Patent application number | Description | Published |
20090221608 | PYRAZOLE COMPOUNDS - The present invention is directed to compounds of Formula (I), | 09-03-2009 |
20090318440 | CARBONYLAMINO PYRROLOPYRAZOLES, POTENT KINASE INHIBITORS - Carbonylamino Pyrrolopyrazole compounds of formula I, compositions including these compounds and methods of their use are provided. Preferred compounds of formula I have activity as protein kinase inhibitors, including as inhibitors of PAK4. | 12-24-2009 |
20100222342 | PYRROLOPYRAZOLE, POTENT KINASE INHIBITORS - Pyrrole pyrazole compounds of formula I, compositions including these compounds and methods of their use are provided. Preferred compounds of formula I have activity as protein kinase inhibitors, including as inhibitors of PAK4. | 09-02-2010 |
20120264751 | PYRROLOPYRAZOLES, POTENT KINASE INHIBITORS - Pyrrole pyrazole compounds of formula I, compositions including these compounds and methods of their use are provided. Preferred compounds of formula I have activity as protein kinase inhibitors, including as inhibitors of PAK4. | 10-18-2012 |
Patent application number | Description | Published |
20090033728 | INK SET, INK SYSTEM AND METHOD FOR PRINTING AN IMAGE - An ink set includes a red ink and a magenta ink. The red ink includes an effective amount of a red pigment having a predetermined red/green lambda cutoff, and the magenta ink includes an effective amount of a magenta pigment having a predetermined red/green lambda cutoff that is substantially similar to the predetermined lambda cutoff of the red pigment. | 02-05-2009 |
20130085217 | POLYURETHANE-CONTAINING INKJET INK - The present disclosure provides inks, ink sets, and method for manufacturing inkjet inks. The inkjet ink comprises a colorant; a liquid vehicle; a surfactant; and a polyurethane binder, the polyurethane binder including polymerized monomers of a polyether polyol, a diisocyanate, and an acid polyol, where the polyurethane binder has a Mw from about 35K to 50K and an acid number from 51 to 60. | 04-04-2013 |
20130194363 | Ink Jet Ink with High Structure Pigment Particles - An ink jet ink with high structure pigment particles can include a liquid vehicle, high structure pigment particles dispersed in the liquid vehicle at from about 0.2 wt % to about 5.0 wt %, and a polyurethane binder present in the liquid vehicle at from about 0.2 wt % to about 5.0 wt %. The high structure pigment particles can have polymer dispersant adsorbed onto a surface thereof, a DBP absorption value at a minimum of about 75 ml/100 g, and a surface area of about 200 m | 08-01-2013 |
20130208046 | INK SET HAVING MIX COLOR GLOSS UNIFORMITY - The present disclosure provides ink sets and related methods mix color gloss uniformity. The ink set can include a black ink with a black pigment having a particle size of about 14 nm to about 16 nm, a DBP absorption of about 80 ml/100 g to about 350 ml/100 g, and a BET surface area of about 160 m | 08-15-2013 |
20140300673 | INK COMPOSITION - An ink composition is disclosed herein. The ink composition includes from about 5 wt % to about 25 wt % of a co-solvent; from about 0.025 wt % to about 0.2 wt % of i) a chelating agent represented by formula 1, wherein R′ is a carboxylic acid functional group or a carboxylate salt functional group and n>2; ii) a chelating agent represented by formula 2:, wherein R is a carboxylic acid functional group or a carboxylate salt functional group, m is greater than or equal to 1, x is greater than or equal to 2, y is greater than or equal to 1, and z is greater than or equal to 2; iii) a chelating agent represented by formula 3, wherein any of r, s, t, or u is a sulfonic acid functional group or a sulfonate functional group; or iv) combinations of any of i, ii, and iii. The ink composition also includes a balance of water. | 10-09-2014 |
Patent application number | Description | Published |
20100159958 | POST-DEPLOYMENT CALIBRATION FOR WIRELESS POSITION DETERMINATION - Methods and apparatuses are directed to calibrating a misconfigured wireless access point. One method may include receiving a position of mobile station(s) and wireless signal model measurements derived from packets exchanged between the mobile station(s) and a plurality of wireless access points, receiving positions and/or identities of the plurality of wireless access points used in determining the position of the mobile station(s), comparing a position of the mobile station(s) with wireless signal model measurements, and identifying a misconfigured wireless access point based upon the comparing. Another method may include receiving positions associated with a plurality of wireless access points, determining a position of a mobile station based upon a wireless signal model, comparing the position of the mobile station and the wireless signal model with the positions associated with the plurality of wireless access points, and determining whether at least one wireless access point is misconfigured. | 06-24-2010 |
20130064044 | ACOUSTIC MODEM FOR FLUID MONITORING IN MEDICAL AND INDUSTRIAL APPLICATIONS - The various embodiments provide systems, devices, and methods which include an acoustic tag configured to transmit an acoustic signal through a contact medium that may be received by an acoustic modem, with the acoustic signal configured to transmit information. By modulating sound traveling through an acoustic connection between the fluid container and a pump, meter or valve, information such as an identifier of the fluid or container may be transmitted without risk of confusion with other fluid containers in the vicinity. In a medical embodiment, IV fluid and the IV drip tube provide a fluid and plastic acoustic connection to an IV pumping or metering device and an IV bag through which sound may be transmitted. The transmission of identification information through this physical connection may insure that the pumping or metering device only communicates with the IV bag coupled to the pump. Acoustic tags may be active or passive. | 03-14-2013 |
20130072228 | POST-DEPLOYMENT CALIBRATION FOR WIRELESS POSITION DETERMINATION - Methods and apparatuses are directed to calibrating a misconfigured wireless access point. One method may include receiving a position of mobile station(s) and wireless signal model measurements derived from packets exchanged between the mobile station(s) and a plurality of wireless access points, receiving positions and/or identities of the plurality of wireless access points used in determining the position of the mobile station(s), comparing a position of the mobile station(s) with wireless signal model measurements, and identifying a misconfigured wireless access point based upon the comparing. Another method may include receiving positions associated with a plurality of wireless access points, determining a position of a mobile station based upon a wireless signal model, comparing the position of the mobile station and the wireless signal model with the positions associated with the plurality of wireless access points, and determining whether at least one wireless access point is misconfigured. | 03-21-2013 |
20130102253 | DISTRIBUTED CONTROL OF MEDICAL DEVICES TO AVOID EFFECTS OF INTERFERENCE - Certain aspects of the present disclosure provide techniques and apparatus for transmitting relatively more critical information between devices using a first wireless technology and transmitting relatively less critical information using a second wireless technology more susceptible to interference than the first wireless technology. One example method generally includes performing an association with a second apparatus via a first wireless technology, wherein the first wireless technology requires proximity between the first and second apparatuses; communicating first information with the second apparatus via the first wireless technology, a second wireless technology, or a combination of both the first and second wireless technologies, while the first and second apparatuses are still in proximity; and communicating second information with the second apparatus via the second wireless technology. | 04-25-2013 |
20130102963 | SECURE AUTOMATIC CONFIGURATION OF EQUIPMENT THROUGH REPLICATION - Certain aspects of the present disclosure provide techniques and apparatus for secure automatic configuration of equipment through replication. One example method generally includes receiving a request for configuration information used to configure at least a first device to be replicated in at least a second device; and communicating the configuration information to the second device, in response to the request. At least one of the first and second wireless devices may be a medical device, and/or the configuration information may include patient treatment information. In this manner, the amount of configuration data entry by a caregiver and the number of errors in this configuration data are most likely considerably reduced. Furthermore, in an emergency, a common medical treatment may be easily configured for many patients at once (i.e., the configuration information may be easily replicated from patient device to patient device). | 04-25-2013 |
20150303968 | SMART-PHONE INPUT/OUTPUT - A mobile device case includes a housing configured for receiving a mobile device having wireless connectivity. The mobile device case also includes a wireless communication device integrated within the housing. The wireless communication device is configured to interface with the mobile device to augment the wireless connectivity of the mobile device. | 10-22-2015 |
20150304465 | SMART-PHONE INPUT/OUTPUT - A mobile device case includes a housing configured for receiving a mobile device. The mobile device case also includes one or more general-purpose programmable input/output (I/O) ports. The one or more general-purpose programmable input/output (I/O) ports are partially integrated within the housing. | 10-22-2015 |
Patent application number | Description | Published |
20090028585 | Interactive visual card-selection process for mitigating light-area banding in a pagewide array - Preferably, test-patterns print on separate, multiple print-medium cards, each including a ramp with colors graded along a certain direction—and, superimposed on the ramp, a candidate add-on colorant. Ramps preferably are printed in so-called “customer colors”, common in snapshots and particularly snapshot regions that include sky. Positions or amounts of the candidate add-on colorant canvass a likely range of values that optimize camouflaging or suppression of a banding artifact (due to seams in the pagewide array) that is extended along the same certain direction. For each seam and each “customer color” used, an operator holds up several cards for comparison, selecting the best one to three. Operators thus can evaluate candidate colorant patterns in context of many different tones of the sky and other customer colors. Preferably banding suppression is integrated with linearization: at each seam a series of linearization tables is smoothly interpolated between measurement-based tables for adjacent inkjet dice. | 01-29-2009 |
20090153605 | DOUBLE-SIDED PRINTING SYSTEM - A method for double-sided printing may include ejecting printing fluid from a fluid ejector to a platen configured to receive print media, the platen supporting a nonabsorbent substrate. In any sequence, a first print media side and a second print media side may be printed by ejecting printing fluid from the fluid ejector to the first print media side, and contacting the second print media side with the nonabsorbent substrate to transfer printing fluid from the nonabsorbent substrate to the second print media side. A method for double-side printing may further include increasing the contact between the second print media side with the nonabsorbent substrate to increase transfer of printing fluid. | 06-18-2009 |
20130004070 | Skin Color Detection And Adjustment In An Image - A preferred skin tone region is determined within a luminance-chrominance color space for each of a plurality of luminance values. Additional preferred skin tone regions are determined by interpolation in view of the initially determined preferred skin tone regions. An ellipsoid skin-color model is generated in the luminance-chrominance color space based on the preferred skin tone regions. The ellipsoid skin-color is used to detect a skin color pixel in an image and adjust one or more color values for the skin color pixel. | 01-03-2013 |
20130100192 | PRINTING NEAR SATURATION - A printer is disclosed. The printer prints colors near saturation using mostly a first ink and prints saturated colors using mostly a second ink. The second ink has a reduced loading of the colorant in the first ink. | 04-25-2013 |
Patent application number | Description | Published |
20140181986 | UNIQUE AND UNCLONABLE PLATFORM IDENTIFIERS USING DATA-DEPENDENT CIRCUIT PATH RESPONSES - A method and apparatus are provided for generating a unique identifier. One or more tests are performed over one or more data-dependent circuit paths for one or more circuits. The one or more tests are then repeated over the one or more data-dependent circuit paths for the one or more circuits while adjusting an operating frequency and/or operating voltage for each of the one or more circuits. A threshold frequency and/or threshold voltage is ascertained for each of the one or more data-dependent circuit paths. An identifier may then be generated based on a plurality of the threshold frequencies and/or threshold voltages ascertained for the one or more data-dependent circuit paths. | 06-26-2014 |
20140201851 | METHOD AND APPARATUS FOR USING DYNAMIC VOLTAGE AND FREQUENCY SCALING WITH CIRCUIT-DELAY BASED INTEGRATED CIRCUIT IDENTIFICATION - One feature pertains to a method that includes implementing a Physical Unclonable Function (PUF) circuit, and obtaining a first set of output bits from the PUF circuit by operating the PUF circuit at a first supply voltage level and/or first frequency. Then, at least one of the first supply voltage level is changed to a second supply voltage level and/or the first frequency is changed to a second frequency, where the second supply voltage level and the second frequency are different than the first supply voltage level and the first frequency, respectively. A second set of output bits is then obtained by operating the PUF circuit at the second supply voltage level and/or the second frequency, where the second set of output bits is in part different than the first set. Secure data is generated using the first set of output bits and the second sets of output bits. | 07-17-2014 |
20150058928 | APPLYING CIRCUIT DELAY-BASED PHYSICALLY UNCLONABLE FUNCTIONS (PUFS) FOR MASKING OPERATION OF MEMORY-BASED PUFS TO RESIST INVASIVE AND CLONE ATTACKS - One feature pertains to generating a unique identifier for an electronic device by combining static random access memory (SRAM) PUFs and circuit delay based PUFs (e.g., ring oscillator (RO) PUFs, arbiter PUFs, etc.). The circuit delay based PUFs may be used to conceal either a challenge to, and/or response from, the SRAM PUFs, thereby inhibiting an attacker from being able to clone a memory device's response. | 02-26-2015 |
20150070979 | PHYSICALLY UNCLONABLE FUNCTION BASED ON PROGRAMMING VOLTAGE OF MAGNETORESISTIVE RANDOM-ACCESS MEMORY - One feature pertains to a method of implementing a physically unclonable function. The method includes initializing an array of magnetoresistive random-access memory (MRAM) cells to a first logical state, where each of the MRAM cells have a random transition voltage that is greater than a first voltage and less than a second voltage. The transition voltage represents a voltage level that causes the MRAM cells to transition from the first logical state to a second logical state. The method further includes applying a programming signal voltage to each of the MRAM cells of the array to cause at least a portion of the MRAM cells of the array to randomly change state from the first logical state to the second logical state, where the programming signal voltage is greater than the first voltage and less than the second voltage. | 03-12-2015 |
20150071430 | PHYSICALLY UNCLONABLE FUNCTION BASED ON THE INITIAL LOGICAL STATE OF MAGNETORESISTIVE RANDOM-ACCESS MEMORY - One feature pertains to a method for implementing a physically unclonable function (PUF). The method includes providing an array of magnetoresistive random access memory (MRAM) cells, where the MRAM cells are each configured to represent one of a first logical state and a second logical state. The array of MRAM cells are un-annealed and free from exposure to an external magnetic field oriented in a direction configured to initialize the MRAM cells to a single logical state of the first and second logical states. Consequently, each MRAM cell has a random initial logical state of the first and second logical states. The method further includes sending a challenge to the MRAM cell array that reads logical states of select MRAM cells of the array, and obtaining a response to the challenge from the MRAM cell array that includes the logical states of the selected MRAM cells of the array. | 03-12-2015 |
20150071431 | PHYSICALLY UNCLONABLE FUNCTION BASED ON THE RANDOM LOGICAL STATE OF MAGNETORESISTIVE RANDOM-ACCESS MEMORY - One feature pertains to a method of implementing a physically unclonable function (PUF). The method includes exposing an array of magnetoresistive random access memory (MRAM) cells to an orthogonal external magnetic field. The MRAM cells are each configured to represent one of a first logical state and a second logical state, and the orthogonal external magnetic field is oriented in an orthogonal direction to an easy axis of a free layer of the MRAM cells to place the MRAM cells in a neutral logical state that is not the first logical state or the second logical state. The method further includes removing the orthogonal external magnetic field to place each of the MRAM cells of the array randomly in either the first logical state or the second logical state. | 03-12-2015 |
20150071432 | PHYSICALLY UNCLONABLE FUNCTION BASED ON RESISTIVITY OF MAGNETORESISTIVE RANDOM-ACCESS MEMORY MAGNETIC TUNNEL JUNCTIONS - One feature pertains to least one physically unclonable function based on an array of magnetoresistive random-access memory (MRAM) cells. A challenge to the array of MRAM cells may identify some of the cells to be used for the physically unclonable function. Each MRAM cell may include a plurality of magnetic tunnel junctions (MTJs), where the MTJs may exhibit distinct resistances due to manufacturing or fabrication variations. A response to the challenge may be obtained for each cell by using the resistance(s) of one or both of the MTJs for a cell to obtain a value that serves as the response for that cell. The responses for a plurality of cells may be at least partially mapped to provide a unique identifier for the array. The responses generated from the array of cells may serve as a physically unclonable function that may be used to uniquely identify an electronic device. | 03-12-2015 |
20150074433 | PHYSICALLY UNCLONABLE FUNCTION BASED ON BREAKDOWN VOLTAGE OF METAL- INSULATOR-METAL DEVICE - One feature pertains to a method of implementing a physically unclonable function that includes providing an array of metal-insulator-metal (MIM) devices, where the MIM devices are configured to represent a first resistance state or a second resistance state and a plurality of the MIM devices are initially at the first resistance state. The MIM devices have a random breakdown voltage that is greater than a first voltage and less than a second voltage, where the breakdown voltage represents a voltage that causes the MIM devices to transition from the first resistance state to the second resistance state. The method further includes applying a signal line voltage to the MIM devices to cause a portion of the MIM devices to randomly breakdown and transition from the first resistance state to the second resistance state, the signal line voltage greater than the first voltage and less than the second voltage. | 03-12-2015 |
20150101037 | PHYSICALLY UNCLONABLE FUNCTION PATTERN MATCHING FOR DEVICE IDENTIFICATION - A method is provided for using obtaining a reproducible device identifier from a physically unclonable function. An authentication device may receive a first physically unclonable function (PUF) dataset from the electronic device, the first PUF dataset including characteristic information generated from a physically unclonable function in the electronic device. The authentication device may then identify a pre-stored PUF dataset corresponding to the electronic device. Authentication of the electronic device may be performed by correlating the pre-stored PUF dataset and the first PUF dataset for the electronic device, wherein such correlation is based on a pattern or distribution correlation the pre-stored PUF dataset and the first PUF dataset. Because such correlation is performed on datasets, and not individual points, systematic variations can be recognized by the correlation operation leading to higher correlation than point-by-point comparisons. | 04-09-2015 |
20150207624 | KEY EXTRACTION DURING SECURE BOOT - One feature pertains to a method for extracting a secret key during a secure boot flow of an integrated circuit. Specifically, the secure boot flow includes powering ON a first volatile memory circuit to generate a plurality of initial logical state values, deriving secret data based on the plurality of initial logical state values, storing the secret data in a secure volatile memory circuit that is secured by a secure execution environment (SEE), clearing the plurality of initial logical state values in the first volatile memory circuit, executing a cryptographic algorithm at the SEE to extract a secret key based on the secret data, and storing the secret key in the secure volatile memory circuit. The secure boot flow controls access to the first volatile memory circuit to secure the secret data and the plurality of initial logical state values from the insecure applications. | 07-23-2015 |
20150222421 | COUNTERMEASURES AGAINST SIDE-CHANNEL ATTACKS ON CRYPTOGRAPHIC ALGORITHMS - Techniques for encrypting data are provided that can be used to help prevent side-channel attacks on the cryptographic algorithms. An example method according to these techniques includes permuting an order of first intermediate data according to a predetermined permutation to produce permuted intermediate data. The first inter mediate data is output by one or more first stages of a cryptographic algorithm. The method also includes permuting a key to be used by one or more second stages of a cryptographic algorithm according to the predetermined permutation, applying the one or more second stages of a cryptographic algorithm to the permuted intermediate data to generate second intermediate data, the one or more second stages of the cryptographic algorithm using the permuted key, and permuting the second intermediate data according to an inverse permutation of the predetermined permutation to generate output. | 08-06-2015 |
Patent application number | Description | Published |
20130282369 | SYSTEMS AND METHODS FOR AUDIO SIGNAL PROCESSING - A method for signal level matching by an electronic device is described. The method includes capturing a plurality of audio signals from a plurality of microphones. The method also includes determining a difference signal based on an inter-microphone subtraction. The difference signal includes multiple harmonics. The method also includes determining whether a harmonicity of the difference signal exceeds a harmonicity threshold. The method also includes preserving the harmonics to determine an envelope. The method further applies the envelope to a noise-suppressed signal. | 10-24-2013 |
20130282372 | SYSTEMS AND METHODS FOR AUDIO SIGNAL PROCESSING - A method for detecting voice activity by an electronic device is described. The method includes detecting near end speech based on a near end voiced speech detector and at least one single channel voice activity detector. The near end voiced speech detector is associated with a harmonic statistic based on a speech pitch histogram. | 10-24-2013 |
20130282373 | SYSTEMS AND METHODS FOR AUDIO SIGNAL PROCESSING - A method for restoring a processed speech signal by an electronic device is described. The method includes obtaining at least one audio signal. The method also includes performing bin-wise voice activity detection based on the at least one audio signal. The method further includes restoring the processed speech signal based on the bin-wise voice activity detection. | 10-24-2013 |
20130339011 | SYSTEMS, METHODS, APPARATUS, AND COMPUTER-READABLE MEDIA FOR PITCH TRAJECTORY ANALYSIS - Systems, methods, and apparatus for pitch trajectory analysis are described. Such techniques may be used to remove vocals and/or vibrato from an audio mixture signal. For example, such a technique may be used to pre-process the signal before an operation to decompose the mixture signal into individual instrument components. | 12-19-2013 |
20150162014 | SYSTEMS AND METHODS FOR ENHANCING AN AUDIO SIGNAL - A method for enhancing an audio signal by an electronic device is described. The method includes determining formant peaks based on an audio signal. The method also includes generating formant peak models. Generating formant peak models includes individually modeling each formant peak. The method further includes generating a global envelope based on the formant peak models. | 06-11-2015 |
20150243284 | SYSTEMS AND METHODS FOR SPEAKER DICTIONARY BASED SPEECH MODELING - A method for speech modeling by an electronic device is described. The method includes obtaining a real-time noise reference based on a noisy speech signal. The method also includes obtaining a real-time noise dictionary based on the real-time noise reference. The method further includes obtaining a first speech dictionary and a second speech dictionary. The method additionally includes reducing residual noise based on the real-time noise dictionary and the first speech dictionary to produce a residual noise-suppressed speech signal at a first modeling stage. The method also includes generating a reconstructed speech signal based on the residual noise-suppressed speech signal and the second speech dictionary at a second modeling stage. | 08-27-2015 |
20150301796 | SPEAKER VERIFICATION - A device includes a memory, a receiver, a processor, and a display. The memory is configured to store a speaker model. The receiver is configured to receive an input audio signal. The processor is configured to determine a first confidence level associated with a first portion of the input audio signal based on the speaker model. The processor is also configured to determine a second confidence level associated with a second portion of the input audio signal based on the speaker model. The display is configured to present a graphical user interface associated with the first confidence level or associated with the second confidence level. | 10-22-2015 |
Patent application number | Description | Published |
20130274182 | ENGINEERED POLYPEPTIDES HAVING ENHANCED DURATION OF ACTION - Compounds are provided having inter alia good duration of action, high potency and/or convenient dosing regimens including once weekly administration. The compounds are engineered polypeptides which incorporate an albumin binding domain in combination with one or more biologically active polypeptides. Also provided are pharmaceutical compositions and methods of treatment for diseases and disorders including lipodystrophy, dyslipidemia, hyperlipidemia, overweight, obesity, hypothalamic amenorrhea, Alzheimer's disease, leptin deficiency, fatty liver disease or diabetes (including type I and type II). Additional diseases and disorders which can be treated by the compounds and methods described herein include nonalcoholic steatohepatitis (NASH) and nonalcoholic fatty liver disease (NAFLD), metabolic syndrome X and Huntington's Disease. | 10-17-2013 |
20140107019 | ENGINEERED POLYPEPTIDES HAVING ENHANCED DURATION OF ACTION - Compounds are provided having inter alia good duration of action, high potency and/or convenient dosing regimens including oral administration. The compounds are engineered polypeptides which incorporate an albumin binding domain in combination with one or more biologically active polypeptides. Also provided are pharmaceutical compositions and methods of treatment for diseases and disorders including obesity and overweight, diabetes, dyslipidemia, hyperlipidemia, Alzheimer's disease, fatty liver disease, short bowel syndrome, Parkinson's disease, cardiovascular disease, and other and disorders of the central nervous system. | 04-17-2014 |
20140235535 | ENGINEERED POLYPEPTIDES HAVING ENHANCED DURATION OF ACTION WITH REDUCED IMMUNOGENICITY - Compounds are provided having inter alia good duration of action, high potency and/or convenient dosing regimens including oral administration, and reduced immunogenicity. The compounds are engineered polypeptides which incorporate an albumin binding domain in combination with one or more biologically active polypeptides. Also provided are pharmaceutical compositions and methods of treatment for diseases and disorders including obesity and overweight, diabetes, dyslipidemia, hyperlipidemia, Alzheimer's disease, fatty liver disease, Short Bowel Syndrome, Parkinson's disease, and cardiovascular disease. | 08-21-2014 |
20140256621 | ENGINEERED POYPEPTIDES HAVING ENHANCED DURATION OF ACTION AND REDUCED IMMUNOGENICITY - Compounds are provided having inter alia good duration of action, high potency and/or convenient dosing regimens including once weekly administration. The compounds are engineered polypeptides which incorporate an albumin binding domain in combination with one or more biologically active polypeptides. Also provided are pharmaceutical compositions and methods of treatment for diseases and disorders including lipodystrophy, dyslipidemia, hyperlipidemia, overweight, obesity, hypothalamic amenorrhea, Alzheimer's disease, leptin deficiency, fatty liver disease or diabetes (including type I and type II). Additional diseases and disorders which can be treated by the compounds and methods described herein include nonalcoholic steatohepatitis (NASH) and nonalcoholic fatty liver disease (NAFLD), metabolic syndrome X and Huntington's Disease. | 09-11-2014 |