![PHARMACOKINETICS CH. 4 Part 2. GETTING IN ABSORPTION Definition – the movement of a drug from the site of administration into the fluids of the body. - ppt download PHARMACOKINETICS CH. 4 Part 2. GETTING IN ABSORPTION Definition – the movement of a drug from the site of administration into the fluids of the body. - ppt download](https://images.slideplayer.com/33/8245836/slides/slide_16.jpg)
PHARMACOKINETICS CH. 4 Part 2. GETTING IN ABSORPTION Definition – the movement of a drug from the site of administration into the fluids of the body. - ppt download
![Hypervision Surgical Computer Vision Technology Featuring NVIDIA Clara Holoscan to Augment Surgery Study Hypervision Surgical Computer Vision Technology Featuring NVIDIA Clara Holoscan to Augment Surgery Study](https://hypervisionsurgical.com/images/blog/2022-09_nvidia-blog.webp)
Hypervision Surgical Computer Vision Technology Featuring NVIDIA Clara Holoscan to Augment Surgery Study
![Imaging photoplethysmography as an easy-to-use tool for monitoring changes in tissue blood perfusion during abdominal surgery | Scientific Reports Imaging photoplethysmography as an easy-to-use tool for monitoring changes in tissue blood perfusion during abdominal surgery | Scientific Reports](https://media.springernature.com/full/springer-static/image/art%3A10.1038%2Fs41598-022-05080-7/MediaObjects/41598_2022_5080_Fig1_HTML.png)
Imaging photoplethysmography as an easy-to-use tool for monitoring changes in tissue blood perfusion during abdominal surgery | Scientific Reports
![PDF) Microfluidics-enabled 96-well perfusion system for high-throughput tissue engineering and long-term all-optical electrophysiology PDF) Microfluidics-enabled 96-well perfusion system for high-throughput tissue engineering and long-term all-optical electrophysiology](https://i1.rgstatic.net/publication/346887567_Microfluidics-enabled_96-well_perfusion_system_for_high-throughput_tissue_engineering_and_long-term_all-optical_electrophysiology/links/6382e1cfc2cb154d293024a5/largepreview.png)
PDF) Microfluidics-enabled 96-well perfusion system for high-throughput tissue engineering and long-term all-optical electrophysiology
![A Tissue Perfusion Harvest Model for Optimal Multisystem Comparisons of Pathobiology - Kohut - 2022 - Current Protocols - Wiley Online Library A Tissue Perfusion Harvest Model for Optimal Multisystem Comparisons of Pathobiology - Kohut - 2022 - Current Protocols - Wiley Online Library](https://currentprotocols.onlinelibrary.wiley.com/cms/asset/cf65722a-b9c1-4d3d-bebd-969d796ceccb/cpz1343-fig-0001-m.jpg)