7:
Describe electrode positions in detail
(?figure)

Axon branching: implement + detail

8:
Review conclusion
What about SCS + rehab vs. SCS during walking alone?

Appendices:
Add further justification

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Methods discussion:
Multiple methods developed for representing complex geometry of roots
Idealised geometries: Danner2011, Lempka2020
Manual positioning in models: Capogrosso2013, Capogrosso2016
Automated axon positioning with simplification in DBS: Gunalan2017
Automated method in idealised model: Capogrosso2018, Greiner2021
	Closest to current
Idealised geometry and manual positioning allow ensuring model precise
	But not scalable
Simplification promising but neglects anatomy
Automated method using simplified model promising
	Not generalisable
Require method that is easily reproducible on image-based models
May not be perfectly generalisable

Approach needs adaptation to these features in ch7

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Ch6 axon model details
Ch7 electrode setup + figures

Ch7 axon model setup + figures
Run models

New figures

SEND THESIS
SEND REPLY SLIP TO DEPARTMENT

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Acknowledge edge effects as limiting in 6
This chapter demonstrates principle of techniques
Generalisable to peripheral nerves etc
Requires adaptation to specific targets

Then 7: detailed branching model
Add trajectory at 45 degrees to join DC fibre
Then compare activity
Needs new figures
Acknowledge methods need adjustment to specific anatomy

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Axon models:
Run from adjacent to cord out to beyond transverse foramen and extended from there
	Clarify length
Close to cord: travel at 45 degrees to pass into cord
Once in cord: pass to join DC fibre
Connect here to DC fibres passing rostrocaudally
100 fibres; distributed 5.7-11.5um
Show example in figure
Need to re-generate plots re. SD curves
Need to re-generate plot re. area of initiation

Sensory fibres dominant, diameter 5.7 - 11.5um: Lempka2020, Anaya2019, Feirabend2002
45 degree entry of DR: Lempka2020, Struik1993
