This assignment was developed for an undergraduate course in communication sciences and disorders.
This patient education program explains amyotrophic lateral sclerosis (ALS or Lou Gehrig's Disease) including the causes, symptoms, diagnosis and treatment options. This resource is a MedlinePlus Interactive Health Tutorial from the National Library of Medicine, designed and developed by the Patient Education Institute.
Le diagnostic est défini comme l’ensemble des mesures réalisées afin d’identifier la nature et la cause des pathologies. Cette recherche est par essence imparfaite et tout thérapeute visera, autant que faire se peut, à s’approcher au plus près du diagnostic. Dans ce processus, plusieurs modalités (anamnèse, examen clinique et examens complémentaires) seront nécessaires tout en restant insuffisantes - ou pour le moins imprécises - lorsqu’elles seront considérées de manière isolée. Au final, c’est la synthèse de ces données qui nous offrira la meilleure vision d’une pathologie nécessairement spécifique et individuelle. La médecine se trouve à mi-distance entre les sciences exactes et les sciences humaines. Certains la définissent aussi comme un art, c’est-à-dire comme une capacité individuelle qu’aurait chaque médecin à soigner. En partie en réaction avec cette idée, depuis une trentaine d’années, l’Evidence Based Medicine s’est progressivement imposée dans les parcours thérapeutiques en même temps qu’une multitude de nouveaux examens complémentaires. Cette évolution vers davantage de science se voit aujourd’hui modérée par un retour progressif à une prise en charge plus globale des patients et c’est probablement à mi-chemin que se trouvera la meilleure stratégie. L’avantage de cette méthode est appuyé par la littérature scientifique actuelle qui montre, chaque jour un peu plus, l’interconnexion des différentes pathologies là-même où nous aurions pensé les séparer par une frontière bien nette. La prise en charge du patient dans sa globalité est garantie par un interrogatoire et un examen clinique bien conduits. Eux seuls peuvent efficacement orienter la nécessité d’examens complémentaires dont la précision extrême reste limitée soit dans l’espace (une IRM lombaire ne couvre que quelques vertèbres…) soit par leur technologie (faible résolution spatiale de la scintigraphie...). La pathologie rachidienne est décrite, à cause de sa prévalence, comme la pathologie du siècle. Elle constitue un des premiers motifs de consultation. Son impact est important sur le plan socio-économique et sur le plan de la santé publique. En effet, en termes d’invalidité, les problèmes lombaires sont au premier plan, suivis par la dépression et les autres affections musculo-squelettiques. Le vieillissement de nos populations s’accompagne d’une augmentation des pathologies dégénératives - y compris rachidiennes - associant des symptômes d’enraidissement, de douleur, de déformation ou de déficit neurologique. Dans ce chapitre, nous nous efforcerons de mettre en lumière les éléments fondamentaux à recueillir dans le cadre d’une consultation en pathologie rachidienne. Il ne s’agit donc pas d’une description exhaustive de l’ensemble des techniques d’interrogatoire et d’examen clinique mais plutôt d’un recueil d’étapes nécessaires pour pouvoir s’orienter correctement et parler un même langage.
Short Description:
This textbook is designed to actively engage your exploration and critical analysis of human anatomical variation in an Australian and New Zealand context. Understanding anatomical variation is essential for all health professionals to avoid patient misdiagnosis such as confusing a natural variant with a pathology, minimise surgical or procedural errors that may occur if variations are unexpected, and ultimately improve patient outcomes by applying culturally safe practices. Research in anatomical variation has demonstrated significant differences in phenotypic expression of variants between and within geographic, ancestral and socioeconomic populations, as well as displaying significant variance between males and females. It is therefore critical as a health professional to understand anatomical variation in the context of the population you intend to practice in. This textbook compiles this critical information into an easy to read summary of the range and frequency of anatomical phenotypes in Australian and New Zealand patients by drawing from contemporary anatomical science research. Anatomical variation of Aboriginal, Torres Strait Islander and Māori peoples has also been highlighted where research is available.
Long Description:
The anatomy of our outwardly facing physical appearance exhibits great diversity between individuals, from different eye, skin and hair colour to the size of our feet and our height. However, it is less known whether our anatomy differs beneath the surface… is the anatomy of the internal organs the same between individuals? Most textbooks would like you to think so with simplified standard descriptions of human anatomy such as the lung lobes and fissures, aortic arch branches and bone numbers. But this eBook is different. Here we build your understanding of the scope and clinical importance of human anatomical variation to improve your clinical skills as a health professional or biomedical scientist.
Anatomical variation is described as the differences in macroscopic morphology (shape and size), topography (location), developmental timing or frequency (number) of an anatomical structure between individuals. It presents during embryological or subadult development and results in no substantive observable interruption to physiological function. Every organ displays an array of anatomical phenotypes, and for these reasons the anatomy of each person is considered a variant. Understanding anatomical variation is essential for all health professionals to avoid patient misdiagnosis such as confusing a natural variant with a pathology, minimise surgical or procedural errors that may occur if variations are unexpected, and ultimately improve patient outcomes by applying culturally safe practices.
This textbook is designed to actively engage your exploration and critical analysis of human anatomical variation in an Australian and New Zealand context. Research in anatomical variation has demonstrated significant differences in phenotypic expression of variants between and within geographic, ancestral and socioeconomic populations, as well as displaying significant variance between males and females. It is therefore critical as a health professional to understand anatomical variation in the context of the population you intend to practice in. This textbook compiles this critical information into an easy to read summary of the range and frequency of anatomical phenotypes in Australian and New Zealand patients by drawing from contemporary anatomical science research. Anatomical variation of Aboriginal, Torres Strait Islander and Māori peoples has also been highlighted where research is available.
The textbook is organised to complement your health science studies by developing your depth of understanding to address three critical themes in anatomical variation: Theme 1: Categorise and describe a range of anatomical variation within the human body. Theme 2: Theorise the implications of anatomical variation on patient outcomes and in professional contexts. Theme 3: Investigate the process of anatomical variation formation and its potential causes.
Each chapter employs a multimodal and active learning approach using text and video summaries of key information, checkpoint quizzes, interactive images, clinical and professional discussion activities, and recommended readings. In this way, the activities in this textbook can be easily embedded into existing health science curricula to strengthen anatomical variation understanding in all health professional courses.
Word Count: 31978
ISBN: 978-1-925553-51-2
(Note: This resource's metadata has been created automatically by reformatting and/or combining the information that the author initially provided as part of a bulk import process.)
Short Description:
This textbook is designed to actively engage your exploration and critical analysis of human anatomical variation in an Australian and New Zealand context. Understanding anatomical variation is essential for all health professionals to avoid patient misdiagnosis such as confusing a natural variant with a pathology, minimise surgical or procedural errors that may occur if variations are unexpected, and ultimately improve patient outcomes by applying culturally safe practices. Research in anatomical variation has demonstrated significant differences in phenotypic expression of variants between and within geographic, ancestral and socioeconomic populations, as well as displaying significant variance between males and females. It is therefore critical as a health professional to understand anatomical variation in the context of the population you intend to practice in. This textbook compiles this critical information into an easy to read summary of the range and frequency of anatomical phenotypes in Australian and New Zealand patients by drawing from contemporary anatomical science research. Anatomical variation of Aboriginal, Torres Strait Islander and Māori peoples has also been highlighted where research is available.
Long Description:
The anatomy of our outwardly facing physical appearance exhibits great diversity between individuals, from different eye, skin and hair colour to the size of our feet and our height. However, it is less known whether our anatomy differs beneath the surface… is the anatomy of the internal organs the same between individuals? Most textbooks would like you to think so with simplified standard descriptions of human anatomy such as the lung lobes and fissures, aortic arch branches and bone numbers. But this eBook is different. Here we build your understanding of the scope and clinical importance of human anatomical variation to improve your clinical skills as a health professional or biomedical scientist.
Anatomical variation is described as the differences in macroscopic morphology (shape and size), topography (location), developmental timing or frequency (number) of an anatomical structure between individuals. It presents during embryological or subadult development and results in no substantive observable interruption to physiological function. Every organ displays an array of anatomical phenotypes, and for these reasons the anatomy of each person is considered a variant. Understanding anatomical variation is essential for all health professionals to avoid patient misdiagnosis such as confusing a natural variant with a pathology, minimise surgical or procedural errors that may occur if variations are unexpected, and ultimately improve patient outcomes by applying culturally safe practices.
This textbook is designed to actively engage your exploration and critical analysis of human anatomical variation in an Australian and New Zealand context. Research in anatomical variation has demonstrated significant differences in phenotypic expression of variants between and within geographic, ancestral and socioeconomic populations, as well as displaying significant variance between males and females. It is therefore critical as a health professional to understand anatomical variation in the context of the population you intend to practice in. This textbook compiles this critical information into an easy to read summary of the range and frequency of anatomical phenotypes in Australian and New Zealand patients by drawing from contemporary anatomical science research. Anatomical variation of Aboriginal, Torres Strait Islander and Māori peoples has also been highlighted where research is available.
The textbook is organised to complement your health science studies by developing your depth of understanding to address three critical themes in anatomical variation: Theme 1: Categorise and describe a range of anatomical variation within the human body. Theme 2: Theorise the implications of anatomical variation on patient outcomes and in professional contexts. Theme 3: Investigate the process of anatomical variation formation and its potential causes.
Each chapter employs a multimodal and active learning approach using text and video summaries of key information, checkpoint quizzes, interactive images, clinical and professional discussion activities, and recommended readings. In this way, the activities in this textbook can be easily embedded into existing health science curricula to strengthen anatomical variation understanding in all health professional courses.
Word Count: 31376
(Note: This resource's metadata has been created automatically by reformatting and/or combining the information that the author initially provided as part of a bulk import process.)
Le but du présent chapitre n’est pas de réaliser une description exhaustive de l’anatomie du rachis mais bien d’en présenter les caractéristiques essentielles du point de vue du clinicien afin de pouvoir juger de la normalité ou non du bilan d’imagerie. Cette lecture doit pouvoir s’effectuer sur la base des trois examens complémentaires aujourd’hui indispensables qui sont la radiographie, le CT-scan et l’IRM.
Laboratory manual for undergraduate Anatomy & Physiology 1
Laboratory manual for undergraduate Anatomy & Physiology 2
Teaching and learning resources for A&P 2. Please check back as I intend to add more.
Syllabus for the first half of a comprehensive study of the structure and function of the human body. This course uses an open textbook, Anatomy & Physiology, from OpenStax.
Syllabus for the second half of a comprehensive study of the structure and function of the human body. This course uses an open textbook, Anatomy & Physiology, from OpenStax.
This Anatomy and Physiology I Histology Atlas helps students better understand the complex discipline of tissue histology with the use of interactive H5P activities. Students can reveal or hide illustration overlays drawn to help students visualize cell- and tissue-level structures.
This open access histology atlas was made possible through generous grant funding by The University System of Georgia through the Affordable Learning Georgia initiative: https://www.affordablelearninggeorgia.org/.
Short, animated videos on many Anatomy and Physiology topics. Videos used in college courses and cover the content presented in the first 2 semesters of Anatomy and Physiology for Nursing/Allied Health students.
This open textbook is adapted from OpenStax’s Anatomy and Physiology for Carmen Bott’s KINS 1100 (Biodynamics of Physical Activity) class at Langara College. Sections have been omitted from the original textbook to reflect the KINS 1100 curriculum, but the content is otherwise unchanged.
Short video on the anatomy of a spinal nerve for anatomy and physiology.
This resource is a video abstract of a research paper created by Research Square on behalf of its authors. It provides a synopsis that's easy to understand, and can be used to introduce the topics it covers to students, researchers, and the general public. The video's transcript is also provided in full, with a portion provided below for preview:
"Citation rates and journal impact factor are the most widely used measures of influence in the academic world. But true impact extends well beyond the sphere of research. While quantifying this influence has remained incredibly challenging, social media and the alternative metrics its supplies are beginning to change that. In a new study reported in The American Journal of Sports Medicine, researchers looked at how these “altmetrics” correlate with traditional measures of impact in the field of orthopedics. Their findings point to the types of studies and publication venues that attain the greatest reach. The authors of the study analyzed 496 articles published across five high-impact journals in 2016: The Journal of Bone and Joint Surgery; Clinical Orthopaedics and Related Research; Acta Orthopaedica; Knee Surgery, Sports Traumatology, Arthroscopy; and The American Journal of Sports Medicine..."
The rest of the transcript, along with a link to the research itself, is available on the resource itself.
Esta es una lección virtual sobre los conceptos básicos de cardiología, que permitirán identificar las estructuras del sistema cardiaco, su fisiología y el sistema eléctrico del corazón, lo cual es fundamental para poder comprender temas de mayor complejidad a nivel cardiaco.
Introduction to Biotechnology II (BIOL1415), provides learners with a practical exploration of a regulated biotechnology workplace. This course is a continuation of Introduction to Biotechnology I (BIOL 1414), and the cornerstone for the Biotechnology Level-One Certificate, as it provides students ample opportunity to master entry-level laboratory workforce skills. This course builds on knowledge in biotechnology, chemistry, & biology, and provides workforce training in areas of regulatory documentation, equipment validation, and teamwork. The goals of this course are to develop core laboratory skills needed in a bioscience lab job; critical thinking and multitasking, teamwork and accountability, accuracy in calculations and experimental analysis, and demonstrate skills associated with working in a regulated laboratory workplace.
This patient education program explains the benefits and risks of anesthesia. This is a MedlinePlus Interactive Health Tutorial from the National Library of Medicine, designed and developed by the Patient Education Institute.
This resource is a video abstract of a research paper created by Research Square on behalf of its authors. It provides a synopsis that's easy to understand, and can be used to introduce the topics it covers to students, researchers, and the general public. The video's transcript is also provided in full, with a portion provided below for preview:
"Scientists have long thought that anesthetic drugs might protect the brain during a stroke, but there was no way to rigorously test this idea because triggering strokes in animals requires the use of anesthesia. But now, a team of neuroengineers in China has come up with a work-around. Using lasers and a photosensitive dye, researchers set off strokes without needing to put animals to sleep, allowing them to finally disentangle the role of anesthetics on these often devastating events. The team first installed cranial windows in 22 rats to provide access to a critical artery in the brain. A day later, the neuroscientists injected the rats with a photosensitive dye. Then, by shining a laser on that artery, they could activate the dye to begin clotting, prompting an ischemic stroke -- without having to anesthetize first. Using this method, the researchers triggered strokes in two groups of rats. Half received the anesthetic isoflurane and were asleep, while the other half did not, and were awake..."
The rest of the transcript, along with a link to the research itself, is available on the resource itself.