Difference between revisions of "Hotel"
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==Description of Dr. Smith's 8 cage hotel== | ==Description of Dr. Smith's 8 cage hotel== | ||
− | + | Citation: Smith, JC. Microstructure of the rat's intake of food, sucrose and saccharin in 24-hour tests. Neuroscience and Biobehavioral Reviews 24 (2000)199-212. PMID 10714383 | |
− | + | Old stainless steel wire-bottom cages (dimensions: ?? X ?? X ?? cm) vs. Newer polycarbonate solid-bottom cages | |
+ | |||
+ | Rats were housed in standard polycarbonate wire-top cages measuring 27 x 48 x 20 cm (more exactly 10.5" x 19" x 8") modified with holes cut in the front and in the rear of the cage to accommodate one feeding compartment and two drinking ports. A stainless steel nest box (?? x ?? x ?? cm) was placed inside the cage. At the front of the cage a stainless steel food compartment held a 4 oz glass food jar. When a rat entered the feeding compartment, its head broke an infrared beam located above the food jar so that every second during the 23-h period the rat had its head inside the compartment was recorded. Thus, time in the food compartment during a feeding episode, not amount of food intake, was measured. However, under baseline conditions, it has been shown that there is a high correlation between direct measures of food consumption (using load beams or videography) and the duration of a feeding bout [JODI and MEGAN PAPER]. | ||
A two-bottle stainless steel holder was located opposite the food compartment. In the present experiment, only one bottle was used; it was placed on the left side for the duration of the experiment. The sipper tube on the bottle was recessed behind a slot, allowing contact circuits to record each lick that the rat made during a 23-h period. | A two-bottle stainless steel holder was located opposite the food compartment. In the present experiment, only one bottle was used; it was placed on the left side for the duration of the experiment. The sipper tube on the bottle was recessed behind a slot, allowing contact circuits to record each lick that the rat made during a 23-h period. | ||
Line 28: | Line 30: | ||
#total number of licks included in all bouts | #total number of licks included in all bouts | ||
#total number of licks NOT included in bouts (sampling licks) | #total number of licks NOT included in bouts (sampling licks) | ||
− | #total bout length, measured in seconds | + | #total bout length, measured in number of 6-sec bins (multiple * 6 to get seconds) |
#volume per lick, measured in microliters | #volume per lick, measured in microliters | ||
#efficiency, in grams / minute (intake / ((total number of bouts)X(total bout duration)) | #efficiency, in grams / minute (intake / ((total number of bouts)X(total bout duration)) | ||
+ | |||
+ | ==Hotel File Formats== | ||
+ | |||
+ | ===Raw File Format=== | ||
+ | |||
+ | 6 byte header with 3 numbers. Each number is 16 bit integer, in lo-hi byte order | ||
+ | |||
+ | file_buffer [0],[1] -- # of pts in the file -- maximum of 13800 (0x35E8) | ||
+ | file_buffer [2],[3] -- pt of lights OFF | ||
+ | file_buffer [4],[5] -- pt of lights ON | ||
+ | |||
+ | data pts represent 6-second bins. Each data pt is 1 byte. There are 3 channels of data pts. | ||
+ | |||
+ | For the food cup channel, the data pt a byte ranging from 0 to 63 (x3F), should be scaled to number of seconds the infrared beam was broken per bin (range: 0-6): byte value / 63 * 6 = number of seconds. | ||
+ | |||
+ | For the 2 bottle channels, the data pt contains the number of beam breaks (licks) per bin (range: 0 - ~40); the byte value does not require scaling (i.e. byte value = number of licks/bin). | ||
+ | |||
+ | The arrays of data pts for each data channel appear consecutively in the data file | ||
+ | |||
+ | file_buffer[6] to file_buffer[num_of_pts+5] = food cup data pts | ||
+ | file_buffer[6 + num_of_pts] to file_buffer[(2*num_of_pts)+5] = left bottle data pts | ||
+ | file_buffer[6 + (2*num_of_pts)] to file_buffer[(3*num_of_pts)+5] = right bottle data pts | ||
+ | |||
+ | |||
+ | ===CSV Files produced by LTAW=== | ||
+ | |||
+ | header line, followed by one line for each bout (note commas at end of line...) | ||
+ | |||
+ | name of bout file: | ||
+ | "B<channel0-1>YYMMDD.CSV" | ||
+ | <filename>,<nothing?>,<channel0-2>,<lightsoff_pt>,<totalcounts>,<lightson_pt>,<pts_per_bin?>,<startpt>,<endpt>,<validpt>,<minbin>,<IBIpts>, | ||
+ | <zeroindexed bout num>,<startpt>,<endpt>,<counts>, | ||
+ | |||
+ | example: | ||
+ | CA15SET.C01,,0,7037,4181,11384,1,0,13797,3,50,30, | ||
+ | 0,2222,2242,109, | ||
+ | 1,3194,3269,392, | ||
+ | 2,4201,4325,526, | ||
+ | 3,4441,4686,977, | ||
+ | 4,5628,5719,479, | ||
+ | 5,6114,6251,678, | ||
+ | 6,7139,7245,585, | ||
+ | 7,7400,7492,459, | ||
+ | 8,8204,8330,543, | ||
+ | 9,9440,9685,1102, | ||
+ | 10,10159,10275,607, | ||
+ | 11,10782,10886,541 | ||
+ | |||
+ | |||
+ | ==LTAW Variables== | ||
+ | |||
+ | <html> | ||
+ | <style>table.zebra tr:nth-child(even) { background-color: #ddd;}</style> | ||
+ | </html> | ||
+ | |||
+ | <tab sep=comma class="wikitable zebra"> | ||
+ | LIX, licks | ||
+ | BLIX, licks within bouts | ||
+ | BT,bout number | ||
+ | BTL,bout length (# of 6-sec bins) | ||
+ | LBT, Licks per bout | ||
+ | IBI, interbout interval | ||
+ | </tab> | ||
==LTAW Bout Criteria== | ==LTAW Bout Criteria== | ||
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Example: | Example: | ||
− | < | + | <pre> |
0,0,0,5,6,6,5,6,5,4,3,6,0,0,0,0, …[40 empty bins] ….0,6,5,6,5,4,5,0, …. [60 empty bins]….0,6,5,6, | 0,0,0,5,6,6,5,6,5,4,3,6,0,0,0,0, …[40 empty bins] ….0,6,5,6,5,4,5,0, …. [60 empty bins]….0,6,5,6, | ||
^ ^ ^ ^ | ^ ^ ^ ^ | ||
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of bout bout of bout of next bout | of bout bout of bout of next bout | ||
− | </ | + | </pre> |
'''Minimum size of a valid bout:''' | '''Minimum size of a valid bout:''' | ||
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a sequence of bins totalling 30 licks (or 30 seconds in the food cup) is a potential bout with on | a sequence of bins totalling 30 licks (or 30 seconds in the food cup) is a potential bout with on | ||
+ | |||
+ | =Derived measures= | ||
+ | |||
+ | Bout length in seconds = TOTBTL * 6 | ||
+ | |||
+ | (sometimes "bout length" is referred to as "bout duration" or as "bout size" -- the use of size is ambiguous as to time or quantity e.g. of licks, so I prefer not to use size. | ||
+ | |||
+ | Bout Rate in licks/ second = (total licks per bout) / (total bout length in bins * 6) | ||
+ | |||
+ | |||
+ | [[Category:Laboratory]] | ||
+ | [[Category:Taste_Aversion]] | ||
+ | [[Category:Ingestive_Behavior]] | ||
+ | [[Category:Magnetic_Fields]] |
Latest revision as of 16:37, 1 September 2023
Description of Dr. Smith's 8 cage hotel
Citation: Smith, JC. Microstructure of the rat's intake of food, sucrose and saccharin in 24-hour tests. Neuroscience and Biobehavioral Reviews 24 (2000)199-212. PMID 10714383
Old stainless steel wire-bottom cages (dimensions: ?? X ?? X ?? cm) vs. Newer polycarbonate solid-bottom cages
Rats were housed in standard polycarbonate wire-top cages measuring 27 x 48 x 20 cm (more exactly 10.5" x 19" x 8") modified with holes cut in the front and in the rear of the cage to accommodate one feeding compartment and two drinking ports. A stainless steel nest box (?? x ?? x ?? cm) was placed inside the cage. At the front of the cage a stainless steel food compartment held a 4 oz glass food jar. When a rat entered the feeding compartment, its head broke an infrared beam located above the food jar so that every second during the 23-h period the rat had its head inside the compartment was recorded. Thus, time in the food compartment during a feeding episode, not amount of food intake, was measured. However, under baseline conditions, it has been shown that there is a high correlation between direct measures of food consumption (using load beams or videography) and the duration of a feeding bout [JODI and MEGAN PAPER].
A two-bottle stainless steel holder was located opposite the food compartment. In the present experiment, only one bottle was used; it was placed on the left side for the duration of the experiment. The sipper tube on the bottle was recessed behind a slot, allowing contact circuits to record each lick that the rat made during a 23-h period.
A computer recorded time spent in the food compartment and number of licks with 6-s resolution, meaning that after every 6-s bin, the number of seconds that the rat was in the food compartment and the number of licks on the sipper tube were recorded. This resulted in 13,800 6-s bins for every 23-h testing period during which the data were recorded. The computer was always started by 1000 h. A photo detector allowed the computer to record the time when the room lights went off and on during the 23-h period.
Variables collected by Dr. Smith's hotel
Any differences found in food and water intake during the experiment could be due to a change in a variety of factors: (1) the number of ingestive episodes (bouts), (2) the duration of these bouts, (3) the efficiency of feeding or drinking within the bouts, or (4) intake occurring outside of a bout (sampling). Feeding and drinking bouts were defined as follows:
For feeding, a bout started when a rat entered the food compartment for 3 sec. The bout had to include at least 30 s with the rat within the food compartment (i.e. breaking the infrared beam) in order to be included as a valid bout. The bout ended when the rat left and did not re-enter the food compartment again for 50 6-s bins (5 min).
For drinking, a bout started when a rat made 3 licks. A drinking bout had to contain at least 30 licks to be included as a valid bout. The bout ended when the rat did not lick for 50 6-s bins (5 min).
Using the daily food and fluid intake and the above bout criteria, the following dependent variables were measured or calculated for each day:
- body weight, measured in grams
- intake, measured in grams
- number of daytime bouts
- number of nighttime bouts
- total number of bouts
- total licks per bout
- total number of licks included in all bouts
- total number of licks NOT included in bouts (sampling licks)
- total bout length, measured in number of 6-sec bins (multiple * 6 to get seconds)
- volume per lick, measured in microliters
- efficiency, in grams / minute (intake / ((total number of bouts)X(total bout duration))
Hotel File Formats
Raw File Format
6 byte header with 3 numbers. Each number is 16 bit integer, in lo-hi byte order
file_buffer [0],[1] -- # of pts in the file -- maximum of 13800 (0x35E8) file_buffer [2],[3] -- pt of lights OFF file_buffer [4],[5] -- pt of lights ON
data pts represent 6-second bins. Each data pt is 1 byte. There are 3 channels of data pts.
For the food cup channel, the data pt a byte ranging from 0 to 63 (x3F), should be scaled to number of seconds the infrared beam was broken per bin (range: 0-6): byte value / 63 * 6 = number of seconds.
For the 2 bottle channels, the data pt contains the number of beam breaks (licks) per bin (range: 0 - ~40); the byte value does not require scaling (i.e. byte value = number of licks/bin).
The arrays of data pts for each data channel appear consecutively in the data file
file_buffer[6] to file_buffer[num_of_pts+5] = food cup data pts file_buffer[6 + num_of_pts] to file_buffer[(2*num_of_pts)+5] = left bottle data pts file_buffer[6 + (2*num_of_pts)] to file_buffer[(3*num_of_pts)+5] = right bottle data pts
CSV Files produced by LTAW
header line, followed by one line for each bout (note commas at end of line...)
name of bout file: "B<channel0-1>YYMMDD.CSV" <filename>,<nothing?>,<channel0-2>,<lightsoff_pt>,<totalcounts>,<lightson_pt>,<pts_per_bin?>,<startpt>,<endpt>,<validpt>,<minbin>,<IBIpts>, <zeroindexed bout num>,<startpt>,<endpt>,<counts>,
example:
CA15SET.C01,,0,7037,4181,11384,1,0,13797,3,50,30, 0,2222,2242,109, 1,3194,3269,392, 2,4201,4325,526, 3,4441,4686,977, 4,5628,5719,479, 5,6114,6251,678, 6,7139,7245,585, 7,7400,7492,459, 8,8204,8330,543, 9,9440,9685,1102, 10,10159,10275,607, 11,10782,10886,541
LTAW Variables
LIX | licks |
BLIX | licks within bouts |
BT | bout number |
BTL | bout length (# of 6-sec bins) |
LBT | Licks per bout |
IBI | interbout interval |
LTAW Bout Criteria
Minimum Size of a Valid Bin
units: counts per 6-second bin (licks/6seconds) or (number of seconds in food-cup)
if a bin has fewer than this number of licks or beam-break-seconds, then the data in this bin is ignored and not included in analysis
Example: if minimum size is set to 3, then the sequence of bins
0,0,1,0,0,2,0, 0,5,0,0,3,0,0,1,0,0,6
is filtered for purposes of analyses to become the sequence:
0,0,0,0,0,0,0, 0,5,0,0,3,0,0,0,0,0,6
Minimum number of invalid bins between bouts
Units: number of 6-second bins
The minimum interbout interval; typically is 5 minutes = 50 x 6-sec bins
Example:
0,0,0,5,6,6,5,6,5,4,3,6,0,0,0,0, …[40 empty bins] ….0,6,5,6,5,4,5,0, …. [60 empty bins]….0,6,5,6, ^ ^ ^ ^ start same end start of bout bout of bout of next bout
Minimum size of a valid bout:
Units: number of counts within the bout (licks or seconds in food-cup)
So if set to 30, then
a sequence of bins totalling 30 licks (or 30 seconds in the food cup) is a potential bout with on
Derived measures
Bout length in seconds = TOTBTL * 6
(sometimes "bout length" is referred to as "bout duration" or as "bout size" -- the use of size is ambiguous as to time or quantity e.g. of licks, so I prefer not to use size.
Bout Rate in licks/ second = (total licks per bout) / (total bout length in bins * 6)