There is a typo here. The examiner should close the opposite eye compared with the patient. In this video, the patient closes her left eye, whereas the doctor the right eye.
The patient's left eye is indeed opposite the doctor's right eye which is correct you said it yourself 'The examiner should close the opposite eye compared with the patient'
Hi Please respond I have a problem which is seeing a shadow or a curtain in the peripheral vision from the side of the nose and the edges of this shadow dance I went to many ophthalmologists, who emphasized the safety of the eyes, even though I worked with a retinal laser for years, thank God there is nothing wrong The question is what is this shadow and does it develop? !!
this video is completely useless you didn't say what the normal field of vision is talk about the numbers I don't know why I have to tell everybody everything it's like I'm in the planet of the apes the people watching this video want to know the numbers what is it 30 60 90 what is the normal field of vision
John, this is supposed to be a short video explaining how one would quickly assess a patient's visual fields in clinical practice. Knowing what the normal fields are with a number won't change your differentials or immediate management as you are comparing the visual field of the patient to your own (which is hopefully normal). If the patient has suffered a stroke (as suggested in the video) recognising that the patient has homonymous visual loss compared to your own vision is sufficient to warrant are referral to the hyper acute stroke unit for example. Equally a bitemporal visual loss would be enough to prompt imaging of the pituitary fossa without knowing the exact amount of visual field loss. A precise measurement of visual field loss can be performed at an appropriate clinic but that wouldn't be an appropriate place to assess a newly presenting patient with a potential emergency. Hope that makes this clearer.
Very good your video. Congratulations once again, I wish you all the success in the world👍👍
grateful for that, now how fix the problem with right HH?
There is a typo here. The examiner should close the opposite eye compared with the patient. In this video, the patient closes her left eye, whereas the doctor the right eye.
The patient's left eye is indeed opposite the doctor's right eye which is correct
you said it yourself 'The examiner should close the opposite eye compared with the patient'
Thank you. I didnt understand why the examiner closes his own eye when performing
it is to test the right and left eye separately to identify if there's any impaired vision between those two eyes.
Hi
Please respond
I have a problem which is seeing a shadow or a curtain in the peripheral vision from the side of the nose and the edges of this shadow dance
I went to many ophthalmologists, who emphasized the safety of the eyes, even though I worked with a retinal laser for years, thank God there is nothing wrong
The question is what is this shadow and does it develop? !!
I also experience a grey shadow around my periphery and usually get worried about it.Are they eye floaters or something needing immediate attention?
Its Floater.
Very good
amazing
excellent
Nice
nice
Thanks a lot
💫💯💯
💥💥💥💥
Merci
thanks
There’s way too much preambule before you actually head into the test.
this video is completely useless you didn't say what the normal field of vision is talk about the numbers I don't know why I have to tell everybody everything it's like I'm in the planet of the apes the people watching this video want to know the numbers what is it 30 60 90 what is the normal field of vision
John, this is supposed to be a short video explaining how one would quickly assess a patient's visual fields in clinical practice. Knowing what the normal fields are with a number won't change your differentials or immediate management as you are comparing the visual field of the patient to your own (which is hopefully normal). If the patient has suffered a stroke (as suggested in the video) recognising that the patient has homonymous visual loss compared to your own vision is sufficient to warrant are referral to the hyper acute stroke unit for example. Equally a bitemporal visual loss would be enough to prompt imaging of the pituitary fossa without knowing the exact amount of visual field loss. A precise measurement of visual field loss can be performed at an appropriate clinic but that wouldn't be an appropriate place to assess a newly presenting patient with a potential emergency. Hope that makes this clearer.
Amazing