Medical Science Liaison (MSL) - Exploring career possibilities? The ACMA Career Center provides exceptional career resources. Share your Resume at [email protected] if you belong to biotech/pharmaceutical industry.

Get the best general range products franchise for the pharma business, Riqfame provides top general products pharma franchise in India with the highest quality products that help to grow your business

It's 1898. You wake up on a cold morning and the full effects of a cold hit you: coughing, sneezing, and a terrible fever. Like any self-respecting American...

This ethical problem openly, putting patients’ well-being ahead of any potential conflicts. The focus of a Russian speaking pharmacy in California.

Breaking away from big pharmaceutical companies can be a complex and challenging endeavor, but if you're interested in exploring alternative approaches to healthcare or supporting more natural and holistic remedies, there are several steps you can take. Here are some suggestions: • Educate yourself: Learn about alternative healthcare systems, holistic medicine, herbal remedies, and other non-pharmaceutical approaches. Understand the benefits, risks, and limitations of different treatments. • Fi

antibiotics, antimicrobials, tim sandle, pharmaceutical microbiology

A year after pharmacist and collector Sir Henry Wellcome (1853-1936) established the Wellcome Trust in his will – the free museum and library that aims “to challenge how we all think and feel about health” – the institution took possession of André Just’s photographs of a women undergoing freckles removal. The Trust’s commitment to showing links … Continue reading "Freckles Removal Between the Wars"

A Bloomberg article earlier this week had a very interesting article on pharmaceutical drugs that are produced in China. The article was called “Why the FDA Is Worried about Chinese Drugs in …

The world's biggest pharmaceutical companies are worth $4.1 trillion. Here we map the top 100 companies based on their market cap value.

In the dynamic realm of healthcare, India stands as a powerhouse with a robust pharmaceutical industry that plays a pivotal role in global healthcare solutions. From producing generic medicines to…

SVIET College is Best D Pharmacy Colleges in Punjab and Chandigarh. The Students can Gain comprehensive understanding of Pharmacy with Sviet College.

When a Lubricant passes the sterility test, it is declared that the Lubricating material can be used in the surgical and pharmaceutical equipment.

The PG Diploma in Pharmaceutical Management is a one-year postgraduate program that combines management with technological advances in healthcare. It covers topics such as enterprise management, leadership, advanced business concepts, technology management, and advanced pharmaceutical management. Candidates must have a bachelor's degree in pharmacy or a similar field with a minimum overall score allowed by the institute. Salaries in India for postgraduates of this program can range from INR 2.5 to 3.5 lakhs per year. Various top institutes in India offer this program, and career prospects include roles such as pharmaceutical manager, sales manager, and market researcher.

Which one is the mole? Find out the stupid doctor who involves the leakage of Shanghai hundreds of millions of medical data.

Practically, there are lots of trusted and reliable pharmaceutical companies and online stores in Nigeria today that are registered and can compete with the world’s leading pharmaceutical companies in terms of …

Definition of Pharmacognosy : Pharmacognosy is the branch of pharmacy and pharmaceutical sciences that focuses on the study of natural products derived from plants, animals, and other natural sources. It involves the identification, isolation, purification, characterization, and evaluation of bioactive compounds found in these natural sources for their therapeutic properties and potential use in the development of drugs. Pharmacognosy combines elements of botany, chemistry, biochemistry, and pharmacology to investigate the chemical composition, biological activity, and medicinal properties of natural substances. It aims to understand the chemical and biological interactions between these natural products and the human body, as well as their mechanisms of action. The field of pharmacognosy encompasses various aspects, including the collection and identification of medicinal plants and other natural materials, the extraction and isolation of active constituents, the development of analytical methods to assess the quality and purity of natural products, and the investigation of their pharmacological activities and potential applications in the treatment and prevention of diseases. Pharmacognosy plays a crucial role in the discovery and development of new drugs, as many important therapeutic agents have been derived from natural sources. It contributes to the understanding of traditional medicine practices and helps in the development of evidence-based herbal medicines. Additionally, pharmacognosy is involved in the quality control and standardization of herbal products, ensuring their safety, efficacy, and consistent quality for use in healthcare. History of Pharmacognosy : The history of pharmacognosy dates back thousands of years, as the use of natural substances for medicinal purposes has been a fundamental part of human civilization. Here is a brief overview of the history of pharmacognosy: Ancient Times: The origins of pharmacognosy can be traced back to ancient civilizations such as Egypt, Mesopotamia, China, and India. These cultures possessed extensive knowledge of medicinal plants and their therapeutic properties. Ancient texts, such as the Ebers Papyrus (an Egyptian medical document dating back to around 1500 BCE) and the Ayurvedic texts of India, described the use of various plants and herbal preparations for treating illnesses. Classical Period: The Greek and Roman civilizations further advanced the study of medicinal plants. Greek physician Dioscorides wrote "De Materia Medica," a comprehensive text describing hundreds of medicinal plants and their uses, which became a foundational work in pharmacognosy. The works of other notable figures like Theophrastus and Galen also contributed to the understanding of botanical medicine during this time. Middle Ages: The knowledge of pharmacognosy continued to evolve during the Middle Ages, with contributions from Islamic scholars such as Avicenna (Ibn Sina). Avicenna's "Canon of Medicine" compiled extensive information on drugs and their preparations, including many herbal remedies. These works were translated into Latin and became influential in European medicine. Renaissance and Enlightenment: The Renaissance period saw an increased interest in the scientific study of medicinal plants. Herbal books and pharmacopoeias were published, describing the identification, preparation, and use of medicinal plants. Notable figures in this era include Nicholas Culpeper and Carolus Linnaeus, who classified plants and established botanical nomenclature. Modern Era: The 19th and 20th centuries brought advancements in chemical analysis and pharmacology, leading to a more systematic and scientific approach to pharmacognosy. Isolation and identification of active compounds from plants became possible, leading to the discovery of many important drugs derived from natural sources, such as morphine, quinine, and aspirin. Pharmacognosy became an established discipline within pharmacy and pharmaceutical sciences. Contemporary Pharmacognosy: In recent years, with advances in technology and analytical methods, pharmacognosy has further expanded its scope. Researchers use sophisticated techniques like spectroscopy, chromatography, and genomics to identify and study bioactive compounds from natural sources. There is a growing focus on exploring traditional medicine systems, biodiversity, and sustainable practices for drug discovery and development. Today, pharmacognosy continues to play a vital role in drug discovery, quality control of herbal medicines, and the exploration of natural products as potential sources of new therapeutic agents. It remains an interdisciplinary field that integrates knowledge from botany, chemistry, pharmacology, and other related disciplines. Present status of Pharmacognosy : The present status of pharmacognosy is dynamic and continues to evolve in response to advancements in science, technology, and the growing interest in natural products for healthcare. Here are some key aspects that reflect the present status of pharmacognosy: 1. Drug Discovery and Development: Pharmacognosy plays a significant role in drug discovery by identifying and characterizing bioactive compounds from natural sources. Natural products continue to serve as valuable leads for the development of new drugs. Pharmacognosists explore diverse plant, animal, and microbial sources to discover novel compounds with therapeutic potential. Techniques such as high-throughput screening, bioassays, and computational methods are employed to identify and evaluate natural products for their pharmacological activities. 2. Quality Control and Standardization: With the increasing popularity of herbal medicines and dietary supplements, ensuring their quality, safety, and efficacy is crucial. Pharmacognosists contribute to the development of standards and guidelines for the quality control and standardization of herbal products. They employ various analytical techniques to assess the identity, purity, potency, and consistency of natural products, including methods like chromatography, spectroscopy, and DNA barcoding. 3. Ethnopharmacology and Traditional Medicine: Pharmacognosy embraces the study of traditional medicine systems and indigenous knowledge about medicinal plants. Ethnopharmacological research focuses on exploring the traditional use of natural products by different cultures and documenting their efficacy and safety. This knowledge helps validate traditional practices, identify potential new therapeutic agents, and bridge the gap between traditional and modern medicine. 4. Biodiversity and Conservation: The conservation of biodiversity is crucial for the sustainable use of natural resources in pharmacognosy. Efforts are made to protect and preserve plant species and ecosystems that serve as sources of medicinal plants. Pharmacognosists collaborate with botanists, ecologists, and environmental scientists to study plant diversity, assess the ecological impact of harvesting medicinal plants, and promote sustainable practices. 5. Integration of Modern Techniques: Pharmacognosy has embraced modern scientific techniques to enhance research capabilities. Advanced technologies such as genomics, metabolomics, proteomics, and bioinformatics are employed to understand the chemical composition, biological activities, and mechanisms of action of natural products. These techniques enable more comprehensive studies of complex mixtures, identification of new compounds, and elucidation of their interactions with biological systems. 6. Interdisciplinary Collaboration: Pharmacognosy often collaborates with other scientific disciplines, such as pharmacology, chemistry, biotechnology, and clinical research. This interdisciplinary approach allows for a holistic understanding of natural products and their potential applications in healthcare. Collaboration with industry, academia, and healthcare practitioners helps translate pharmacognosy research into practical applications and the development of evidence-based medicines. Overall, the present status of pharmacognosy reflects its ongoing relevance in drug discovery, quality control, traditional medicine research, and biodiversity conservation. It continues to contribute to the development of safe, effective, and sustainable healthcare solutions by harnessing the therapeutic potential of natural products. Scope of Pharmacognosy : The scope of pharmacognosy encompasses a wide range of areas and activities related to the study and application of natural products. Here are some key aspects that define the scope of pharmacognosy: 1. Natural Product Identification and Characterization: Pharmacognosy involves the identification, classification, and characterization of natural products derived from plants, animals, and other natural sources. This includes studying their morphology, taxonomy, chemical composition, and physical properties. 2. Drug Discovery and Development: Pharmacognosy plays a crucial role in the discovery and development of new drugs. It involves the isolation, purification, and characterization of bioactive compounds from natural sources. Pharmacognosists explore the potential therapeutic activities of these compounds and evaluate their efficacy, safety, and mechanisms of action. 3. Pharmacological Evaluation: Pharmacognosy encompasses the evaluation of natural products for their pharmacological activities. This involves studying their effects on various biological systems, including in vitro and in vivo experiments. Pharmacognosists assess the potential of natural products in treating or preventing diseases and explore their mechanisms of action. 4. Traditional Medicine and Ethnopharmacology: Pharmacognosy embraces the study of traditional medicine systems and indigenous knowledge related to the use of natural products. It involves documenting traditional practices, validating their efficacy and safety, and exploring the scientific basis behind traditional remedies. Pharmacognosists work closely with ethnobotanists and traditional healers to study traditional medicines and their cultural significance. 5. Quality Control and Standardization: Pharmacognosy is involved in establishing quality control measures and standards for natural products. It includes developing methods for the authentication, identification, and quantification of active constituents in herbal medicines. Pharmacognosists employ various analytical techniques, such as chromatography, spectroscopy, and DNA barcoding, to ensure the quality, safety, and consistency of herbal products. 6. Phytochemistry and Metabolomics: Pharmacognosy involves the study of the chemical constituents of natural products. It encompasses the analysis and characterization of secondary metabolites, such as alkaloids, flavonoids, terpenoids, and phenolic compounds, present in plants and other sources. Pharmacognosists employ techniques like chromatography, mass spectrometry, and nuclear magnetic resonance (NMR) to identify and quantify these compounds. 7. Biodiversity and Conservation: Pharmacognosy recognizes the importance of biodiversity and conservation in the sustainable use of natural resources. It involves studying plant diversity, assessing the ecological impact of medicinal plant harvesting, and promoting sustainable practices. Pharmacognosists work towards the conservation and sustainable management of medicinal plants and their habitats. 8. Industry and Quality Assurance: Pharmacognosy has applications in the pharmaceutical, nutraceutical, and cosmetic industries. It contributes to the development and formulation of herbal medicines, dietary supplements, and natural cosmetic products. Pharmacognosists ensure the quality, efficacy, and safety of these products through quality assurance measures and adherence to regulatory guidelines. 9. Research and Innovation: Pharmacognosy is an active field of research, constantly exploring new areas and approaches. It involves interdisciplinary collaborations with other scientific disciplines, such as chemistry, pharmacology, biotechnology, and genomics. Pharmacognosists employ innovative technologies and techniques to discover new natural products, understand their mechanisms of action, and explore their potential applications in healthcare. The scope of pharmacognosy is diverse and multidimensional, encompassing research, drug discovery, quality control, traditional medicine, conservation, and industry applications. It continues to evolve with advancements in scientific knowledge and technology, contributing to the development of safe, effective, and sustainable healthcare solutions.

Pharmaceutical Calculations: A Conceptual Approach, is a book that combines conceptual and procedural understanding for students and will guide you to master prerequisite skills to carry out accurate compounding and dosage regimen calculations. It is a book that makes the connection between basic sciences and pharmacy. It describes the most important concepts in pharmaceutical sciences thoroughly, accurately and consistently through various commentaries and activities to make you a scientific thinker, and to help you succeed in college and licensure exams. Calculation of the error associated with a dose measurement can only be carried out after understanding the concept of accuracy versus precision in a measurement. Similarly, full appreciation of drug absorption and distribution to tissues can only come about after understanding the process of transmembrane passive diffusion. Early understanding of these concepts will allow reinforcement and deeper comprehension of other related concepts taught in other courses.More weight is placed on the qualitative understanding of fundamental concepts, like tonicity vs osmotic pressure, diffusion vs osmosis, crystalloids vs colloids, osmotic diuretics vs plasma expanders, rate of change vs rate constants, drug accumulation vs drug fluctuation, loading dose vs maintenance dose, body surface area (BSA) vs body weight (BW) as methods to adjust dosages, and much more, before considering other quantitative problems. In one more significant innovation, the origin and physical significance of all final forms of critical equations is always described in detail, thus, allowing recognition of the real application and limitations of an equation. Specific strategies are explained step-by-step in more than 100 practice examples taken from the fields of compounding pharmacy, pharmaceutics, pharmacokinetics, pharmacology and medicine.

Pharmaceutical product development is a multidisciplinary activity which includes extensive efforts in systematic product development and optimization in compliance with regulatory requirements to ensure the quality, efficacy and safety of the resulting pharmaceutical dosage form.Pharmaceutical Product Development prepares the pharmaceutical formulation scientist with current and up-to-date knowledge of drug product development process and covers all ladders from the beginning of product conception to the final packaged form that enters the market and lifecycle management thereof.Applications of core scientific principles for product development are also thoroughly discussed in conjunction with the latest approaches involving use of novel excipient of natural origin with comprehensive illustrations based on practical case studies of sustained release drug delivery system.The present book discusses pharmaceutical product development information in an a very easy and lucid manner with simplified theories, case studies and guidelines for students, academicians and professionals in the pharmaceutical industry. Pharmaceutical Product Development: A systematic Approach (Paperback)

Here you can find top pharma companies in India, Sun Pharmaceutical Industries Ltd, Aurobindo Pharma, Lupin Pharmaceuticals Ltd, Dr Reddy’s Laboratories, Cipla.

I cannot take credit for these, but they are amazing all the same. :) This set has been linked from boingboing and other blogs.

It’s possibly the most beautifully packaged Miticide ever to be produced on Earth, but you can feel free to comment if you beg to differ. Yes, today we are honoring Basel—based chemicals company Geigy’s wonderfully utilitarian and typographical work during Switzerland’s post-war graphic design move

Are you thinking about becoming a pharmacist? So, let's take an in-depth look at how to become a pharmacist and discover if this career is for you.