How to document blood pressure reading

01:02surgeon who first published in 1905 and

01:06what we do is we put the cuff on and we

01:08pump it up above the systolic pressure

01:10that is above the pressure at which the

01:13heart is contracting during systole when

01:15the left ventricle is contracting and as

01:18we let the pressure down when there's

01:21just sufficient pressure for the blood

01:23to get past the cuff on the top of the

01:25arm we can hear that in the brachial

01:28artery

01:29now we used to think that the sounds

01:32were caused by the turbulence of the

01:35blood in the arterial vessel but the

01:38physicists have now told us that that

01:40would generate lower frequency sounds

01:41than this

01:42and the sounds that were actually

01:44hearing are caused by resonance is set

01:46up by the arterial wall itself but there

01:50doesn't matter it's the same thing

01:52in practical terms the sounds are the

01:54same thing the sounds represent the same

01:56pressures so when we start to let the

01:59pressure down there's a point you can

02:02hear some odd sounds when you let in the

02:03pressure down so I suppose the blood

02:05pressure 120 over 80 when you're letting

02:08the pressure down from say 160 180 do

02:11get on sounds but when you get to 120

02:16which is the blood pressure in this case

02:17you start getting a regular sound and

02:24those regular sounds are the pulse just

02:27coming through the the cuff and the

02:30systolic pressure the first pressure is

02:33when we hear and the first sound so that

02:37very first sound is usually fairly faint

02:40but then it gets progressively louder it

02:46gets progressively louder now the very

02:48first sound is the systolic blood

02:49pressure the first pressure in this case

02:52hundred twenty then typically it gets

02:55progressively louder there is a bit of

02:59variation in these sounds but it will

03:00get progressively louder then you'll

03:04have one bead that you here which is the

03:06loudest one that you hear then after

03:09that the beat will become muffled and

03:12then after that it will die away

03:15fairly soon after that well it can be a

03:19millimeter or two of mercury after the

03:20the muffled sound or it can be as much

03:22as 10 millimeters of mercury after the

03:24muffled sound but it will die away and

03:26the last sound that you can hear with

03:30your ears is the diastolic pressure now

03:34we used to teach that the first muffled

03:35sound was the diastolic pressure we now

03:37know this does not represent accurately

03:39the physiological situation so what used

03:42to be called the diastolic dilemma is

03:44now over the very last sound that you

03:47can hear is the diastolic pressure so

03:50typically we start off quiet very first

03:54sound that your systolic pressure

03:59then first of all full sound and that

04:06very last faint sound you hear is the

04:09diastolic pressure so let's see this

04:11donut practice now bill you never been

04:18keeping an eye on your blood pressure

04:19lately I'd like to check it now is that

04:21okay with you that's fine okay so I'm

04:24going to put this cuff on to bills arm

04:25now we can see there's a line there that

04:27says artery that's going to go over

04:32Bill's brachial artery and I'm just

04:36going to palpate bills brachial artery

04:38times okay but now the brachial artery

04:43is medial it's two-thirds of the way

04:45across to the inside this is the medial

04:47this is the lateral surface and the

04:50brachial artery is just here I can feels

04:54break that I can feel Bill's brachial

04:57artery pulsating there can you feel that

04:59bill in a press never press it quite

05:01hard

05:01yeah dormant yeah so I can feel the

05:03brachial pulse there quite nicely and

05:06with a bit of practice you get to know

05:07exactly where the brachial artery is and

05:09it's very consistent between individuals

05:11usually just go put a scope on now well

05:13you've had this done right and it's nice

05:22and easy with these velcro ones we're

05:25now going to connect up to the pressure

05:28gauge the manometer and as we see that's

05:30calibrated in millimeters of mercury now

05:33I'm going to do is I'm going to tighten

05:36that up like that and when I screw that

05:39that means I can start pumping up and

05:41you'll feel the pressure there would you

05:42feel that pressure going on yeah and

05:44then to let the pressure down I'm going

05:45to turn it that way again with a bit of

05:49practice you can control this really

05:51quite precisely

05:55now the other thing I'm going to do is

05:57I'm going to listen with a stethoscope

05:58I'm going to listen with the diaphragm

06:01side which is that side so just make

06:04sure I'm open to the diaphragm so when

06:06is that's now open to the Bell side turn

06:09it that way it's now open to the

06:11diaphragm slide so I'm going to put that

06:15over yours brachial artery apply a

06:20little bit of pressure now I'm going to

06:24put this up and we're going to pump it

06:25up till I can't hear any pulses coming

06:28through Bill's brachial artery so they

06:32hear no sounds now I'm going to

06:37gradually down listening for the first

06:38sound

06:55and there we have it now got bills blood

06:59pressure and all that you listen to that

07:01to see what you think it is

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10:04you

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11:29now the units of blood pressure are

11:31millimeters of mercury and this is

11:34because originally blood pressure was

11:36measured measured in just that

11:38millimeters of mercury

11:39so in this old-style sphygmomanometer

11:42blood pressure machine we've got a

11:44reservoir of mercury in there and from

11:48reporting the mercury up this reflects

11:51the pressure in the cuff around about

11:53Bill's arm

11:54so we can see it exactly in millimeters

11:58of mercury so again we'll pump up till

12:01we can't hear it

12:02and then we'll let it down and as we

12:06listened for the sounds we'll work out

12:08what bills blood pressure is and this is

12:11actually the most accurate way to do it

12:13because the specific gravity and the

12:15density of mercury of course is never

12:18going to Barry

12:20so have a listen to build blood pressure

12:23when we take you with mercury and see

12:25what you can hear in terms of the sounds

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