The impact of pharmacogenetics on the future of healthcare

Pharmacogenetics has been promoted as potentially providing benefits to patients, managed care organizations and pharmaceutical companies. This has not translated into products that benecit healthcare developers, providers or consumers. The reasons for this are many, but this will change as the financial incentives become clear for the pharmaceutical industry to develop products that use genetic susceptibility as part of the rationale for products, healthcare providers have increasing incentive to reduce costs, and patients demand up-to-date technologies to optimize healthcare. Recent studies have established genetic contributions that alter the response to therapy for some disease entities, and more will follow as pharmacogenetics becomes increasingly accepted as an important consideration in the therapeutic decision-making process.     

Postmarket surveillance of natural health products in Canada: clinical and federal regulatory perspectives

Postmarket surveillance, particularly adverse reactions (ARs), forms an integral part of the ongoing safety evaluation for natural health products (NHPs). ARs can be related to many factors, including inherent toxicity, misuse, hypersensitivity, NHP-drug interactions, or product quality. High consumer use and limited safety and efficacy data from human clinical trials for many NHPs present a challenge to consumers, healthcare practitioners, and federal regulators. Canada's Natural Health Products Regulations mandate NHPs to be licensed. As the currently available unauthorized NHPs are being brought into compliance in Canada, the transition has produced some challenges, requiring ongoing public communication and education to promote the safe use of NHPs. This article will highlight Health Canada's key postmarket initiatives in strengthening the regulation of NHPs.     

Paradigm shift in natural product research: traditional medicine inspired approaches

The development of traditional medicine with the perspectives of safety, efficacy and quality would help not only to preserve the traditional heritage but also to rationalize the use of herbal medicine in the human healthcare. Nature is considered as a compendium for templates of new chemical entities. The medicinal plants mentioned in the different ancient texts worldwide may be explored with the modern scientific approaches for better leads in the healthcare. Drugs from medicinal plants are unique for their chemical and biological features, and are gaining global acceptance because they offer natural ways to treat diseases and promote healthcare. Natural products are the best sources of chemical diversity for finding new drugs and leads. Globalization of traditional medicine is necessary for health care with assessment of its safety, efficacy, therapeutic and clinical evidence. Evidence based validation of the ethnopharmacological claims on traditional medicine is necessary for its promotion and development. Applications of techniques such as marker analysis, DNA bar coding, plant metabolomics, network pharmacology etc. are being taken into account for the validation and documentation of medicinal plants. This can be achieved by the scientific exploitation of the established facts from ancient systems through proper validation of the claims based on pharmacological and phytochemical assessments.     

A survey of web resources and tools for the study of TCM network pharmacology

Background: Traditional Chinese medicine (TCM) treats diseases in a holistic manner, while TCM formulae are multi-component, multi-target agents at the molecular level. Thus there are many parallels between the key ideas of TCM pharmacology and network pharmacology. These years, TCM network pharmacology has developed as an interdisciplinary of TCM science and network pharmacology, which studies the mechanism of TCM at the molecular level and in the context of biological networks. It provides a new research paradigm that can use modern biomedical science to interpret the mechanism of TCM, which is promising to accelerate the modernization and internationalization of TCM. Results: In this paper we introduce state-of-the-art free data sources, web servers and softwares that can be used in the TCM network pharmacology, including databases of TCM, drug targets and diseases, web servers for the prediction of drug targets, and tools for network and functional analysis. Conclusions: This review could help experimental pharmacologists make better use of the existing data and methods in their study of TCM.     

A personal view on systems medicine and the emergence of proactive P4 medicine: predictive, preventive, personalized and participatory

Systems biology and the digital revolution are together transforming healthcare to a proactive P4 medicine that is predictive, preventive, personalized and participatory. Systems biology - holistic, global and integrative in approach - has given rise to systems medicine, a systems approach to health and disease. Systems medicine promises to (1) provide deep insights into disease mechanisms, (2) make blood a diagnostic window for viewing health and disease for the individual, (3) stratify complex diseases into their distinct subtypes for a impedance match against proper drugs, (4) provide new approaches to drug target discovery and (5) generate metrics for assessing wellness. P4 medicine, the clinical face of systems medicine, has two major objectives: to quantify wellness and to demystify disease. Patients and consumers will be a major driver in the realization of P4 medicine through their participation in medically oriented social networks directed at improving their own healthcare. P4 medicine has striking implications for society - including the ability to turn around the ever-escalating costs of healthcare. The challenge in bringing P4 medicine to patients and consumers is twofold: first, inventing the strategies and technologies that will enable P4 medicine and second, dealing with the impact of P4 medicine on society - including key ethical, social, legal, regulatory, and economic issues. Managing the societal problems will pose the most significant challenges. Strategic partnerships of a variety of types will be necessary to bring P4 medicine to patients.     

Koji – where East meets West in fermentation

Almost all biotechnological processes originate from traditional food fermentations, i.e. the many indigenous processes that can be found already in the written history of thousands of years ago. We still consume many of these fermented foods and beverages on a daily basis today. The evolution of these traditional processes, in particular since the 19th century, stimulated and influenced the development of modern biotechnological processes. In return, the development of modern biotechnology and related advanced techniques will no doubt improve the process, the product quality and the safety of our favourite fermented foods and beverages. In this article, we describe the relationship between these traditional food fermentations and modern biotechnology. Using Koji and its derived product soy sauce as examples, we address the mutual influences that will provide us with a better future concerning the quality, safety and nutritional effect of many fermented food products.     

Technology and medicine

Technology, which is older than science, has been of vital importance in the development of modern medicine. Even so, there are voices of dissent to be heard. The disenchantment with technology expressed by Aldous Huxley in Brave new world has been echoed by contemporary writers on the technology of modern medicine. Medicine is seen by some to have been dehumanized by technology, and techniques that are expensive are thought to be consuming a greater proportion of health resources than they deserve. The practice of medicine has, nevertheless, been transformed by modern technology and diagnostic techniques and therapeutic measures undreamed of a few short decades ago are now commonplace. There is no reason why these developments should be any more dehumanizing than the use of similar techniques in modern transportation or communication, nor is their expense out of proportion when compared with other demands on the nation's purse. British workers have been at the forefront of many recent advances. Yet, even though the National Health Service provides a ready market for the products of British medical technology, the nation depends to an inordinate degree on imported products. In the development of appropriate medical technology there is an urgent need for better communication between inventors, scientists, industrialists and the National Health Service. At the same time there is an equal need for improved evaluation of untried techniques. The pressure for a central integrating body to coordinate resources could well be supported by the establishment of evaluation units in the different health authorities in this country.     

Traditional Chinese herbal medicine at the forefront battle against COVID-19: Clinical experience and scientific basis

BackgroundThroughout the 5000-year history of China, more than 300 epidemics were recorded. Traditional Chinese herbal medicine (TCM) has been used effectively to combat each of these epidemics’ infections, and saved many lives. To date, there are hundreds of herbal TCM formulae developed for the purpose of prevention and treatment during epidemic infections. When COVID-19 ravaged the Wuhan district in China in early January 2020, without a deep understanding about the nature of COVID-19, patients admitted to the TCM Hospital in Wuhan were immediately treated with TCM and reported later with >90% efficacy.ApproachWe conducted conduct a systematic survey of various TCM herbal preparations used in Wuhan and to review their efficacy, according to the published clinical data; and, secondly, to find the most popular herbs used in these preparations and look into the opportunity of future research in the isolation and identification of bioactive natural products for fighting COVID-19.ResultsAlthough bioactive natural products in these herbal preparations may have direct antiviral activities, TCM employed for fighting epidemic infections was primarily based on the TCM theory of restoring the balance of the human immune system, thereby defeating the viral infection indirectly. In addition, certain TCM teachings relevant to the meridian system deserve better attention. For instance, many TCM herbal preparations target the lung meridian, which connects the lung and large intestine. This interconnection between the lung, including the upper respiratory system, and the intestine, may explain why certain TCM formulae showed excellent relief of lung congestion and diarrhea, two characteristics of COVID-19 infection.ConclusionThere is good reason for us to learn from ancient wisdom and accumulated clinical experience, in combination with cutting edge science and technologies, to fight with the devastating COVID-19 pandemic now and emerging new coronaviruses in the future.     

Deep sequencing of plant and animal DNA contained within traditional Chinese medicines reveals legality issues and health safety concerns

Traditional Chinese medicine (TCM) has been practiced for thousands of years, but only within the last few decades has its use become more widespread outside of Asia. Concerns continue to be raised about the efficacy, legality, and safety of many popular complementary alternative medicines, including TCMs. Ingredients of some TCMs are known to include derivatives of endangered, trade-restricted species of plants and animals, and therefore contravene the Convention on International Trade in Endangered Species (CITES) legislation. Chromatographic studies have detected the presence of heavy metals and plant toxins within some TCMs, and there are numerous cases of adverse reactions. It is in the interests of both biodiversity conservation and public safety that techniques are developed to screen medicinals like TCMs. Targeting both the p-loop region of the plastid trnL gene and the mitochondrial 16S ribosomal RNA gene, over 49,000 amplicon sequence reads were generated from 15 TCM samples presented in the form of powders, tablets, capsules, bile flakes, and herbal teas. Here we show that second-generation, high-throughput sequencing (HTS) of DNA represents an effective means to genetically audit organic ingredients within complex TCMs. Comparison of DNA sequence data to reference databases revealed the presence of 68 different plant families and included genera, such as Ephedra and Asarum, that are potentially toxic. Similarly, animal families were identified that include genera that are classified as vulnerable, endangered, or critically endangered, including Asiatic black bear (Ursus thibetanus) and Saiga antelope (Saiga tatarica). Bovidae, Cervidae, and Bufonidae DNA were also detected in many of the TCM samples and were rarely declared on the product packaging. This study demonstrates that deep sequencing via HTS is an efficient and cost-effective way to audit highly processed TCM products and will assist in monitoring their legality and safety especially when plant reference databases become better established.     

Connecting the Dots between Consumer Protection,Skepticism, and Science

The concept of relevance is an obvious component in the success of classroom science investigations, but it is also one of the tenets behind the numerous media advertisements that bombard our senses on a daily basis. The authors decided to capitalize on the similarities between process-based science and the world of advertising by initiating consumer protection investigations with a side venture into the commercial world of Madison Avenue. Advertisers use many strategies in an attempt to convince consumers to buy their products. By analyzing the strategies used in a sales pitch, one begins to recognize that data can be manipulated, facts can be skewed, and visuals can be controlled to enhance product performance. Such analyses require students to look deeper and seek answers beyond the surface of presented information, superficial declarations, visual discrepancies, and verbal innuendo. In other words, such analysis is all about deciphering claims and evidence, making it analogous to science. The antithesis of this procedure, synthesizing a sales campaign for a real or imagined product, is the application of these process skills. In sum, if students can create a successful advertising campaign by using their data, then they understand the art of data manipulation and may, therefore, become better consumers.     

现代生物医学科技前沿与中西医结合交叉

本文讨论了中医现代化和中西医结合的有关问题,指出中医现代化工作可分为三个方面：第一方面,应当培养大批临床上过硬的中医人才,在临床上有所突破,以此为基础进行理论研究;第二方面,将中医理论转换成现代语言;第三方面,中医与包括现代生物医学在内的多学科结合。阐述了现代生物医学科技前沿与中西医结合交叉而产生的新学科一光子中医学。指出光子中医学将为中西医结合提供理论和技术平台,成为多学科研究中医的代表性学科,并将成为中医现代化的一个重要方向,为人类卫生事业作出重大贡献。     

HOW DO WE WANT TO GROW OLD? ANTI‐AGEING‐MEDICINE AND THE SCOPE OF PUBLIC HEALTHCARE IN LIBERAL DEMOCRACIES

Healthcare counts as a morally relevant good whose distribution should neither be left to the free market nor be simply imposed by governmental decisions without further justification. This problem is particularly prevalent in the current boom of anti‐ageing medicine. While the public demand for medical interventions which promise a longer, healthier and more active and attractive life has been increasing, public healthcare systems usually do not cover these products and services, thus leaving their allocation to the mechanisms of supply and demand on the free market. This situation raises the question on which basis the underlying preferences for and claims to a longer, healthier life should be evaluated. What makes anti‐ageing medicine eligible for public funding? In this article, we discuss the role of anti‐ageing medicine with regard to the scope and limits of public healthcare. We will first briefly sketch the basic problem of justifying a particular healthcare scheme within the framework of a modern liberal democracy, focusing on the challenge anti‐ageing interventions pose in this regard. In the next section, we will present and discuss three possible solutions to the problem, essentialistic, transcendental, and procedural strategies of defining the scope of public healthcare. We will suggest a procedural solution adopting essentialistic and transcendental elements and discuss its theoretical and practical implications with regard to anti‐ageing medicine.     

Natural products in modern life science

With a realistic threat against biodiversity in rain forests and in the sea, a sustainable use of natural products is becoming more and more important. Basic research directed against different organisms in Nature could reveal unexpected insights into fundamental biological mechanisms but also new pharmaceutical or biotechnological possibilities of more immediate use. Many different strategies have been used prospecting the biodiversity of Earth in the search for novel structure–activity relationships, which has resulted in important discoveries in drug development. However, we believe that the development of multidisciplinary incentives will be necessary for a future successful exploration of Nature. With this aim, one way would be a modernization and renewal of a venerable proven interdisciplinary science, Pharmacognosy, which represents an integrated way of studying biological systems. This has been demonstrated based on an explanatory model where the different parts of the model are explained by our ongoing research. Anti-inflammatory natural products have been discovered based on ethnopharmacological observations, marine sponges in cold water have resulted in substances with ecological impact, combinatory strategy of ecology and chemistry has revealed new insights into the biodiversity of fungi, in depth studies of cyclic peptides (cyclotides) has created new possibilities for engineering of bioactive peptides, development of new strategies using phylogeny and chemography has resulted in new possibilities for navigating chemical and biological space, and using bioinformatic tools for understanding of lateral gene transfer could provide potential drug targets. A multidisciplinary subject like Pharmacognosy, one of several scientific disciplines bridging biology and chemistry with medicine, has a strategic position for studies of complex scientific questions based on observations in Nature. Furthermore, natural product research based on intriguing scientific questions in Nature can be of value to increase the attraction for young students in modern life science.     

Commercializing medical technology

As medicine moves into the 21st century, life saving therapies will move from inception into medical products faster if there is a better synergy between science and business. Medicine appears to have 50-year innovative cycles of education and scientific discoveries. In the 1880’s, the chemical industry in Germany was faced with the dilemma of modernization to exploit the new scientific discoveries. The solution was the spawning of novel technical colleges for training in these new chemical industries. The impact of those new employees and their groundbreaking compounds had a profound influence on medicine and medical education in Germany between 1880 and 1930. Germany dominated international science during this period and was a training center for scientists worldwide. This model of synergy between education and business was envied and admired in Europe, Asia and America. British science soon after evolved to dominate the field of science during the prewar and post World War (1930’s–1970’s) because the German scientists fled Hitler’s government. These expatriated scientists had a profound influence on the teaching and training of British scientists, which lead to advances in medicine such as antibiotics. After the Second World War, the US government wisely funded the development of the medical infrastructure that we see today. British and German scientists in medicine moved to America because of this bountiful funding for their research. These expatriated scientists helped drive these medical advances into commercialized products by the 1980’s. America has been the center of medical education and advances of biotechnology but will it continue? International scientists trained in America have started to return to Europe and Asia. These American-trained scientists and their governments are very aware of the commercial potential of biotechnology. Those governments are now more prepared to play an active role this new science. Germany, Ireland, Britain, Singapore, Taiwan and Israel are such examples of this government support for biotechnology in the 21st century. Will the US continue to maintain its domination of biotechnology in this century? Will the US education system adjust to the new dynamic of synergistic relationships between the education system, industry and government? This article will try to address these questions but also will help the reader understand who will emerge by 2015 as the leader in science and education.     

The specialty of colon and rectal surgery: its impact on patient care and role in academic medicine

The specialty of colon and rectal surgery, a specialty of general surgery, has evolved from the field of proctology. Clinical care has demonstrated decreased number of patients requiring intestinal stomas, improved quality of life in patients with benign anorectal disorders, and more favorable results in patients afflicted with primary and recurrent colorectal cancer. Basic science investigations have spawned from clinical questions such as the molecular biology of colorectal cancer, use of cyclooxygenase inhibitors and polyp regression, and novel cytokine antagonists in inflammatory bowel disease. Medical students are exposed to surgeons with expertise in anorectal anatomy and physiology, mechanisms of carcinogenesis and the importance of screening for detection of colorectal cancer, and novel therapies for inflammatory bowel disease. Surgical residents benefit by having a colorectal surgeon on the faculty by repetitive exposure to anorectal surgery, low pelvic anastomoses, stoma creation and closure, and surgery involving the small intestine. Senior colorectal surgeons will develop critical pathways for the healthcare delivery of patients afflicted with colorectal disease. The specialty of colorectal surgery will continue to translate into improved patient care and positively impact in academic medicine by providing expertise into student and resident training and generate highly sophisticated clinical and basic science investigations.     

FDA and NIST collaboration on standards development activities supporting innovation and translation of regenerative medicine products

The development of standards for the field of regenerative medicine has been noted as a high priority by several road-mapping activities. Additionally, the U.S. Congress recognizes the importance of standards in the 21st Century Cure Act. Standards will help to accelerate and streamline cell and gene therapy product development, ensure the quality and consistency of processes and products, and facilitate their regulatory approval. Although there is general agreement for the need of additional standards for regenerative medicine products, a shared understanding of standards is required for real progress toward the development of standards to advance regenerative medicine. Here, we describe the roles of standards in regenerative medicine as well as the process for standards development and the interactions of different entities in the standards development process. Highlighted are recent coordinated efforts between the U.S. Food and Drug Administration and the National Institute of Standards and Technology to facilitate standards development and foster science that underpins standards development.     

生态学在现代科学发展中的地位

生态学这个术语由Heckel所首创(1869),在当时并未为学术界所接受,Heckel本人也时以“自然经济学”,时而以“个体生态学”取而代之。尔后,其它生态学家又作过各种不同的解释,如“自然科学史”,“自然界的结构与功能的研究”等,但对生态学解释持反对意见的也不乏其人,如俄国著名的植物生理学家季米里亚捷夫直到最后才放弃自己的意