Herrera Martinez
Luis Herrera Martinez, Ciudad De La Habana CU
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20080312139 | Use of Pharmaceutical Composition Containing Epidermal Growth Factor (EGF) for Diabetic foot Amputation Prevention - The invention relates to the use of Epidermal Growth Factor (EGF) in a preferably-Injectable pharmaceutical composition which is administered by means of infiltration into and around chronic cutaneous ischaemic lesions in order to prevent diabetic foot amputation. Said composition can be administered to recently-created surgical surfaces damaged by the effect of acute reperfusion with oxygenated blood following prolonged ischaemia, thereby preventing further surgical procedures and favouring the preservation of the extremity. The aforementioned composition can be used to improve (i) the cell microenvironment, thereby increasing the reparative and defensive capacity and viability of the is tissues and (ii) the cicatrisation of cutaneous ischaemic lesions, thereby stimulating cell proliferation. The invention is suitable for use in human, veterinary and experimental medicine, specifically in vascular angiology and surgery, dermatology, burn treatment and reconstructive surgery and geriatric medicine. Said composition can be used for recalcitrant ulcers which are associated with lesions in the macro and/or microvasculature, patients with inadequate lymphatic and/or venous return and ulcers or other lesions which are difficult to cicatrise and/or heal. | 12-18-2008 |
Luis Saturnino Herrera Martinez, Ciudad De La Habana CU
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20100136062 | USE OF EPIDERMAL GROWTH FACTOR FOR THE MORPHOFUNCTIONAL RESTORATION OF PERIPHERAL NERVES IN DIABETIC NEUROPATHY - The invention relates to human medicine and to the use of epidermal growth factor (EGF) for preparing a pharmaceutical composition which is administered by infiltration into the periphery of nerve ganglia and/or trunks for the morphofunctional restoration of peripheral nerves in painful sensory-motor neuropathy as well as manifestations of ischemic neuritis. The invention also includes a composition containing EGF which can be formulated together with anaesthetics or analgesics or encapsulated in microspheres and to the use thereof for the morphofunctional restoration of peripheral nerves in painful sensitive-motor-type diabetic neuropathy and the manifestations of ischemic neuritis. | 06-03-2010 |
20140105990 | USE OF EPIDERMAL GROWTH FACTOR FOR THE MORPHOFUNCTIONAL RESTORATION OF PERIPHERAL NERVES IN DIABETIC NEUROPATHY - The present invention is relevant to human medicine, and, in particular, to the use of Epidermal Growth Factor (EGF) in a pharmaceutical composition, said composition is administered through infiltration at the periphery of nerve trunks and/or ganglia, for the morphofunctional restoration of peripheral nerves in painful, sensitive-motor neuropathy, as well as ischemic neuritis. It is also relevant to an EGF containing composition, where this molecule can be formulated together with anesthetic or analgesic drugs, or encapsulated in microspheres, and their use for the morphofunctional restoration of peripheral nerves in painful, sensitive-motor neuropathy, as well as in ischemic neuritis. | 04-17-2014 |
Luis Saturnino Herrera Martinez, La Habana CU
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20120308615 | FORMULATION OF HEPATITIS B VIRUS ANTIGENS FOR CELLULAR STIMULATION FOLLOWED BY THERAPEUTIC IMMUNIZATION - The present invention is related with the field of the therapeutic immunization, specifically with the employment of a new formulation of antigens of the Hepatitis B Virus (HBV) for the cellular stimulation. The formulation is formed by the surface antigens (HBsAg) precipitated in suspension and the nucleocapsid (HBcAg) of the HBV. The formulation contains these antigens like suspended particles of sizes less than 500 nm and higher than 500 nm, in a mixture where the proportion among the particles of the mentioned sizes is among 50%-50% and 80%-20%, respectively. The selection of a range of sizes of particles allows that the levels of stimulation of several cellular types are maximized. Additionally, a cellular stimulation method is described with this formulation, and the later passive immunization of patients with chronic Hepatitis B, based on the maximum stimulation in vivo or in vitro using heterologous or autologous cells (dendritic cells, B cells and macrophages). The cells stimulated with this formulation are transferred to patients chronically infected with the HBV. | 12-06-2012 |