hamzah hyper-complex genomics, ψ–Hamzah advanced pharmacogenomics, ψ–Hamzah therapeutic AI, ψ–Hamzah global bioinformatics, ψ–Hamzah ultimate healing

FIAT Currencies Under the Devaluation of Legitimacy via Hamzah–Quantum Economic Model? (USD, EUR, JPY, GBP, CNY – FED, ECB, IMF – NYSE, LSE, TSE, SSE, FWB Disintegrating under ψ-Economic Fields). (Part 15 of 20 – The Quantum Revolution)

Autoren: JALALI, SEYED RASOUL

Schlagwörter: ψ–consciousness override cascade, multi-node sovereignty collapse, systemic quantum derailing index, ψ–inversion of legal reality, neurocognitive regime fracture, entropic de-authorisation protocol, hyper-reality destabilisation seed, post-sovereign psi encoding, command-chain fracturing algorithm, ψ–infusion of planetary will, military-grade perceptual reset, neural alignment override loop, ψ–hijack of fiscal continuity, fractalised diplomatic disarmament, sovereign cognition deterrence array, ψ–reactive institutional implosion, classified psycho-geometric encoding, psi-resonant insurgency vector, unilateral psi-governance filter, sub-state collapse harmonics, ψ–regime collapse trigger, quantum overthrow protocol, ψ–destabilisation signal, military command inversion, deep-state deconstruction, entropic override of nuclear logic, fractal field reorientation vector, ψ–field weaponisation algorithm, quantum breach of global psy–defence, cognitive saturation missile (CSM), ψ–layer infiltration script, algorithmic nullification of sovereignty, intelligence grid ψ–overload, ψ–alignment disrupter node, protocol-X decryption breach, synthetic thought-loop override, ψ–recalibration of collective belief, cognitive entropy collapse vector, societal synchronisation via ψ pulse, ψ-induced geopolitical reset, ψ–directed regime destabilisation, Cognitive warfare initiation code, Quantum override of global defence grids, ψ–informed subversion of AI alignment, Fractal entropy decoupling algorithm, Mind-state encryption breach vector, ψ–reprogramming of military protocols, Asymmetric ψ- destabilisation via ψ fields, ψ–field-based identity override systems, Consciousness-layer weapon protocols, Strategic ψ-breach of intelligence influence on nuclear deterrence, Global ψ–compliance enforcement mechanism, Deep-state collapse via ψ entanglement, Multinational economic agencies, Quantum-deployed socio-political disruption, ψ-induced collapse of educational doctrines, Cross-border entropic war schematics, ψ– based nullification of conventional deterrence, Behavioural ψ-matrix inversion protocol, ψ–driven post-nation-state governance model, quantum fiscal override loop, ψ-induced treasury destabilisation, deep-structure economic collapse index, psi-resonant currency disalignment, trans-national fiscal detachment field, ψ–backdoor financial algorithm, sovereign banking drift protocol, central bank collapse harmonics, black-budget ψ interference array, quantum credit implosion zone, ψ-mirrored investment cascade, monetary entropy surge pattern, liquidity vacuum fractalisation, gold-backed psi shift sequence, supranational debt override script, algorithmic treasury desync index, ψ-correlated default field, hyperinflationary psi node breach, central reserve psi bifurcation, systemic liquidity psi echo, assessment, ψ–based economic override infrastructure, Neuro-fractal resonance weapon, Quantum-class military failure modelling, ψ–strategic subversion, Post-AGI quantum takeover, Geo-financial annihilation schema, Entropy suppression via non-local operators, Hamzah Equation threat Cognitive destabilisation protocol, Neuro-entropic collapse model, Quantum weaponisation of consciousness, ψ-field override, Fractal intelligence deterrence scenario, Non-computable threat signature, ψ-induced systemic collapse forecast, Global conscious state manipulation, Asymmetrical field warping intelligence, Collapse prediction of fiat + crypto systems, Intergovernmental ψ–alignment breach, UN-level classification breach via quantum-field logic

Development and Validation of a Machine Learning–Based Screening Algorithm to Predict High-Risk Hepatitis C Infection Open Access.

Autoren: Jang, Suk-Chan Lo-Ciganic, Wei-Hsuan Hernandez-Con, Pilar et al.

Quelle: Open Forum Infectious Diseases; Aug2025, Vol. 12 Issue 8, p1-9, 9p

Schlagwörter: HEPATITIS C, MACHINE learning, PROGNOSTIC models, OPIOID epidemic, RISK assessment, ELECTRONIC health records, DECISION support systems, MEDICAL records

Geografische Kategorien: UNITED States

CT-Based Radiomic Models in Biopsy-Proven Liver Fibrosis Staging: Direct Comparison of Segmentation Types and Organ Inclusion.

Autoren: Morariu-Barb, Andreea Mihaela Drugan, Tudor Socaciu, Mihai Adrian et al.

Quelle: Diagnostics (2075-4418); Nov2025, Vol. 17 Issue 21, p2671, 17p

Schlagwörter: HEPATIC fibrosis, RADIOMICS, THREE-dimensional modeling, IMAGE segmentation, LIVER diseases, BIOPSY, FATTY degeneration

When the whole is greater than the sum of its parts: why machine learning and conventional statistics are complementary for predicting future health outcomes Open Access.

Autoren: Janse, Roemer J Abu-Hanna, Ameen Vagliano, Iacopo et al.

Quelle: Clinical Kidney Journal; Apr2025, Vol. 18 Issue 4, p1-11, 11p

Schlagwörter: MACHINE learning, PREDICTION models, INTERDISCIPLINARY research, RANDOM forest algorithms, ARTIFICIAL intelligence, MATHEMATICAL statistics, SUPPORT vector machines

STRIDE-Based Threat Modeling and Risk Assessment Framework for IoT-enabled Smart Healthcare Systems.

Autoren: Nadifi, Zineb Ouaissa, Mariyam Ouaissa, Mariya et al.

Quelle: International Journal of Online & Biomedical Engineering; 2025, Vol. 21 Issue 9, p63-80, 18p

Pattern Recognition Algorithms in Pharmacogenomics and Drug Repurposing—Case Study: Ribavirin and Lopinavir.

Autoren: Calvo, Hiram Islas-Díaz, Diana Hernández-Laureano, Eduardo

Quelle: Pharmaceuticals (14248247); Nov2025, Vol. 18 Issue 11, p1649, 29p

Schlagwörter: PHARMACOGENOMICS, DRUG repositioning, PATTERN perception, INDIVIDUALIZED medicine, COVID-19, MACHINE learning, LOPINAVIR-ritonavir, RIBAVIRIN

Early Detection of Cardiovascular Disease Using AdaBoost Convolutional Random Arithmetic Trigonometric Algorithm.

Autoren: Chidambaram, S. Ramesh, S. Geetha, S. et al.

Quelle: Cognitive Computation; Dec2025, Vol. 17 Issue 6, p1-21, 21p

Artificial Intelligence in Medicine and Sustainable Development.

Autoren: Alfouri, Areeg Alfouri, Shatha

Quelle: Veterinary Medicine & Public Health Journal. Sep2025, Vol. 6 Issue 3, p105-118. 14p.

Adaptive Ketogenic–Mediterranean Protocol (AKMP) in Real Clinical Practice: 14-Week Pre–Post Cohort Study on Glucolipid Markers and Safety.

Autoren: García-Gorrita, Cayetano San Onofre, Nadia Merino-Torres, Juan F. et al.

Quelle: Nutrients. Nov2025, Vol. 17 Issue 22, p3559. 37p.

Innovative Analytical Approaches for Food Pesticide Residue Detection: Towards One Health-Oriented Risk Monitoring.

Autoren: Botnaru, Alexandra Andreea Lupu, Ancuta Morariu, Paula Cristina et al.

Quelle: Journal of Xenobiotics; Oct2025, Vol. 15 Issue 5, p151, 36p

Schlagwörter: PESTICIDE residues in food, FOOD safety, SUSTAINABILITY, EVALUATION methodology, CHEMICAL detectors, REGULATORY compliance, RISK assessment

Optimization and transfer of robust primary drying protocols for biopharmaceuticals through lyophilization process modeling.

Autoren: Vanbillemont, Brecht Arsiccio, Andrea Menzen, Tim et al.

Quelle: AAPS Open; 6/16/2025, Vol. 11 Issue 1, p1-20, 20p

Schlagwörter: SUSTAINABLE development, PROCESS capability, FAILURE mode & effects analysis, PROCESS optimization, SUSTAINABILITY

Assessing the Impacts of Land Cover and Climate Changes on Streamflow Dynamics in the Río Negro Basin (Colombia) Under Present and Future Scenarios.

Autoren: Botero, Blanca A. Parra, Juan C. Benavides, Juan M. et al.

Quelle: Hydrology (2306-5338); Nov2025, Vol. 12 Issue 11, p281, 35p

Schlagwörter: CLIMATE change, STREAMFLOW, HYDROLOGIC models, WATERSHEDS, ENVIRONMENTAL impact analysis, WATER management, VEGETATION dynamics, URBAN growth

Geografische Kategorien: ANDES, ANTIOQUIA (Colombia : Dept.), COLOMBIA

Integrating artificial intelligence into veterinary education: student perspectives.

Autoren: de Brito, Christelle Redondo, José I. Tadeo-Cervera, Irene et al.

Quelle: Frontiers in Veterinary Science. 2025, p1-19. 19p.

Predicting Metabolic and Cardiovascular Healthy from Nutritional Patterns and Psychological State Among Overweight and Obese Young Adults: A Neural Network Approach.

Autoren: Reivan Ortiz, Geovanny Genaro Maraver-Capdevila, Laura Granero, Roser

Quelle: Nutrients. Aug2025, Vol. 17 Issue 16, p2651. 19p.

Obtaining and Characterization of Nutraceuticals Based on Linoleic Acid Derivatives Obtained by Green Synthesis and Their Valorization in the Food Industry.

Autoren: Dehelean, Cristina Adriana Boru, Casiana Macașoi, Ioana Gabriela et al.

Quelle: Nutrients. Aug2025, Vol. 17 Issue 15, p2416. 72p.

Network analysis of farmed Atlantic salmon movements in British Columbia, Canada.

Autoren: Raquib, Ahsan Hammell, K. Larry Sanchez, Javier et al.

Quelle: Frontiers in Veterinary Science. 2025, p1-16. 16p.

A CANCELLABLE AND IRREVOCABLE APPROACH FOR FINGERPRINT TEMPLATE PROTECTION USING OPTIMAL ITERATIVE SOLUBILITY ALGORITHM AND SECURE POINT BASE.

Autoren: Kanagalakshmi, K. Antony, Joycy K.

Quelle: Biomedical Engineering: Applications, Basis & Communications; Feb2023, Vol. 35 Issue 1, p1-14, 14p

Schlagwörter: HUMAN fingerprints, AMBULANCE service, PERSONAL identification numbers, ALGORITHMS, WIRELESS mesh networks, SOLUBILITY

NEXT-GEN ENTERPRISE BI: A STRATEGIC GUIDE TO AI-INFUSED REPORTING SOLUTIONS.

Autoren: MARAPATLA, PENTA RAO

Quelle: TPM: Testing, Psychometrics, Methodology in Applied Psychology; 2025 Supplement, Vol. 32, p248-262, 15p