%0 Journal Article
%K 3R strategy
%K 3D printing
%K nasal drug deposition
%B Berliner und Münchener Tierärztliche Wochenschrift
%C Hannover
%D 2018
%G English
%I Schlütersche Verlagsgesellschaft mbH & Co. KG
%R 10.2376/0005-9366-17102
%T Standardized refined intranasal administration for region-specific intranasal drug deposition in mice established with 3D rapid prototypes under 3R criteria
%V 131
%1 {"oldId":108530,"title":"Standardized refined intranasal administration for region-specific intranasal drug deposition in mice established with 3D rapid prototypes under 3R criteria","topline":"","teaserText":"Etablierung einer standardisierten und optimierten regiospezifischen intranasalen Applikationsmethode an der Maus mit Hilfe von 3D-Modellen unter 3R-Kriterien","content":"<p> <span class=\"bold\">Summary<\/span><br \/>The aim of the \u201e3D for 3R\u201c project was to generate anatomical 3D models of the  murine nasal cavity with rapid prototyping to establish a refined region-specific  intranasal drug delivery technique targeting either the respiratory or the olfactory  epithelium in mice. The anatomical structure of the murine nasal cavity was  resolved by x-ray computer tomography and the data sets of the CT-scans were  used to construct anatomical prototypes that were manufactured by 3D-printing,  stereolithography or vacuum moulding. In the present study we show the successful  construction of such anatomical 3D models and their use to establish intranasal  application techniques under 3R criteria to minimize the use of laboratory animals.<\/p><p><span class=\"bold\">Keywords<\/span><br \/>3R strategy, 3D printing, nasal drug deposition<\/p><p><span class=\"bold\">Zusammenfassung<\/span><br \/>Das Ziel des Projekts \u201e3D f\u00fcr 3R\u201c war die Erstellung von anatomischen 3D-Modellen  der Nasenh\u00f6hle von M\u00e4usen, um eine verfeinerte regio-spezifische intranasale  Darreichungsmethode zu entwickeln, die spezifisch entweder das respiratorische  oder das olfaktorische Epithel erreichen soll. Die Anatomie der murinen  Nasenh\u00f6hle wurde durch Computertomographie dargestellt und die Datens\u00e4tze  wurden verwendet, um anatomisch korrekte Modelle zu konstruieren, die mittels  3D-Druck, Stereolithographie oder Vakuumgussverfahren hergestellt wurden. In  der vorliegenden Studie zeigen wir die erfolgreiche Konstruktion solcher anatomischer  3D-Modelle und deren Verwendung zur Etablierung intranasaler Applikationstechniken  unter 3R-Kriterien, um den Einsatz von Labortieren zu minimieren.<\/p><p><span class=\"bold\">Schl\u00fcsselw\u00f6rter<\/span><br \/>3R-Strategie, 3D-Druck, regio-spezifische Darreichung<\/p>","categories":["Tier\u00e4rztliche Wochenschrift","Abostufe BMTW","Fachartikel"],"fromDate":"Jun 26, 2018 11:46:09 AM","oldUrls":["http:\/\/vetline.de\/standardized-refined-intranasal-administration-for-region-specific-intranasal-drug-deposition-in-mice-established-with-3d-rapid-prototypes-under-3r-criteria\/150\/3130\/108530"],"doiLanguage":"englisch","doiProductFormat":"online","doiPublisher":"Schl\u00fctersche Verlagsgesellschaft mbH & Co. KG","doiSerialWorkTitle":"Berl M\u00fcnch Tier\u00e4rztl Wochensch","doiDocumentUri":"https:\/\/vetline.de\/files\/smfiledata\/7\/2\/3\/7\/8\/3\/BMTW_AOP_17102_Schindowski.pdf","doiSource":"Berl M\u00fcnch Tier\u00e4rztl Wochenschc","doiissn":"0005-9366","doiNr":"10.2376\/0005-9366-17102","doiFirstPage":".","doiLastPage":"..","doiTransmitted":true,"doiAuthor":"Flamm J, Boscher M, Maigler F, Akana C, Lindemann J, Kleiner S, Sommer F, Schindowski K","pdf":{"path":"http:\/\/data\/BMTW_AOP_17102_Schindowski.pdf","title":"BMTW_AOP_17102_Schindowski","description":"Standardized refined intranasal administration for region-specific intranasal drug deposition in mice established with 3D rapid prototypes under 3R criteria"},"authors":[{"firstName":"J","middleName":"","lastName":"Flamm"},{"firstName":"M","middleName":"","lastName":"Boscher"},{"firstName":"F","middleName":"","lastName":"Maigler"},{"firstName":"C","middleName":"","lastName":"Akana"},{"firstName":"J","middleName":"","lastName":"Lindemann"},{"firstName":"S","middleName":"","lastName":"Kleiner"},{"firstName":"F","middleName":"","lastName":"Sommer"},{"firstName":"K","middleName":"","lastName":"Schindowski"}],"contentOptimised":"<p> <strong>Summary<\/strong><br>The aim of the \u201e3D for 3R\u201c project was to generate anatomical 3D models of the  murine nasal cavity with rapid prototyping to establish a refined region-specific  intranasal drug delivery technique targeting either the respiratory or the olfactory  epithelium in mice. The anatomical structure of the murine nasal cavity was  resolved by x-ray computer tomography and the data sets of the CT-scans were  used to construct anatomical prototypes that were manufactured by 3D-printing,  stereolithography or vacuum moulding. In the present study we show the successful  construction of such anatomical 3D models and their use to establish intranasal  application techniques under 3R criteria to minimize the use of laboratory animals.<\/p><p><strong>Keywords:<\/strong><br>3R strategy, 3D printing, nasal drug deposition<\/p><p><strong>Zusammenfassung<\/strong><br>Das Ziel des Projekts \u201e3D f\u00fcr 3R\u201c war die Erstellung von anatomischen 3D-Modellen  der Nasenh\u00f6hle von M\u00e4usen, um eine verfeinerte regio-spezifische intranasale  Darreichungsmethode zu entwickeln, die spezifisch entweder das respiratorische  oder das olfaktorische Epithel erreichen soll. Die Anatomie der murinen  Nasenh\u00f6hle wurde durch Computertomographie dargestellt und die Datens\u00e4tze  wurden verwendet, um anatomisch korrekte Modelle zu konstruieren, die mittels  3D-Druck, Stereolithographie oder Vakuumgussverfahren hergestellt wurden. In  der vorliegenden Studie zeigen wir die erfolgreiche Konstruktion solcher anatomischer  3D-Modelle und deren Verwendung zur Etablierung intranasaler Applikationstechniken  unter 3R-Kriterien, um den Einsatz von Labortieren zu minimieren.<\/p><p><strong>Schl\u00fcsselw\u00f6rter:<\/strong><br>3R-Strategie, 3D-Druck, regio-spezifische Darreichung<\/p>","primaryLanguage":"englisch","summary":"The aim of the \u201e3D for 3R\u201c project was to generate anatomical 3D models of the  murine nasal cavity with rapid prototyping to establish a refined region-specific  intranasal drug delivery technique targeting either the respiratory or the olfactory  epithelium in mice. The anatomical structure of the murine nasal cavity was  resolved by x-ray computer tomography and the data sets of the CT-scans were  used to construct anatomical prototypes that were manufactured by 3D-printing,  stereolithography or vacuum moulding. In the present study we show the successful  construction of such anatomical 3D models and their use to establish intranasal  application techniques under 3R criteria to minimize the use of laboratory animals.<\/p><p>","keywords":["3R strategy","3D printing","nasal drug deposition"],"zusammenfassung":"Das Ziel des Projekts \u201e3D f\u00fcr 3R\u201c war die Erstellung von anatomischen 3D-Modellen  der Nasenh\u00f6hle von M\u00e4usen, um eine verfeinerte regio-spezifische intranasale  Darreichungsmethode zu entwickeln, die spezifisch entweder das respiratorische  oder das olfaktorische Epithel erreichen soll. Die Anatomie der murinen  Nasenh\u00f6hle wurde durch Computertomographie dargestellt und die Datens\u00e4tze  wurden verwendet, um anatomisch korrekte Modelle zu konstruieren, die mittels  3D-Druck, Stereolithographie oder Vakuumgussverfahren hergestellt wurden. In  der vorliegenden Studie zeigen wir die erfolgreiche Konstruktion solcher anatomischer  3D-Modelle und deren Verwendung zur Etablierung intranasaler Applikationstechniken  unter 3R-Kriterien, um den Einsatz von Labortieren zu minimieren.<\/p><p>","schluesselwoerter":["3R-Strategie","3D-Druck","regio-spezifische Darreichung"],"translatedTitle":"Etablierung einer standardisierten und optimierten regiospezifischen intranasalen Applikationsmethode an der Maus mit Hilfe von 3D-Modellen unter 3R-Kriterien","abstractE":"The aim of the \u201e3D for 3R\u201c project was to generate anatomical 3D models of the  murine nasal cavity with rapid prototyping to establish a refined region-specific  intranasal drug delivery technique targeting either the respiratory or the olfactory  epithelium in mice. The anatomical structure of the murine nasal cavity was  resolved by x-ray computer tomography and the data sets of the CT-scans were  used to construct anatomical prototypes that were manufactured by 3D-printing,  stereolithography or vacuum moulding. In the present study we show the successful  construction of such anatomical 3D models and their use to establish intranasal  application techniques under 3R criteria to minimize the use of laboratory animals.","date":{"year":2018,"date":"06\/2018","accepted":"2018-06-26"},"volume":131,"openAccess":false,"journal":"Berliner und M\u00fcnchener Tier\u00e4rztliche Wochenschrift","titleImageId":944,"pages":"","redirects":["standardized-refined-intranasal-administration-for-region-specific-intranasal-drug-deposition-in-mice-established-with-3d-rapid-prototypes-under-3r-criteria\/150\/3130\/108530"],"tierartCategories":[],"artikelartCategories":["Tier\u00e4rztliche Wochenschrift","Abostufe BMTW","Fachartikel"]}
%8 06/2018