Abstract: A method of producing an array of sharp tips including a biocompatible coating, wherein the biocompatible coating is thicker at a sharp end of the sharp tips than at a broader section of the sharp tips, the method including providing an array of sharp tips, and coating the sharp end of the sharp tips differentially from coating the broader section of the sharp tips. A method of treating skin including producing a hollow in the skin by heating and mechanically compressing epidermis while retaining a covering of stratum corneum. A method of treating tissue including heating a tip to a temperature suitable for producing a crater in the tissue, advancing the tip toward the tissue, detecting when the tip comes into contact with the tissue by detecting a change in mechanical resistance to the advancing, and measuring the mechanical resistance to the advancing. Related apparatus and methods are also described.

Abstract: A method of producing an array of sharp tips including a biocompatible coating, wherein the biocompatible coating is thicker at a sharp end of the sharp tips than at a broader section of the sharp tips, the method including providing an array of sharp tips, and coating the sharp end of the sharp tips differentially from coating the broader section of the sharp tips. A method of treating skin including producing a hollow in the skin by heating and mechanically compressing epidermis while retaining a covering of stratum corneum. A method of treating tissue including heating a tip to a temperature suitable for producing a crater in the tissue, advancing the tip toward the tissue, detecting when the tip comes into contact with the tissue by detecting a change in mechanical resistance to the advancing, and measuring the mechanical resistance to the advancing. Related apparatus and methods are also described.

Abstract: A method of producing an array of sharp tips including a biocompatible coating, wherein the biocompatible coating is thicker at a sharp end of the sharp tips than at a broader section of the sharp tips, the method including providing an array of sharp tips, and coating the sharp end of the sharp tips differentially from coating the broader section of the sharp tips. A method of treating skin including producing a hollow in the skin by heating and mechanically compressing epidermis while retaining a covering of stratum corneum. A method of treating tissue including heating a tip to a temperature suitable for producing a crater in the tissue, advancing the tip toward the tissue, detecting when the tip comes into contact with the tissue by detecting a change in mechanical resistance to the advancing, and measuring the mechanical resistance to the advancing. Related apparatus and methods are also described.

Abstract: A method of producing an array of sharp tips including a biocompatible coating, wherein the biocompatible coating is thicker at a sharp end of the sharp tips than at a broader section of the sharp tips, the method including providing an array of sharp tips, and coating the sharp end of the sharp tips differentially from coating the broader section of the sharp tips. A method of treating skin including producing a hollow in the skin by heating and mechanically compressing epidermis while retaining a covering of stratum corneum. A method of treating tissue including heating a tip to a temperature suitable for producing a crater in the tissue, advancing the tip toward the tissue, detecting when the tip comes into contact with the tissue by detecting a change in mechanical resistance to the advancing, and measuring the mechanical resistance to the advancing. Related apparatus and methods are also described.

Abstract: A method of producing an array of sharp tips including a biocompatible coating, wherein the biocompatible coating is thicker at a sharp end of the sharp tips than at a broader section of the sharp tips, the method including providing an array of sharp tips, and coating the sharp end of the sharp tips differentially from coating the broader section of the sharp tips. A method of treating skin including producing a hollow in the skin by heating and mechanically compressing epidermis while retaining a covering of stratum corneum. A method of treating tissue including heating a tip to a temperature suitable for producing a crater in the tissue, advancing the tip toward the tissue, detecting when the tip comes into contact with the tissue by detecting a change in mechanical resistance to the advancing, and measuring the mechanical resistance to the advancing. Related apparatus and methods are also described.

Abstract: In accordance with some embodiments of the invention there is provided a device for vaporizing one or more holes in tissue, comprising an array of vaporizing elements and a heating element configured to heat the vaporizing elements, wherein a geometry of at least a portion of the vaporizing elements is configured to prevent excessive penetration of other vaporizing elements into the tissue. In some embodiments, the vaporizing elements are heated to a temperature ranging between 300-600 degrees Celsius.

Abstract: A device for thermal incision of tissue including a tissue heating element, an oscillatory mechanism that advances the tissue heating element toward tissue and retracts the tissue heating element from tissue, a detector that detects when the tissue heating element contacts the tissue, and a heat controller that controls heating of the tissue heating element, wherein the heat controller for the tissue heating element controls heating the tissue heating element based on detecting when the tissue heating element contacts tissue. Related apparatus and methods are also described.

Abstract: A method of producing an array of sharp tips including a biocompatible coating, wherein the biocompatible coating is thicker at a sharp end of the sharp tips than at a broader section of the sharp tips, the method including providing an array of sharp tips, and coating the sharp end of the sharp tips differentially from coating the broader section of the sharp tips. A method of treating skin including producing a hollow in the skin by heating and mechanically compressing epidermis while retaining a covering of stratum corneum. A method of treating tissue including heating a tip to a temperature suitable for producing a crater in the tissue, advancing the tip toward the tissue, detecting when the tip comes into contact with the tissue by detecting a change in mechanical resistance to the advancing, and measuring the mechanical resistance to the advancing. Related apparatus and methods are also described.

Abstract: In accordance with some embodiments of the invention there is provided a device for vaporizing one or more holes in tissue, comprising an array of vaporizing elements and a heating element configured to heat the vaporizing elements, wherein a geometry of at least a portion of the vaporizing elements is configured to prevent excessive penetration of other vaporizing elements into the tissue. In some embodiments, the vaporizing elements are heated to a temperature ranging between 300-600 degrees Celsius.

Abstract: An apparatus adapted to inhibit pain signals generated by pain receptors in the skin during a skin related medical treatment such as an injection. An evacuation chamber is provided with an essentially rigid interface element larger than a threshold surface area through which a medical treatment can be administered to a selected skin region, one or more walls which are placeable in the vicinity of the skin region, an interior defined by the walls and by the interface element, and an opening at the bottom of the interior which is sealable by the skin region. A device generates a vacuum within the evacuation chamber interior to a level greater than the threshold vacuum level suitable for drawing the skin region through the opening towards, and in a compressing relation against, the interface element, to inhibit the transmission of a pain signal generated by pain receptors located within the skin region.

Abstract: An apparatus adapted to inhibit pain signals generated by pain receptors in the skin during a skin related medical treatment such as an injection. An evacuation chamber is provided with an essentially rigid interface element through which a medical treatment can be administered to a selected skin region, one or more walls which are placeable on, or in the vicinity of, the skin region, an interior defined by the walls and by the interface element, and an opening at the bottom of the interior which is sealable by the skin region. A device generates a vacuum within the evacuation chamber interior to a level suitable for drawing the skin region through the opening towards, and in a compressing relation against, the interface element, to inhibit the transmission of a pain signal generated by pain receptors located within the skin region.

Abstract: An apparatus adapted to inhibit pain signals generated by pain receptors in the skin during a skin related medical treatment such as an injection. An evacuation chamber is provided with an essentially rigid interface element larger than a threshold surface area through which a medical treatment can be administered to a selected skin region, one or more walls which are placeable in the vicinity of the skin region, an interior defined by the walls and by the interface element, and an opening at the bottom of the interior which is sealable by the skin region. A device generates a vacuum within the evacuation chamber interior to a level greater than the threshold vacuum level suitable for drawing the skin region through the opening towards, and in a compressing relation against, the interface element, to inhibit the transmission of a pain signal generated by pain receptors located within the skin region.