I apologise for the late reply That's a really interesting questions. On exploring the literature I found that there is a lot of ambiguity on this. What I understand is that the amount of supersensitivity that develops( ie the increase number of alpha1 receptors )is much more in type 3 horners( postganglionic) than type 1or 2 Now, phenylephrine 1% has a alpha1 agonist action. In type 3 horners with greater number of alpha1 receptors, phenylephrine causes dilation, but it isn't able to do so with the amount supersensitivity that develops in type 2/1 Moreover, apraclonidine is a weak alpha one agonist and a strong alpha2 agonist. Alpha 2 inhibits sympathetic presynaptic terminals( i.e causes decrease in release nor epinephrine). This dual mechanism somehow helps it act in both pre and post ganglionic horner. Quite ambiguous but it's missing in literature. Let me know if you have any other explanation.
The best video explaining such a difficult topic for e to understand. Thank you ❤❤❤❤❤
Crystal clear explanation mam.. thank you..
Informative video🎥 👍
Amazing ❤
Why in apraclonidine there is supersensitivity enough for dilation even in 1st and 2nd order neuron damage but not when phenylephrine is given ?
Same doubt +1 ma'am can u reply to the comment?
Is it related to chronicity of nerve damage??
I apologise for the late reply
That's a really interesting questions.
On exploring the literature I found that there is a lot of ambiguity on this.
What I understand is that the amount of supersensitivity that develops( ie the increase number of alpha1 receptors )is much more in type 3 horners( postganglionic) than type 1or 2
Now, phenylephrine 1% has a alpha1 agonist action. In type 3 horners with greater number of alpha1 receptors, phenylephrine causes dilation, but it isn't able to do so with the amount supersensitivity that develops in type 2/1
Moreover, apraclonidine is a weak alpha one agonist and a strong alpha2 agonist. Alpha 2 inhibits sympathetic presynaptic terminals( i.e causes decrease in release nor epinephrine).
This dual mechanism somehow helps it act in both pre and post ganglionic horner.
Quite ambiguous but it's missing in literature. Let me know if you have any other explanation.
@@InsightOphthalmology thank you mam for your valuable input
Pls pls pls continue these topics
Thankyou for explanation
❤Thank you mam
Thankyou soo much mam
❤
Wish you happy new year mam ✨️
Wish you the same😊
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