312 results about "Sudoriferous gland" patented technology

A method and system for ultrasound treatment of sweat glands are provided. An exemplary method and system for targeted treatment of sweat glands can be configured in various manners, such as through use of therapy only, therapy and monitoring, imaging and therapy, or therapy, imaging, and monitoring, and/or through use of focused, unfocused, or defocused ultrasound through control of various spatial and temporal parameters. As a result, ablative energy can be deposited at the particular depth at which the aberrant sweat gland population is located below the skin surface.

Disclosed herein are apparatuses, systems, kits, and methods for treating skin, such as skin tightening or for treating diseases, disorders, and conditions that would benefit from tissue area or volume reduction, skin restoration, skin tightening, skin lifting, and/or skin repositioning and/or for generally improving skin function or appearance (e.g., the removal of unwanted skin features or irregularities such as sebaceous glands, sweat glands, hair follicles, necrosis, and fibrosis). Such apparatuses, systems, kits, and methods comprise an apparatus having a handheld main body and a detachably attachable tip comprising one or more needles.

The invention provides an integrated framework for detecting peripheral sympathetic responses through imaging. The measurements may be performed on three facial areas of sympathetic importance, that is, periorbital, supraorbital, and maxillary. Because the imaging measurements are thermal in nature and comprise multiple components of variable frequency (i.e., blood flow, sweat gland activation, and breathing), wavelets are used as the image analysis framework. The image analysis may be grounded on GSR signals.

The invention relates to tissue engineering skin and a preparation method thereof. The tissue engineering skin comprises a dermis layer and an epidermis layer, and is prepared from seed cells, cell growth factors and a biological scaffold material according to a biological 3D printing technology. The tissue engineering skin is similar to natural skin, comprises the dermis layer and the epidermis layer, can be produced in batches, can be closely attached to a wound, and has high biocompatibility, the dermis layer contains blood vessels, sweat glands and hair follicles, the shape, size and thickness of the tissue engineering skin can be easily changed, the elasticity and flexibility of the skin after sound healing can be enhanced, and the tissue engineering transplantation success rate can be increased.

An apparatus, method and system are provided for sensing at least one biometric measure of an individual. An electrical current flows through an electrode to induce an electromagnetic field. The electromagnetic field stimulates and excites the molecules associated with the sweat gland pores and causes molecular compounds to fluoresce. An image of the fluoresced dermal surface is obtained and a biometric function is performed with data derived from the image. Alternatively, sweat gland pore biometric information may be derived from variations, fluctuations or disturbances to the electromagnetic field induced by the electrical current.

The invention relates to a preparation method of tissue engineering skin containing appendant organs. In the invention, the preparation method comprises the following steps of: inoculating amniotic mesenchyme stem cells, amniotic mesenchyme stem cells induced to the directions of hair papillae, amniotic epithelial cells and amniotic epithelial cells induced to the directions of the epithelia of the sweat gland into a gel solution, then inoculating the amniotic epithelial cells and the amniotic epithelial cells induced by keratinocyte in a warp direction on the surface of a structure of the hair follicle and the sweat gland after culturing by a dermal layer by induced culture forming the structure of the hair follicle and the sweat gland, and obtaining the tissue engineering skin with the structure of the hair follicle and the sweat gland after culturing. The skin has elasticity, toughness, vigorous cellular metabolism, strong multiplication capacity, sufficient secretion of extracellular matrices, tight linkage of the cuticular layer, the inophragma and the cells of the dermal layer and little possibility of falling off, enhances the success rate of transplantation, can promote the healing of a wound surface, enhances the effects of restoration and replacement and has the function of regulating the immunological rejection of a receptor; by the contained structure of the hair follicle and the sweat gland, the function of the skin is more complete; the adopted amniotic tissues are postpartum wastes and have extensive source, strong cell multiplication capability and multiplepassage frequency; and the invention is beneficial to the mass production of seed cells and lowers the industrialization cost.

The invention discloses a dynamic lumbar spinal cord comprehensive fumigation treatment device which is applied to the field of medical instruments and comprises a frame body and a supporting plate arranged on the frame body and allowing human bodies to lie low. A medicine heating bath is arranged below the supporting plate, a fumigation zone is arranged right above the medicine heating bath on the supporting plate, dense steam rising holes are formed in the fumigation zone, and a lower limb moving device is arranged behind the fumigation zone on the supporting plate. When a user lies low on the supporting plate to achieve fumigation on the lumbar spinal cord through the fumigation zone, the lower limb moving device can drive motion and tension of lumbar spinal cord tissues to ensure fumigated medicines to be to be absorbed and utilized fully and effectively, the user can move lower limbs positively, load increasing and torsional resistance flexion and extension and other activities of angles, hips and kneeds are performed actively, therefore, expansion of vessels in the body is prompted, blood circulation of body surface tissues and great secretion of sweat glands are promoted, activity of skins is improved quickly, and absorption effect of the skins is improved. The dynamic lumbar spinal cord comprehensive fumigation treatment device is novel in design and conforms to the skin pharmacology.

Non-pathological, physiologically normal sweating is inhibited through use of an a muscarinic anticholinergic amine that blocks parasympathetic stimuli from cholinergic nerve fibers to an innerved sweat gland. The anticholinergic agent is included in a form adapted to be topically applied to commonly sweaty areas of the body. Side effects are minimized by employing amines which are charged at physiological pH, thereby minimizing their ability to cross biological membranes. The most prefered anticholinergic agents are salts of quaternary amines (quaternary ammonium salts) which are always charged.

The invention relates to multi-character vivo identification method and device. On the basis that vivo skin displays sweat gland distribution, skin patterns (such as fingerprint) and other information under an infrared micro imaging system, an infrared detector detects vivo sweat gland information, the skin patterns (such as fingerprint) and other information which are acquired by the infrared micro imaging system and the vivo information with the presorted information are compared. The sweat gland imaging of the infrared micro imaging system is based on the temperature difference of the vivo surface skin and the vivo sweat gland, so single vivo can be identified by the method at higher safety so as to prevent the illegal camouflage.

An apparatus, method and system are provided for sensing at least one biometric measure of an individual. An electrical current flows through an electrode to induce an electromagnetic field. The electromagnetic field stimulates and excites the molecules associated with the sweat gland pores and causes molecular compounds to fluoresce. An image of the fluoresced dermal surface is obtained and a biometric function is performed with data derived from the image. Alternatively, sweat gland pore biometric information may be derived from variations, fluctuations or disturbances to the electromagnetic field induced by the electrical current.

The invention discloses a sweating suppression deodorant composition which comprises the following components in percentage by weight: 0.01-3% of cyperus rotundus root extract, 0.01-3% of farnesol, 0.01-3% of honeysuckle flower extract, 0.01-3% of mulberry leaf extract, 5-30% of antiperspirant, 0.1-3% of essential oil and the balance of auxiliaries. The sweating suppression deodorant composition disclosed by the invention can be prepared into multiple dosage forms; due to the interaction of multiple active components, the sweating suppression deodorant composition has the functions of suppressing sweat gland secretion, suppressing smelly bacteria, eliminating dampness with aromatics and protecting skin and diminishing inflammation; and the sweating suppression deodorant composition is rich in natural plant components and has the characteristics of little toxic and side effect, high effect taking speed, lasting effect and good clinical effect.

The present invention discloses a method for three dimensional printing artificial skin. The method comprises the following steps of: printing a dermis layer by a hydrogel combined with an autologousdermal cell; printing an epidermis layer on the dermis layer by a hydrogel combined with an autologous kerationocytes cell; and implanting a plurality of progenitor cells for sweat glands and hair follicles through the epidermis layer into the dermis layer to form an artificial skin. Because all used materials are from the autologous skin, and the 3D printing technology is used to implant the progenitor cells for sweat glands and hair follicles to form the artificial skin which has sweat glands and hair follicles. According to the method, an artificial skin with a complete skin structure is completed.

The invention relates to a method and a formula for promoting hair growth. The method for promoting the hair growth is characterized by comprising the following steps: firstly fumigating the head by adopting a soak solution of fumigating powder; secondly, smearing a toning liquid agent with special effect on the head and expelling toxins by combining a toxin expelling instrument; thirdly, smearing an intensive scalp care liquid agent on the to-be-treated parts of the head and carrying out radiation on main and collateral channels of the whole head; fourthly, spraying a hair root activin agent to the to-be-treated parts, wrapping the whole head by adopting a piece of preservative paper, heating by combining a four-core heat energy lamp, and then irradiating by adopting a fire cloud tunnel instrument; and finally smearing a hair drying and thickening essence liquid agent on to-be-treated scalps and hair roots, wrapping the whole head by adopting a piece of preservative paper, heating by virtue of the four-core heat energy lamp, and then introducing. The method for promoting the hair growth is simple, safe and reliable in operation and can be used by combining with the formula, so that a medicine can contact skin of the head under the fumigation action, blood capillaries are expanded under the actions of temperature and pressure, medicinal ingredients are absorbed through permeation by virtue of sweat glands and sebaceous glands on skin and act on the to-be-treated positions under the blood circulation action, the main and collateral channels are stimulated to achieve the aim of treatment, alopecia formed by nature and nurture can be effectively treated, and the effects of growing hairs and removing hair oil and scalp acnes can be realized.

The invention discloses a fingerprint authenticity discrimination method based on the sweat gland and a fingerprint identification method. The fingerprint authenticity discrimination method comprisesobtaining a three-dimensional fingerprint image and extracting an external fingerprint; extracting an internal fingerprint according to the external fingerprint; selecting a sweat gland area accordingto the internal fingerprint and the external fingerprint; carrying out tubular filtering on the sweat gland area to obtain a tubular structure, carrying out binarization processing on the tubular structure by means of a preset sweat gland threshold, removing non sweat gland tubular structures, and obtaining a sweat gland image; correcting the sweat gland image according to the direction information and the helical structure information of the sweat gland; and judging whether the current fingerprint is an artificial fingerprint from the sweat gland image. The fingerprint identification methodbased on the sweat gland comprises that for a fingerprint to be identified, after the sweat gland image is obtained according to the above sweat gland extraction steps, the sweat gland in the sweat gland image is compared with an existing sweat gland in the system, comparison of the internal fingerprint and the external fingerprint is combined at the same time, and fingerprint identification is carried out according to the comparison result.

The invention discloses a dynamic knee comprehensive-fumigation treatment device. The dynamic knee comprehensive-fumigation treatment device is used in the field of medical apparatuses and instruments and comprises a fumigation barrel, wherein a pot body contained with a medicament and a heat source for heating the pot body are arranged in the fumigation barrel, two sides of the fumigation barrel are oppositely provided with a seat and a foot movement mechanism. The foot movement mechanism is added on the opposite side of the seat of the dynamic knee comprehensive-fumigation treatment device, so that a user can perform continuous foot movement through the foot movement mechanism while being subjected to knee fumigation and then achieve knee joint movement in the mode, the knee and systemic blood vessels further dilate, blood circulation of body surface tissues and copious secretion of sweat glands are promoted, and finally the absorption effect of the skin is improved. The dynamic knee comprehensive-fumigation treatment device is novel in design and conforms to the skin pharmacology.