Visit https://radiopaedia.org/cases/normal-ct-chest?lang=gb

Scrolling through these sets of images, determine what the labelled structures below correspond to:

A newborn baby, born at term, develops breathing difficulties shortly after birth. The following chest Xray is taken after stabilisation:

Fetal development of which original structure has been abnormal leading to this presentation?

Using this virtual histology slide of human lung Objective Slide Manager label the following structures. 

• Take screenshots at different magnifications of the assigned slide to visualise and label all the structures clearly. 

  • Must use snapshots at the appropriate magnification 

  • Include up to 5 images/screenshots in your answer

• No more than TWO A4-pages of work (images with labels)

• No smaller than 12-point font

• Convert your file to a PDF

The blood-air barrier:

Intercostal Catheterisation: Applying Body Wall Anatomy Clinically

You’ve explored the anatomy of the thoracic wall in lectures and examined it through dissection specimens. Now, we’ll apply that knowledge in a clinical context by looking at intercostal catheterisation using the anterior approach. This procedure is commonly used to drain air (such as in a pneumothorax) from the pleural space. Understanding the body wall layers, their spatial arrangement, and surrounding structures is essential for performing this technique safely and effectively.

Image from AN@TOMEDIA ONLINE   Eizenberg N, Briggs C, Barker P & Grkovic I: Access directly via: LINK HERE (go to Thorax; Dissection; for tips!)

Use Lecture 8 "Anatomy of Body Wall" as your guide

Instructions:

Total: 8 marks

Upload your labelled image into the text input area below or attach file into dropbox below.

You are studying the mechanisms underlying human heart development, in the hope of uncovering  novel therapies aimed at re-building heart tissue in those that have suffered damage (e.g. cases of heart attack).  For this reason, you are working with a variety of different bio-engineered hearts. 

You are organising the heart mutant protypes in your research notebook:  Match the mutant with the phenotypes that directly arise from the mutation in combination with the normal phenotypes present because of the mutation.  More than one answer may apply.

CV.mut.1: aortico-pulmonary septum doesn’t spiral

Intercostal Catheterisation: Applying Body Wall Anatomy Clinically

You’ve explored the anatomy of the thoracic wall in lectures and examined it through dissection specimens. Now, we’ll apply that knowledge in a clinical context by looking at intercostal catheterisation using the anterior approach. This procedure is commonly used to drain air (such as in a pneumothorax) from the pleural space. Understanding the body wall layers, their spatial arrangement, and surrounding structures is essential for performing this technique safely and effectively.

Image from AN@TOMEDIA ONLINE   Eizenberg N, Briggs C, Barker P & Grkovic I: Access directly via: LINK HERE (go to Thorax; Dissection; for tips!)

Use Lecture 8 "Anatomy of Body Wall" as your guide

Instructions:

Total: 8 marks

Upload your labelled image into the text input area below or attach file into dropbox below.

This low magnification histological section shows two different blood vessel types for comparison. At this level, corresponding blood vessels can often be found in close proximity to one another.

What blood vessel type is labelled 'A'?

This transverse histological image is an example of what type of blood vessel?

This is a high magnification histological section.

What type of blood vessel is labelled 'A'? What type of blood vessel is labelled 'B'?