RELIANT TECHNOLOGIES, INC. Patent applications |
Patent application number | Title | Published |
20130053931 | METHOD AND DEVICE FOR TIGHTENING TISSUE USING ELECTROMAGNETIC RADIATION - Methods and devices for treatment of skin are disclosed. These methods and devices use electromagnetic radiation to create networks or patterns of treatment zones. The networks or patterns of treatment zones comprise at least four treatment zones, at least two of the treatment zones in the network or pattern are slanted at angles in the skin, and the treatment zones extend at least as deep as the dermal-epidermal junction of the skin. Producing intersecting treatment zones and/or overlapping treatment patterns can increase the effectiveness of the treatments. The devices comprise a hand piece operably coupled to a delivery element, wherein delivery of electromagnetic radiation through the device to a portion of skin produces a network or pattern of treatment zones. The use of these methods and devices results in tightening of the skin and/or improvement in the cosmetic appearance of wrinkles in the portion of skin treated. | 02-28-2013 |
20120238941 | Treatment of Alopecia By Micropore Delivery of Stem Cells - A method of restoring hair to skin that has suffered hair loss includes optically ablating an array of spaced-apart microchannels or voids into the skin and transplanting into the voids stem cells, a scaffold and a differentiation factor for causing the stem cells to differentiate into hair follicles. | 09-20-2012 |
20110190726 | Method and apparatus for micro-needle array electrode treatment of tissue - Systems and methods for revitalizing aging skin using electromagnetic energy that is delivered using a plurality of needles that are capable of penetrating the skin to desired depths. A particular aspect is the capability to spare zones of tissue from thermal exposure. This sparing of tissue allows new tissue to be regenerated while the heat treatment can shrink the collagen and tighten the underlying structures. Additionally, the system is capable of delivering therapeutically beneficial substances either through the penetrating needles or through channels that have been created by the penetration of the needles. | 08-04-2011 |
20110137302 | Optical Pattern Generator Using a Single Rotating Component - An optical pattern uses a single rotating component. The rotating component includes a number of deflection sectors. Each sector deflects an incident optical beam by a substantially constant angular amount although this amount may vary from one sector to the next. The rotating component may be combined with an imaging lens group that produces, for example, image points, spots, or lines displaced along a line locus. | 06-09-2011 |
20110098691 | Apparatus and Method for Adjustable Fractional Optical Dermatological Treatment - In a fractional treatment system, an adjustable mechanism can be used to adjust the beam shape, beam numerical aperture, beam focus depth, and/or beam size to affect the treatment depth and or the character of the resulting lesions. Adjustment of these parameters can improve the efficiency and efficacy of treatment. Illustrative examples of adjustable mechanisms include a set of spacers of different lengths, a rotatable turret with lens elements of different focal distances, an optical zoom lens, and a mechanical adjustment apparatus for adjusting the spacing between two optical lens elements. In one aspect, the fractional treatment is configured with a laser wavelength that is selected such that absorption of the laser wavelength within the tissue decreases as the tissue is heated by the laser (e.g., 1480-1640 nm). Desirably, the laser wavelength is primarily absorbed within a treated region of skin by water and has a thermally adjusted absorption coefficient within the range of about 7 cm | 04-28-2011 |
20110087201 | APPARATUS AND METHOD FOR ADJUSTABLE FRACTIONAL OPTICAL DERMATOLOGICAL TREATMENT - A fractional treatment system can be configured with a laser wavelength that is selected such that absorption of the laser wavelength within the tissue increases as the tissue is heated by the laser (e.g., 1390-1425 nm). Desirably, the laser wavelength is primarily absorbed within a treated region of skin by water and has a thermally adjusted absorption coefficient within the range of about 8 cm | 04-14-2011 |
20100067081 | Optical Pattern Generator Using a Single Rotating Component - An optical pattern uses a single rotating component. The rotating component includes a number of deflection sectors. Each sector deflects an incident optical beam by a substantially constant angular amount although this amount may vary from one sector to the next. The rotating component may be combined with an imaging lens group that produces, for example, image points, spots, or lines displaced along a line locus. | 03-18-2010 |
20090230269 | Articulated Arm for Delivering a Laser Beam - A laser assembly includes a laser and an articulated arm having a plurality of couplers arranged to receive a laser-beam from the laser. The assembly is mounted on a support structure, and is rotatable on the support structure in two axes perpendicular to each other. Six degrees of freedom of motion of the end of the articulated arm can be accomplished with one less coupler in the arm than would be necessary without rotation of the assembly on the support structure. | 09-17-2009 |
20090195848 | Optical Pattern Generators Using Axicon Segments - Optical pattern generators use rotating reflective axicon segments to produce images that can have different dimensions along the pattern direction compared to the cross pattern direction. Examples include both single axicon pattern generators and dual axicon pattern generators that independently control the image space relative aperture and thereby control the image dimensions in two orthogonal directions. | 08-06-2009 |
20090131922 | Reconnectable Handpieces for Optical Energy Based Devices and Methods for Adjusting Device Components - Handpieces which comprise characteristic data storage systems electronically storing characteristic data, devices comprising these handpieces, methods of characterizing the device components, and methods of adjusting the device components based on stored characteristic data are described. The handpieces can be repeatedly connected to, disconnected from, and reconnected to an optical energy system comprising at least one optical energy source and at least one controller by a treatment provider. When the handpieces are connected to an optical energy source and a controller, the component characteristic data is accessed and used to adjust one or more of the components in order for the components to function together within a pre-determined tolerance. Once the components are connected and adjusted, the device can be used to provide an optical energy based medical and/or cosmetic treatment to a tissue such as, for example, human skin. | 05-21-2009 |
20090118720 | Dermatological Apparatus and Method - A dermatological laser apparatus in accordance with the present invention may comprise a plurality of laser light sources, a corresponding plurality of optical delivery pathways, and a focusing system. The dermatological laser apparatus may also comprise a control system for controlling the operation of the plurality of laser light sources to generate a broad range of therapeutic treatment patterns on or within a layer of skin. | 05-07-2009 |
20080319507 | Tissue Treatment Device and Method of Restricting Use of Device - Embodiments include electromagnetic energy-based tissue treatment devices which comprise biometric sensors in combination with memory storing biometric data from authorized treatment providers, and methods of restricting use of the devices based on comparing biometric data from potential treatment providers to the stored biometric data from authorized treatment providers. Delivery of a treatment can be permitted when the biometric data from a potential treatment provider is found to match the biometric treatment data for an authorized treatment provider. The devices of the invention can further be configured to collect usage data and usage setting of the device, and usage data can be used in conjunction with biometric data to determine whether or not an authorized user has exceeded or will exceed a recommended treatment regimen. | 12-25-2008 |
20080306418 | Method for Reducing Pain of Dermatological Treatments - A method of reducing the level of pain experienced by a patient during a pain-inducing dermatological treatment by using non-pharmacologic means is described. The method employs the use of multiple bursts of a gas to stimulate a touch sensation in or near the tissue to be treated using the dermatological treatment in order to reduce and/or relieve pain. The method can be used alone or can be used in combination with other non-pharmacologic and/or pharmacologic methods of relieving pain in order to make a patient more comfortable during or following the dermatological treatment. | 12-11-2008 |
20080294151 | Pivoting Roller Tip for Dermatological Treatment Apparatus - A mechanical element allows the tip of the handpiece of a dermatological treatment system to rotate to adjust for deviations in handpiece angle with respect to the surface of the treatment area. The tip may glide over the surface of the skin, the tip may include wheels or rotating cylinders on which the tip rolls across the skin, or the tip may be removed from the skin ad placed in a new location in a stamping motion. The tip of the handpiece rotates around a single axis, or around two perpendicular axes, so that pressure on the tip moves the flat surface of the tip into proper orientation for planar contact with the skin. An element can be included in the handpiece to apply a restoring force on the tip so that the tip rests in its optimal position in the absence of external forces. | 11-27-2008 |
20080291518 | Optical Pattern Generator Using a Single Rotating Optical Component with Ray-Symmetry-Induced Image Stability - An optical pattern generator uses a rotating component that includes a number of deflection sectors containing optical elements. Each sector deflects an incident optical beam by a substantially constant angle although this angle may vary from one sector to the next. The constant deflection angle is achieved by symmetry within the deflection sector, specifically gut-ray symmetry. The rotating component may be combined with an imaging group that produces, for example, image points, spots, or lines displaced along a line locus. The image spots can also be displaced to either side of a line, for example by introducing a tilt in the orthogonal direction or by introducing light beams at various angles to the plane of symmetry. | 11-27-2008 |
20080273231 | Optical Scan Engine Using Rotating Mirror Sectors - An optical scan engine includes a rotatable component, for example a disk or drum. The rotatable component includes a plurality of scan sectors that are arranged around the rotation axis and that lie substantially in a plane of rotation. Each scan sector includes a pair of reflective surfaces that typically are radially-facing. The incident optical beam typically propagates along a radial direction (e.g., towards the rotation axis) and each pair of reflective surfaces deflects the incident optical beam by approximately 180 degrees as that pair rotates through the incident optical beam. The deflected optical beam has a virtual image located on the rotation axis. As a result, the real image of the deflected optical beam rotates around the rotation axis at the same angular velocity as the scan sectors. Different scan sectors can be designed to yield diffeent deflections in the axial direction. The addition of a third reflective surface to each scan sector can be used to generate image points that are fixed in space as the scan sector rotates. | 11-06-2008 |
20080262482 | METHOD AND DEVICE FOR TIGHTENING TISSUE USING ELECTROMAGNETIC RADIATION - Methods and devices for treatment of skin are disclosed. These methods and devices use electromagnetic radiation to create networks or patterns of treatment zones. The networks or patterns of treatment zones comprise at least four treatment zones, at least two of the treatment zones in the network or pattern are slanted at angles in the skin, and the treatment zones extend at least as deep as the dermal-epidermal junction of the skin. Producing intersecting treatment zones and/or overlapping treatment patterns can increase the effectiveness of the treatments. The devices comprise a hand piece operably coupled to a delivery element, wherein delivery of electromagnetic radiation through the device to a portion of skin produces a network or pattern of treatment zones. The use of these methods and devices results in tightening of the skin and/or improvement in the cosmetic appearance of wrinkles in the portion of skin treated. | 10-23-2008 |
20080255639 | METHOD AND DEVICE FOR TREATING TISSUE USING A COAGULATED BEAM PATH - The invention disclosed herein is directed to methods and devices for treating tissue having an overlying portion and an underlying portion by using a first fractional optical energy treatment to coagulate a plurality of zones in the overlying portion, thereby reducing the optical scattering of the overlying portion, and directing a subsequent fractional optical energy treatment through the coagulated zones to the underlying portion in order to produce an effective treatment in the underlying portion of a region of tissue. The methods and devices disclosed can further comprise detection and treatment of subsurface targets in the underlying portion of tissue. The treatment parameters used to deliver the first and subsequent treatments, including wavelength, can be optimized in order to provide a first optical treatment that effectively coagulates the overlying portion and a subsequent one or more optical treatments that effectively treat the underlying portion. | 10-16-2008 |
20080254006 | TREATMENT OF ALOPECIA BY MICROPORE DELIVERY OF STEM CELLS - A method of restoring hair to skin that has suffered hair loss includes optically ablating an array of spaced-apart microchannels or voids into the skin and transplanting into the voids stem cells, a scaffold and a differentiation factor for causing the stem cells to differentiate into hair follicles. | 10-16-2008 |
20080252956 | Optical Pattern Generator Using a Single Rotating Component - An optical pattern uses a single rotating component. The rotating component includes a number of deflection sectors. Each sector deflects an incident optical beam by a substantially constant angular amount although this amount may vary from one sector to the next. The rotating component may be combined with an imaging lens group that produces, for example, image points, spots, or lines displaced along a line locus. | 10-16-2008 |
20080208179 | METHODS OF INCREASING SKIN PERMEABILITY BY TREATMENT WITH ELECTROMAGNETIC RADIATION - Methods of treating tissue with fractional laser radiation are disclosed. The fractional laser treatment methods reversibly increase skin permeability while maintaining a substantially intact stratum corneum and producing alterations within the epidermis and dermis. The alterations in the epidermis and dermis can include necrosis and/or coagulation. The alterations in the epidermis can include the creation of a plurality of pores in the stratum corneum and/or the creation of vacuoles in the layers of the epidermis below the stratum corneum. The fractional laser treatment methods disclosed herein can be used to provide treatments to the skin, to increase permeation of active substances into or through tissue, to deliver active substances locally or systemically, and to control the delivery of active substances. | 08-28-2008 |
20080208178 | Method and Apparatus for Monitoring and Controlling Laser-Induced Tissue Treatment - The present invention provides improved methods and apparatus for controlling light-induced tissue treatment. In accordance with various aspects of the present invention, the invention provides for improved, real-time control of the light beam operational parameters which enables greater safety, efficiency, uniformity and continuity of the treatment process. | 08-28-2008 |