Changes

Once the profile is finished and saved, SleepyHead will display a blank page that looks like this:<br />

<br>

[[File:daily_parts_zpsee91cb1c.jpg]]

The amount of data available in SleepyHead can be overwhelming to new CPAP users, particularly those who only want some reassurance that "things are working." While many newbies tend to focus on the data in the Statistics tab and the Overview tab, the data in the Daily tab is usually more useful when you are trying to analyze what's going well and what's not going so well during the CPAP adjustment period. Moreover, the Daily Detailed Data is currently more robust and less buggy than the data presented in the Statistics tab. So I would encourage new SleepyHead users to first concentrate on getting comfortable with their detailed Daily data. Even so, you want to look at the detailed Daily data in context: One bad night does not mean things are suddenly not working; a month of bad nights does indicate something is wrong.

This article is primarily restricted to the most basic, important data for a newbie to concern themselves with. The focus is mainly upon the graphical data in the Daily Data window.

NEW in SleepyHead 0.9.6: Large Leak Summary Data'''

Percentage time in Large Leak for users of other machines will NOT appear with the AHI data above the pie chart.

The '''pie chart''' at the end of the index data gives a quick visual impression of what kind of events were most common. On this night the patient had far more FLs than any other kind of scoreable event.

''

Vibratory Snore (index) = (number of VS1 scored)/(run time)

'''

Of all the numbers in this table, the most important ones are the Pressure numbers and the Leak and Total Leak numbers. All the other numbers in this table can safely be ignored.

The EPAP line of the table looks like:

'''Statistical Leak Data'''

'''Leak Rate 0.00 0.00 10.00 14.00

* Since the maximum leak rate was 14 L/min, we know that for at most 10% of the night the patient's leaks were between 10 L/min and 14 L/min.

The Total Leak numbers confirm that the patient's leaks are pretty well under control: The minimum total leak rate was 11.00 L/min; the median total leak rate was 14.00 L/min; the 90% total leak was 23.00 L/min; and the maximum total leak rate was 34.00 L/min. At the pressures used by the patient, the expected leak rate for their mask is about 20-29 L/min. So these numbers look very good: For 90% of the night the patient's total leak rate was AT or BELOW 23 L/min, which is right around the expected leak rate for their mask.

Interpreting the statistical leak data'''

The question is: How much time in Large Leak territory is too much? ResMed provides a guideline for its users: Mr. Red Frowny face shows up on the Sleep Quality Report if your leaks are above the Redline for at least 30% of the night. When the Large Leaks last that long, ResMed's engineers believe both efficacy of the CPAP therapy and the accuracy of the recorded data can be adversely affected. We will assume that 30% of the night in Large Leak territory is clearly bad news for users of any CPAP machine. But many people may find that their therapy begins to be compromised by the time Large Leaks make up 20% of the night. For a lot more information on leaks, see [http://www.apneaboard.com/wiki/index.php?title=Beginner%27s_Guide_to_SleepyHead#Leaks 8. Leaks].

If you are using a DeVilbiss IntelliPAP or an Fisher & Paykel Icon or if you are using SleepyHead 0.9.3 or earlier, then you will need to use the median and 90% (or 95%) Leak/Total Leak data to evaluate your leaks.

In general:

'''The Flow Rate graph'''

'''The Pressure graph'''

If you are using your CPAP in fixed pressure mode, the pressure graph is not of much use---unless you are spending a lot of time hitting the ramp button. But if you are using your CPAP in Auto mode, the pressure curve tells you when the machine raised the pressure and how much it raised the pressure. Comparing the pressure increases with the events flagged in the Flow Rate curve or the Events Table can give you some very good ideas about why the machine decided to increase the pressure and also give you a sense of whether the disordered breathing got better or worse with the pressure increase.

'''The Leak Rate graph'''

In this example, the Redline option turned OFF because the patient knows her leaks well enough to know that an official Encore LL is going to be scored only if the Total Leak Rate is up near 60 L/min.

Looking at the Leak graph will allow you to see just how long your worst leaks lasted and just how big they were. When the leak graph looked at along with with the statistical leak data in the Left Sidebar, you can get a very good idea of whether leaks may be adversely affecting your therapy. If you have a wide Auto range, you can track whether increases in pressure are leading to increased unintentional leaking. And when the leak rate is in Large Leak territory, you can often see how the Large Leak affects the ability of the machine to track the breathing, and how that affects the accuracy of the AHI data.

''

'''ALL OTHER GRAPHS'''

'''The Flow Rate graph---a detailed look'''

The Flow Rate graph is a visual record of each and every breath you took while using the machine. You are inhaling when the Flow Rate is positive and you are exhaling when the Flow Rate is negative. Stronger inhalations result in higher (positive) peaks and stronger exhalations result in lower (more negative) valleys in the Flow Rate graph. The events from the Event Table are superimposed on the Flow Rate graph with vertical lines of different colors.

'''Question''': Why is my pressure increasing when there don't seem to be any events?

[[File:pressure_increases_zps4dbeba44.jpg]]

'''Defining Large Leaks'''

'''Tools to help identify Large Leaks: Show Leak RedLine'''

<br />

[[File:large_leak_flage_zps357316c6.jpg]]

* ResMed S9 users will see the AHI, Obstructive Apnea Index (OAI), the Hypopnea Index (HI), and Central Apnea Index (CAI).

* DeVilbiss IntelliPAP users will see the AHI, Apnea Index (AI), NonResponding Apnea Index (NRAI), and the Hypopnea Index (HI).

* Bi-level users will have IPAP/EPAP data regardless of the brand of machine.

* ResMed S9 CPAP/APAP users who use EPR will have IPAP/EPAP data because these machines act very similar to bi-levels. The IPAP data is the pressure level data; the EPAP data is the pressure level - EPR setting. In other words, if the pressure is 8 and EPR = 2, the IPAP = 8 and the EPAP = 6 = 8 - 2.

* ''The CPAP information'' on the left side of the panel is largely irrelevant at this point. SleepyHead defaults to a statistical model for approximating the (excess) leak for all machines other than the ResMed S9, which records only the excess leak. If you forget to change the Leak Calcs from "Mask Profile" to "Statistical Model" it really doesn't matter.

* ''Show Leak Redline.'' The default is to have this checked and the default value for the Redline is the ResMed value of 24 L/min. This is a NEW feature in SleepyHead 0.9.6. If you are using a ResMed S9, it's strongly recommended that you make sure Show Leak Redline is checked. If you are using a different machine, this may be a useful option for you, but you will need to change the value for the Redline. More on that later.

* ''Show compliance'' affects how low usage days show up in the Overview data and the compliance data in the Statistics page. The default line is 4 hours for obvious reasons. It's suggested that you leave this alone.

'''A detailed look at the Show Leak Redline option'''

<br />

* ''F & P Icon''. The F&P Icon reports TOTAL leaks and the F&P Icon definition for Large Leak is a TOTAL leak rate that is above 60 L/min. You should set the Redline at 60 L/min and you want to keep your TOTAL leaks under a Redline drawn at 60 L/min.

* ''Devilbiss IntelliPAP Auto''. The Devilbiss IntelliPAP reports Total leaks and the Devilbiss definition of Large Leak is a TOTAL leak rate that is above 95 L/min. You should set the Redline at 95 L/min and you want to keep your TOTAL leaks under a Redline drawn at 95 L/min.

** ''Older Series 50 System One machines''. If you are using a pressure setting that is higher than 8-10cm, Encore usually does not flag Large Leaks until the Total Leak rate is up around 90-100 L/min. If you are using very low pressures (4-8cm), Encore may start flagging large leaks at around 60 L/min. So start by selecting a Redline of 90 L/min if you are using pressures above 8 cm and a Redline of 60 L/min if you are using pressures below 8 cm. Adjust if you see Gray Large Leak bars in your actual data.

** ''New Series 60 System One machines''. If you are using a pressure setting that is higher than 8-10cm, the Encore software usually does not flag Large Leaks until the Total Leak rate is up around 80 L/min. If you are using very low pressures (4-8cm), Encore may start flagging large leaks at around 50 L/min. So start by selecting a Redline of 80 L/min if you are using pressures above 8 cm and a Redline of 50 L/min if you are using pressures below 8 cm. Adjust if you see Gray Large Leak bars in your actual data.

ResMed machines record and report only the ''Excessive Leak''. The S9 takes the raw (total) leak data and the mask setting and uses that to record the ''Excessive Leak'' data. The raw Total Leak Rate data is not recorded to the SD card or the machine's internal memory.

* ResMed users will only have ONE leak line and it is Leak Rate.

<br />

* '''Philips-Respironics System One:''' There is no official "line in the sand" for flagging a Large Leak.

(Source: [http://www.healthcare.philips.com/pwc_hc/us_en/homehealth/sleep/encoreanywhere/pdf/1083140_EncoreReport_Guide.pdf Encore Report Guide])

:* ''Series 60 System One'' users may start to see Large Leaks being flagged when the Total Leak Rate reaches 60-70 L/min; if the prescribed pressure setting is below about 8cm, then Large Leaks may be flagged when the Total Leak Rate reaches 50-60 L/min in some circumstances.

<br />

If you want to add a Redline to your Leak/Total Leak graphs in SleepyHead, our advice is to look at your own Large Leak flags and figure out where they seem to start. If you don't seem to have very many Official Large Leak, then use the above guidelines as a decent enough starting guess for where your particular Redline should be drawn.<br />

And notice all those Pressure Pulses (the little boxes) right before the gap in the wave form and right after the wave form pics back up? It's likely those PPs are being used by the BiPAP to try to figure out if there's a live, breathing person at the other end of the hose. Perhaps the BiPAP "realizes" that these periods of very low variation in the wave flow are way too long to be a typical apnea or hypopnea, and that's why they are not flagged as such. But it also gets so befuddled about what it's seeing in the wave form data, that the BiPAP concludes she must not be breathing through the mask and so it quits recording Flow Rate data form during the time it cannot determine any meaningful breathing pattern. When this patient showed her DME this wave form pattern (in a different context), the Respiratory Therapist referred to it as a "patient disconnect". (And yes, that tern is bothersome because "patient disconnect" seems to imply that ''the patient'' disconnected the machine from her nose, when she did not do that here or anywhere else). But for now on, we'll call those wave patterns "patient disconnects" even though we don't like that language at all.

As far as accuracy of recording events during this Large Leak: Because her BiPAP can barely detect a breathing pattern, it's clear that the usual definitions used to flag OAs, CAs, and Hs are going to be difficult to apply: They all rely on a reasonably accurate baseline of the current airflow into/out of the lungs and that baseline is calculated using several minutes worth of data. Because the breathing pattern is barely there, it's almost impossible for the machine to detect enough of a decrease in airflow to trigger flagging an OA or a CA or an H throughout the Large Leak (and even in the part of the longer, not-quite-so-large leaks immediately preceding and following the official Large Leak itself.) And hence there's no good reason to believe that this time frame is really as "event-free" as the event chart makes it appear to be: After all, you can't detect an apnea or hypopnea if you can't detect the breathing pattern in the first place.

But our CPAPs have no way to determine the effort to breathe. Hence CPAPs cannot distinguish between obstructive and central apneas in the same way that the technician monitoring a PSG does. Originally full efficacy data CPAPs did not try to distinguish between obstructive and central apneas. (The F&P Icon still does not try to distinguish types of apneas.) But when manufacturers started designing Auto CPAPs, a potential problem had to be addressed in the Auto algorithms: A minority of CPAP users are sensitive enough to pressure to develop problems with pressure-induced central apneas. And the tendency to have problems with pressure-induced centrals is more pronounced the higher the pressure setting on the CPAP. Hence early APAP Auto algorithms often were designed to NOT increase the pressure in response to apneas scored at pressures of 10cm or greater. In an effort to get around this difficulty, many of the current generation of full efficacy CPAPs make an effort to distinguish between apneas are presumed to be obstructive and those that are presumed to have a high probability of being central, and an APAP with such a "central apnea detection" algorithm can be programmed to respond to the apneas classified as obstructive and ignore the other apneas.

DeVilbiss machines use a very different algorithm to classify each apnea as an ''apnea (A)'' or a ''non-responding apnea (M or NRA)''. A DeVilbiss Auto machine will increase the pressure in response to events classified as "apneas", but it will not increase the pressure in response to "non-responding" apneas.

As near as I can tell, F&P machines do not try to distinguish the type of apnea. And I have not been able to find any specific information about how the F&P Icon responds to machine scored apneas.

<br />

In addition to scoring apneas and hypopneas, many CPAP machines score ''snoring and/or flow limitations (FL)''. The way machines score this things varies quite a bit, and they are discussed at length in [http://www.apneaboard.com/wiki/index.php?title=Beginner%27s_Guide_to_SleepyHead#Snoring_Data 10. Snoring Data] and [http://www.apneaboard.com/wiki/index.php?title=Beginner%27s_Guide_to_SleepyHead#Flow_Limitations 11. Flow Limitations].

'''RERAs'''

There are people whose PSG indicates that they a normal diagnostic AHI (less than 5), but who experience enough RERAs for the RDI to be seriously elevated. Such people often wind up with a diagnosis of ''upper airway resistance syndrom (UARS)'' instead of OAS. The connections and differences between UARS and OAS are still being debated in the sleep medicine community. But the usual treatment for UARS is CPAP therapy since CPAP can be used to smooth out the breathing and prevent the RERAs from happening.

<br />

[[File:RERA_zpsb08c57f0.png]]

<br />

'''Periodic Breathing'''

<br />

[[File:PB_zpsee6cff1e.png]]

* '''ResMed S9:''' The numbers in parenthesis are the length of the event measured in seconds.

* '''DeVilbiss IntelliPAP:''' The numbers in the parenthesis are usually single digit numbers and it is not clear what their meaning is. Since the IntelliPAP does not record Flow Rate data, it is impossible to see whether there is some connection between these numbers and the lengths of the events.

* '''F&P Icon:''' The numbers in parenthesis seem to always be 1, and hence they are not related to the length of the event. You can zoom in on each event in the Flow Rate curve and estimate the length of the event visually.

<br />

'''Clusters of events'''

So the overall goal in every manufacturer's Auto-algorithm is to increase the pressure just enough to prevent more events from happening in next few minutes and allow the breathing to stabilize. The idea is to avoid jacking up the pressure unnecessarily: That can lead to more unstable breathing, discomfort, and more pressure than is needed to keep the airway open most of the time. And once the machine is satisfied the breathing is indeed stable, the Auto-algorithm will decrease the pressure until there is evidence that the airway is once again in some danger of collapsing.

It's clear from reading informational material aimed at clinicians, that each manufacturer believes that they have the "best" algorithm. But what little information that has been published about independent bench trials seems to indicate that while real differences in the auto-algorithms can be quantified, the clinical significance of those differences is much harder to evaluate. This may be one reason that some sleep docs are so reluctant to prescribe APAP therapy as the first course of treatment for ordinary OSA.

= Snoring Data =

'''How does a CPAP machine detect snoring?'''

And when you start analyzing the ''raw snoring data'' the decisions Encore makes on how to ''present'' the snoring data seems bizarre from a statistical point of view. (More on that later.)

'''''VS snores'''''

The VS snores have ''time stamps'' attached to them, but they do not have a "magnitude" number. In the SleepyHead "events" list, when you look at the detailed information for each VS snore event, the number in parenthesis will always be a 0. ''But VS snores are the snores that cause the Auto algorithm to respond by increasing the pressure.'' (On a BiPAP Auto, it's the EPAP that is increased.) For each VS scored, the machine typically increases the pressure by 1 cm. Hence if there's a cluster of VS's, the machine will keep increasing the pressure until either the snoring stops or the max pressure setting is reached. It's also worth noting that in all the data we've seen, in dense clusters of VS snores, the VS snores appear to be scored in roughly one minute intervals---in other words, there is usually a full minute between adjacent VS snores.

'''''VS2 snores'''''

JediMark's SleepyHead VS2 graph uses the "magnitude" numbers for the vertical-coordinates in the Snore graph. In other words, JediMark has set the SleepyHead VS2 graph up with the assumption that the "magnitude" numbers are somehow related to how bad the snoring is. That's not a totally unreasonable assumption since you can have VS2 events closely space together with some rather large "magnitude" numbers. But it is an assumption and there's no real way to verify whether this assumption is valid. That's why the units on the Snore graphs are labelled as "Unknown" when you hover the mouse over the vertical scale of the Snore graph.

The VS2 snores show up in Encore (all versions) as tick marks in the Events table based on the time stamp of the VS2 event. But the calculation of the VSI index in Encore is not as straightforward as you would expect.

<br />

''

'''Note:''' The VS events are not used to compute this index. This is important because:

<br />

'''Important Note for users of earlier versions of SleepyHead'''

''

Encore calculates the VSI shown on the right sidebar of the Encore Daily Detailed data in a really bizarre way. We can illustrate this with data from our sample patient's data. On July 31, 2013, she had 3 VS 2 snores scored for the entire night. In SleepyHead, the data looks like this:

'''NOTE:''' DeVilbiss machines do NOT record FL data; F&P Icons do record FL data

Main picture:

'''Inspiratory:Expiratory (ratio)'''

: [(Inspiratory Time in seconds)/(expiratory Time in seconds)] * 100%

'''Equipment description'''

'''Getting feedback on the question: How am I doing?'''

A: All modern CPAPs store the '''compliance''' data on-board and they will write that data to the SD card when the SD card is reinserted into the CPAP. Some CPAPs store a fair amount of other data on-board as well as the compliance data, and all of the on-board data will be written to the SD card. How much data you will see for the night in SleepyHead depends on both the brand of CPAP you use and the version of SleepyHead you use.

* ''ResMed S9'' users will lose all of the detailed daily data and all of the Daily Data graphs. But summary data for the day should show up in SleepyHead 0.9.6.

* ''F&P Icon'' users need to import the data on a weekly basis; the F&P Icon overwrites the daily detailed data on a seven day cycle: In other words, tonight's detailed daily data replaces the high resolution data from one week ago.

== Q: I've downloaded my data from a ResMed S9 Elite, AutoSet, VPAP S, or VPAP Auto, and there is no detailed data and SleepyHead says I didn't use the machine. What did SleepyHead do with my data? ==

== Q: I don't see any Flow Rate data. What am I doing wrong? ==