Abstract: The present invention relates to methods and compositions for improved detection of infectious agents and microbes. In particular, the present invention provides novel methods for detecting infectious agents, providing information about the viability status of such infectious agents and for determining drug susceptibility. In certain embodiments, the present invention employs techniques involving nucleic acid amplification-based microbial identification together with phage-based biological detection of drug resistance. The methods of the invention are suitable for all microbes and infectious agents, including bacterial agents such as Mycobacteria.

Abstract: Methods and compositions for treating disease caused by infectious agents, particularly tuberculosis. In particular, methods and compositions comprising substituted ethylene diamines for the treatment of infectious diseases are provided. In one embodiment, these methods and compositions are used for the treatment of mycobacterial infections, including, but not limited to, tuberculosis.

Abstract: Methods and compositions for treating disease caused by infectious agents, particularly tuberculosis. In particular, methods and compositions comprising substituted ethylene diamines for the treatment of infectious diseases are provided. In one embodiment, these methods and compositions are used for the treatment of mycobacterial infections, including, but not limited to, tuberculosis. In certain embodiments, the present invention comprises compositions comprising novel substituted ethylene diamine compounds further comprising antitubercular agents such as rifampicin, isoniazid, pyrazinamide and ethambutol.

Abstract: The present invention relates to methods and compositions for improved detection of infectious agents and microbes. In particular, the present invention provides novel methods for detecting infectious agents, providing information about the viability status of such infectious agents and for determining drug susceptibility. In certain embodiments, the present invention employs techniques involving nucleic acid amplification-based microbial identification together with phage-based biological detection of drug resistance. The methods of the invention are suitable for all microbes and infectious agents, including bacterial agents such as Mycobacteria.

Abstract: Methods and compositions for treating disease caused by infectious agents, particularly tuberculosis. In particular, methods and compositions comprising substituted ethylene diamines for the treatment of infectious diseases are provided. In one embodiment, these methods and compositions are used for the treatment of mycobacterial infections, including, but not limited to, tuberculosis.

Abstract: Methods and compositions for the detection of disease caused by infectious agents and microbes are provided. In particular, methods and compositions comprising novel combinations of nucleic acid amplification and drug susceptibility technologies are provided. In certain embodiments, the present invention enables the detection of infectious agents and microbes as well as providing information concerning the viability status of the agent or microbe. In one embodiment, the present invention is used for the detection of mycobacterial infections, including, but not limited to, tuberculosis.

Abstract: Methods and compositions for treating disease caused by infectious agents, particularly tuberculosis. In particular, methods and compositions comprising substituted ethylene diamines for the treatment of infectious diseases are provided. In one embodiment, these methods and compositions are used for the treatment of mycobacterial infections, including, but not limited to, tuberculosis.

Abstract: The invention relates to infectious disease healthcare systems and methods. One embodiment of systems and processes according to various embodiments of the invention focuses on a method for providing a healthcare delivery franchise system. The method includes creating a not-for-profit franchisor entity. In addition, the method includes assessing a plurality of locations for a corresponding plurality of healthcare delivery clinics, wherein the demand for healthcare services from each healthcare delivery clinic and the revenue from each healthcare delivery clinic are estimated. Furthermore, the method includes based at least in part on the demand and revenue estimates, constructing at least a portion of the plurality of healthcare delivery clinics in corresponding locations, wherein the portion of the plurality of healthcare delivery clinics is associated with the not-for-profit franchisor entity.

Abstract: Methods and compositions for treating disease caused by infectious agents, particularly tuberculosis. In particular, methods and compositions comprising substituted ethylene diamines for the treatment of infectious diseases are provided. In one embodiment, these methods and compositions are used for the treatment of mycobacterial infections, including, but not limited to, tuberculosis. In certain embodiments, the present invention comprises compositions comprising novel substituted ethylene diamine compounds further comprising antitubercular agents such as rifampicin, isoniazid, pyrazinamide and ethambutol.

Abstract: Methods and compositions for the detection of disease caused by infectious agents and microbes are provided. In particular, methods and compositions comprising novel combinations of nucleic acid amplification and drug susceptibility technologies are provided. In certain embodiments, the present invention enables the detection of infectious agents and microbes as well as providing information concerning the viability status of the agent or microbe. In one embodiment, the present invention is used for the detection of mycobacterial infections, including, but not limited to, tuberculosis.

Abstract: Methods and compositions for treating disease caused by infectious agents, particularly tuberculosis. In particular, methods and compositions comprising substituted ethylene diamines for the treatment of infectious diseases are provided. In one embodiment, these methods and compositions are used for the treatment of mycobacterial infections, including, but not limited to, tuberculosis.

Abstract: Methods and compositions for treating disease caused by infectious agents, particularly tuberculosis. In particular, methods and compositions comprising substituted ethylene diamines for the treatment of infectious diseases are provided. In one embodiment, these methods and compositions are used for the treatment of mycobacterial infections, including, but not limited to, tuberculosis.

Abstract: Methods and compositions for treating disease caused by infectious agents, particularly tuberculosis. In particular, methods and compositions comprising substituted ethylene diamines for the treatment of infectious diseases are provided. In one embodiment, these methods and compositions are used for the treatment of mycobacterial infections, including, but not limited to, tuberculosis.

Abstract: Methods and compositions for treating disease caused by infectious agents, particularly tuberculosis. In particular, methods and compositions comprising substituted ethylene diamines for the treatment of infectious diseases are provided. In one embodiment, these methods and compositions are used for the treatment of mycobacterial infections, including, but not limited to, tuberculosis.

Abstract: Methods and compositions for treating disease caused by infectious agents, particularly tuberculosis. In particular, methods and compositions comprising substituted ethylene diamines for the treatment of infectious diseases are provided. In one embodiment, these methods and compositions are used for the treatment of mycobacterial infections, including, but not limited to, tuberculosis.

Abstract: The use of dsRNA for use in the reactivation of natural defense systems within human cells, tissues and organs reduced to inadequate function subsequent to injury. Specific treatments for various clinical phases of the biological continuous of an acquired immune deficient state are described. Protection from the toxic effects associated with increased TNF levels is described.