Powerpoint Lab Skeletons Cbc Template

Diverticulitis Microchapters

Diagnosis

Treatment

Case Studies

Diverticulitis laboratory findings On the Web

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Editor-In-Chief:C. Michael Gibson, M.S., M.D.[1]Associate Editor(s)-in-Chief: Ahmed Elsaiey, MBBCH[2]

  1. These skeleton diagrams are used as short hand to avoid having to write units and test names for lab values - you can just look at a diagram of numbers and know what they apply to. Sodium is always in the same place, as is K, Cl, etc. The skeletons are as follows: Na K Cl HCO3 BUN Cr Glu = Chemistry 7.
  2. World's Best PowerPoint Templates - CrystalGraphics offers more PowerPoint templates than anyone else in the world, with over 4 million to choose from. Winner of the Standing Ovation Award for “Best PowerPoint Templates” from Presentations Magazine.

Build as many partial skeletons as you can by dragging the bones into formation (see lesson page 3 for help with placement). When your partial skeletons are built, label each bone. (6 points) ( Hint: Multiple bones of the same type can belong to the same person — like one left femur and one right femur. Powerpoint Lab Skeletons Cbc Template. Wahai Tuhan jauh sudah Lelah kaki melangkah Aku hilang tanpa arah Rindu hati sinarmu Wahai Tuhan aku lemah Hina berlumur noda Hapuskanlah terangilah Jiwa di hitam jalanku Ampunkanlah aku Terimalah taubatku Sesungguhnya engkau Sang Maha Pengampun Dosa Ya Rabbi ijinkanlah Aku kembali padaMu Meski mungkin. World's Best PowerPoint Templates - CrystalGraphics offers more PowerPoint templates than anyone else in the world, with over 4 million to choose from. Winner of the Standing Ovation Award for “Best PowerPoint Templates” from Presentations Magazine. They'll give your presentations a professional, memorable appearance - the kind of sophisticated look that today's audiences expect.

Skeleton For Labs

Overview

Diagnosis of diverticulitis starts by recording patient history and performing a physical examination. Laboratory tests are important in excluding other causes of abdominal pain and any other gastrointestinal disease. These laboratory tests include complete blood count (CBC), C-reactive protein (CRP), urinalysis, and liver function tests. Imaging studies including CT scan and colonoscopy are also important measures in diagnosing diverticulitis.[1][2]

Laboratory Findings

The initial diagnostic measures for diverticulitis are taking a proper history, doing a physical exam, and performing laboratory tests. Laboratory tests are initially necessary to exclude other gastrointestinal diseases and confirm diverticulitis. These lab tests include the following:

  • C-reactive protein (CRP) - elevated due to inflammation
  • Complete blood count (CBC)- CBC may show leukocytosis. A normal white blood cell count does not exclude diverticulitis, as most patients suffering from diverticulitis have normal bloodcell counts.
  • Urinalysis: Urinalysis is performed especially in cases complicated by fistula and may show the following findings:[3]
    • Pyuria- In the case of urinary tract infection
    • Hematuria- In the case of nephrolithiasis
  • Liver function tests- Amylase and lipase levels should be checked to exclude other diseases that cause abdominal pain.

References

  1. Rafferty J, Shellito P, Hyman NH, Buie WD, Standards Committee of American Society of Colon and Rectal Surgeons (2006). 'Practice parameters for sigmoid diverticulitis'. Dis Colon Rectum. 49 (7): 939–44. doi:10.1007/s10350-006-0578-2. PMID16741596.<templatestyles src='Module:Citation/CS1/styles.css'></templatestyles>
  2. Käser SA, Fankhauser G, Glauser PM, Toia D, Maurer CA (2010). 'Diagnostic value of inflammation markers in predicting perforation in acute sigmoid diverticulitis'. World J Surg. 34 (11): 2717–22. doi:10.1007/s00268-010-0726-7. PMID20645093.<templatestyles src='Module:Citation/CS1/styles.css'></templatestyles>
  3. HAFNER CD, PONKA JL, BRUSH BE (1962). 'Genitourinary manifestations of diverticulitis of the colon. A study of 500 cases'. JAMA. 179: 76–8. PMID13903556.<templatestyles src='Module:Citation/CS1/styles.css'></templatestyles>
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Home> All PowerPoint Tutorials > PowerPoint Models > PowerPoint Fishbone

Fishbone chart is a key tool for root cause analysis. Create PowerPoint Fishbone diagram in 1 minute or less for your project presentations. Follow our simple step by step instruction.

Powerpoint Lab Skeletons Cbc Template Download

The Fishbone diagram you’ll learn to create is:

Where is Fishbone or Ishikawa diagram used?

The diagram format is used in…

  • Project presentations to showcase root cause analysis
  • Brainstorming session for developing new product design
  • Review sessions for Quality defect prevention etc.

The main benefit of the tool is – it helps you explore all the potential causes for an event, without biases. It is a diagram you must have at your disposal if you make strategic or leadership related presentations.

Here are the steps to create the diagram:

Step 1: Draw the head of the fish

Head of the fish represents the core issue or the ‘event’. Let us say, the issue is ‘Defects in production’. You start by drawing a circle or chevron to represent the ‘event’.

Step 2: Drawing the big bones

The big bones are the possible causes for the event. For example, the general causes could be categorized under People, Methods, Machines, Materials, Measurement and Environment. We represent these causes by drawing a chevron for each cause. For example:

This forces us to consider the issue from all relevant angles.

Note the use of arrows to represent the direction of flow of information. We draw a horizontal arrow for the spine (usually thicker than the other arrows) and an arrow each originating from the main causes.

It is good practice to draw one arrow and make multiple copies, rather than drawing separate arrows each time. This ensures that the diagram has a consistent look and feel.

Related:Creative PowerPoint Tree Diagrams

Step 3: Fleshing out the bones

The next step is to note down details under each of the causes. Focus on one cause at a time. This way, you will not be distracted by unconnected issues.

It is not uncommon to see multiple layers of underlying causes for each of the big cause categories.

Related: 3 Creative SWOT Analysis Template Ideas

Why draw Ishikawa diagram in PowerPoint?

There are two main reasons for using PowerPoint to draw the diagram.

The first reason is:

Lab

Fishbone diagram on a slide is always helpful to explain the causes for an event in neatly organized clusters. This helps your audience organize your information in their mind and process it better.

A smarter way of using PowerPoint Fishbone diagram template:

Project the diagram template on a whiteboard and invite the participants to stick their ‘causes’ under different categories using sticky notes. This way, you’ll come up with an exhaustive analysis, where points are neatly segregated under various heads. You can shift the sticky notes to different categories or create new categories depending on the way the brainstorming session progresses.

Related: Learn to create diagrams with PowerPoint Shapes

Variations of the Ishikawa diagram template:

Source: PowerPoint Fishbone from Charts & Diagrams CEO Pack

If you want to represent ‘cause and effect’ in a conceptual way, you may consider alternatives like the ones below:

Source: PowerPoint Cause Effect Diagrams: Charts & Diagrams CEO Pack

Conclusion about PowerPoint Fishbone:

Even with a simple fishbone diagram you can create so many variations to represent different aspects of the diagram. Go ahead explore the options and play with PowerPoint.

Related: Draw Creative Decision tree Diagrams

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