Abstract: A gas transfer system including a housing, a pressurized gas canister held by the housing, a first passageway in fluid communication with the pressurized gas canister and configured to supply pressurized pre-sterilization gas from the pressurized gas canister to a fluid flow component, a gas discharge canister held by the housing; and a second passageway in fluid communication with the gas discharge canister and configured to supply post-sterilization gas from the fluid flow component to the gas discharge canister. The system may include devices directed to disinfection of fluid flow components, members, or fluid zones, and methods for their use. Additional related devices, systems and methods are provided.

Abstract: In accordance with at least one exemplary embodiment, a syringe device, method and system for delivering a therapeutic amount of ozone are disclosed. A sterility case can enclose a syringe portion and can maintain sterility while the syringe device is interfaced to an ozone generator. A valvably-controlled fluid channel can extend from the barrel of the syringe through the case. Conducting elements can be attached to the case and can breach the case. The conductive elements can be connected to electrodes. The electrodes can be attached to the syringe. The syringe portion can be filled with oxygen gas via the valvably-controlled fluid channel. An electric current can be provided to the conductive elements from an ozone generator resulting in a corona discharge from at least one electrode. A therapeutic amount of ozone gas can be produced from the oxygen gas and the syringe delivered into the sterile field without compromise.

Abstract: The present invention relates to an improved smoke evacuation device for use in laparoscopic surgeries. One improvement is a hydrophilic wick positioned within the inlet system of the smoke device for absorbing moisture and trapping surgical waste entering the smoke evacuation device. The second improvement is a multi-outlet valve inserted into the outlet system of the smoke evacuation device to enable quick depressurization of the surgical site.

Abstract: An apparatus for administering a therapeutic is provided. In various embodiments, the apparatus includes an ozone generator for producing therapeutic oxygen-ozone mixture. The generator includes an electrochemical cell configured to communicate with an accumulator having an anode, a cathode and a power supply in electrical communication with the anode and the cathode. The power supply is configured to create an electric current between the anode and the cathode such that water in the electrochemical cell electrolyzes to produce ozone and oxygen at the anode.

Abstract: In accordance with at least one exemplary embodiment, a syringe device, a method and a system for delivering a therapeutic amount of ozone are disclosed. A sterility case can enclose a syringe portion and can maintain sterility while the syringe device is interfaced to an ozone generator. A valvably-controlled fluid channel can extend from a barrel of the syringe portion through the case. Conducting elements can be attached to the case and can breach the case. The conductive elements can be connected to electrodes. The electrodes can be attached to the syringe portion. The syringe portion can be filled with oxygen gas via the valvably-controlled fluid channel. An electric current can be provided to the conductive elements from the ozone generator resulting in a corona discharge from at least one of the electrodes. The therapeutic amount of ozone can be produced from the oxygen gas and the syringe portion delivered into a sterile field without compromise.

Abstract: An apparatus for administering a therapeutic is provided. In various embodiments, the apparatus includes a syringe having a barrel and a plunger and having an ozone generator associated therewith. The generator is initiated and a therapeutic gas is accumulated within the barrel, at which point it can be delivered from the barrel into a target site via a needle, thereby delivering therapeutic effects to that target site.

Abstract: Medical dressings and medical dressing kits that can be used to proved positive pressure wound therapy. The medical dressings include one or more normally-closed valves. The medical dressing kits may further include fittings.

Abstract: Topical exposure of nitric oxide gas to wounds such as chronic non-healing wounds may be beneficial in promoting healing of the wound and in preparing the wound bed for further treatment and recovery. Nitric oxide gas may be used, for example, to reduce the microbial infection and burden on these wounds, manage exudate secretion by reducing inflammation, upregulate expression of endogenous collagenase to locally debride the wound, and regulate the formation of collagen. High concentration of nitric oxide ranging from about 160 to 400 ppm may be used without inducing toxicity in the healthy cells around a wound site. Additionally, exposure to the high concentration for a first treatment period reduces the microbial burden and inflammation at the wound site and increase collagenase expression to debride necrotic tissue at the wound site.

Abstract: An apparatus for administering a therapeutic is provided. In various embodiments, the apparatus includes a syringe having a barrel and a plunger and having an ozone generator associated therewith. The generator is initiated and a therapeutic gas is accumulated within the barrel, at which point it can be delivered from the barrel into a target site via a needle, thereby delivering therapeutic effects to that target site.

Abstract: The invention relates to improvements in surface disinfection apparatus and in particular to apparatus which may be used to disinfect wounds using high concentration aqueous ozone. The Apparatus comprises application means for applying the fluid to the surface to be treated, fluid delivery means for delivering the fluid to said application means and catchment means for collecting the fluid after it has been applied to the surface. Fluid return means are provided for removing the fluid from the catchment means and means for creating a vacuum in the fluid return means. The apparatus further comprises a releasable coupling having two engagable parts and comprising a plurality of channels, at least one of which channels is connected to the fluid delivery means when the parts are engaged and at least another of which channels is connected to the fluid return means when the parts are engaged.

Abstract: The present invention generally provides methods and devices for removing fluid from a surgical instrument. Surgical access devices and seal systems are generally provided having one or more valves or seal assemblies to create a closed system between the outside environment and the environment in which the surgical access device is being inserted. The devices of systems can also include a fluid remover in the form of a sorbent element, a scraper element, a wicking element, or any combination thereof that is configured to remove fluid from a working channel of the device or system and/or from a surgical instrument inserted therethrough.

Abstract: In accordance with at least one exemplary embodiment, a syringe, method and system for delivering a therapeutic amount of ozone are disclosed. An exemplary syringe can have a gas chamber and one or more electrodes. A portion of at least one electrode can be within the gas chamber. Alternatively, singularly or in conjunction, one or both electrodes can be attached to the outside of an exemplary syringe. One or more electrical contact points can be outside the gas chamber. Each electrical contact point can be connected to an electrode. Oxygen gas can provided within the gas chamber of the exemplary syringe. A medical ozone generator can be connected to the syringe via the electrical contact points. Corona discharge can be effectuated via the electrodes, which can result in an amount of ozone gas can being produced from the oxygen gas.

Abstract: In accordance with at least one exemplary embodiment, a syringe, method and system for delivering a therapeutic amount of ozone are disclosed. An exemplary syringe can have a gas chamber and one or more electrodes. A portion of at least one electrode can be within the gas chamber. Alternatively, singularly or in conjunction, one or both electrodes can be attached to the outside of an exemplary syringe. One or more electrical contact points can be outside the gas chamber. Each electrical contact point can be connected to an electrode. Oxygen gas can provided within the gas chamber of the exemplary syringe. A medical ozone generator can be connected to the syringe via the electrical contact points. Corona discharge can be effectuated via the electrodes, which can result in an amount of ozone gas can being produced from the oxygen gas.

Abstract: Drug delivery devices and methods are provided for delivering a substance into a human or animal tissue. The device includes a gas source comprising a gas or capable of selectively producing a gas. The device also includes a drug source positioned and configured to release a drug into the gas. The drug source includes a release-activatable tape having the drug disposed thereon. The device also includes a first collimator fluidly connected with the gas source. The first collimator, which has an inlet end and an outlet end, is adapted to form a collimated gas stream comprising the drug in the gas.

Abstract: Drug delivery device and methods are provided for transdermal drug delivery through a skin. The device includes a gas source comprising a gas or capable of selectively producing a gas. The device also includes a first collimator fluidly connected with the gas source adapted to form a first plurality of collimated gas streams comprising the gas. The first collimator has an inlet end and an outlet end. The device further includes a first drug source comprising a drug. The first drug source is configured to release the drug into the first plurality of collimated gas streams between the inlet end and outlet end of the first collimator.

Abstract: Delivery devices, methods and systems are provided for the delivery of particles into a biological tissue. The device includes a gas source comprising a gas or capable of selectively producing a gas; a first particle source comprising a first plurality of particles; a first collimator fluidly connected with the gas source and adapted to form a collimated stream of the first plurality of particles entrained in the gas. The device also includes a tissue-interfacing surface adapted to interface with a surface of the tissue and orient the first collimator with the tissue such that the collimated stream of the first plurality of particles will penetrate the tissue in a direction substantially perpendicular to the surface of the tissue.

Abstract: Visceral fat may be removed from a subject using a cannula that has an interior cavity and an orifice configured to permit material to enter the cavity. This is accomplished by generating a negative pressure in the cavity so that a portion of the tissue is drawn into the orifice. Fluid is then delivered in pulses, via a conduit, so that the fluid exits the conduit within the cavity and impinges against the portion of the tissue that was drawn into the orifice. The fluid is delivered at a pressure and temperature that causes the visceral fat to soften, liquefy, or gellify, without damaging the subject's internal organs that are in the vicinity of the visceral fat. The visceral fat that has been softened, liquefied, or gellified is then suctioned away.

Abstract: An ozone device for deodorizing dresses within a closet, includes an ozone generator. The ozone generator includes a casing formed with first and second ventilation vents, an ozone producing element installed within the casing for generating ozone in order to deodorizing dresses within the closet, a circulating fan installed within the casing for circulating ozone generated by the ozone producing element, and a hanging unit projecting outward from the casing and adapted to be hung onto a suspension member. The closet is sleeved over and cooperates with the casing to define a sealed chamber so that dresses can be kept therein.

Abstract: An apparatus for administering a therapeutic agent is provided. The apparatus, in an embodiment, includes an ozone generator connected to a scavenger and an ozone administrator via network of tubing and valves. When activated and the valves placed in the proper position, the ozone generator will fill the ozone administrator with ozone. The ozone generator can then be turned off and the valves moved so that the administrator can be disconnected from the remainder of the apparatus. The administrator is typically in the form of a syringe and needle. Once the syringe and needle is filled with ozone, the needle can be inserted into a tissue and the ozone expressed therefrom into the tissue. Various other apparatuses and methods are also contemplated.

Abstract: An apparatus for conditioning an insufflation gas has an inlet for the delivery of an insufflation gas to a conditioning chamber. The conditioning chamber is used to charge the insufflation gas with a medicament by blowing the insufflation gas through a humidifying liquid containing the medicament. The insufflation gas charged with the medicament flows from the charging device to an outlet and can be delivered to the abdominal cavity of a human or animal, where it ensures optimum distribution of the medicament.

Abstract: An apparatus for administering a therapeutic is provided. In various embodiments, the apparatus includes a syringe having a barrel and a plunger and having a material treatment module associated with a needle. The material treatment module may be an ozone generator that is initiated such that material containing ozone accumulates within the needle. The material can then be delivered from the barrel into a target site via the needle, thereby delivering therapeutic effects to that target site.

Abstract: In accordance with at least one exemplary embodiment, a syringe, method and system for delivering a therapeutic amount of ozone are disclosed. An exemplary syringe can have a gas chamber and one or more electrodes. A portion of at least one electrode can be within the gas chamber. Alternatively, singularly or in conjunction, one or both electrodes can be attached to the outside of an exemplary syringe. One or more electrical contact points can be outside the gas chamber. Each electrical contact point can be connected to an electrode. Oxygen gas can provided within the gas chamber of the exemplary syringe. A medical ozone generator can be connected to the syringe via the electrical contact points. Corona discharge can be effectuated via the electrodes, which can result in an amount of ozone gas can being produced from the oxygen gas.

Abstract: A method for administering a therapeutic is provided. In various embodiments, the method includes providing a handheld dispensing apparatus comprising a housing defining a chamber, a material treatment module in material communication with the chamber, an outlet in material communication with the chamber, and a needle in material communication with the outlet for releasing the material from the housing. The method includes collecting a precursor material in the chamber, activating the material treatment module, treating the precursor material collected in the chamber with the material treatment module to create a treated material, positioning the needle in a body, and dispensing the treated material out of the apparatus into the body.

Abstract: In order to treat a biological material (1) containing living cells with a plasma (4) generated by a gas discharge at atmospheric pressure (9) an electrode (3) is arranged at a distance to the biological material (1). Further, a solid body dielectric (2) is arranged between the electrode (3) and the biological material (1), directly in front of the electrode (3) and at a distance to the biological material (1). Then a high alternating voltage consisting of separated high voltage pulses of alternating polarity is applied to the electrode (3) for igniting and maintaining a dielectric barrier gas discharge within a region between the dielectric (2) and the biological material (1).

Abstract: Apparatus and methods deliver vasoconstrictive agents simultaneously with capnic gases. The capnic gases can enhance the effectiveness of the vasoconstrictive agent, lower the dosage of drug or concentration of agent necessary to achieve a therapeutic result, or both. Exemplary capnic gases include carbon dioxide, nitric oxide, nitrous oxide, and dilute acid gases.

Abstract: An apparatus for administering a therapeutic is provided. In various embodiments, the apparatus includes a syringe having a barrel and a plunger and having a material treatment module associated therewith. The material treatment module may be an ozone generator that is initiated such that material containing ozone accumulates within the barrel. The material can then be delivered from the barrel into a target site via a needle, thereby delivering therapeutic effects to that target site.

Abstract: An apparatus for administering a therapeutic agent is provided. The apparatus, in an embodiment, includes an ozone generator connected to a scavenger and an ozone administrator via network of tubing and valves. When activated and the valves placed in the proper position, the ozone generator will fill the ozone administrator with ozone. The ozone generator can then be turned off and the valves moved so that the administrator can be disconnected from the remainder of the apparatus. The administrator is typically in the form of a syringe and needle. Once the syringe and needle is filled with ozone, the needle can be inserted into a tissue and the ozone expressed therefrom into the tissue. Various other apparatuses and methods are also contemplated.

Abstract: In accordance with at least one exemplary embodiment, a syringe, method and system for delivering a therapeutic amount of ozone are disclosed. An exemplary syringe can have a gas chamber and one or more electrodes. A portion of at least one electrode can be within the gas chamber. Alternatively, singularly or in conjunction, one or both electrodes can be attached to the outside of an exemplary syringe. One or more electrical contact points can be outside the gas chamber. Each electrical contact point can be connected to an electrode. Oxygen gas can provided within the gas chamber of the exemplary syringe. A medical ozone generator can be connected to the syringe via the electrical contact points. Corona discharge can be effectuated via the electrodes, which can result in an amount of ozone gas can being produced from the oxygen gas.

Abstract: A gas supply apparatus measures a first pressure inside a first body cavity of a patient and a second pressure inside a second body cavity of the patient. The gas supply apparatus regulates a pressure of a predetermined gas based on the measured first and second pressures inside the first and second body cavities.

Abstract: An apparatus for disinfecting surfaces and in particular human and animal wounds, includes a contractor for accumulating concentrated ozonated water and systems to deliver ozonated water from the reservoir to a nozzle having one or more jets for delivering a spray of ozonated water on to the surface to be treated. The nozzle has an encircling shroud and systems are provided for withdrawing ozonated gas liberated at the nozzle from around the nozzle. A collection tray is provided which is located under the surface/wound to be treated to receive ozonated water flowing from the treatment region and where any residual ozone is broken down.

Abstract: A surgical instrument for use with a surgical portal apparatus includes an elongate shaft having proximal and distal ends and defining a longitudinal axis and a dilating member disposed at the distal end of the elongate shaft. The dilating member has a first longitudinal arc segment and a second longitudinal arc segment in diametrical opposed relation to the first longitudinal arc segment. The first and second longitudinal arc segments define respective first and second radii of curvature transverse to the longitudinal axis. The first and second radii of curvature decrease from proximal to distal to define a generally tapered configuration of the dilating member. The first radius of curvature is greater than the second radius of curvature at predefined longitudinal positions of the dilating member such that the first longitudinal arc segment extends distally beyond the second longitudinal segment to define a penetrating tip.

Abstract: An electrosurgical apparatus for coagulating tissue used in combination with an endoscope which includes an elongated flexible tube having a plurality of side-ports located therethrough. The tube extends through a working channel of the endoscope and an ionizable gas is supplied to the tube at or near the proximal end of the tube. A diffusing member directs the ionizable gas from the proximal end of the tube through each of the side-ports towards the tissue. An electrode is used for ionizing the gas prior to the gas exiting the side-ports.

Abstract: An apparatus for the production of ionized oxygen and ozone from pure oxygen. An adjustable high voltage power supply is connected to an ozone generator having at least one ozone generator therein. The HV power supply has a relatively low voltage setting for producing negative ionized oxygen and a relatively high voltage setting for producing ozone. A negative ionizer may be included to increase the concentration of negative ionized oxygen. Outputted gasses are directed to a hermetically sealed envelope positioned around and in spaced relation from the surface of a patient's injury. If the wound is infected, ozone is selectively used to treat the infection for a first predetermined period of time sufficient to neutralize the infection. After the wound is treated with ozone, negative ionized oxygen is selectively used to treat the wound for a second predetermined period of time sufficient to enhance the healing of the wound.

Abstract: An apparatus for administering a therapeutic is provided. In various embodiments, the apparatus includes a syringe having a barrel and a plunger and having an ozone generator associated therewith. The generator is initiated and a therapeutic gas is accumulated within the barrel, at which point it can be delivered from the barrel into a target site via a needle, thereby delivering therapeutic effects to that target site.

Abstract: An ozone/oxygen treatment system comprising an ozone generator for generating a predetermined ozone/oxygen mixture; and a treatment chamber connected to the ozone generator for receiving and applying the ozone/oxygen mixture to a predetermined portion of a patient's body, the treatment chamber having variable size and shape for enclosing said predetermined body portion and having a structure enabling the treatment chamber to enclose without touching the body portion. Also disclosed is a sensor disposed in the treatment chamber for sensing at least one of ozone concentration, temperature, humidity and bacterial gases. A control unit receives data from the sensor and automatically maintains the ozone concentration and/or heat or humidity at a predetermined range. Arrangements may be provided for directing the ozone to the body portion to be treated, and/or for directing the ozone to the interior and/or underneath a wound biofilm.

Abstract: An infection control device includes a plurality of air inlets spaced around the device's peripheral skirt. A negative ion ozone generator having a plurality of spaced pointed projections is inwardly of the peripheral skirt with a ground disk inwardly of the generator. Air flows through the inlets to the generator, to the disk and to a catheter exit site.

Abstract: A gas supply apparatus measures a first pressure inside a first body cavity of a specimen and a second pressure inside a second body cavity of the specimen. The gas supply apparatus regulates a pressure of a predetermined gas based on the measured first and second pressures inside the first and second body cavities so that the first and second pressures reach predetermined first and second pressure settings, respectively.

Abstract: Apparatus for preparing and/or delivering ozone or an ozone/oxygen mixture in metered amounts from oxygen, in particular for intraperitoneal administration into an animal or human body, having a fluid source or at least one fluid source connection (1) for providing oxygen, ozone or ozone/oxygen mixture and having a metering outlet (18), with a mass flow controller (5) being inserted into the fluid line from the fluid source connection (1) to the metering outlet (18) and making it possible to control the flow of fluid mass in accordance with a comparison of set value with actual value, with an operative connection existing or being able to exist between the inlet of the mass flow controller (5) and a fluid shut-off device (2) and between the metering outlet (18) and a delivery shut-off device (16), and with electronic control means (14) being connected at least to the two shut-off devices (2, 16) for control thereof.

Abstract: Apparatuses, systems and methods for generating, dispersing and delivering chemical compounds utilizing desorption electrospray ionization. Embodiments include an airflow channel into which an airflow is directed, a solvent reservoir containing a volume of solvent, at least one charged droplet source for producing a plurality of charged liquid droplets in the channel, and at least one grounded counter electrode positioned within the channel with the electrodes having at least one surface containing one or more chemical compounds that include releasable ions. In operation, the charged droplets are directed onto the surface or surfaces so that the impact of the charged particles on said surface produces gaseous ions of at least one chemical compound on said surface, after which the gaseous ions are dispersed into the airflow.

Abstract: This relates to a method to generate a mixture of Hydrogen Peroxide gas and a Carrier gas by passing dry Carrier gas through Hydrogen Peroxide.

Abstract: An apparatus for administering a therapeutic agent is provided. The apparatus, in an embodiment, includes an ozone generator connected to a scavenger and an ozone administrator via network of tubing and valves. When activated and the valves placed in the proper position, the ozone generator will fill the ozone administrator with ozone. The ozone generator can then be turned off and the valves moved so that the administrator can be disconnected from the remainder of the apparatus. The administrator is typically in the form of a syringe and needle. Once the syringe and needle is filled with ozone, the needle can be inserted into a tissue and the ozone expressed therefrom into the tissue. Various other apparatuses and methods are also contemplated.

Abstract: An apparatus for administering a therapeutic agent is provided. The apparatus, in an embodiment, includes an ozone generator connected to a scavenger and an ozone administrator via network of tubing and valves. When activated and the valves placed in the proper position, the ozone generator will fill the ozone administrator with ozone. The ozone generator can then be turned off and the valves moved so that the administrator can be disconnected from the remainder of the apparatus. The administrator is typically in the form of a syringe and needle. Once the syringe and needle is filled with ozone, the needle can be inserted into a tissue and the ozone expressed therefrom into the tissue. Various other apparatuses and methods are also contemplated.

Abstract: An apparatus for administering a therapeutic agent is provided. The apparatus, in an embodiment, includes an ozone generator connected to a scavenger and an ozone administrator via network of tubing and valves. When activated and the valves placed in the proper position, the ozone generator will fill the ozone administrator with ozone. The ozone generator can then be turned off and the valves moved so that the administrator can be disconnected from the remainder of the apparatus. The administrator is typically in the form of a syringe and needle. Once the syringe and needle is filled with ozone, the needle can be inserted into a tissue and the ozone expressed therefrom into the tissue. Various other apparatuses and methods are also contemplated.

Abstract: An apparatus for administering a therapeutic agent is provided. The apparatus, in an embodiment, includes an ozone generator connected to a scavenger and an ozone administrator via network of tubing and valves. When activated and the valves placed in the proper position, the ozone generator will fill the ozone administrator with ozone. The ozone generator can then be turned off and the valves moved so that the administrator can be disconnected from the remainder of the apparatus. The administrator is typically in the form of a syringe and needle. Once the syringe and needle is filled with ozone, the needle can be inserted into a tissue and the ozone expressed therefrom into the tissue. Various other apparatuses and methods are also contemplated.

Abstract: An apparatus for administering a therapeutic agent is provided. The apparatus, in an embodiment, includes an ozone generator connected to a scavenger and an ozone administrator via network of tubing and valves. When activated and the valves placed in the proper position, the ozone generator will fill the ozone administrator with ozone. The ozone generator can then be turned off and the valves moved so that the administrator can be disconnected from the remainder of the apparatus. The administrator is typically in the form of a syringe and needle. Once the syringe and needle is filled with ozone, the needle can be inserted into a tissue and the ozone expressed therefrom into the tissue. Various other apparatuses and methods are also contemplated.

Abstract: In accordance with at least one exemplary embodiment, a syringe device, method and system for delivering a therapeutic amount of ozone are disclosed. A sterility case can enclose a syringe portion and can maintain sterility while the syringe device is interfaced to an ozone generator. A valvably-controlled fluid channel can extend from the barrel of the syringe through the case. Conducting elements can be attached to the case and can breach the case. The conductive elements can be connected to electrodes. The electrodes can be attached to the syringe. The syringe portion can be filled with oxygen gas via the valvably-controlled fluid channel. An electric current can be provided to the conductive elements from an ozone generator resulting in a corona discharge from at least one electrode. A therapeutic amount of ozone gas can be produced from the oxygen gas and the syringe delivered into the sterile field without compromise.

Abstract: The present invention is directed to a treatment method and system that (a) while controlling ozone production, electrically charges a plurality of (i) atomic particles (e.g., diatomic oxygen and water molecules) and/or (ii) electrically charged droplets in an input gas stream to form a charged gas stream and (b) provides the charged gas stream to a living organism to be treated.

Abstract: The present invention relates to an ozone treatment apparatus using ozone gas, in which the ozone gas is directly injected to a lesion of the human body by utilizing the sterilizing power caused by oxidation of ozone gas, so that the lesion can be sterilized and stanched to relieve the pain in the lesion, thereby maximizing therapeutic effect by the ozone irrespective of the shape of bodily regions having the lesion and the kind of lesion, and so that the treatment using ozone gas can be readily conducted, thereby improving convenience in use as well as significantly reducing the cost and time spent for the treatment.

Abstract: An ozone treatment apparatus for acne of the present invention comprises: an ozone gas or ozone water generator; a skin coupling device, which is placed in contact with the skin, and has pores for spraying the ozone gas or ozone water generated into a diseased part; and an aspirator, which forms a vacuum inside of the skin coupling device placed in contact with the skin, impregnates the injected ozone gas or ozone water into the skin, and suctions the ozone gas or ozone water from the skin coupling device. It enables the ozone gas or ozone water to enter the deep part of pores, and to apply a sufficient sterilization effect to bacteria in the deep part.

Abstract: Smoke evacuation apparatus designed to provide safe and efficient filtration and evacuation of smoke plume generated by laser-surgical, electrosurgical, radiosurgical, and electrocautery devices. A filter assembly is removably mounted on a front panel of the apparatus housing and is thus easily accessible from the front side which typically faces the user. The filter assembly at its front is provided with a hose connector to which the suction hose of the system is conveniently attached, and the front of the filter assembly is configured with a symbol, such as a letter or number, that represents an identification of the system supplier or manufacturer, and the hose connector is mounted on that symbol identifier.