B4 the code for uor Liposomal Hyaluronic Acid, biological performance has been tested to check increased bioavailability. our product outperform the regular HA in water solution. Get the most of HA by using Hidramize Hyaluronic Acid by Lipomize.
Ampelopsin (Dihydromyricetin) from Ampelopsis Grossedentata acts in three ways 1).Lipogenesis inhibition 2).Lipolysis stimulation and 3).Adipogenesis decrease.
Dihydromyricetin, a type of avonols, is a major bioactive component in Ampelopsis grossedentata. Scientic research has suggested that Dihydromyricetin can be used as cosmetic ingredient for body slimming. With substantiated activity on the lipid metabolism of the adipocyte. It is suitable to be formulated into any kind of anti-cellulite, slimming and/or body modelling cosmetic treatment . Traditionally, active compounds acting only on the two pathways (Lipogenesis inhibition & Lipolysis stimulation), usually via adrenergic receptors, such as caffeine, etc.
Differently from traditional cosmetic ingredients, Dihydromyricetin acts on three pathways 1).Lipogenesis inhibition: by reducing the synthesis of new triglyceride into the adipocytes. 2).Lipolysis stimulation: by activating degradation of triglycerides stored in the adipocytes. 3).Adipogenesis decrease: by suppressing cell differentiation from pre-adipocytes into mature adipocytes, thus preventing adipocyte cell renovation and reducing triglyceride accumulation.
With the aboved triple-action. It is also scientifically demonstrated and based on a new mechanism of action on the adipocyte metabolism. Marked decrease of adipogenesis and lipogenesis as well as increase of lipolysis makes it a novel molecule applicable in cosmetic products aimed at both prevention and treatment as well as keep-fit.
Liposomes are spherical vesicles composed of a lipid bilayer enclosing an aqueous volume. They can encapsulate both hydrophilic and hydrophobic drugs. Liposomes were discovered in the 1960s and offer several advantages for drug delivery such as biocompatibility and targeting ability. They can be classified based on lamellarity and size into multilamellar vesicles, small unilamellar vesicles, etc. Common preparation methods include thin film hydration, reverse phase evaporation, and sonication. Liposomes find applications in cancer therapy, vaccines, and gene delivery due to their ability to enhance drug solubility and targeting. Marketed liposomal drugs include Doxil and Daunoxome.
Enerzea provides turnkey biomethanation power plant solutions that generate renewable energy from organic waste sources through anaerobic digestion. The process captures methane produced from feedstocks like agricultural waste, animal waste, and municipal solid waste. This methane is then used to generate electricity onsite. Key benefits include reducing greenhouse gas emissions and producing fertilizer as a byproduct. Enerzea's systems are continuously stirred tank reactors that efficiently mix waste for high-rate digestion at optimal temperatures. Their full-service approach includes site assessment, plant construction and commissioning, and operations and maintenance support.
1. Nanotechnology can be used to improve food quality and safety through nutrient encapsulation and innovative food packaging.
2. Various nanoscale structures like liposomes, microemulsions, and solid lipid nanoparticles can encapsulate nutrients and antimicrobials, protecting them and improving their delivery into foods and the human body.
3. More complex composite nanostructures are being designed that combine different nanoscale building blocks, like liposomes filled with solid lipid nanoparticles, offering new functionalities for food products.
Liposomes are spherical vesicles made of phospholipid bilayers that can be used as a drug delivery system. They were first developed in 1961 and consist of an aqueous volume enclosed by a phospholipid membrane. There are various types of liposomes classified by their lamellar structure and methods for preparing them include mechanical dispersion, solvent dispersion, and membrane extrusion. Liposomes provide advantages like increased drug efficacy, reduced toxicity, and targeted delivery. They also allow delivery of both hydrophobic and hydrophilic drugs. However, liposome production has high costs and the encapsulated drugs can leak over short time periods. Liposomes find applications in cosmetics, pharmaceuticals, and as carriers for gene delivery.
This document provides an overview of solid lipid nanoparticles (SLNs), including their advantages over other drug delivery systems like emulsions and liposomes. It describes several common methods for producing SLNs, such as hot and cold homogenization, solvent emulsification-evaporation, and microemulsion-based techniques. The document also highlights analytical methods for characterizing SLNs and discusses their potential applications in therapy. Overall, the document establishes that SLNs combine benefits of other carriers while avoiding some disadvantages, and that they show promise for delivering drugs if production methods can be optimized.
This document provides an overview of Albemarle Corporation's various chemical products and services. It lists numerous chemicals they produce that are used in a wide range of industries such as oil and gas, pharmaceuticals, electronics, agriculture, and more. The chart maps out Albemarle's product portfolio and the complex web of chemical reactions and syntheses used to produce them.
B4 the code for uor Liposomal Hyaluronic Acid, biological performance has been tested to check increased bioavailability. our product outperform the regular HA in water solution. Get the most of HA by using Hidramize Hyaluronic Acid by Lipomize.
Ampelopsin (Dihydromyricetin) from Ampelopsis Grossedentata acts in three ways 1).Lipogenesis inhibition 2).Lipolysis stimulation and 3).Adipogenesis decrease.
Dihydromyricetin, a type of avonols, is a major bioactive component in Ampelopsis grossedentata. Scientic research has suggested that Dihydromyricetin can be used as cosmetic ingredient for body slimming. With substantiated activity on the lipid metabolism of the adipocyte. It is suitable to be formulated into any kind of anti-cellulite, slimming and/or body modelling cosmetic treatment . Traditionally, active compounds acting only on the two pathways (Lipogenesis inhibition & Lipolysis stimulation), usually via adrenergic receptors, such as caffeine, etc.
Differently from traditional cosmetic ingredients, Dihydromyricetin acts on three pathways 1).Lipogenesis inhibition: by reducing the synthesis of new triglyceride into the adipocytes. 2).Lipolysis stimulation: by activating degradation of triglycerides stored in the adipocytes. 3).Adipogenesis decrease: by suppressing cell differentiation from pre-adipocytes into mature adipocytes, thus preventing adipocyte cell renovation and reducing triglyceride accumulation.
With the aboved triple-action. It is also scientifically demonstrated and based on a new mechanism of action on the adipocyte metabolism. Marked decrease of adipogenesis and lipogenesis as well as increase of lipolysis makes it a novel molecule applicable in cosmetic products aimed at both prevention and treatment as well as keep-fit.
Liposomes are spherical vesicles composed of a lipid bilayer enclosing an aqueous volume. They can encapsulate both hydrophilic and hydrophobic drugs. Liposomes were discovered in the 1960s and offer several advantages for drug delivery such as biocompatibility and targeting ability. They can be classified based on lamellarity and size into multilamellar vesicles, small unilamellar vesicles, etc. Common preparation methods include thin film hydration, reverse phase evaporation, and sonication. Liposomes find applications in cancer therapy, vaccines, and gene delivery due to their ability to enhance drug solubility and targeting. Marketed liposomal drugs include Doxil and Daunoxome.
Enerzea provides turnkey biomethanation power plant solutions that generate renewable energy from organic waste sources through anaerobic digestion. The process captures methane produced from feedstocks like agricultural waste, animal waste, and municipal solid waste. This methane is then used to generate electricity onsite. Key benefits include reducing greenhouse gas emissions and producing fertilizer as a byproduct. Enerzea's systems are continuously stirred tank reactors that efficiently mix waste for high-rate digestion at optimal temperatures. Their full-service approach includes site assessment, plant construction and commissioning, and operations and maintenance support.
1. Nanotechnology can be used to improve food quality and safety through nutrient encapsulation and innovative food packaging.
2. Various nanoscale structures like liposomes, microemulsions, and solid lipid nanoparticles can encapsulate nutrients and antimicrobials, protecting them and improving their delivery into foods and the human body.
3. More complex composite nanostructures are being designed that combine different nanoscale building blocks, like liposomes filled with solid lipid nanoparticles, offering new functionalities for food products.
Liposomes are spherical vesicles made of phospholipid bilayers that can be used as a drug delivery system. They were first developed in 1961 and consist of an aqueous volume enclosed by a phospholipid membrane. There are various types of liposomes classified by their lamellar structure and methods for preparing them include mechanical dispersion, solvent dispersion, and membrane extrusion. Liposomes provide advantages like increased drug efficacy, reduced toxicity, and targeted delivery. They also allow delivery of both hydrophobic and hydrophilic drugs. However, liposome production has high costs and the encapsulated drugs can leak over short time periods. Liposomes find applications in cosmetics, pharmaceuticals, and as carriers for gene delivery.
This document provides an overview of solid lipid nanoparticles (SLNs), including their advantages over other drug delivery systems like emulsions and liposomes. It describes several common methods for producing SLNs, such as hot and cold homogenization, solvent emulsification-evaporation, and microemulsion-based techniques. The document also highlights analytical methods for characterizing SLNs and discusses their potential applications in therapy. Overall, the document establishes that SLNs combine benefits of other carriers while avoiding some disadvantages, and that they show promise for delivering drugs if production methods can be optimized.
This document provides an overview of Albemarle Corporation's various chemical products and services. It lists numerous chemicals they produce that are used in a wide range of industries such as oil and gas, pharmaceuticals, electronics, agriculture, and more. The chart maps out Albemarle's product portfolio and the complex web of chemical reactions and syntheses used to produce them.
Liposomes are defined as phospholipid vesicles consisting of one or more concentric lipid bilayers enclosing discrete aqueous spaces. The unique ability of liposomal systems to entrap both lipophilic and hydrophilic compounds enables a diverse range of drugs to be encapsulated by these vesicles.
Liposomes are spherical vesicles made of phospholipid bilayers that can encapsulate water-soluble or lipid-soluble drugs. They provide targeted drug delivery and increase drug efficacy while reducing toxicity. Liposomes are classified by lamellarity and size, and are characterized based on their physical properties. They have various applications including cancer therapy, gene delivery, and treatment of infections.
Amino acid analysis and peptide mapping Likhith KLIKHITHK1
Amino Acid Analyzer is specifically configured system optimized for analysis of free amino acids.
PURPOSE:
Detection of presence of Amino acid in variety of biological samples, such as
extracellular and intracellular fluids
plant and animal tissues,
broths, and fruits
beverage juices
Detection of presence of hydrolyzed Amino acid, such as found in
protein, collagen, peptides, and processes foods.
Peptide mapping is an identity test for proteins, especially those
obtained by r-DNA technology. Peptide mapping is a comparative procedure because the information obtained, compared to a Reference Standard or Reference Material similarly treated, confirms the primary structure of the protein, is capable of detecting whether alterations in structure have occurred, and demonstrates process consistency and genetic stability. Peptide mapping refers to the identification of proteins using data from intact peptide masses. It is a powerful test that is capable of identifying single amino acid changes resulting from events such as errors in the reading of complementary DNA (cDNA) sequences or point mutations.
Novo mac bio s consortium presentationLaunchPad679
The document describes a new Bacillus consortium product called Novo MAC (Novozymes Biologicals, Inc.) that contains the BioSTM microbial blend. Testing showed the BioSTM blend exhibited higher enzyme activity and a broader range of degradation compared to the market-leading MSB blend. It also produced superior levels of cellulase, lipase, and protease enzymes, resulting in faster breakdown of proteins, fats, oils, grease, and starches. This makes BioSTM more effective at eliminating buildups and odors in drains, grease traps, and septic systems. Studies showed BioSTM to be safe for use.
Nanoliposomal technology and food fortification aids each other. the bio availability of many compounds in food is low due due to their poor solubility or size or intolerance to gastric environment. nanoliposomes can be the answer to this.
Liposomes are spherical vesicles made of phospholipid bilayers that can encapsulate hydrophilic or hydrophobic drugs. There are several methods for manufacturing liposomes including mechanical dispersion methods like film hydration and sonication. Film hydration involves dissolving lipids in an organic solvent to form a thin film, removing the solvent, then hydrating the film. The hydrated lipid sheets self-close to form multilamellar vesicles. Several factors must be considered for liposome preparation including lipid selection, phase transition temperature, charge, and cholesterol content. Liposomes can be classified based on size, lamellarity, surface properties, and method of preparation.
Liposomes are artificially made spherical vesicles composed of phospholipid bilayers that can encapsulate both hydrophilic and hydrophobic drugs, with versatility in structure and applications including use as drug carriers. They can be tailored through the addition of targeting ligands or PEGylation to improve stability and targeting in vivo by evading the reticuloendothelial system. A variety of liposome formulations have been developed for drug delivery with some commercialized products or in clinical trials for diseases including cancer, fungal infections, and viral diseases.
New Water-Soluble Catalyst for Two-Component Waterborne Polyurethane CoatingsReaxis
A new water-soluble catalyst has been developed that provides enhanced properties in two-component waterborne polyurethane formulations compared to typical catalysts. Testing showed the new catalyst provided the shortest dry times from set-to-touch to dry hard. It also ensured complete curing, as evidenced by the absence of isocyanate peaks in FT-IR analysis, whereas formulations without the catalyst still showed isocyanate peaks after two days. The new catalyst improves reactivity while films are forming and drying.
Spps and side reactions in peptide synthesiskavyakaparthi1
The document discusses side reactions that can occur during solid phase peptide synthesis (SPPS). It describes several types of side reactions including proton abstraction, racemization through azlactone formation or direct abstraction, cyclization through diketopiperazine formation, and O-acylation. Racemization is a particular concern in SPPS since it changes the stereochemistry of amino acids. The document outlines factors that influence the likelihood of different side reactions such as the amino acid, solvent, and presence of tertiary amines. Understanding side reactions is important for planning and carrying out efficient SPPS.
1) There are two main types of carbohydrates - simple sugars like glucose and fructose, and complex carbohydrates like starches and cellulose which are long chains of sugars.
2) Proteins are polymers of amino acids, with each protein made of a different combination and sequence of amino acids. When amino acids bond together through condensation reactions, they form peptide bonds and polypeptide chains.
3) Fats are triglycerides made of glycerol bonded to three fatty acid molecules. The type of fatty acid determines if the fat is saturated, mono-unsaturated, or poly-unsaturated, and its state at room temperature.
This document provides information on liposomes and nanoparticles for drug delivery. It defines liposomes as lipid bilayer structures composed of phospholipids that can encapsulate drug payload. Various preparation methods are described, including film hydration, solvent injection, and detergent removal. Key aspects of liposome characterization like size, drug encapsulation efficiency, and stability are covered. Applications include cancer therapy, gene delivery, and topical products. Common liposomal drugs are doxorubicin and amphotericin B. Nanoparticles are defined as submicron polymer structures that can be spheres or capsules. Preparation techniques include emulsion polymerization, solvent evaporation, and salting out. Nanoparticles offer advantages like versatile drug loading but
Liposomes are spherical vesicles composed of phospholipid bilayers that can encapsulate both hydrophilic and hydrophobic drugs. They were invented in 1965 and have various applications in biology, biochemistry, pharmacy, and therapeutics. The main components of liposomes are natural lipids like phospholipids and cholesterol, which helps lower toxicity. There are several types of liposomes including conventional, stealth, targeted, and cationic liposomes. Liposomes can be prepared through techniques like extrusion, dehydration-rehydration, and reverse-phase evaporation. Size, encapsulation efficiency, stability, and drug release properties depend on the preparation method. Liposomes offer advantages like reduced antigenicity and biodegradability.
Liposomes are spherical vesicles made of phospholipid bilayers that can encapsulate hydrophilic or hydrophobic drugs. They range in size from 25nm to 5000nm. This document discusses the structure of liposomes and their components, including phospholipids and cholesterol. It also covers various preparation methods such as lipid film hydration, extrusion, and detergent removal. Liposomes offer advantages for drug delivery such as the ability to encapsulate different drug types and provide controlled release, but also have challenges like high production costs and drug leakage.
Liposomes are microscopic phospholipid bubbles with a bilayered membrane structure that can be used to deliver drugs. Developments over the past 50 years have led to their use in clinical applications. Modifications like PEG coating and attaching ligands allow for long-circulating liposomes and targeted delivery to specific cells. New ligands under investigation include antibodies, folate, transferrin, and growth factors to target receptors overexpressed on tumor cells. pH-sensitive liposomes are also an area of focus to release drugs intracellularly.
1) Phytosomes are novel drug delivery systems that consist of phytoconstituents from herb extracts bound to phospholipids. This improves the absorption and bioavailability of the phytoconstituents.
2) They are prepared using solvent evaporation or rotary evaporation methods where herbal extracts are reacted with phospholipids like phosphatidylcholine.
3) Phytosomes have several advantages over simple herbal extracts including enhanced bioavailability, stability, and targeting of active components to tissues. They can be formulated for oral or topical delivery in capsules or other dosage forms.
Liposomes are spherical vesicles composed of phospholipid bilayers that can encapsulate water-soluble drugs in their aqueous core and lipid-soluble drugs within their membrane. They have advantages for drug delivery such as providing selective targeting to tissues, increasing drug efficacy and stability, and reducing toxicity. However, they also have challenges with drug leakage and uptake by the reticuloendothelial system. Liposomes can be classified based on their lamellarity and size, and are prepared using methods like film hydration, ethanol injection, and detergent removal. They have applications for delivery of drugs, genes, vaccines, and contrast agents for imaging.
O processo de terraformação envolve transformar um planeta de modo que se torne habitável por seres vivos, dando a Marte uma atmosfera e temperatura semelhantes à Terra. Alguns motivos para terraformar Marte incluem seu período de rotação e translação semelhantes aos da Terra e a possibilidade de existência de água em seu passado. As etapas propostas para a terraformação de Marte envolvem inicialmente aquecer o planeta, pressurizar a atmosfera, criar ozônio e ativar a hidros
O documento descreve a criação da Licença para Integração das Mídias Universitárias no Brasil para permitir o compartilhamento de conteúdo entre veículos de comunicação universitários. O autor também detalha o lançamento do livro "Cultura Livre" no II Encontro de Mídia Universitária para apresentar esses conceitos ao público. A tradução e edição do livro foi realizada em menos de dois meses por uma equipe dedicada.
El documento describe el Metrocable de Medellín, un sistema de transporte masivo único que complementa el metro de la ciudad. El Metrocable conecta barrios periféricos de difícil acceso mediante cables aéreos y ha mejorado la movilidad en la ciudad de una manera rápida, segura, eficaz y respetuosa con el medio ambiente al utilizar energía solar. El sistema también ha tenido impactos positivos en el desarrollo social de los barrios marginados que sirve.
Este documento describe la importancia y el uso de las herramientas web 2.0 para la gestión del conocimiento. Explica que debido a la pandemia, las clases presenciales han sido reemplazadas por material de aprendizaje como una guía didáctica, un CD multimedia y trabajo a distancia. El CD contiene presentaciones de PowerPoint y archivos PDF para reforzar el aprendizaje. Además, detalla que el correo electrónico se ha convertido en el medio más eficaz para comunicarse a distancia y que Google Docs permite realizar
Liposomes are defined as phospholipid vesicles consisting of one or more concentric lipid bilayers enclosing discrete aqueous spaces. The unique ability of liposomal systems to entrap both lipophilic and hydrophilic compounds enables a diverse range of drugs to be encapsulated by these vesicles.
Liposomes are spherical vesicles made of phospholipid bilayers that can encapsulate water-soluble or lipid-soluble drugs. They provide targeted drug delivery and increase drug efficacy while reducing toxicity. Liposomes are classified by lamellarity and size, and are characterized based on their physical properties. They have various applications including cancer therapy, gene delivery, and treatment of infections.
Amino acid analysis and peptide mapping Likhith KLIKHITHK1
Amino Acid Analyzer is specifically configured system optimized for analysis of free amino acids.
PURPOSE:
Detection of presence of Amino acid in variety of biological samples, such as
extracellular and intracellular fluids
plant and animal tissues,
broths, and fruits
beverage juices
Detection of presence of hydrolyzed Amino acid, such as found in
protein, collagen, peptides, and processes foods.
Peptide mapping is an identity test for proteins, especially those
obtained by r-DNA technology. Peptide mapping is a comparative procedure because the information obtained, compared to a Reference Standard or Reference Material similarly treated, confirms the primary structure of the protein, is capable of detecting whether alterations in structure have occurred, and demonstrates process consistency and genetic stability. Peptide mapping refers to the identification of proteins using data from intact peptide masses. It is a powerful test that is capable of identifying single amino acid changes resulting from events such as errors in the reading of complementary DNA (cDNA) sequences or point mutations.
Novo mac bio s consortium presentationLaunchPad679
The document describes a new Bacillus consortium product called Novo MAC (Novozymes Biologicals, Inc.) that contains the BioSTM microbial blend. Testing showed the BioSTM blend exhibited higher enzyme activity and a broader range of degradation compared to the market-leading MSB blend. It also produced superior levels of cellulase, lipase, and protease enzymes, resulting in faster breakdown of proteins, fats, oils, grease, and starches. This makes BioSTM more effective at eliminating buildups and odors in drains, grease traps, and septic systems. Studies showed BioSTM to be safe for use.
Nanoliposomal technology and food fortification aids each other. the bio availability of many compounds in food is low due due to their poor solubility or size or intolerance to gastric environment. nanoliposomes can be the answer to this.
Liposomes are spherical vesicles made of phospholipid bilayers that can encapsulate hydrophilic or hydrophobic drugs. There are several methods for manufacturing liposomes including mechanical dispersion methods like film hydration and sonication. Film hydration involves dissolving lipids in an organic solvent to form a thin film, removing the solvent, then hydrating the film. The hydrated lipid sheets self-close to form multilamellar vesicles. Several factors must be considered for liposome preparation including lipid selection, phase transition temperature, charge, and cholesterol content. Liposomes can be classified based on size, lamellarity, surface properties, and method of preparation.
Liposomes are artificially made spherical vesicles composed of phospholipid bilayers that can encapsulate both hydrophilic and hydrophobic drugs, with versatility in structure and applications including use as drug carriers. They can be tailored through the addition of targeting ligands or PEGylation to improve stability and targeting in vivo by evading the reticuloendothelial system. A variety of liposome formulations have been developed for drug delivery with some commercialized products or in clinical trials for diseases including cancer, fungal infections, and viral diseases.
New Water-Soluble Catalyst for Two-Component Waterborne Polyurethane CoatingsReaxis
A new water-soluble catalyst has been developed that provides enhanced properties in two-component waterborne polyurethane formulations compared to typical catalysts. Testing showed the new catalyst provided the shortest dry times from set-to-touch to dry hard. It also ensured complete curing, as evidenced by the absence of isocyanate peaks in FT-IR analysis, whereas formulations without the catalyst still showed isocyanate peaks after two days. The new catalyst improves reactivity while films are forming and drying.
Spps and side reactions in peptide synthesiskavyakaparthi1
The document discusses side reactions that can occur during solid phase peptide synthesis (SPPS). It describes several types of side reactions including proton abstraction, racemization through azlactone formation or direct abstraction, cyclization through diketopiperazine formation, and O-acylation. Racemization is a particular concern in SPPS since it changes the stereochemistry of amino acids. The document outlines factors that influence the likelihood of different side reactions such as the amino acid, solvent, and presence of tertiary amines. Understanding side reactions is important for planning and carrying out efficient SPPS.
1) There are two main types of carbohydrates - simple sugars like glucose and fructose, and complex carbohydrates like starches and cellulose which are long chains of sugars.
2) Proteins are polymers of amino acids, with each protein made of a different combination and sequence of amino acids. When amino acids bond together through condensation reactions, they form peptide bonds and polypeptide chains.
3) Fats are triglycerides made of glycerol bonded to three fatty acid molecules. The type of fatty acid determines if the fat is saturated, mono-unsaturated, or poly-unsaturated, and its state at room temperature.
This document provides information on liposomes and nanoparticles for drug delivery. It defines liposomes as lipid bilayer structures composed of phospholipids that can encapsulate drug payload. Various preparation methods are described, including film hydration, solvent injection, and detergent removal. Key aspects of liposome characterization like size, drug encapsulation efficiency, and stability are covered. Applications include cancer therapy, gene delivery, and topical products. Common liposomal drugs are doxorubicin and amphotericin B. Nanoparticles are defined as submicron polymer structures that can be spheres or capsules. Preparation techniques include emulsion polymerization, solvent evaporation, and salting out. Nanoparticles offer advantages like versatile drug loading but
Liposomes are spherical vesicles composed of phospholipid bilayers that can encapsulate both hydrophilic and hydrophobic drugs. They were invented in 1965 and have various applications in biology, biochemistry, pharmacy, and therapeutics. The main components of liposomes are natural lipids like phospholipids and cholesterol, which helps lower toxicity. There are several types of liposomes including conventional, stealth, targeted, and cationic liposomes. Liposomes can be prepared through techniques like extrusion, dehydration-rehydration, and reverse-phase evaporation. Size, encapsulation efficiency, stability, and drug release properties depend on the preparation method. Liposomes offer advantages like reduced antigenicity and biodegradability.
Liposomes are spherical vesicles made of phospholipid bilayers that can encapsulate hydrophilic or hydrophobic drugs. They range in size from 25nm to 5000nm. This document discusses the structure of liposomes and their components, including phospholipids and cholesterol. It also covers various preparation methods such as lipid film hydration, extrusion, and detergent removal. Liposomes offer advantages for drug delivery such as the ability to encapsulate different drug types and provide controlled release, but also have challenges like high production costs and drug leakage.
Liposomes are microscopic phospholipid bubbles with a bilayered membrane structure that can be used to deliver drugs. Developments over the past 50 years have led to their use in clinical applications. Modifications like PEG coating and attaching ligands allow for long-circulating liposomes and targeted delivery to specific cells. New ligands under investigation include antibodies, folate, transferrin, and growth factors to target receptors overexpressed on tumor cells. pH-sensitive liposomes are also an area of focus to release drugs intracellularly.
1) Phytosomes are novel drug delivery systems that consist of phytoconstituents from herb extracts bound to phospholipids. This improves the absorption and bioavailability of the phytoconstituents.
2) They are prepared using solvent evaporation or rotary evaporation methods where herbal extracts are reacted with phospholipids like phosphatidylcholine.
3) Phytosomes have several advantages over simple herbal extracts including enhanced bioavailability, stability, and targeting of active components to tissues. They can be formulated for oral or topical delivery in capsules or other dosage forms.
Liposomes are spherical vesicles composed of phospholipid bilayers that can encapsulate water-soluble drugs in their aqueous core and lipid-soluble drugs within their membrane. They have advantages for drug delivery such as providing selective targeting to tissues, increasing drug efficacy and stability, and reducing toxicity. However, they also have challenges with drug leakage and uptake by the reticuloendothelial system. Liposomes can be classified based on their lamellarity and size, and are prepared using methods like film hydration, ethanol injection, and detergent removal. They have applications for delivery of drugs, genes, vaccines, and contrast agents for imaging.
O processo de terraformação envolve transformar um planeta de modo que se torne habitável por seres vivos, dando a Marte uma atmosfera e temperatura semelhantes à Terra. Alguns motivos para terraformar Marte incluem seu período de rotação e translação semelhantes aos da Terra e a possibilidade de existência de água em seu passado. As etapas propostas para a terraformação de Marte envolvem inicialmente aquecer o planeta, pressurizar a atmosfera, criar ozônio e ativar a hidros
O documento descreve a criação da Licença para Integração das Mídias Universitárias no Brasil para permitir o compartilhamento de conteúdo entre veículos de comunicação universitários. O autor também detalha o lançamento do livro "Cultura Livre" no II Encontro de Mídia Universitária para apresentar esses conceitos ao público. A tradução e edição do livro foi realizada em menos de dois meses por uma equipe dedicada.
El documento describe el Metrocable de Medellín, un sistema de transporte masivo único que complementa el metro de la ciudad. El Metrocable conecta barrios periféricos de difícil acceso mediante cables aéreos y ha mejorado la movilidad en la ciudad de una manera rápida, segura, eficaz y respetuosa con el medio ambiente al utilizar energía solar. El sistema también ha tenido impactos positivos en el desarrollo social de los barrios marginados que sirve.
Este documento describe la importancia y el uso de las herramientas web 2.0 para la gestión del conocimiento. Explica que debido a la pandemia, las clases presenciales han sido reemplazadas por material de aprendizaje como una guía didáctica, un CD multimedia y trabajo a distancia. El CD contiene presentaciones de PowerPoint y archivos PDF para reforzar el aprendizaje. Además, detalla que el correo electrónico se ha convertido en el medio más eficaz para comunicarse a distancia y que Google Docs permite realizar
El documento se refiere a la 14a edición de la Expocarreras Oncativo que se llevó a cabo en 2014 en Oncativo. La Expocarreras es un evento informativo sobre opciones educativas y laborales.
1) Iris Lettieri é uma locutora brasileira de 70 anos conhecida por sua voz marcante que anuncia voos no aeroporto há 35 anos.
2) Sua carreira começou na rádio aos 16 anos e ela foi a primeira locutora de telejornal no Brasil.
3) Apesar de sua longa carreira nos meios de comunicação, Iris revela que hoje tem medo de voar e não embarca mais em aviões.
The document discusses how NASA Ames Research Center OCIO developed a process to prioritize projects based on organizational goals. It leverages GAO best practices to select projects through screening, ranking, and determining phases. Projects are evaluated using a scorecard across criteria of cost, value, risk, and intangibles. This ensures the most important projects are identified and resources are allocated effectively. The prioritization process and scorecard methodology provide transparency and clarity on project priorities.
O documento fornece instruções para a fabricação artesanal de cinco tipos de pão caseiro: pão integral, pão de mandioca, pão de torresmo com creme de alho, pão de forma e pãezinhos de batata. Fornece detalhes sobre ingredientes, preparo e assamento para cada receita.
A cortisona é um hormônio esteróide sintetizado a partir do cortisol que atua como um potente anti-inflamatório e imunossupressor, sendo utilizado principalmente no tratamento de doenças alérgicas. Seu uso inadequado pode causar efeitos colaterais como obesidade, diabetes e osteoporose.
El documento resume los esfuerzos de la Asociación Mexicana de Agencias de Viajes (AMAV) para aumentar el turismo en México. La AMAV planea redoblar sus esfuerzos para capacitar a los trabajadores de las agencias de viaje y modernizar la infraestructura. También buscará vincularse más con hoteles, líneas de autobuses y el gobierno para lograr las metas del Acuerdo Nacional por el Turismo, como atraer 55 millones de visitantes internacionales anualmente. Otras organizaciones turísticas han dicho
O documento resume um projeto de implementação do sistema de gestão eletrônica de documentos TOTVS ECM na empresa de engenharia civil Augusto Velloso. O projeto foi realizado pela empresa parceira BRAVA ECM e incluiu treinamentos e o desenvolvimento de um workflow para solicitação de fundo fixo, com o objetivo de automatizar e agilizar processos financeiros da empresa.
O documento discute a modelagem da demanda por revistas no Brasil com o objetivo de fornecer previsões precisas. Ele descreve as características do mercado de revistas no Brasil, as séries temporais de vendas disponíveis, e os modelos estatísticos usados para prever a demanda, incluindo regressão dinâmica e modelos bayesianos. O documento também discute os desafios em prever a demanda para revistas com periodicidade quinzenal devido às frequentes revisões nos dados.
ASP.Net is a web development platform that provides a programming model, infrastructure, and services for building robust web applications. It uses HTTP to enable two-way communication between a browser and server. ASP.Net applications are compiled code written in languages like C# and VB.Net that can use classes in the .Net framework. The ASP.Net lifecycle involves initializing and loading pages, handling events, rendering output, and unloading pages. Key stages include initialization, loading, validation, handling postback events, and rendering.
Este documento apresenta o balanço patrimonial de um banco em liquidação extrajudicial em 30 de junho de 2013. O ativo total era de R$8,2 bilhões, sendo a maior parte aplicações financeiras e operações de crédito. O passivo total era de R$12 bilhões, com os principais itens sendo credores por restituição, obrigações por repasses e credores quirografários. O patrimônio líquido apresentava déficit de R$3,8 bilhões.
Este documento apresenta a história e modelo de negócios da LPS Brasil, uma das maiores empresas de consultoria e intermediação imobiliária do Brasil. A empresa possui uma longa história no mercado imobiliário paulistano e vem se expandindo nacionalmente por meio de aquisições e aberturas de novas unidades. Seu modelo de negócios focado em serviços de valor agregado para incorporadoras é fundamental para o sucesso desse mercado.
Quala is a multinational company that produces and sells non-perishable foods, drinks, culinary products, personal care items, delicacies, and frozen foods. Headquartered in Bogota, Colombia, Quala has operations in Mexico, Brazil, the Dominican Republic, Ecuador, Peru, and Venezuela. The company focuses on marketing, research and development, human resources, sales, supply chain management, and finance. Quala has earned various awards and recognition for its products, workplace culture, and leadership.
1. The document discusses prejudice against Jews and Muslims in France, highlighting major events like the Dreyfus Affair and World War II. It also discusses the ghettoization of immigrant neighborhoods and social issues like unemployment.
2. Comparisons are made between the population demographics and treatment of immigrants in France versus Singapore. France is described as having more severe discrimination while Singapore promotes more racial tolerance as a multicultural society.
3. Potential measures are proposed that Singapore could take to prevent social divisions, including establishing protections for immigrants, promoting multicultural education, and encouraging integration while maintaining national laws.
O projeto consiste em dois prédios com 14 andares cada um, contendo um total de 198 apartamentos de 2 quartos com 45-46m2. As entregas estão previstas para setembro de 2013. As torres terão portaria, brinquedoteca, espaços de leitura, fitness, jogos, festas e piscina.
Liposomes are spherical vesicles composed of phospholipid bilayers that can encapsulate both hydrophilic and hydrophobic active ingredients. They act as penetration enhancers by ferrying encapsulated ingredients deeper into skin layers. Liposomes offer benefits like improved stability, solubility and safety of encapsulated ingredients. Soy phosphatidylcholine is commonly used to make liposomes for cosmetic products due to its similarity to skin structure. Liposomes can encapsulate vitamins, natural extracts and other active ingredients to enhance their stability and efficacy when delivered to the skin.
Microemulsions are transparent dispersions of water and oil droplets stabilized by surfactants and co-surfactants. They have particle sizes between 20-200 nm. Microemulsions can solubilize both water-soluble and oil-soluble drugs, increasing their bioavailability. They are thermodynamically stable and have applications in pharmaceuticals, cosmetics, and other industries due to their small particle size and high solubilization capacity. However, high amounts of surfactants required for formation can cause irritation. Factors like temperature and pH also influence stability. Microemulsions have been used to improve the bioavailability of drugs like cyclosporine A and fenofibrate.
Liposome are a lipid based nanoparticle and small artificial vesicles of spherical shape , created from cholestrol & natural non- toxic phospholipids that are called liposomes , promising system of drug delivery.
Liposomes are spherical vesicles made of phospholipids that can encapsulate both hydrophilic and hydrophobic drugs. They improve drug delivery by protecting drugs, altering biodistribution and pharmacokinetics, and enabling targeted release. Liposomes can be modified with polymers or ligands to selectively deliver drugs to specific tissues or cells, prolong drug circulation time, and decrease side effects. Medical applications of liposomes include cancer and antimicrobial treatments, diagnostic imaging, and localized drug delivery to tumors or specific cells.
This document discusses the use of liposomes for delivery of proteins and peptides. It begins by defining proteins and peptides. It then describes what liposomes are and reviews their advantages for drug delivery, including targeting and protection. Examples are provided of formulating liposomal insulin and an antibody for intracellular delivery. The key parameters for optimizing protein delivery efficiency are the lipid/protein ratio, protein amount, and culture medium. Liposomes show potential for delivering functional proteins for both research and therapeutic applications.
Microemulsions are thermodynamically stable transparent (or translucent) dispersions of oil, water, and surfactant, with droplet sizes typically between 10-100 nm. They form spontaneously due to the presence of surfactants and co-surfactants that lower the interfacial tension between oil and water. Microemulsions have advantages over emulsions such as improved drug solubilization, thermodynamic stability, and ease of manufacture. They are widely used in pharmaceuticals, personal care products, and enhanced oil recovery.
This document provides information on liposomes, including:
- Liposomes are spherical vesicles made of phospholipid bilayers that can encapsulate drugs. They were first demonstrated in 1965.
- Liposomes offer advantages for drug delivery such as the ability to encapsulate both hydrophilic and hydrophobic drugs and provide controlled release.
- Liposomes are classified based on size, lamellarity, and composition. Common types include small unilamellar vesicles, multilamellar large vesicles, and long-circulating stealth liposomes.
- Drugs can be loaded into liposomes using passive loading techniques like mechanical dispersion or solvent dispersion methods.
DESIGN AND EVALUATION OF LIPOSOMAL ENCAPSULATED ACYCLOVIR GEL FOR TOPICA...K Mondal
The document discusses liposomal gel formulations containing the drug acyclovir. It begins with an introduction to liposomes and topical liposomal gels. It then discusses the objectives of studying acyclovir liposomal formulations using a response surface methodology. The document reviews literature on acyclovir, lipids like phosphatidylcholine and cholesterol, and the thin film hydration preparation method. It outlines the materials and methods used, including a factorial design of experiments. The results and discussion section presents characterization of the formulations and evaluation of drug entrapment, release, and skin permeation.
This document discusses lipids, including their definition, classification, functions, digestion and absorption. It notes that lipids are important for energy storage and cellular structure. They are broadly classified into simple lipids, compound/complex lipids, derived lipids, and neutral lipids. The document outlines the roles of the stomach, small intestine, bile salts, pancreatic enzymes, and peristalsis in emulsifying and digesting lipids into smaller particles that can be absorbed. It emphasizes how bile salts and degraded lipid products act as surfactants to reduce surface tension and promote emulsification for efficient lipid digestion.
Liposomes are artificially created spherical vesicles made of phospholipids and cholesterol that can encapsulate both hydrophilic and hydrophobic drugs. They are promising drug delivery systems due to their biocompatibility and ability to selectively target tissues. Liposomes vary in size from 20-5000 nm and consist of one or more phospholipid bilayers surrounding an aqueous core. There are several methods for preparing and loading drugs into liposomes to develop drug delivery systems with benefits like increased drug efficacy, stability and reduced toxicity.
Liposomes are spherical vesicles made of concentric phospholipid bilayers that were first produced in 1961 and can be used to deliver drugs. They range in size from 20nm to several micrometers and are made up of phospholipids that form a bilayer with a hydrophilic exterior and hydrophobic interior. Liposomes offer advantages for drug delivery such as targeting drugs to specific tissues, increasing drug stability and reducing toxicity.
Proteoliposomes are vesicles that mimic lipid membranes by incorporating membrane proteins into liposomes. They are formed by solubilizing membrane proteins with detergent and mixing with preformed liposomes. The detergent is then removed, allowing the proteins to integrate into the phospholipid bilayer. Proteoliposomes are useful for studying lipid-protein interactions and have applications in biotechnology, drug delivery, vaccine development, and transport of xenobiotics. However, proteoliposomes delivered intravenously face limitations such as destruction by the mononuclear phagocyte system and interactions with blood lipoproteins.
Liposomes are spherical vesicles made of concentric phospholipid bilayers. They were first produced in 1961 and can range in size from 20 nm to several micrometers. Liposomes provide advantages like selective targeting to tumors, increased drug efficacy, and reduced toxicity, but also have disadvantages such as high production costs and drug leakage. Common methods for preparing liposomes include film hydration, ethanol injection, and detergent removal.
Enzymes are biological catalysts that carry out reactions faster and more efficiently than normal conditions. They have a specific three-dimensional structure that allows them to catalyze specific reactions. Cellulase enzymes are used in bio-processing of textiles like bio-singeing, bio-polishing, denim washing, and bio-washing. Cellulase breaks the beta-1,4 glycosidic linkages between glucose units in cellulose, removing protruding fibers to make fabrics softer and reduce pilling. The optimum conditions for cellulase activity are a pH range of 4.5-5.5 and temperature of 45-55°C.
IOSR Journal of Pharmacy (IOSRPHR), www.iosrphr.org, call for paper, research...iosrphr_editor
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The term "phyto" means plant and "some" means cell-like.Phytosomes are little cell like structures.
Structure of phytosome
Properties of phytosome - chemical and biological
Methods of preparation
Liposomes are spherical vesicles composed of phospholipid bilayers that can encapsulate hydrophilic or hydrophobic drugs. There are several types of liposomes including conventional, stealth, targeted, and cationic liposomes. Liposomes can be prepared using techniques like extrusion, sonication, and dehydration-rehydration. Differential scanning calorimetry is used to study the phase transition of lipids in liposomes. Drugs are encapsulated within the aqueous core or phospholipid bilayer of liposomes. In vivo, liposomes are targeted by plasma proteins and cleared by the liver and spleen, but PEGylation creates "stealth liposomes" that evade this clearance. Several liposomal drug formulations have been commercial
This document provides an overview of liposomes, which are spherical vesicles made of phospholipids that can be used to deliver drugs. It discusses the structures of liposomes, including that they are made of phospholipid molecules with hydrophilic heads and hydrophobic tails that form bilayer membranes. The document also covers classifications of liposomes, common preparation methods like passive and active loading, advantages like biocompatibility and ability to deliver both hydrophilic and hydrophobic drugs, disadvantages like high production costs, and applications such as for antifungal therapy and as liposomal vaccines.
The document discusses liposomes, including their principle, definition, discovery, composition, mechanisms of formation, classification, preparation methods, drug encapsulation, characterization, stability, uses, and commercial products. Liposomes are spherical vesicles composed of phospholipid bilayers that can encapsulate drugs for targeted delivery. They were discovered in 1965 and offer advantages like biocompatibility and protection of drugs, though production costs are high and leakage can occur.
Este documento describe las formulaciones liposomales para la industria cosmética, incluyendo sus características generales como mayor penetración en la piel y liberación controlada de ingredientes activos. Presenta varias marcas de productos liposomales con diferentes activos como ácido hialurónico, ampelopsina y extractos de plantas, y resume los resultados de estudios que validan sus reclamos de efectividad.
El documento presenta la estructura organizacional de una empresa, con Martin Diaz como Gerente General, Juan Manuel Peralta a cargo de Compras y Comercio Exterior, Alejandro Barbarini liderando el Desarrollo de Negocios, y Alcides Nicastro y Fernando Bertolin responsables del Desarrollo de Producto y Manufactura y Administración y Finanzas, respectivamente.
Lipomize Company Profile
Lipomize is a private company that develops custom liposomal technology and products focused primarily on the needs of pharmaceutical, cosmetic and food industries.
Headquartered within the Universidad Nacional del Litoral, and incubated in the Parque Tecnológico del Litoral Centro - SAPEM, Lipomize main competitive advantage is providing flexibility and customization of products for their clients.
To make this possible, it has a team of highly qualified personnel and prestigious scientific and technological institutions support the quality and seriousness of our work and our commitment to society.
Lipomize SRL es una empresa argentina dedicada al desarrollo de tecnología liposomal y pegilación para la industria farmacéutica, cosmética y alimenticia, con la misión de brindar productos y servicios de excelencia en nanobiotecnología liposomal y la visión de consolidarse como líder regional en el desarrollo tecnológico liposomal. La empresa está compuesta por socios fundadores con educación en biotecnología y administración, y ha recibido varios premios por su trabajo emprendedor e innovador.
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Integrating Ayurveda into Parkinson’s Management: A Holistic ApproachAyurveda ForAll
Explore the benefits of combining Ayurveda with conventional Parkinson's treatments. Learn how a holistic approach can manage symptoms, enhance well-being, and balance body energies. Discover the steps to safely integrate Ayurvedic practices into your Parkinson’s care plan, including expert guidance on diet, herbal remedies, and lifestyle modifications.
- Video recording of this lecture in English language: https://youtu.be/Pt1nA32sdHQ
- Video recording of this lecture in Arabic language: https://youtu.be/uFdc9F0rlP0
- Link to download the book free: https://nephrotube.blogspot.com/p/nephrotube-nephrology-books.html
- Link to NephroTube website: www.NephroTube.com
- Link to NephroTube social media accounts: https://nephrotube.blogspot.com/p/join-nephrotube-on-social-media.html
Cell Therapy Expansion and Challenges in Autoimmune DiseaseHealth Advances
There is increasing confidence that cell therapies will soon play a role in the treatment of autoimmune disorders, but the extent of this impact remains to be seen. Early readouts on autologous CAR-Ts in lupus are encouraging, but manufacturing and cost limitations are likely to restrict access to highly refractory patients. Allogeneic CAR-Ts have the potential to broaden access to earlier lines of treatment due to their inherent cost benefits, however they will need to demonstrate comparable or improved efficacy to established modalities.
In addition to infrastructure and capacity constraints, CAR-Ts face a very different risk-benefit dynamic in autoimmune compared to oncology, highlighting the need for tolerable therapies with low adverse event risk. CAR-NK and Treg-based therapies are also being developed in certain autoimmune disorders and may demonstrate favorable safety profiles. Several novel non-cell therapies such as bispecific antibodies, nanobodies, and RNAi drugs, may also offer future alternative competitive solutions with variable value propositions.
Widespread adoption of cell therapies will not only require strong efficacy and safety data, but also adapted pricing and access strategies. At oncology-based price points, CAR-Ts are unlikely to achieve broad market access in autoimmune disorders, with eligible patient populations that are potentially orders of magnitude greater than the number of currently addressable cancer patients. Developers have made strides towards reducing cell therapy COGS while improving manufacturing efficiency, but payors will inevitably restrict access until more sustainable pricing is achieved.
Despite these headwinds, industry leaders and investors remain confident that cell therapies are poised to address significant unmet need in patients suffering from autoimmune disorders. However, the extent of this impact on the treatment landscape remains to be seen, as the industry rapidly approaches an inflection point.
- Video recording of this lecture in English language: https://youtu.be/kqbnxVAZs-0
- Video recording of this lecture in Arabic language: https://youtu.be/SINlygW1Mpc
- Link to download the book free: https://nephrotube.blogspot.com/p/nephrotube-nephrology-books.html
- Link to NephroTube website: www.NephroTube.com
- Link to NephroTube social media accounts: https://nephrotube.blogspot.com/p/join-nephrotube-on-social-media.html
Tests for analysis of different pharmaceutical.pptx
Product Catalog
1.
2. LIPOSOMAL Liposomes are nanosized spheres of lipid bilayers, this property turns liposomes particularly effective for
TECHNOLOGY its size is less than one thousandth of a millimeter. cosmetic use.
ADVANTAGES They are composed entirely by natural biocompatible All the specific properties of the active ingredients
molecules, which have the ability to transport active for cosmeceutical and nutraceutical formulation are
ingredients within or on its membrane, releasing the improved by Lipomize’s liposome.
active component in a gradual and controlled way
providing greater bioavailability, protection and long Exclusive advantages
lasting effect. Functional properties are delivered where they are
Liposomes increase bioavailability, this means that a most needed.
greater amount of the active ingredient fulfills its spe Active Ingredients are protected and transported
cific effect. Higher performance can be achieved even within our premium liposomes.
lowering dosing. Delivery System protects the active ingredient.
Liposomes exert their influence in the stratum cor Liposome lipid bilayer protects oral formulation from gas
neum of the skin improving penetration of the active; tric degradation and enhance absorption in the intestine.
Suggested Increased bioavailability. Long lasting effects. Phospholipids are essential com-
Claims Active Ingredient Reaches target Active Ingredient Protected in a ponents of the cell.
cell intact. drug delivery system.
Formulation
Performance
of Lipomize’s
Liposome
Temperature Resistance
Lipomize Liposome’s phospholipids blend ensure temperature resis
tance up to 60°C with no modification in its membrane properties.
Surfactants Resistance
Lipomize Liposome are made with a proprietary blend of
natural phospholipids that ensure surfactant resistance in most
cosmetics formulations.
Lipomize Liposomes assembled by Lipo gredient. Lipomize liposomes pos (vitamin F) precursor of Ceramide1,
Liposome mize are formulated with natural sess high resistance to the action of fundamental component of the
phospholipids extracted from soy surfactants and high structural and Natural Moisturizing Factor, being
lecithin. Low Energy Methods are physicochemical stability as well liposomes an excellent moisturizer
used for processing, protecting the as a special blend of phospholipids by themselves. On the other hand
integrity and stability of the nano- that resists gastric digestion in the linoleic acid is an essential fatty acid
vesicles and active ingredients. stomach, these features improve indispensable for a healthy nutri
Lipomize uses best raw materials for nanocarrier performance. They also tion. Liposome not only protects
its homogeneous size, controlled have essential components for cell actives ingredient and increase bio
lamellarity liposomes, natural soy metabolism. Particularly provide a availability they also nurture.
lecithin and world class active in high concentration of linoleic acid
Atomic Force Microscopy. Laboratorio de Superficies e
Interfases. intec (conicet-unl). Güemes 3450, Santa Fe, Argentina.
Particle Size Distribution. Dynamic Light Scattering. Lipomize
Liposome have narrow size distribution and average size of 180 nm.
Lipomize® PRODUCT CATALOG
3. BRAND NAME DESCRIPTION CODE PRODUCT
HidraMize® The secret for a smooth and supple skin is an B1 Liposomal complex Vitamin A 0,3% and Urea 10%
excellent hydration. First skin’s need is hydration. B2 Plane Liposomes 9%
Products formulated with Hydramize® Liposomes
B3 Liposomal Allantoin 0,2%
carrying moisturizers improve brightness of the
skin, as well as increase elasticity and smoothness. B4 Liposomal Hyaluronic Acid 0,5%
B5 Liposomal Complex Alanine 5%, Glycine 5% & Serine 5%
B6 Liposomal Aloe Vera 45%
C16 B7 Liposomal Hydrolyzed Collagen 2,5%
LipoCibus® LipoCibus® Liposomes are appropriate for complex C17 B8 Liposomal Wheat Germ 45%
nourishing creams, serums and balsams. These C18 B9 Liposomal Vitamin A 0,3%
liposome are filled up with active ingredients
that restore lost key skin’s components due to
aging and environmental damage. Products
formulated with LipoCibus® prevent the formation
of lines, wrinkles, furrows and mitigate existing
ones. LipoCubus® for nutraceuticals are excellent
suplements for joints and extra vitamins to tackle
stress.
Iuvenesens® Iuvenesens® Liposomes stop the deterioration of C19 B10 Liposomal Complex Carrot Extract 45% & Vit. E 0,25%
cells, regenerating and repairing the structure of C20 B11 Liposomal Vitamin E 0,25%
the extracellular matrix, this is a determining fac
C4 B12 Liposomal Coenzyme Q10 0,02%
tor for maintaining healthy skin. These liposomes
are specially formulated for the production of B13 Liposomal Complex Honey 20% and Royal Jelly 0,25%
cosmetics to protect the delicate skin around
B15 Liposomal Complex Vit. A 0,3% & Tocopherols 0,25%
the eyes, for its antioxidant protection and help
counteract the effects of premature aging. Nu C1 B16 Liposomal Vitamin C 10%
traceutical Iuvenesens® are powerful antioxidants
to prevent cell damage by free radical delaying
aging signs.
Recentus® Recentus® Liposomes are used to formulate B14 Liposomal Complex Hamammelis 18% & Vit. E 0,25%
cosmetic products intended to prevent irritation
B28 Liposomal Hamammelis 18%
of sensitive and dry skin. Some of the products
are aftershave lotions and baby care lotions.
UltraMize® UltraMize® Liposomes are used in products that B17 Liposomal Caffeine 1,6%
reduce the adipose tissue responsible for cellulite. B18 Liposomal Fucus Vesiculosus 45,0%
They deliver substances within the skin that are
B19 Liposomal Myriceline 30%
responsible for converting fatty acids into energy
boosting methabolism. Liposomes allowed a B27 Liposomal Gotu Kola 45%
rapid absorption and provides a cooling effect
that activates blood circulation. These products
are used in the treatment thighs, hips, buttocks
and abdomen.
LipoSun® LipoSun® Liposomes are specially formulated for B21 Liposomal Complex Carrot Extract 45% and
producing tanning accelerating lotions. They give Hydrolyzed Collagen 1,5%
skin a golden, homogeneous and smooth natural
color. These products replenish the skin from
dehydration caused by sun exposure, thereby
preventing flaking.
Capillus® Hair, like any other body part, requires specific B22 Liposomal Complex Caffeine 1%, Pantothenate 1%,
nutrients to grow long and strong. Capillus® Gotu Kola 20% and Guarana 20%
Liposomes are made of specific compounds used in B23 Liposomal Complex Vitamin E 0,25%, Pantothenate
the production oflotions that protect and stimulate 2% and Aloe Vera 45%
hair growth.
B29 Liposomal Complex Nettle 45% and Caffeine 1%
Nutraceutical Use Cosmeceutical Use
Lipomize® PRODUCT CATALOG