Journal of Automatic Chemistry, Volume 4, Number 4 (October-December 1982), pages 165-168 Desk-top computer in the clinical laboratory linked to automatic multichannel biochemistry analysers Lars Funding and Yngve Bergqvist Department of Clinical Chemistry, Falu Central Hospital, S-791 82 Falun, Sweden Introduction New analytical instruments are continuously being introduced into the clinical laboratory. Although these instruments are becoming more and more sophisticated they have many draw- backs: inflexible result print-outs, meagre analytical-method control reports and no statistics for billing purposes and cost evaluation. Due to the continued advancements in computer tech- nology, relatively inexpensive microcomputers have become available for use in the laboratory ]-1, 2]. A small, inexpensive desk-top computer system has been in regular use in the authors’ laboratory since May 1981. The system’s prime purpose is to collect results from multichannel analysers, such as the G-300 (Greiner) and SMA-IIC (Technicon), and to store them on a discette. The collected data are later sorted, statistically processed and listed. Equipment and method The system hardware consists of three Metric 85 micro- computers. Each has a Zilog Z 80 CPU, 64 kilobytes RAM, two G-300- G-300 keyboard RS 232 SMA-IIC keyboard SMA-IIC printer SMA-IIC CRT RS 232 M-85 keyboard Metric (M) M-85 M-85 85 printer keyboard M-85 M-85 printer \ I Patient- \ Patient- / results results / M-85 from SMA-IIC M-85 from G-300 / CRT CRT / \ / \ / \ M-85 5 printer keyboard Statistical I II reports Figure 1. Schematic outline of the desk-top computer system linkage to the G-300 and SMA-IIC multichannel analysers. 165
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Journal of Automatic Chemistry, Volume 4, Number 4 (October-December 1982), pages 165-168
Desk-top computer in the clinicallaboratory linked to automaticmultichannel biochemistry analysersLars Funding and Yngve BergqvistDepartment of Clinical Chemistry, Falu Central Hospital, S-791 82 Falun, Sweden
Introduction
New analytical instruments are continuously being introducedinto the clinical laboratory. Although these instruments arebecoming more and more sophisticated they have many draw-backs: inflexible result print-outs, meagre analytical-methodcontrol reports and no statistics for billing purposes and costevaluation.
Due to the continued advancements in computer tech-nology, relatively inexpensive microcomputers have becomeavailable for use in the laboratory ]-1, 2].
A small, inexpensive desk-top computer system has been inregular use in the authors’ laboratory since May 1981. Thesystem’s prime purpose is to collect results from multichannelanalysers, such as the G-300 (Greiner) and SMA-IIC(Technicon), and to store them on a discette. The collected dataare later sorted, statistically processed and listed.
Equipment and method
The system hardware consists of three Metric 85 micro-computers. Each has a Zilog Z 80 CPU, 64 kilobytes RAM, two
G-300-
G-300keyboard
RS 232
SMA-IICkeyboard
SMA-IICprinter SMA-IIC
CRT
RS 232
M-85keyboard
Metric (M) M-85 M-8585 printer keyboard
M-85M-85 printer
\ I Patient-
\Patient- / resultsresults / M-85 from SMA-IICM-85 from G-300
/ CRTCRT/
\ /\ /\
M-85 5 printerkeyboard
Statistical
III
reports
Figure 1. Schematic outline of the desk-top computer system linkage to the G-300 and SMA-IIC multichannel analysers.
165
L. Funding and Y. Bergqvist Microcomputers in the clinical laboratory
Micropolis mini floppy-disc drives with storage capacities of 315kilobytes/drive, a visual display screen and a keyboard. Thehardware, which cost less than 111000 Sw. kr. (US $18 000), wassupplied by Scandia Metric AB of Solna, Sweden. One micro-computer is connected to a Greiner G-300 analyser via a RS 232serial interface; another is connected in a similar manner to aTechnicon SMA-IIC analyser.
Data are transferred from the analysers to the computers inpredefined blocks. In the event of data loss the computer canrequest repeated transmission ofthe data block. Two Tally 1612matrix printers are used to print-out the results from theanalysers.
The third Metric 85 is used for statistical reports and is able,
in an emergency, to replace one of the computers connected tothe multichannel analysers.
The programs, which were written in BASIC, were developedin collaboration with Infax Data of Spgtnga, Sweden.
Results and discussion
The data system was built to serve the needs of small andmedium-size laboratories where routine analytical work isorganized around bio-analytical multichannel analysers. Aschematic outline of the authors’ system is shown in figure 1.
The computer system has the following features: automatic
L. Funding and Y. Bergqvist Microcomputers in the clinical laboratory
350 PERSON NR 111111111 BIIO30--
LOPNR. 001 111111111HEROLYS
ANALYS REF ENHET SVAR
S-NTIUR 136 -147 maol/l 147.
S-KALIUR 3.5 -4.8 mmol/I 5.2,
S-KLORIDER 77-111 mmol/I 110.
S-KREATIN[N 56 -126 umot/t 120.
S-TOT.PROT. 63 -83 /l BO.
S-CALC]UR 2.15-2.60 mmot/ 2.50
S-FOSFAT 0.80-1.60 mmol/l 1.05
S-URAT 10 -480 uol/l 165
-STATUS
3,50 PERSON NR 111111111LOPNR. 001
ANALYS REF ENHET
S-CALCIUR 2.15-2.60 RROL/L
S-RREATIHIH 56 -12& UROL/L
S-UREA 3.6 -8.9 RROL/L
S-BILIRUBIH 3 -20 UROL/L
S-ALP 1,2 -5,2 UKAT/L
S-ASAT 0,15-0,70 UKAT/L
S-ALAT 0.15-0.70 UKAT/L
S-LD 0 -8.0 UKAT/L
S-GARRA-GT UKAT/L
S-hLBURIN 40,0-52,0 6/L
S-KOLEST, 3,6 -8,8 RROL/L
S-TR]GLY, O,& -2.& RROL/L
S-ARYLAS 1.2 -5.0 UKAT/L
--811030--
111111111HEOLYS
SVAR
2.50
6.5
0.85
1.15
45.0
Figure 4. Patient result labels for the SMA-IIC and G-300 generated by the desk-top computer.
on-line data collection; reporting of patient results on self-adhesive labels; registration and retrieval of data from disc usingpatient ID; the possibility of manual data entry from otheranalysers and data editing through the computer’s keyboard;data security (passwords prevent unauthorized access to data);administrative statistics of analyses ordered by each ward; andgeneration ofquality-control statistics for five different controls--these can be supplied both daily and monthly. Figure 2 shows atypical monthly quality-control report.
In the process of converting the data the program checks forerror messages from the G-300 and the SMA-IIC (channeldifficulties, out of instrument range etc.), and it looks forabnormal patient values and at some sample aspects (haemo-lytic, icteric, lipaemic). The system’s capacity on one computer isup to 750 different patients/day at a maximum of 14 analyses/patient. The system can administrate 72 different ward numberson a special monthly discette and 5500 patients with 14analyses/patient on a special weekly discette. Figure 3 is anexample of the results that would be available monthly.
All laboratory requests are entered on either the G-300 or theSMA-IIC’s keyboard. Each patient has an identification numberof 12 digits: the first three’digits are a ward number foradministrative statistics and the other nine digits are the
,patient’s personal identification number which includes thebirth date. After entering the identification number the re-quested analyses are entered via the keyboard. This data- orrequest-routine does not need any special personnel for the datainput step. At the end ofeach day the data are transferred to themonthly and the weekly discette.
The printer, which is connected to the M-85 computer,provides results on a self-adhesive label. The ward code andpatient’s ID are printed, together with the date of each analysis.For each analysis its name, reference limits and units are printed.Figure 4 is an example of a printed label.
The programs were written in BASIC and are thereforereadily adaptable to other computer systems and to othermultichannel analysers. Infax Data has recently modified andadapted the program to a Hitachi 705 analyser (BoehringerMannheim, Scandinavia of Stockholm, Sweden) in a Swedishhospital.
References
Btsov, C., Clinical Chemistry, 27 (1981), 704.UbJDRLL, P. E., SrR()u, R. E. and PATERSON, N., ClinicalChemistry, 25 (1979), 466.