The present invention provides dental amalgam recycling systems, useful for recycling particles from a dental liquid effluent drawn, for example, from a suctioning device.

A filter unit for a conventional suction system of dental equipment is proposed. It consists of a disposable filter and a connecting module fixed to the suction system. The connecting module removably connects the disposable filter to the system, and includesan inlet pipe passing a water flow and solid contents from the system,an outlet pipe returning the water flow into the system,a hole communicating with the inlet pipe,a pipe projection communicating with the outlet pipe, andfixing slots. The filter includesa container collecting the solid contents,a cover including inlet and outlet holes and provided with fixing projections removably engaged with the fixing slots, anda lock-fixer rotatably mounted within the cover. It allows for removable connecting the filter to the system, which significantly improves convenience of servicing the system, safety and sanitary protection of dental personnel.

The present invention provides dental amalgam recycling systems, useful for recycling particles from a dental liquid effluent drawn, for example, from a suctioning device.

The apparatus and method of amalgam waste recovery provides for the effective recovery of amalgam waste, including mercury and other toxic substances, during a dental procedure. The apparatus includes a novel filter that effectively captures waste and a recovery method that provides for the efficient recovery of mercury, gold, and silver waste during dental procedures. The apparatus may be composed of cellulose or paper allowing recovery of mercury vapors and other by-products.

An apparatus and method for removing amalgam and waste particles from dental office suction effluent. The apparatus includes an upper chamber and a solids collection canister removably secured thereto. Dental office suction effluent drawn through a dental suction wand enters the upper chamber along a lateral flow path above a substantially cylindrical internal wall portion. A gas component of dental office suction effluent changes direction by more than 60 before it exits the upper chamber through an exit port. A riser conveys a liquid and solids component of dental office suction effluent through a drain into the solids collection canister. A flow restrictor allows liquids and gases to exit the solids collection canister interior volume but prohibits solids from exiting the solids collection canister interior volume.

A suction tool for connection to a dental suction system can include an elongate body, a tip portion, and a screen mechanism positioned within the elongate body. The tip portion can extend over at least a portion of the elongate body. The tip portion can include an upper portion and a lower portion integrally formed with the upper portion and at least partially spaced apart from the upper portion by a recessed portion.

An oral procedural apparatus includes a main body, a bite block attached to the main body, and a sampling return line at least partially disposed within the main body. The sampling return line is configured to connect to a systemic biomarker sampling device that samples exhaled breath of a patient.

An apparatus and method for removing amalgam and waste particles from dental office suction effluent. The apparatus includes an upper chamber and a solids collection canister removably secured thereto. Dental office suction effluent drawn through a dental suction wand enters the upper chamber along a lateral flow path above a substantially cylindrical internal wall portion. A gas component of dental office suction effluent changes direction by more than 60 before it exits the upper chamber through an exit port. A riser conveys a liquid and solids component of dental office suction effluent through a drain into the solids collection canister. A flow restrictor allows liquids and gases to exit the solids collection canister interior volume but prohibits solids from exiting the solids collection canister interior volume.

The Mobile Dental Intelligence Center (MobiDIC) will roll up alongside the patient's Bedside or Chairside where Oral Hygiene can be performed by the patient's Caregiver, with no need to have a sink or basin in the area. Using the MobiDIC the Caregiver will be able to brush the patient's teeth, rinse and suction the patient's mouth at the Bedside or Chairside; also the Caregiver will monitor the patients Vital Signs. The unit's unique cylindrical design makes it easy for the Caregiver to wipe clean and disinfect the unit. The air, water, suction and power supply hoses are internal to the unit reducing cord entanglement and trip hazards. The MobiDIC allows the Caregiver the ability to easily connect various medical monitoring devices including Intra and Extra Oral Cameras capturing images of the patient's mouth inside and the patient's general appearance. All MobiDIC innovations will facilitate assessing the patient's current general health.

An air handling and filtration/treatment system (whether portable of affixed) for the mitigation and management of airborne biological contaminants (either those pre-existing or those that may become generated) that includes a suspended air in-take assembly containing a removable filter; that includes a deflector having ducting leading to a housing assembly that includes a UV sanitizer, a fan assembly and controller; and includes an outflow assembly that includes ducting leading to a position able manifold having a plurality orifices. The manifold and deflector are laterally offset from the housing assembly and vertically aligned with each other. The manifold is positioned to encircle the bioaerosol source. When the system is operated, the fan assembly suctions air through the filter positioned at the duct inlet, through the UV sanitizer, and expels the treated air through the manifold orifices which are directed towards the deflector to create an air curtain and negative pressure environment which contains the newly generated bioaerosols directing them to the filter of the in-take assembly.