Further knowledge and successful integration of how these hormones respond and affect urine concentration, diabetes, and dehydration will be highly advantageous however this was not the case in 2018 or 2019, where hormone-related questions did not appear. For an A+ in his section, Rohit suggests further learning into the hormonal components of the renal system that being aldosterone, ANP, and ADH.
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These concepts are integrated with a lecture outlining the renal response to salt and water absorption. There is a particular focus on the Glomerular Filtration Rate (GFR), and the counter-current system and the in/extrinsic mechanisms that can disturb it. Similar to MEDSCI142, the lectures begin with briefly discussing the anatomy of a kidney and then moving on to physiological processes of the kidney, and the factors affecting them. Rohit Ramchandra, the concepts and knowledge covered in MEDSCI142 (Renal Anatomy & Physiology) is expanded, but to a brief extent. MEDSCI142 – Angela Tsai and Carolyn Barrett – Renal Anatomy + Physiology Optional Content Review – These topics would be very helpful if you would like to refresh yourself by reviewing concepts:īIOSCI107 – Paul Donaldson – Cellular ProcessesīIOSCI107 – Anthony Phillips – Cells & Tissues (Lecture 2 – exclusively the components of a cell, not the histology aspect)ĬHEM110 – Duncan McGillivray – Acids & Bases (Lectures 1-3) Boron’s “Medical Physiology” builds on the knowledge taught in lectures, however is also an extremely useful resource to consult if you are unsure about the material overall. Most of the content covered in this particular section have been briefly covered in previous first year courses, so past year notes should be able to provide some foundation. The final lecture covers Acid Base Physiology, which provides more insight on acid-base disturbances in the body (e.g acidosis, alkalosis and its different sub-categories) and how various pH systems within the body help to regulate and prevent the body from suffering acidic/alkali states. However, the material covered in 3 hours’ worth of lectures is optimal, and would be extremely helpful knowledge to retain prior to kidney lectures, and for the first lab and tutorial. Whilst the premises of these lectures appear to be straightforward, it is the depth of the content covered that students struggle with. This section mainly built up on the fundamentals of the internal component of our bodies, along with further teaching related to cell volume regulation (think concepts related to osmolarity, osmolality, and tonicity). The first three lectures were taught by the wonderful course co-ordinator, Dr.
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HOMEOSTATIC MECHANISMS & FLUID REGULATION: Whilst a challenging paper, do not be deterred by what the reviews have said about it as there are plenty of helpful resources to ensure you succeed in this course.
#CITING BORON AND BOULPAEP MEDICAL PHYSIOLOGY MANUAL#
The course and lab manual were separated, with the course manual occasionally complementing the lecture content (although not extremely helpful, but slides were provided in this case). With an overarching theme of homeostasis, the course is structured to begin with basic homeostatic mechanisms, with said concepts being integrated into more complex topics, such as: An essential paper for students enrolled in MEDSCI-dominant degrees, MEDSCI205 is a concept-oriented paper which expands on the basic physiological processes and anatomy covered in MEDSCI142.