N. D. Guardian. Fundamentals of physical diagnosis of abdominal diseases. Hands. for students and doctors. Page 195 page 60 image 1924.

As far as the physical diagnosis of the organs of the chest cavity is systematically (although still far from perfect) set out in various manuals for medical diagnosis and has been widely used in the daily practice of doctors, the situation is just as bad with the physical methods of studying diseases of the abdominal cavity.

George Phillip Cammann (1804–1863): A physician's contribution to the modern stethoscope and auscultatory percussion

In the middle third of the 19th century, George Phillip Cammann became known for the stethoscope improvement that came to bear his name and for the development of the then-popular diagnostic technique of auscultatory percussion. During his postgraduate training at the Paris hospitals in 1828–1830, he acquired a special interest in auscultation while attending lectures given by a friend and colleague of Laennec's, French physician Pierre-Charles-Alexandre Louis (1787–1872). In his New York City practice, caring primarily for the working poor, he recognized the need for a better stethoscope and developed a modification that came to bear his name. He conducted research aimed at increasing the accuracy of physical diagnosis by improving and reporting on the technique of auscultatory percussion. An examination of the medical literature, both textbooks and journals, reveals the extent of influence that Cammann had on clinical practice resulting from his contributions to the improvement of the stethoscope and auscultatory percussion.

A lesson from our institute; Why do veterinary schools need an anatomy museum?

Anatomy has always been a key discipline in the field of veterinary medicine, as this fundamental scientific discipline offers vital foundational knowledge on how the structure of an organ relates to its function and health. It demonstrates how the three-dimensional structure of an organism relates to the physical diagnosis of a disease, as well as to help shed light on how surgical and medical approaches can be employed to treat various diseases. This review provides supportive evidence on the importance and usefulness of the anatomy museum located within our veterinary institute. Furthermore, our outcomes will encourage all veterinary schools to consider having their own on-site anatomy museum. From our experience, the practical usefulness of an anatomy museum can be divided into 4 categories that include the study of anatomy, the study of histology, elemental study, and social education. The samples housed in an anatomy museum can increase the publishing potential of all staff members of the parent institute, as well as to elevate the reputation and general recognition of the institute. Moreover, an anatomy museum can facilitate out-of-class learning opportunities for non-university educational facilities such as kindergartens, and primary or secondary schools.

A Tri-Approach for Diagnosing Gridded Precipitation Datasets for Watershed Glacio-Hydrological Simulation in Mountain Regions

In mountain regions, validation and local correction of gridded precipitation datasets (GPDs) are pre-requisites for glacio-hydrological simulations. However, insufficient observed data and glacial involvement make it a complicated task in glacierized watersheds. To diagnose the potential problems in GPDs from multiple perspectives and provide directions for their correction, a Tri-approach framework, consisting of statistical analysis, physical diagnosis, and practical simulation, is proposed. Truc-Budyko theory is introduced into this framework, which can identify the actual under- or over-estimation of GPDs based on watershed water-energy balance, diagnose their possible causes, and provide directions for local correction. This framework was applied to the glacierized Upper Indus Basin (UIB) for evaluating GPDs, including APHRODITE, CFSR, PGMFD, TRMM, and HAR, against adjusted observed precipitation (OBS), specific runoff, and glacier mass balance over varying periods during 1951–2017. The Spatial Processes in HYdrology (SPHY) model was used to simulate the hydrology and glacier changes (2001–2007). The results suggest that (a) patterns of inter- and intra-annual variations of OBS precipitation were better captured by APHRODITE (CC > 0.6), but it was underestimated (−40 %), (b) UIB was characterized as Leaky catchment based on overestimated CFSR (106 %) and HAR (77 %), indicating positive glacier storage changes (0.37 and 0.21 m w.e. yr−1, respectively). In contrast, UIB was characterized as Gaining watershed for remaining underestimated datasets, indicating negative storage changes (−0.42 to −0.34 m w.e. yr−1). (c) For constant mass balance, the simulated runoff was overestimated in SPHY_CFSR (66 %) and SPHY_HAR (53 %), whereas it was underestimated for SPHY_APHRODITE (−41 %), SPHY_PGMFD (−26 %), and SPHY_TRMM (−33 %). It highlights that evaluated GPDs could not generally meet the requirements of the rational output of glacier mass balance and streamflow concurrently. The physical diagnosis directs local correction based on under- and over-estimation. The practical simulation explores the extent of expected uncertainties in intra/inter-annual characteristics of glacio-hydrology.