Provided is a rotatable surgical apparatus and accompanying method for processing a specimen via the rotatable surgical apparatus. The surgical apparatus may include a base member and a platform member where the platform member and base member abut. Each of the base member and platform member may define one or more channel. The one or more base channels may be in fluid communication with the one or more platform channels. A nozzle may be disposed on the top surface of the platform member, in fluid communication with the at least one platform channel and may administer anesthetic to a specimen.

An insert which can be inserted into an inhaler, particularly for a horse has a reservoir for a medicament preparation held under excess pressure and a valve. The insert also has a nebulizer that is held directly on the reservoir and a discharge nozzle, associated with the nebulizer and fluidically connected to the valve, for forming an aerosol with the medicament preparation.

An insert which can be inserted into an inhaler, particularly for a horse has a reservoir for a medicament preparation held under excess pressure and a valve. The insert also has a nebulizer that is held directly on the reservoir and a discharge nozzle, associated with the nebulizer and fluidically connected to the valve, for forming an aerosol with the medicament preparation.

An inhaler with a respiration indicator, whereby the inhaler has a chamber wall forming a chamber and a dispensing device for fluidic connection of the chamber to a bodily opening, preferably a nostril, whereby the respiration indicator has a wall section of the chamber wall or is formed in this way, whereby the wall section is designed to indicate a respiratory activity by deformation and/or movement.

An inhaler with a respiration indicator, whereby the inhaler has a chamber wall forming a chamber and a dispensing device for fluidic connection of the chamber to a bodily opening, preferably a nostril, whereby the respiration indicator has a wall section of the chamber wall or is formed in this way, whereby the wall section is designed to indicate a respiratory activity by deformation and/or movement.

The present invention is drawn to a gas induction chamber that is particularly suited to being scaled to larger animals, such as swine. The present invention solves the problems associated with researchers having to physically restrain animals to inject them with sedative and/or holding a cone over the animal's face to introduce sedation. That process can be dangerous for both the researcher and the animal. The present invention provides a gas induction chamber for use with larger animals comprised of a combination of interconnecting frame members for use in connecting side panels, roof panels, and floor panels into a leak-free chamber. A gas inlet pipe is located near the top of the back side panel and an extraction pipe located near the bottom of the back side panel.

The present invention is drawn to a gas induction chamber that is particularly suited to being scaled to larger animals, such as swine. The present invention solves the problems associated with researchers having to physically restrain animals to inject them with sedative and/or holding a cone over the animal's face to introduce sedation. That process can be dangerous for both the researcher and the animal. The present invention provides a gas induction chamber for use with larger animals comprised of a combination of interconnecting frame members for use in connecting side panels, roof panels, and floor panels into a leak-free chamber. A gas inlet pipe is located near the top of the back side panel and an extraction pipe located near the bottom of the back side panel.

The present invention relates to an inhalation toxicity testing chamber device for nanoparticles having a plurality of concentrations. The present invention provides an inhalation toxicity testing chamber device for nanoparticles having a plurality of concentrations, which: can supply nanoparticles having different concentrations to particle exposure modules by stacking a plurality of particle exposure modules inside a single chamber housing and by allowing each particle exposure module so as to form an independent space from each other; can perform inhalation toxicity testing of nanoparticles having a plurality of concentrations through a single chamber housing by being capable of exposing the test animals put into each particle exposure module to nanoparticles having different concentrations; can easily perform inhalation toxicity tests of nanoparticles in a small scale laboratory etc. by improving the overall space efficiency as well as reducing the test cost; and can easily perform more diverse and accurate inhalation toxicity tests on nanoparticles by selectively allowing a plurality of particle exposure modules to be in communication with each other or to be formed as an independent space, according to a user's needs, thereby variably applying the space of the particle exposure module without changing the arrangement of the particle exposure module.

The present invention relates to an inhalation toxicity testing chamber device for nanoparticles having a plurality of concentrations. The present invention provides an inhalation toxicity testing chamber device for nanoparticles having a plurality of concentrations, which: can supply nanoparticles having different concentrations to particle exposure modules by stacking a plurality of particle exposure modules inside a single chamber housing and by allowing each particle exposure module so as to form an independent space from each other; can perform inhalation toxicity testing of nanoparticles having a plurality of concentrations through a single chamber housing by being capable of exposing the test animals put into each particle exposure module to nanoparticles having different concentrations; can easily perform inhalation toxicity tests of nanoparticles in a small scale laboratory etc. by improving the overall space efficiency as well as reducing the test cost; and can easily perform more diverse and accurate inhalation toxicity tests on nanoparticles by selectively allowing a plurality of particle exposure modules to be in communication with each other or to be formed as an independent space, according to a user's needs, thereby variably applying the space of the particle exposure module without changing the arrangement of the particle exposure module.

Disclosed are instruments and methods for acquiring co-registered orthogonal fluorescence and photoacoustic volumetric projections of an interrogated object. In an embodiment, an instrument includes an imaging tank filled with a liquid coupling medium. An object positioning mechanism is configured to position the interrogated object inside the coupling medium and to rotate the interrogated object. An optical excitation unit that is fixed with respect to the tank is configured to induce both fluorescence and photoacoustic responses inside the interrogated object using the same optical excitation spectrum and the same irradiation pattern at the surface of the interrogated object. An array of unfocused photoacoustic transducers is fixed with respect to the tank, and each element of the array is configured to detect photoacoustic signals generated inside the interrogated object. The array is arranged such that a plane connecting the rotation axis and a central portion of the array cuts through the interrogated object separating the two sides irradiated by the optical excitation unit. An optical detector that is fixed with respect to the tank is configured to register planar projections of sources of fluorescence generated inside the object. A data acquisition unit is configured to synchronize acquisition of photoacoustic data, acquisition of fluorescence data, optical excitation, and rotational position of the interrogated object.