Analgesics
Antiandrogens
Antihistamines
Azvudine
Bromhexine
Budesonide
Colchicine
Conv. Plasma
Curcumin
Famotidine
Favipiravir
Fluvoxamine
Hydroxychlor..
Ivermectin
Lifestyle
Melatonin
Metformin
Minerals
Molnupiravir
Monoclonals
Naso/orophar..
Nigella Sativa
Nitazoxanide
PPIs
Paxlovid
Quercetin
Remdesivir
Thermotherapy
Vitamins
More

Other
Feedback
Home
 
next
study
previous
study
c19early.org COVID-19 treatment researchPovidone-IodinePovidone-Iod.. (more..)
Melatonin Meta
Metformin Meta
Antihistamines Meta
Azvudine Meta Molnupiravir Meta
Bromhexine Meta
Budesonide Meta
Colchicine Meta Nigella Sativa Meta
Conv. Plasma Meta Nitazoxanide Meta
Curcumin Meta PPIs Meta
Famotidine Meta Paxlovid Meta
Favipiravir Meta Quercetin Meta
Fluvoxamine Meta Remdesivir Meta
Hydroxychlor.. Meta Thermotherapy Meta
Ivermectin Meta

All Studies   Meta Analysis       

On a model-based approach to improve intranasal spray targeting for respiratory viral infections

Akash et al., Frontiers in Drug Delivery, doi:10.3389/fddev.2023.1164671 (date from preprint)
Jan 2022  
  Post
  Facebook
Share
  Source   PDF   All Studies   Meta AnalysisMeta
PVP-I for COVID-19
13th treatment shown to reduce risk in February 2021, now with p = 0.000000004 from 21 studies.
Lower risk for mortality, cases, and viral clearance.
No treatment is 100% effective. Protocols combine treatments.
5,100+ studies for 112 treatments. c19early.org
Computational fluid dynamics study of nasal spray administration in 2 subjects showing 100x improvement in nasopharyngeal drug delivery using a new spray placement protocol. The study also found the optimal droplet size range for nasopharyngeal deposition is ~7-17µm. The findings were experimentally validated in a third subject. The new protocol involves holding the spay nozzle as horizontally as possible at the nostril, with a slight tilt towards the cheeks.
Akash et al., 28 Jan 2022, retrospective, Canada, peer-reviewed, 11 authors. Contact: saikat.basu@sdstate.edu.
This PaperPovidone-Iod..All
On a model-based approach to improve intranasal spray targeting for respiratory viral infections
Mohammad Mehedi Hasan Akash, Yueying Lao, Pallavi A Balivada, Phoebe Ato, Nogaye K Ka, Austin Mituniewicz, Zachary Silfen, Julie D Suman, Arijit Chakravarty, Diane Joseph-Mccarthy, Saikat Basu
Frontiers in Drug Delivery, doi:10.3389/fddev.2023.1164671
The nasopharynx, at the back of the nose, constitutes the dominant initial viral infection trigger zone along the upper respiratory tract. However, as per the standard recommended usage protocol ("Current Use", or CU) for intranasal sprays, the nozzle should enter the nose almost vertically, resulting in suboptimal nasopharyngeal drug deposition. Through the Large Eddy Simulation technique, this study has replicated airflow under standard breathing conditions with 15 and 30 L/min inhalation rates, passing through medical scan-based anatomically accurate human airway cavities. The small-scale airflow fluctuations were resolved through use of a sub-grid scale Kinetic Energy Transport Model. Intranasally sprayed droplet trajectories for different spray axis placement and orientation conditions were subsequently tracked via Lagrangian-based inert discrete phase simulations against the ambient inhaled airflow field. Finally, this study verified the computational projections for the upper airway drug deposition trends against representative physical experiments on sprayed delivery performed in a 3D-printed anatomic replica. The model-based exercise has revealed a new "Improved Use" (or, IU) spray usage protocol for viral infections. It entails pointing the spray bottle at a shallower angle (with an almost horizontal placement at the nostril), aiming slightly toward the cheeks. From the conically injected spray droplet simulations, we have summarily derived the following inferences: (a) droplets sized between 7-17 μm are relatively more efficient at directly reaching the nasopharynx via inhaled transport; and (b) with realistic droplet size distributions, as found in current over-the-counter spray products, the targeted drug delivery through the IU protocol outperforms CU by a remarkable 2 orders-of-magnitude.
Ethics statement The studies involving human participants were reviewed and approved by The use of the archived and anonymized medical records was approved with exempt status by the Institutional Review Board (IRB) of the University of North Carolina (UNC) at Chapel Hill, with the requirement of informed consent waived for retrospective use in computational research. The patients/ FIGURE 10 A demonstrative artistic rendering for the side view during "Improved Use" (IU) protocol, outlining how to ideally hold a spray bottle during intranasal administration with one's head tilted slightly forward. g points to the direction of gravity. Rendering is courtesy of the corresponding author. participants provided their written informed consent to participate in this study. Author contributions MA: experiments, data analysis, and writing; YL: digital reconstructions and simulations; PB: simulations and data analysis; PA: simulations and data analysis; NK: simulations and data analysis; AM: data analysis; ZS: data analysis; JS: spray testing and writing; AC: conceptualization, study design and data analysis input, writing; DJ-M: conceptualization and project administration; SB: conceptualization, study design, funding acquisition, project administration, digital reconstructions, numerical simulations, theoretical calculations, data analysis, and writing. Conflict of interest Author JS was employed by the Aptar Pharma. Author AC was employed by Fractal Therapeutics. The..
References
Afkhami, D'agostino, Zhang, Stacey, Marzok et al., Respiratory mucosal delivery of next-generation COVID-19 vaccine provides robust protection against both ancestral and variant strains of SARS-CoV-2, Cell, doi:10.1016/j.cell.2022.02.005
Akash, Mituniewicz, Lao, Balivada, Ato et al., A better way to spray?-a model-based optimization of nasal spray use protocols, Bull. Am. Phys. Soc
Alfadhel, Puapermpoonsiri, Ford, Mcinnes, Van Der Walle, Lyophilized inserts for nasal administration harboring bacteriophage selective for Staphylococcus aureus: In vitro evaluation, Int. J. Pharm, doi:10.1016/j.ijpharm.2011.07.006
Axe, Will COVID-19 vaccine nasal sprays Be the pandemic game-changer we need? News link
Baghernezhad, Abouali, Different SGS models in Large Eddy Simulation of 90 degree square cross-section bends, J. Turbul. N
Balachandar, A scaling analysis for point-particle approaches to turbulent multiphase flows, Int. J. Multiph. Flow, doi:10.1016/j.ijmultiphaseflow.2009.02.013
Basu, Akash, Hochberg, Senior, Joseph-Mccarthy et al., From SARS-CoV-2 infection to COVID-19 morbidity: An in silico projection of virion flow rates to the lower airway via nasopharyngeal fluid boluses, Rhinol. Online, doi:10.4193/rhinol/21.053
Basu, Farzal, Kimbell, Magical" fluid pathways: Inspired airflow corridors for optimal drug delivery to human sinuses
Basu, Frank-Ito, Kimbell, On computational fluid dynamics models for sinonasal drug transport: Relevance of nozzle subtraction and nasal vestibular dilation, Int. J. Numer. Methods Biomed. Eng, doi:10.1002/cnm.2946
Basu, Holbrook, Kudlaty, Fasanmade, Wu et al., Numerical evaluation of spray position for improved nasal drug delivery, Sci. Rep, doi:10.1038/s41598-020-66716-0
Basu, Khawaja, Rizvi, Sanchez-Gonzalez, Ferrer, Evaluation of patient experience for a computationally-guided intranasal spray protocol to augment therapeutic penetration: Implications for effective treatments for COVID-19, Rhinitis, and Sinusitis, Med. Res. Archives, doi:10.18103/mra.v10i4.2774
Basu, Sarkar, Maulik, Molecular docking study of potential phytochemicals and their effects on the complex of SARS-CoV2 spike protein and human ACE2, Sci. Rep, doi:10.1038/s41598-020-74715-4
Basu, Sharma, Evolving an ethical framework for Covid-19 management in India, Sci. Rep, doi:10.20529/IJME.2021.024
Basu, Stremler, Exploring the dynamics of '2P' wakes with reflective symmetry using point vortices, J. Fluid Mech, doi:10.1017/jfm.2017.563
Basu, Stremler, On the motion of two point vortex pairs with glide-reflective symmetry in a periodic strip, Phys. Fluids, doi:10.1063/1.4932534
Basu, Witten, Kimbell, Influence of localized mesh refinement on numerical simulations of post-surgical sinonasal airflow, J. Aerosol Med. Pulm. Drug Deliv
Benninger, Hadley, Osguthorpe, Marple, Leopold et al., Techniques of intranasal steroid use, Otolaryngology -Head Neck Surg, doi:10.1016/j.otohns.2003.10.007
Brandtzaeg, Potential of nasopharynx-associated lymphoid tissue for vaccine responses in the airways, Am. J. Respir. Crit. Care Med, doi:10.1164/rccm.201011-1783OC
Brown, Stewartson, Laminar separation, Annu. Rev. Fluid Mech, doi:10.1146/annurev.fl.01.010169.000401
Chakravarty, Panchagnula, Mohan, Patankar, Pulmonary drug delivery and retention: A computational study to identify plausible parameters based on a coupled airway-mucus flow model, PLOS Comput. Biol, doi:10.1371/journal.pcbi.1010143
Chatterjee, Murallidharan, Agrawal, Bhardwaj, How coronavirus survives for hours in aerosols, Phys. Fluids, doi:10.1063/5.0059908
Chen, Wessler, Daftari, Hinton, Boucher et al., Modeling insights into SARS-CoV-2 respiratory tract infections prior to immune protection, Biophysical J, doi:10.1016/j.bpj.2022.04.003
Cheng, Holmes, Gao, Guilmette, Li et al., Characterization of nasal spray pumps and deposition pattern in a replica of the human nasal airway, J. Aerosol Med, doi:10.1089/08942680152484199
Crowder, Rosati, Schroeter, Hickey, Martonen, Fundamental effects of particle morphology on lung delivery: Predictions of Stokes' law and the particular relevance to dry powder inhaler formulation and development, doi:10.1023/a:1014426530935
Darquenne, Borojeni, Colebank, Forest, Madas et al., Aerosol transport modeling: The key link between lung infections of individuals and populations, Front. Physiology, doi:10.3389/fphys.2022.923945
Doorly, Taylor, Schroter, Mechanics of airflow in the human nasal airways, Respir. Physiology Neurobiol, doi:10.1016/j.resp.2008.07.027
Farnoud, Tofighian, Baumann, Garcia, Schmid et al., Large eddy simulations of airflow and particle deposition in pulsating bidirectional nasal drug delivery, Phys. Fluids, doi:10.1063/5.0024264
Farzal, Basu, Burke, Fasanmade, Lopez et al., Comparative study of simulated nebulized and spray particle deposition in chronic rhinosinusitis patients, Int. Forum Allergy and Rhinology
Feng, Zhao, Chen, Lin, An in silico subject-variability study of upper airway morphological influence on the airflow regime in a tracheobronchial tree, Bioengineering, doi:10.3390/bioengineering4040090
Finlay, The mechanics of inhaled pharmaceutical aerosols: An introduction
Flonase, How to properly use nasal spray for allergy relief
Ford, Cao, Papanikolas, Kato, Boucher et al., Molecular dynamics simulations to explore the structure and rheological properties of normal and hyperconcentrated airway mucus, Studies in Applied Mathematics
Frank-Ito, Wofford, Schroeter, Kimbell, Influence of mesh density on airflow and particle deposition in sinonasal airway modeling, J. Aerosol Med. Pulm. Drug Deliv, doi:10.1089/jamp.2014.1188
Garcia, Schroeter, Segal, Stanek, Foureman et al., Dosimetry of nasal uptake of water-soluble and reactive gases: A first study of interhuman variability, Inhal. Toxicol, doi:10.1080/08958370802320186
Geddes, Does a high viral load or infectious dose make COVID-19 worse? Web link
Giri, Biswas, Chase, Xue, Abkarian et al., Colliding respiratory jets as a mechanism of air exchange and pathogen transport during conversations, J. Fluid Mech, doi:10.1017/jfm.2021.915
He, Lau, Wu, Deng, Wang et al., Temporal dynamics in viral shedding and transmissibility of COVID-19, Nat. Med, doi:10.1038/s41591-020-0869-5
Hosseini, Schuman, Walenga, Wilkins, Jr et al., Use of anatomically-accurate 3-dimensional nasal airway models of adult human subjects in a novel methodology to identify and evaluate the internal nasal valve, Comput. Biol. Med, doi:10.1016/j.compbiomed.2020.103896
Hou, Okuda, Edwards, Martinez, Asakura et al., SARS-CoV-2 reverse genetics reveals a variable infection gradient in the respiratory tract, Cell, doi:10.1016/j.cell.2020.05.042
Inthavong, Ma, Shang, Dong, Chetty et al., Geometry and airflow dynamics analysis in the nasal cavity during inhalation, Clin. Biomech, doi:10.1016/j.clinbiomech.2017.10.006
Inthavong, Tian, Tu, Yang, Xue, Optimising nasal spray parameters for efficient drug delivery using Computational Fluid Dynamics, Comput. Biol. Med, doi:10.1016/j.compbiomed.2008.03.008
Kimbell, Basu, Farzal, Senior, Characterizing nasal delivery in 3D models before and after sinus surgery, Respir. Drug Deliv
Kimbell, Basu, Garcia, Frank-Ito, Lazarow et al., Upper airway reconstruction using long-range optical coherence tomography: Effects of airway curvature on airflow resistance, Lasers Surg. Med, doi:10.1002/lsm.23005
Kolanjiyil, Hosseini, Alfaifi, Farkas, Walenga et al., Validating CFD predictions of nasal spray deposition: Inclusion of cloud motion effects for two spray pump designs, Aerosol Sci. Technol, doi:10.1080/02786826.2021.2011830
Kundoor, Dalby, Effect of formulation-and administrationrelated variables on deposition pattern of nasal spray pumps evaluated using a nasal cast, Pharm. Res, doi:10.1007/s11095-011-0417-6
Lai, Wang, Wirtz, Hanes, Micro-and macrorheology of mucus, Adv. Drug Deliv. Rev, doi:10.1016/j.addr.2008.09.012
Liu, Doub, Guo, Assessment of the influence factors on nasal spray droplet velocity using phase-Doppler anemometry (PDA), AAPS Pharmscitech, doi:10.1208/s12249-011-9594-1
Longest, Vinchurkar, Validating CFD predictions of respiratory aerosol deposition: Effects of upstream transition and turbulence, J. Biomechanics, doi:10.1016/j.jbiomech.2006.01.006
Mao, Israelow, Suberi, Zhou, Reschke et al., Unadjuvanted intranasal spike vaccine booster elicits robust protective mucosal immunity against sarbecoviruses. bioRxiv: the preprint server for biology
Matheson, Lehner, How does SARS-CoV-2 cause COVID-19?, Science, doi:10.1126/science.abc6156
Michael, Snowden, Chowdhry, Ashurst, Davies-Cutting et al., Characterisation of the aggregation behaviour in a salmeterol and fluticasone propionate inhalation aerosol system, Int. J. Pharm, doi:10.1016/s0378-5173(01)00678-0
Mittal, Ni, Seo, The flow physics of COVID-19, J. Fluid Mech, doi:10.1017/jfm.2020.330
Nguyen, Nguyen, Hampton, Xu, Huang et al., Theoretical and experimental analysis of droplet evaporation on solid surfaces, doi:10.1016/j.ces.2011.11.009
Pachetti, Marini, Benedetti, Giudici, Mauro et al., Emerging SARS-CoV-2 mutation hot spots include a novel RNA-dependent-RNA polymerase variant, J. Transl. Med, doi:10.1186/s12967-020-02344-6
Perkins, Basu, Garcia, Buckmire, Shah et al., Ideal particle sizes for inhaled steroids targeting vocal granulomas: Preliminary study using computational fluid dynamics, Otolaryngology-Head Neck Surg, doi:10.1177/0194599817742126
Pharma, Valos VP7 spray pump
Rajendran, Banerjee, Effect of non-Newtonian dynamics on the clearance of mucus from bifurcating lung airway models, J. Biomechanical Eng, doi:10.1115/1.4048474
Ryan, Bewley, Fotheringham, Slack, Brown et al., Dose-dependent response to infection with SARS-CoV-2 in the ferret model and evidence of protective immunity, Nat. Commun, doi:10.1038/s41467-020-20439-y
Sekaran, Study of airflow past endotracheal tubes-effect ventilator flow cycles on transport of mucus
Shah, Dickens, Ward, Banaszek, George et al., Design of experiments to optimize an in vitro cast to predict human nasal drug deposition, J. Aerosol Med. Pulm. Drug Deliv, doi:10.1089/jamp.2012.1011
Smith, Steady and unsteady boundary-layer separation, Annu. Rev. Fluid Mech, doi:10.1146/annurev.fl.18.010186.001213
Stremler, Basu, Masroor, Streamline patterns in 2P vortex street equilibriacorrigendum, J. Fluid Mech, doi:10.1017/jfm.2020.604
Stremler, Basu, On point vortex models of exotic bluff body wakes, Fluid Dyn. Res, doi:10.1088/0169-5983/46/6/061410
Suman, How evolving patient needs have fuelled the development of nasal drug delivery
Sungnak, Huang, Bécavin, Berg, Queen et al., SARS-CoV-2 entry factors are highly expressed in nasal epithelial cells together with innate immune genes, Nat. Med, doi:10.1038/s41591-020-0868-6
Treat, Ebert, Jr, Farzal, Basu et al., Intranasal corticosteroids: Patient administration angles and impact of education, Rhinol. Online, doi:10.4193/rhinol/20.070
Valesano, Rumfelt, Dimcheff, Blair, Fitzsimmons et al., Temporal dynamics of SARS-CoV-2 mutation accumulation within and across infected hosts, PLOS Pathog, doi:10.1371/journal.ppat.1009499
Van Egeren, Novokhodko, Stoddard, Tran, Zetter et al., Risk of rapid evolutionary escape from biomedical interventions targeting SARS-CoV-2 spike protein, PLOS One, doi:10.1371/journal.pone.0250780
Van Egeren, Stoddard, Malakar, Ghosh, Acharya et al., No magic bullet: Limiting in-school transmission in the face of variable SARS-CoV-2 viral loads, Front. Public Health -Sec. Infect. Dis. Epidemiol. Prev, doi:10.3389/fpubh.2022.941773
Wang, Wang, Zhang, Sun, Zhang et al., Intra-host variation and evolutionary dynamics of SARS-CoV-2 populations in COVID-19 patients, Genome Med, doi:10.1186/s13073-021-00847-5
Williams, Suman, In vitro anatomical models for nasal drug delivery, Pharmaceutics, doi:10.3390/pharmaceutics14071353
Wu, Shang, Yang, Yu, Ma et al., The spike protein of severe acute respiratory syndrome (SARS) is cleaved in virus infected Vero-E6 cells, Cell Res, doi:10.1038/sj.cr.7290240
Yang, Pahlavan, Mendez, Abkarian, Stone, Towards improved social distancing guidelines: Space and time dependence of virus transmission from speech-driven aerosol transport between two individuals, Phys. Rev. Fluids, doi:10.1103/physrevfluids.5.122501
Yuk, Akash, Chakraborty, Basu, Chamorro et al., Morphology of pig nasal structure and modulation of airflow and basic thermal conditioning, Integr. Comp. Biol, doi:10.1093/icb/icad005
Yuk, Chakraborty, Cheng, Chung, Jorgensen et al., On the design of particle filters inspired by animal noses, J. R. Soc. Interface, doi:10.1098/rsif.2021.0849
Zang, Tarafdar, Tarasevich, Dutta Choudhury, Dutta, Evaporation of a Droplet: From physics to applications, Phys. Rep, doi:10.1016/j.physrep.2019.01.008
Zhang, Shang, Inthavong, Tong, Sun et al., Computational investigation of dust mite allergens in a realistic human nasal cavity, Inhal. Toxicol, doi:10.1080/08958378.2019.1647315
Zhao, Feng, Koshiyama, Wu, Prediction of airway deformation effect on pulmonary air-particle dynamics: A numerical study, Phys. Fluids, doi:10.1063/5.0065309
{ 'indexed': {'date-parts': [[2024, 8, 5]], 'date-time': '2024-08-05T15:19:28Z', 'timestamp': 1722871168037}, 'reference-count': 84, 'publisher': 'Frontiers Media SA', 'license': [ { 'start': { 'date-parts': [[2023, 5, 30]], 'date-time': '2023-05-30T00:00:00Z', 'timestamp': 1685404800000}, 'content-version': 'vor', 'delay-in-days': 0, 'URL': 'https://creativecommons.org/licenses/by/4.0/'}], 'funder': [ { 'DOI': '10.13039/100000001', 'name': 'National Science Foundation', 'doi-asserted-by': 'publisher', 'id': [{'id': '10.13039/100000001', 'id-type': 'DOI', 'asserted-by': 'publisher'}]}], 'content-domain': {'domain': ['frontiersin.org'], 'crossmark-restriction': True}, 'abstract': '<jats:p>The nasopharynx, at the back of the nose, constitutes the dominant initial viral ' 'infection trigger zone along the upper respiratory tract. However, as per the standard ' 'recommended usage protocol (“Current Use”, or CU) for intranasal sprays, the nozzle should ' 'enter the nose almost vertically, resulting in sub-optimal nasopharyngeal drug deposition. ' 'Through the Large Eddy Simulation technique, this study has replicated airflow under standard ' 'breathing conditions with 15 and 30\xa0L/min inhalation rates, passing through medical ' 'scan-based anatomically accurate human airway cavities. The small-scale airflow fluctuations ' 'were resolved through use of a sub-grid scale Kinetic Energy Transport Model. Intranasally ' 'sprayed droplet trajectories for different spray axis placement and orientation conditions ' 'were subsequently tracked via Lagrangian-based inert discrete phase simulations against the ' 'ambient inhaled airflow field. Finally, this study verified the computational projections for ' 'the upper airway drug deposition trends against representative physical experiments on ' 'sprayed delivery performed in a 3D-printed anatomic replica. The model-based exercise has ' 'revealed a new “Improved Use” (or, IU) spray usage protocol for viral infections. It entails ' 'pointing the spray bottle at a shallower angle (with an almost horizontal placement at the ' 'nostril), aiming slightly toward the cheeks. From the conically injected spray droplet ' 'simulations, we have summarily derived the following inferences: (a) droplets sized between ' '7–17\xa0<jats:italic>μ</jats:italic>m are relatively more efficient at directly reaching the ' 'nasopharynx via inhaled transport; and (b) with realistic droplet size distributions, as ' 'found in current over-the-counter spray products, the targeted drug delivery through the IU ' 'protocol outperforms CU by a remarkable 2 orders-of-magnitude.</jats:p>', 'DOI': '10.3389/fddev.2023.1164671', 'type': 'journal-article', 'created': {'date-parts': [[2023, 5, 31]], 'date-time': '2023-05-31T14:29:11Z', 'timestamp': 1685543351000}, 'update-policy': 'http://dx.doi.org/10.3389/crossmark-policy', 'source': 'Crossref', 'is-referenced-by-count': 3, 'title': 'On a model-based approach to improve intranasal spray targeting for respiratory viral infections', 'prefix': '10.3389', 'volume': '3', 'author': [ {'given': 'Mohammad Mehedi Hasan', 'family': 'Akash', 'sequence': 'first', 'affiliation': []}, {'given': 'Yueying', 'family': 'Lao', 'sequence': 'additional', 'affiliation': []}, {'given': 'Pallavi A.', 'family': 'Balivada', 'sequence': 'additional', 'affiliation': []}, {'given': 'Phoebe', 'family': 'Ato', 'sequence': 'additional', 'affiliation': []}, {'given': 'Nogaye K.', 'family': 'Ka', 'sequence': 'additional', 'affiliation': []}, {'given': 'Austin', 'family': 'Mituniewicz', 'sequence': 'additional', 'affiliation': []}, {'given': 'Zachary', 'family': 'Silfen', 'sequence': 'additional', 'affiliation': []}, {'given': 'Julie D.', 'family': 'Suman', 'sequence': 'additional', 'affiliation': []}, {'given': 'Arijit', 'family': 'Chakravarty', 'sequence': 'additional', 'affiliation': []}, {'given': 'Diane', 'family': 'Joseph-McCarthy', 'sequence': 'additional', 'affiliation': []}, {'given': 'Saikat', 'family': 'Basu', 'sequence': 'additional', 'affiliation': []}], 'member': '1965', 'published-online': {'date-parts': [[2023, 5, 30]]}, 'reference': [ { 'key': 'B1', 'doi-asserted-by': 'publisher', 'first-page': '896', 'DOI': '10.1016/j.cell.2022.02.005', 'article-title': 'Respiratory mucosal delivery of next-generation COVID-19 vaccine ' 'provides robust protection against both ancestral and variant strains ' 'of SARS-CoV-2', 'volume': '185', 'author': 'Afkhami', 'year': '2022', 'journal-title': 'Cell'}, { 'key': 'B2', 'article-title': 'A better way to spray?–a model-based optimization of nasal spray use ' 'protocols', 'author': 'Akash', 'year': '2021', 'journal-title': 'Bull. Am. Phys. Soc'}, { 'key': 'B3', 'doi-asserted-by': 'publisher', 'first-page': '280', 'DOI': '10.1016/j.ijpharm.2011.07.006', 'article-title': 'Lyophilized inserts for nasal administration harboring bacteriophage ' 'selective for Staphylococcus aureus: In vitro evaluation', 'volume': '416', 'author': 'Alfadhel', 'year': '2011', 'journal-title': 'Int. J. Pharm.'}, { 'key': 'B4', 'volume-title': 'Will COVID-19 vaccine nasal sprays Be the pandemic game-changer we need? ' 'News link', 'author': 'Axe', 'year': '2022'}, { 'key': 'B5', 'doi-asserted-by': 'crossref', 'DOI': '10.1080/14685248.2010.520016', 'article-title': 'Different SGS models in Large Eddy Simulation of 90 degree square ' 'cross-section bends', 'author': 'Baghernezhad', 'year': '2010', 'journal-title': 'J. Turbul.'}, { 'key': 'B6', 'doi-asserted-by': 'publisher', 'first-page': '801', 'DOI': '10.1016/j.ijmultiphaseflow.2009.02.013', 'article-title': 'A scaling analysis for point–particle approaches to turbulent ' 'multiphase flows', 'volume': '35', 'author': 'Balachandar', 'year': '2009', 'journal-title': 'Int. J. Multiph. Flow'}, { 'key': 'B7', 'doi-asserted-by': 'publisher', 'first-page': '17699', 'DOI': '10.1038/s41598-020-74715-4', 'article-title': 'Molecular docking study of potential phytochemicals and their effects ' 'on the complex of SARS-CoV2 spike protein and human ACE2', 'volume': '10', 'author': 'Basu', 'year': '2020', 'journal-title': 'Sci. Rep.'}, { 'key': 'B8', 'doi-asserted-by': 'publisher', 'first-page': '10', 'DOI': '10.4193/rhinol/21.053', 'article-title': 'From SARS-CoV-2 infection to COVID-19 morbidity: An in silico ' 'projection of virion flow rates to the lower airway via nasopharyngeal ' 'fluid boluses', 'volume': '5', 'author': 'Basu', 'year': '', 'journal-title': 'Rhinol. Online'}, { 'key': 'B9', 'first-page': 'L4', 'article-title': 'Magical” fluid pathways: Inspired airflow corridors for optimal drug ' 'delivery to human sinuses', 'volume-title': 'APS division of fluid dynamics meeting abstracts', 'author': 'Basu', 'year': ''}, { 'key': 'B10', 'doi-asserted-by': 'publisher', 'first-page': 'e2946', 'DOI': '10.1002/cnm.2946', 'article-title': 'On computational fluid dynamics models for sinonasal drug transport: ' 'Relevance of nozzle subtraction and nasal vestibular dilation', 'volume': '34', 'author': 'Basu', 'year': '2018', 'journal-title': 'Int. J. Numer. Methods Biomed. Eng.'}, { 'key': 'B11', 'doi-asserted-by': 'publisher', 'first-page': '10568', 'DOI': '10.1038/s41598-020-66716-0', 'article-title': 'Numerical evaluation of spray position for improved nasal drug delivery', 'volume': '10', 'author': 'Basu', 'year': '2020', 'journal-title': 'Sci. Rep.'}, { 'key': 'B12', 'doi-asserted-by': 'publisher', 'DOI': '10.18103/mra.v10i4.2774', 'article-title': 'Evaluation of patient experience for a computationally-guided ' 'intranasal spray protocol to augment therapeutic penetration: ' 'Implications for effective treatments for COVID-19, Rhinitis, and ' 'Sinusitis', 'volume': '10', 'author': 'Basu', 'year': '', 'journal-title': 'Med. Res. Archives'}, { 'key': 'B13', 'doi-asserted-by': 'publisher', 'first-page': '1', 'DOI': '10.20529/IJME.2021.024', 'article-title': 'Evolving an ethical framework for Covid-19 management in India', 'volume': '11', 'author': 'Basu', 'year': '2021', 'journal-title': 'Sci. Rep.'}, { 'key': 'B14', 'doi-asserted-by': 'publisher', 'first-page': '72', 'DOI': '10.1017/jfm.2017.563', 'article-title': 'Exploring the dynamics of ‘2P’ wakes with reflective symmetry using ' 'point vortices', 'volume': '831', 'author': 'Basu', 'year': '2017', 'journal-title': 'J. Fluid Mech.'}, { 'key': 'B15', 'doi-asserted-by': 'publisher', 'first-page': '103603', 'DOI': '10.1063/1.4932534', 'article-title': 'On the motion of two point vortex pairs with glide-reflective symmetry ' 'in a periodic strip', 'volume': '27', 'author': 'Basu', 'year': '2015', 'journal-title': 'Phys. Fluids'}, { 'key': 'B16', 'first-page': 'A–14', 'article-title': 'Influence of localized mesh refinement on numerical simulations of ' 'post-surgical sinonasal airflow', 'volume': '30', 'author': 'Basu', 'year': '', 'journal-title': 'J. Aerosol Med. Pulm. Drug Deliv.'}, { 'key': 'B17', 'doi-asserted-by': 'publisher', 'first-page': '5', 'DOI': '10.1016/j.otohns.2003.10.007', 'article-title': 'Techniques of intranasal steroid use', 'volume': '130', 'author': 'Benninger', 'year': '2004', 'journal-title': 'Otolaryngology – Head Neck Surg.'}, { 'key': 'B18', 'doi-asserted-by': 'publisher', 'first-page': '1595', 'DOI': '10.1164/rccm.201011-1783OC', 'article-title': 'Potential of nasopharynx-associated lymphoid tissue for vaccine ' 'responses in the airways', 'volume': '183', 'author': 'Brandtzaeg', 'year': '2011', 'journal-title': 'Am. J. Respir. Crit. Care Med.'}, { 'key': 'B19', 'doi-asserted-by': 'publisher', 'first-page': '45', 'DOI': '10.1146/annurev.fl.01.010169.000401', 'article-title': 'Laminar separation', 'volume': '1', 'author': 'Brown', 'year': '1969', 'journal-title': 'Annu. Rev. Fluid Mech.'}, { 'key': 'B20', 'doi-asserted-by': 'publisher', 'first-page': 'e1010143', 'DOI': '10.1371/journal.pcbi.1010143', 'article-title': 'Pulmonary drug delivery and retention: A computational study to ' 'identify plausible parameters based on a coupled airway-mucus flow ' 'model', 'volume': '18', 'author': 'Chakravarty', 'year': '2022', 'journal-title': 'PLOS Comput. Biol.'}, { 'key': 'B21', 'doi-asserted-by': 'publisher', 'first-page': '081708', 'DOI': '10.1063/5.0059908', 'article-title': 'How coronavirus survives for hours in aerosols', 'volume': '33', 'author': 'Chatterjee', 'year': '2021', 'journal-title': 'Phys. Fluids'}, { 'key': 'B22', 'doi-asserted-by': 'publisher', 'first-page': '1619', 'DOI': '10.1016/j.bpj.2022.04.003', 'article-title': 'Modeling insights into SARS-CoV-2 respiratory tract infections prior to ' 'immune protection', 'volume': '121', 'author': 'Chen', 'year': '2022', 'journal-title': 'Biophysical J.'}, { 'key': 'B23', 'doi-asserted-by': 'publisher', 'first-page': '267', 'DOI': '10.1089/08942680152484199', 'article-title': 'Characterization of nasal spray pumps and deposition pattern in a ' 'replica of the human nasal airway', 'volume': '14', 'author': 'Cheng', 'year': '2001', 'journal-title': 'J. Aerosol Med.'}, {'key': 'B24', 'volume-title': 'Coronavirus resource center', 'year': '2023'}, { 'key': 'B25', 'doi-asserted-by': 'publisher', 'first-page': '239', 'DOI': '10.1023/a:1014426530935', 'article-title': 'Fundamental effects of particle morphology on lung delivery: ' 'Predictions of Stokes’ law and the particular relevance to dry powder ' 'inhaler formulation and development', 'volume': '19', 'author': 'Crowder', 'year': '2002', 'journal-title': 'Pharm. Res.'}, { 'key': 'B26', 'volume-title': 'US national library of medicine: Fluticasone propionate spray – drug ' 'label information', 'year': '2023'}, { 'key': 'B27', 'doi-asserted-by': 'publisher', 'first-page': '923945', 'DOI': '10.3389/fphys.2022.923945', 'article-title': 'Aerosol transport modeling: The key link between lung infections of ' 'individuals and populations', 'volume': '13', 'author': 'Darquenne', 'year': '2022', 'journal-title': 'Front. Physiology'}, { 'key': 'B28', 'doi-asserted-by': 'publisher', 'first-page': '100', 'DOI': '10.1016/j.resp.2008.07.027', 'article-title': 'Mechanics of airflow in the human nasal airways', 'volume': '163', 'author': 'Doorly', 'year': '2008', 'journal-title': 'Respir. Physiology Neurobiol.'}, {'key': 'B29', 'volume-title': 'Nasacort dosage', 'year': '2023'}, { 'key': 'B30', 'doi-asserted-by': 'publisher', 'first-page': '101905', 'DOI': '10.1063/5.0024264', 'article-title': 'Large eddy simulations of airflow and particle deposition in pulsating ' 'bi-directional nasal drug delivery', 'volume': '32', 'author': 'Farnoud', 'year': '2020', 'journal-title': 'Phys. Fluids'}, { 'key': 'B31', 'doi-asserted-by': 'crossref', 'first-page': '746', 'DOI': '10.1002/alr.22324', 'article-title': 'Comparative study of simulated nebulized and spray particle deposition ' 'in chronic rhinosinusitis patients', 'volume': '9', 'author': 'Farzal', 'year': '2019', 'journal-title': 'Int. Forum Allergy and Rhinology'}, { 'key': 'B32', 'volume-title': 'Use of international standard ISO 10993-1, “biological evaluation of ' 'medical devices – Part 1: Evaluation and testing within a risk ' 'management proces” – guidance for industry and Food and drug ' 'administration staff', 'year': '2022'}, { 'key': 'B33', 'doi-asserted-by': 'publisher', 'first-page': '90', 'DOI': '10.3390/bioengineering4040090', 'article-title': 'An in silico subject-variability study of upper airway morphological ' 'influence on the airflow regime in a tracheobronchial tree', 'volume': '4', 'author': 'Feng', 'year': '2017', 'journal-title': 'Bioengineering'}, { 'key': 'B34', 'volume-title': 'The mechanics of inhaled pharmaceutical aerosols: An introduction', 'author': 'Finlay', 'year': '2001'}, { 'key': 'B35', 'volume-title': 'How to properly use nasal spray for allergy relief', 'year': '2022'}, { 'key': 'B36', 'doi-asserted-by': 'crossref', 'volume-title': 'Molecular dynamics simulations to explore the structure and rheological ' 'properties of normal and hyperconcentrated airway mucus', 'author': 'Ford', 'year': '2021', 'DOI': '10.1111/sapm.12433'}, { 'key': 'B37', 'doi-asserted-by': 'publisher', 'first-page': '46', 'DOI': '10.1089/jamp.2014.1188', 'article-title': 'Influence of mesh density on airflow and particle deposition in ' 'sinonasal airway modeling', 'volume': '29', 'author': 'Frank-Ito', 'year': '2016', 'journal-title': 'J. Aerosol Med. Pulm. Drug Deliv.'}, { 'key': 'B38', 'doi-asserted-by': 'publisher', 'first-page': '607', 'DOI': '10.1080/08958370802320186', 'article-title': 'Dosimetry of nasal uptake of water-soluble and reactive gases: A first ' 'study of interhuman variability', 'volume': '21', 'author': 'Garcia', 'year': '2009', 'journal-title': 'Inhal. Toxicol.'}, { 'key': 'B39', 'volume-title': 'Does a high viral load or infectious dose make COVID-19 worse?', 'author': 'Geddes', 'year': '2022'}, { 'key': 'B40', 'doi-asserted-by': 'publisher', 'first-page': 'R1', 'DOI': '10.1017/jfm.2021.915', 'article-title': 'Colliding respiratory jets as a mechanism of air exchange and pathogen ' 'transport during conversations', 'volume': '930', 'author': 'Giri', 'year': '2022', 'journal-title': 'J. Fluid Mech.'}, { 'key': 'B41', 'doi-asserted-by': 'publisher', 'first-page': '672', 'DOI': '10.1038/s41591-020-0869-5', 'article-title': 'Temporal dynamics in viral shedding and transmissibility of COVID-19', 'volume': '26', 'author': 'He', 'year': '2020', 'journal-title': 'Nat. Med.'}, { 'key': 'B42', 'doi-asserted-by': 'publisher', 'first-page': '103896', 'DOI': '10.1016/j.compbiomed.2020.103896', 'article-title': 'Use of anatomically-accurate 3-dimensional nasal airway models of adult ' 'human subjects in a novel methodology to identify and evaluate the ' 'internal nasal valve', 'volume': '123', 'author': 'Hosseini', 'year': '2020', 'journal-title': 'Comput. Biol. Med.'}, { 'key': 'B43', 'doi-asserted-by': 'publisher', 'first-page': '429', 'DOI': '10.1016/j.cell.2020.05.042', 'article-title': 'SARS-CoV-2 reverse genetics reveals a variable infection gradient in ' 'the respiratory tract', 'volume': '182', 'author': 'Hou', 'year': '2020', 'journal-title': 'Cell'}, { 'key': 'B44', 'doi-asserted-by': 'publisher', 'first-page': '97', 'DOI': '10.1016/j.clinbiomech.2017.10.006', 'article-title': 'Geometry and airflow dynamics analysis in the nasal cavity during ' 'inhalation', 'volume': '66', 'author': 'Inthavong', 'year': '2019', 'journal-title': 'Clin. Biomech.'}, { 'key': 'B45', 'doi-asserted-by': 'publisher', 'first-page': '713', 'DOI': '10.1016/j.compbiomed.2008.03.008', 'article-title': 'Optimising nasal spray parameters for efficient drug delivery using ' 'Computational Fluid Dynamics', 'volume': '38', 'author': 'Inthavong', 'year': '2008', 'journal-title': 'Comput. Biol. Med.'}, { 'key': 'B46', 'volume-title': 'Biological evaluation of medical devices – Part 1: Evaluation and ' 'testing within a risk management process', 'year': '2009'}, { 'key': 'B47', 'first-page': '181', 'article-title': 'Characterizing nasal delivery in 3D models before and after sinus ' 'surgery', 'volume': '1', 'author': 'Kimbell', 'year': '2018', 'journal-title': 'Respir. Drug Deliv.'}, { 'key': 'B48', 'doi-asserted-by': 'publisher', 'first-page': '150', 'DOI': '10.1002/lsm.23005', 'article-title': 'Upper airway reconstruction using long-range optical coherence ' 'tomography: Effects of airway curvature on airflow resistance', 'volume': '51', 'author': 'Kimbell', 'year': '2019', 'journal-title': 'Lasers Surg. Med.'}, { 'key': 'B49', 'doi-asserted-by': 'publisher', 'first-page': '305', 'DOI': '10.1080/02786826.2021.2011830', 'article-title': 'Validating CFD predictions of nasal spray deposition: Inclusion of ' 'cloud motion effects for two spray pump designs', 'volume': '56', 'author': 'Kolanjiyil', 'year': '2022', 'journal-title': 'Aerosol Sci. Technol.'}, { 'key': 'B50', 'doi-asserted-by': 'publisher', 'first-page': '1895', 'DOI': '10.1007/s11095-011-0417-6', 'article-title': 'Effect of formulation-and administration-related variables on ' 'deposition pattern of nasal spray pumps evaluated using a nasal cast', 'volume': '28', 'author': 'Kundoor', 'year': '2011', 'journal-title': 'Pharm. Res.'}, { 'key': 'B51', 'doi-asserted-by': 'publisher', 'first-page': '86', 'DOI': '10.1016/j.addr.2008.09.012', 'article-title': 'Micro-and macrorheology of mucus', 'volume': '61', 'author': 'Lai', 'year': '2009', 'journal-title': 'Adv. Drug Deliv. Rev.'}, { 'key': 'B52', 'doi-asserted-by': 'publisher', 'first-page': '337', 'DOI': '10.1208/s12249-011-9594-1', 'article-title': 'Assessment of the influence factors on nasal spray droplet velocity ' 'using phase-Doppler anemometry (PDA)', 'volume': '12', 'author': 'Liu', 'year': '2011', 'journal-title': 'AAPS Pharmscitech'}, { 'key': 'B53', 'doi-asserted-by': 'publisher', 'first-page': '305', 'DOI': '10.1016/j.jbiomech.2006.01.006', 'article-title': 'Validating CFD predictions of respiratory aerosol deposition: Effects ' 'of upstream transition and turbulence', 'volume': '40', 'author': 'Longest', 'year': '2007', 'journal-title': 'J. Biomechanics'}, { 'key': 'B54', 'doi-asserted-by': 'crossref', 'volume-title': 'Unadjuvanted intranasal spike vaccine booster elicits robust protective ' 'mucosal immunity against sarbecoviruses', 'author': 'Mao', 'year': '2022', 'DOI': '10.1101/2022.01.24.477597'}, { 'key': 'B55', 'doi-asserted-by': 'publisher', 'first-page': '510', 'DOI': '10.1126/science.abc6156', 'article-title': 'How does SARS-CoV-2 cause COVID-19?', 'volume': '369', 'author': 'Matheson', 'year': '2020', 'journal-title': 'Science'}, { 'key': 'B56', 'doi-asserted-by': 'publisher', 'first-page': '165', 'DOI': '10.1016/s0378-5173(01)00678-0', 'article-title': 'Characterisation of the aggregation behaviour in a salmeterol and ' 'fluticasone propionate inhalation aerosol system', 'volume': '221', 'author': 'Michael', 'year': '2001', 'journal-title': 'Int. J. Pharm.'}, { 'key': 'B57', 'doi-asserted-by': 'publisher', 'first-page': 'F2', 'DOI': '10.1017/jfm.2020.330', 'article-title': 'The flow physics of COVID-19', 'volume': '894', 'author': 'Mittal', 'year': '2020', 'journal-title': 'J. Fluid Mech.'}, { 'key': 'B58', 'doi-asserted-by': 'publisher', 'first-page': '522', 'DOI': '10.1016/j.ces.2011.11.009', 'article-title': 'Theoretical and experimental analysis of droplet evaporation on solid ' 'surfaces', 'volume': '69', 'author': 'Nguyen', 'year': '2012', 'journal-title': 'Chem. Eng. Sci.'}, { 'key': 'B59', 'volume-title': 'Fluticasone propionate nasal spray instructions', 'year': '2013'}, { 'key': 'B60', 'doi-asserted-by': 'publisher', 'first-page': '179', 'DOI': '10.1186/s12967-020-02344-6', 'article-title': 'Emerging SARS-CoV-2 mutation hot spots include a novel ' 'RNA-dependent-RNA polymerase variant', 'volume': '18', 'author': 'Pachetti', 'year': '2020', 'journal-title': 'J. Transl. Med.'}, { 'key': 'B61', 'doi-asserted-by': 'publisher', 'first-page': '511', 'DOI': '10.1177/0194599817742126', 'article-title': 'Ideal particle sizes for inhaled steroids targeting vocal granulomas: ' 'Preliminary study using computational fluid dynamics', 'volume': '158', 'author': 'Perkins', 'year': '2018', 'journal-title': 'Otolaryngology–Head Neck Surg.'}, {'key': 'B62', 'volume-title': 'Valos VP7 spray pump', 'author': 'Pharma', 'year': '2022'}, { 'key': 'B63', 'doi-asserted-by': 'publisher', 'first-page': '021011', 'DOI': '10.1115/1.4048474', 'article-title': 'Effect of non-Newtonian dynamics on the clearance of mucus from ' 'bifurcating lung airway models', 'volume': '143', 'author': 'Rajendran', 'year': '2021', 'journal-title': 'J. Biomechanical Eng.'}, { 'key': 'B64', 'doi-asserted-by': 'publisher', 'first-page': '81', 'DOI': '10.1038/s41467-020-20439-y', 'article-title': 'Dose-dependent response to infection with SARS-CoV-2 in the ferret ' 'model and evidence of protective immunity', 'volume': '12', 'author': 'Ryan', 'year': '2021', 'journal-title': 'Nat. Commun.'}, { 'key': 'B65', 'first-page': 'H01', 'article-title': 'Study of airflow past endotracheal tubes-effect ventilator flow cycles ' 'on transport of mucus', 'volume-title': 'APS division of fluid dynamics meeting abstracts', 'author': 'Sekaran', 'year': '2021'}, { 'key': 'B66', 'doi-asserted-by': 'publisher', 'first-page': '21', 'DOI': '10.1089/jamp.2012.1011', 'article-title': 'Design of experiments to optimize an in vitro cast to predict human ' 'nasal drug deposition', 'volume': '27', 'author': 'Shah', 'year': '2014', 'journal-title': 'J. Aerosol Med. Pulm. Drug Deliv.'}, { 'key': 'B67', 'doi-asserted-by': 'publisher', 'first-page': '197', 'DOI': '10.1146/annurev.fl.18.010186.001213', 'article-title': 'Steady and unsteady boundary-layer separation', 'volume': '18', 'author': 'Smith', 'year': '1986', 'journal-title': 'Annu. Rev. Fluid Mech.'}, { 'key': 'B68', 'doi-asserted-by': 'publisher', 'first-page': 'E2', 'DOI': '10.1017/jfm.2020.604', 'article-title': 'Streamline patterns in 2P vortex street equilibria – corrigendum', 'volume': '901', 'author': 'Stremler', 'year': '2020', 'journal-title': 'J. Fluid Mech.'}, { 'key': 'B69', 'doi-asserted-by': 'publisher', 'first-page': '061410', 'DOI': '10.1088/0169-5983/46/6/061410', 'article-title': 'On point vortex models of exotic bluff body wakes', 'volume': '46', 'author': 'Stremler', 'year': '2014', 'journal-title': 'Fluid Dyn. Res.'}, { 'key': 'B70', 'volume-title': 'How evolving patient needs have fuelled the development of nasal drug ' 'delivery', 'author': 'Suman', 'year': '2021'}, { 'key': 'B71', 'doi-asserted-by': 'publisher', 'first-page': '681', 'DOI': '10.1038/s41591-020-0868-6', 'article-title': 'SARS-CoV-2 entry factors are highly expressed in nasal epithelial cells ' 'together with innate immune genes', 'volume': '26', 'author': 'Sungnak', 'year': '2020', 'journal-title': 'Nat. Med.'}, { 'key': 'B72', 'doi-asserted-by': 'publisher', 'first-page': '160', 'DOI': '10.4193/rhinol/20.070', 'article-title': 'Intranasal corticosteroids: Patient administration angles and impact of ' 'education', 'volume': '3', 'author': 'Treat', 'year': '2020', 'journal-title': 'Rhinol. Online'}, { 'key': 'B73', 'doi-asserted-by': 'publisher', 'first-page': 'e1009499', 'DOI': '10.1371/journal.ppat.1009499', 'article-title': 'Temporal dynamics of SARS-CoV-2 mutation accumulation within and across ' 'infected hosts', 'volume': '17', 'author': 'Valesano', 'year': '2021', 'journal-title': 'PLOS Pathog.'}, { 'key': 'B74', 'doi-asserted-by': 'publisher', 'first-page': 'e0250780', 'DOI': '10.1371/journal.pone.0250780', 'article-title': 'Risk of rapid evolutionary escape from biomedical interventions ' 'targeting SARS-CoV-2 spike protein', 'volume': '16', 'author': 'Van Egeren', 'year': '2021', 'journal-title': 'PLOS One'}, { 'key': 'B75', 'doi-asserted-by': 'publisher', 'first-page': '941773', 'DOI': '10.3389/fpubh.2022.941773', 'article-title': 'No magic bullet: Limiting in-school transmission in the face of ' 'variable SARS-CoV-2 viral loads', 'volume': '10', 'author': 'Van Egeren', 'year': '2022', 'journal-title': 'Front. Public Health – Sec. Infect. Dis. Epidemiol. Prev.'}, { 'key': 'B76', 'doi-asserted-by': 'publisher', 'first-page': '30', 'DOI': '10.1186/s13073-021-00847-5', 'article-title': 'Intra-host variation and evolutionary dynamics of SARS-CoV-2 ' 'populations in COVID-19 patients', 'volume': '13', 'author': 'Wang', 'year': '2021', 'journal-title': 'Genome Med.'}, { 'key': 'B77', 'doi-asserted-by': 'publisher', 'first-page': '1353', 'DOI': '10.3390/pharmaceutics14071353', 'article-title': 'In vitro anatomical models for nasal drug delivery', 'volume': '14', 'author': 'Williams', 'year': '2022', 'journal-title': 'Pharmaceutics'}, { 'key': 'B78', 'doi-asserted-by': 'publisher', 'first-page': '400', 'DOI': '10.1038/sj.cr.7290240', 'article-title': 'The spike protein of severe acute respiratory syndrome (SARS) is ' 'cleaved in virus infected Vero-E6 cells', 'volume': '14', 'author': 'Wu', 'year': '2004', 'journal-title': 'Cell Res.'}, { 'key': 'B79', 'doi-asserted-by': 'publisher', 'first-page': '122501', 'DOI': '10.1103/physrevfluids.5.122501', 'article-title': 'Towards improved social distancing guidelines: Space and time ' 'dependence of virus transmission from speech-driven aerosol transport ' 'between two individuals', 'volume': '5', 'author': 'Yang', 'year': '2020', 'journal-title': 'Phys. Rev. Fluids'}, { 'key': 'B80', 'doi-asserted-by': 'publisher', 'first-page': 'icad005', 'DOI': '10.1093/icb/icad005', 'article-title': 'Morphology of pig nasal structure and modulation of airflow and basic ' 'thermal conditioning', 'author': 'Yuk', 'year': '2023', 'journal-title': 'Integr. Comp. Biol.'}, { 'key': 'B81', 'doi-asserted-by': 'publisher', 'first-page': '20210849', 'DOI': '10.1098/rsif.2021.0849', 'article-title': 'On the design of particle filters inspired by animal noses', 'volume': '19', 'author': 'Yuk', 'year': '2022', 'journal-title': 'J. R. Soc. Interface'}, { 'key': 'B82', 'doi-asserted-by': 'publisher', 'first-page': '1', 'DOI': '10.1016/j.physrep.2019.01.008', 'article-title': 'Evaporation of a Droplet: From physics to applications', 'volume': '804', 'author': 'Zang', 'year': '2019', 'journal-title': 'Phys. Rep.'}, { 'key': 'B83', 'doi-asserted-by': 'publisher', 'first-page': '224', 'DOI': '10.1080/08958378.2019.1647315', 'article-title': 'Computational investigation of dust mite allergens in a realistic human ' 'nasal cavity', 'volume': '31', 'author': 'Zhang', 'year': '2019', 'journal-title': 'Inhal. Toxicol.'}, { 'key': 'B84', 'doi-asserted-by': 'publisher', 'first-page': '101906', 'DOI': '10.1063/5.0065309', 'article-title': 'Prediction of airway deformation effect on pulmonary air-particle ' 'dynamics: A numerical study', 'volume': '33', 'author': 'Zhao', 'year': '2021', 'journal-title': 'Phys. Fluids'}], 'container-title': 'Frontiers in Drug Delivery', 'original-title': [], 'link': [ { 'URL': 'https://www.frontiersin.org/articles/10.3389/fddev.2023.1164671/full', 'content-type': 'unspecified', 'content-version': 'vor', 'intended-application': 'similarity-checking'}], 'deposited': { 'date-parts': [[2023, 5, 31]], 'date-time': '2023-05-31T14:29:28Z', 'timestamp': 1685543368000}, 'score': 1, 'resource': {'primary': {'URL': 'https://www.frontiersin.org/articles/10.3389/fddev.2023.1164671/full'}}, 'subtitle': [], 'short-title': [], 'issued': {'date-parts': [[2023, 5, 30]]}, 'references-count': 84, 'alternative-id': ['10.3389/fddev.2023.1164671'], 'URL': 'http://dx.doi.org/10.3389/fddev.2023.1164671', 'relation': {}, 'ISSN': ['2674-0850'], 'subject': [], 'container-title-short': 'Front. Drug Deliv.', 'published': {'date-parts': [[2023, 5, 30]]}}
Loading..
Please send us corrections, updates, or comments. c19early involves the extraction of 100,000+ datapoints from thousands of papers. Community updates help ensure high accuracy. Treatments and other interventions are complementary. All practical, effective, and safe means should be used based on risk/benefit analysis. No treatment or intervention is 100% available and effective for all current and future variants. We do not provide medical advice. Before taking any medication, consult a qualified physician who can provide personalized advice and details of risks and benefits based on your medical history and situation. FLCCC and WCH provide treatment protocols.
  or use drag and drop   
Submit