Israel state records י"ג בשבט התשס"ח January 20, 2008
הרכבי רוקחות של אכינוקאנידין המכילים חומרים פעילי שטח היוצרים מיצלות
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- מערכת ריפוי על עורית עם ניקוטין וקטונים של מונוטרפן ותהליך להסוואת ריח לא נעים הנגרם על דידי תכולתה של ניקוטין
- 145513 [21][11] מונע קריאה מעין–רפלקטיבי עבור אמצעי אחסון אופטי
- 145624 [21][11] ראש קליע חודר בלתי רגיש עם אמצעי אוורור
- 145683 [21][11] מכשיר ושיטה למדוד חומרים בעלי פעילות אופטי
[57] A parenteral pharmaceutical formulation comprising (i) an echinocandin compound, or a pharmaceutically acceptable salt thereof; (ii) a pharmaceutically acceptable micelle-forming surfactant; (iii) a non-toxic, aqueous solvent; and (iv) a stabilizing agent; wherein said surfactant is present in said formulation at a weight ratio of echinocandin compound to micelle-forming surfactant from 1:1.75 to 1:25 and said echinocandin compound is present in an amount greater than or equal to 1 mg/ml; wherein said stabilizing agent is a carbohydrate; and wherein said echinocandin compound is represented by the following structure:
and pharmaceutically acceptable salts thereof. __________
[57] Transdermal therapeutic system having a backing layer, at least one nicotine-containing layer or zone, which may have pressure-sensitive adhesive properties, as well as a removable protective layer, characterized by a content of at least one essential oil extracted from a mint species and containing a predominant portion of monoterpene ketones, or by a content of the least one monoterpene ketone contained in these essential oils. __________
[57] An optically-readable medium (100) comprising: a reflective layer (120); at least one substrate (110) coupled to said reflective layer, said substrate layer comprises one or more substrate layers through which laser light from an optical readable medium reading device passes before impinging on the reflective layer; a first reactive agent disposed in the optical path of said laser light, said first reactive agent inhibits the ability of the laser light to read the reflective layer after a first predetermined time; a second reactive agent, said second reactive agent degrades the integrity of the reflective layer after a second predetermined time; and wherein said first reactive agent inhibits the ability of the laser light to read the reflective layer by changing from a first optical state that is substantially transparent to the laser light to a second optical state that is substantially opaque to the laser light in response to a predetermined stimulus within said first predetermined time. __________
[57] A warhead assembly comprising: a penetrating warhead casing (200) having a substantially ogiveshaped nose portion (220), an aft end portion (206), an interior surface (210) extending from the aft end portion including a forward interior end surface (212) defining an explosive payload receiving section; an explosive material (106) contained in the payload receiving section of the warhead casing and disposed along the interior surface, the explosive material having a composition comprising 19-21 weight % 4μ RDX; a bore formed in said aft end portion; an aft closure ring (306) fitted within said bore, and a vent (308) disposed within said aft closure ring.
__________
[57] Apparatus for sensing and measuring optically active material in a sample, comprising: (a) a light source (12) emitting light of a wavelength that can pass through the sample; (b) a light transparent sample container (16) for holding the sample; (c) a linear polarizer (14) interposed between the light source and the sample for producing a polarized light beam; (d) a symmetrical linear split-field polarizer (18), having a polarity from about 90o±45o to 90o±1/2o with respect of the first linear polarizer, said polarizer being fixedly positioned to intercept the polarized light that passed through the sample; (e) detectors (20a), (20b) to detect the split light beams passing through each polarizer of the split-field polarizer; (f) means (not shown) to amplify the current or voltage passing through each of the detectors; (g) a differential amplifier (24); (h) a data processor (26); (i) a display (28); and (j) electronic circuitry to operate the apparatus and provide an output on the display.
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