chart for all subspecialties. The Division of Anaesthesia provides anaesthesia service in Parirenyatwa Group of Hospitals (PGH) and Harare Central Hospital (HCH), two tertiary level hospitals of 1000 beds each with high volume obstetric work of between 300-500 Caesarean sections performed monthly. In obstetric anaesthesia, data is increasingly becoming an important factor in improving maternal outcomes. Safe practice and accurate information management surrounding Caesarean section has a meaningful role to play in improving maternal mortality. 5,6 Current Anaesthesia Information Management Systems (AIMS) make electronic charts more complete with accurate data collection. 7,8 There is currently a strong move supporting automated anaesthesia records to facilitate "Big Data" research. 9 However despite these advantages, AIMS implementation has met with resistance from policy makers due to its expense, the steep learning curve and cumber some equipment. 10,11 Pen and paper remains the most cost-effective, efficient and easy way of acquiring data in low-resource settings. Going fully digital in this context will have to be a gradual patchwork as departments build up electronic capabilities and prepare clinicians. A compromise is therefore required to improve efficiency of data capturing, while allowing institutions to transition towards AIMS. Digital pen and paper system (DPPS) may provide a low-cost approach to automating paper based processes without disturbing the simplicity of using ordinary pen and paper. 12,13 However, there is a paucity of published research on the use of the DPPS in anaesthesia, especially in obstetrics, with a few published studies identifying its potential use in clinical practice. 15,[16][17][18][19][20][21] Overall, few studies have assessed the adequacy of anaesthetic record-keeping, with some illustrating that documentation is generally inadequate 7,21,22 . In Zimbabwe, the anesthesia chart has undergone little change over a period of more than twenty years. A revised digital chart could improve data capturing and retrieval. This article reports on the process by which a new obstetric anaesthetic chart was designed for two teaching hospitals in Zimbabwe. # a) Aims The aims of this study were to revise current anaesthesia charts for obstetric use and to determine whether introduction of the new chart with use of the DPPS would lead to superior data quality and quantity. The hypothesis was that peri-anaesthetic documentation in the obstetric population would be superior with the use of the new chart and DPPS. # b) Digital pen and paper technology Digital paper is ordinary printer paper which has a pattern of microscopic dots printed on it by a laser printer. The digital pen utilizes the dot pattern to decipher its location on the page. The pen's built-in infrared camera records the coordinates of the handwritten strokes during writing. The charts are kept in the pen's memory until they are routed to remote servers. Routing happens by putting the digital pen in a cradle fastened to a network-connected Personal Computer (PC) or via a Bluetooth-enabled mobile communication device. The handwriting is then changed to digital text and an image of the handwritten form immediately becomes available. Figure 1 shows the basic components of a digital pen and paper system. # II. # Methods a) Study Design This study was prospective interventional study involving new DPPS charts and old manual charts. # b) Sample Size and Sampling Procedure A study by Kylie-Ellen et al (1) found that traditional old charts had ANZCA compliance score of 81.6% while electronic data capture had compliance of 88.6% with a mean difference of 7.1% in comparison with handwritten records. To test the efficacy of the DPPS, a non-inferiority hypothesis was assumed that DPPS would lead to non-inferior data quality and quantity of the obstetric anesthesia chart as compared to manual documentation. Therefore the sample size used in this study was given by non-inferiority formula (2) as shown below: ?? = ??? 1 (1 ? ?? 1 ) + ?? 2 (1 ? ?? 2 )? × (?? 1??? + ???? 2 ? ) 2 (?? 1 ? ?? 2 ) 2 Where n = sample size required ?? 1 = DPPSS compliance with ANZCA (88.6%) ?? 2 = Hands written manual documentation compliance with ANZCA (81.6%) ?? ?? = Desired power (0.84 for 80% adopted for this study) ?? = ?0. # c) Data Collection Procedure Data was collected from anaesthetic charts, that is, the new digital charts on one arm and the old charts as the other arm. Since only one pen was available at (1.96 for 95% adopted for this study) each hospital for the study patients were recruited in this manner: from 0800-1400hrs patients were recruited consecutively for each theatre and then from 1400hrs patients were recruited into those using the new and old charts on alternate days. Members of staff in two departments were trained via demonstrations on use of the new sheet and pen. For this study, the Live Pen? 1 pen (Anoto DP-201: Sweden supplied by Xcallibre, Durban, South Africa) was used (Figure 2). This was commercially acquired independently and Xcallibre were not involved in the study. A one-week pilot period was used to familiarize staff and address technical glitches. During the study, the researcher was available for troubleshooting and there were information booklets in each theatre at all times. XCallibre's cloud system provided back-up and technical support in case of system failure. The new system was tested alongside the old charts for a month based on the ANZCA scoring system (Table 1). The sheets were assessed for completeness using a scoring system (Table 1) based on the Australian and New Zealand College of Anaesthetists (ANZCA) PS06 Anaesthesia recommendations and a tool developed by Elhalawani. 4 This was also combined with the ASA House of Delegates Statement on the documentation of anaesthesia care. 24 Phase I results were used to further adapt the tool for the study. The scoring system rated charts from 0 to 40. A score of zero was given to a blank chart, and 40 were given for a form 100% complete. # e) Data Analysis Data was analyzed using Stata Version 11. Descriptive statistics such as means and standard deviation was used to describe the completeness scores in the two types of charts. Mann Whitney U and Friedman tests were used to compare completeness scores. Findings were presented at 95% confidence interval using graphs. # III. # Results # a) Anaesthetic Documentation Completeness An audit in the anaesthetic records indicated that in all cases, postoperative records had the highest level of completeness while intraoperative records had the least documentation completeness. There was significant variation in level of completeness between preoperative, intraoperative and postoperative documentation (Friedman test: ? 2 = 194.6, degrees of freedom = 2, p-value = 0.000). # b) Preoperative Completeness As shown in the figure below the median preoperative completeness of the old charts was 50% while the median preoperative completeness of the DPPS charts was 60%. None of the charts had a preoperative completeness of more than 70%. However, it was found that on average DPPS charts had significantly (Mann Whitney U test: Z = -8.845, p-value = 0.000) higher preoperative completeness as compared to the old charts. This showed that the new DPPS system enhanced preoperative documentation by 10%. # c) Intraoperative Completeness As shown in the figure below the median intraoperative completeness for both old charts and DPPS charts was 53%. None of the charts had a completeness of more than 60%. The intraoperative completeness in DPPS charts however was significantly (Mann Whitney U test: Z = -4.325, p-value = 0.000) higher than old charts. This showed that DPPS marginally contributed to enhancement in intraoperative documentation. # d) Postoperative Completeness As shown in the figure below the median postoperative completeness of the old charts was 60% while the median preoperative completeness of the DPPS charts was 80%. Postoperative completeness of the old charts had wider variation as compared to DPPS Furthermore it was found that on average DPPS charts had significantly (Mann Whitney U test: Z = -8.049, p-value = 0.000) higher postoperative completeness as compared to the old charts. This showed that the new DPPS system enhanced postoperative documentation by 20%. # e) General Completeness To assess the general completeness scores for preoperative, intraoperative and postoperative completeness were added and converted to percentages. As shown in the figure below the general median completeness of the old charts was 47.5% while the general median completeness of the DPPS charts was 65%. None of the charts had a completeness of more than 70%. In addition, it was found that on average DPPS charts had significantly (Mann Whitney U test: Z = -11.07, p-value = 0.000) higher general completeness as compared to the old charts. This showed that generally the new DPPS system enhanced anaesthetic documentation by 17.5%. # Discussion Recommendations state anaesthetic documentation should be 100% complete in all aspects. 4,26 Improved documentation has been associated with well-designed peri-anaesthesia charts, training emphasizing the value of documentation, electronic data capture and departmental monitoring of the quality of record-keeping. 27,28 A new obstetric chart was designed with the hope that improved structure would boost the documentation practices. In the early phases of the study, the researcher held a training lecture on best practices in record-keeping using the new chart and DPPS. Although the principal aim was to improve format of the chart to raise documentation standards, the researcher inadvertently taught on the importance of enumerating events. Teaching was done during training on DPPS use. This may explain the generally refined documentation practices during the study. This study found that prior to the introduction of DPPS, preoperative completion averaged 50% and intraoperative completion was 53% while postoperative completion was 60%. Other studies have demonstrated pre-operative record completion of 26.8%. 23 and a South African study had 78.1% of anaesthetic charts without a pre-operative record. 22,23 Mato also showed record completion was only 52% across disciplines including orthopedics, obstetrics, ear nose and throat and maxillofacial surgery. 2 On assessing record keeping during Caesarean section, Varma showed only 6% of charts were completely filled, whilst our initial audit fared at 0%. 38 Olateju et al's pre-intervention audit showed 56.12% completeness for obstetric regional anesthesia documentation. 27,29 Completeness of chart documentation is therefore clearly a major problem, particularly during the pre-operative phase. After introduction of DPPS, average documentation increased from 47.5% in the old charts to 65% using the new DPPS chart. This indicated that the mean difference between the two documentation styles was 17.5%. The new DPPS documentation had higher effects in postoperative documentation (mean difference 20%) as compared to preoperative documentation (mean difference 10%). The new DPPS however had marginal effects on intra-operative documentation. Therefore, it was concluded that the new DPPS was superior in documenting preoperative and postoperative procedures. This study supports the hypothesis that anaesthetic documentation in the obstetric population would be superior with the use of the new chart and a DPPS. However, there were emerging problems that may need further evaluation at a later stage such as the data needing further verification and the quality of the pen-hand recognition. During the study form verification and correction was only done on 10 randomly selected forms. Although the DPPS may be a potential bridge technology, it probably does not fully address the issues surrounding hand-recognition and the additional time required for data verification and cleaning. This will need further validation at a later stage in our unit. Dykes also showed similar potential issues of the DPPS when it was employed in 3 units at varied stages of implementing an electronic medical record. 33 V. # Recommendations To further approach the gold standard 100% documentation, we would recommend periodic departmental education on the importance of enumerating events during the manual-to-digital transition. VI. # Limitations The study was conducted at teaching hospitals which may not necessarily depict practices at other hospitals. We assumed that users are equally capable and so individual skill would not affect documentation. Junior members of staff enter the department on a rotational basis. The study was conducted during randomly selected months without taking rotations into consideration. VII. # Conclusion Data capture in the operating room takes many forms. 34 we developed an obstetric anesthetic chart using the DPPS in a low-resource setting. A digital charting tool improved data collection in terms of quantity although the quality was not fully evaluated. The DPPS showed some potential value in a low-resource setting especially with regards to degree of chart completion and facilitation of big data amongst others. # CI ![Development of an Obstetric Anesthesia Chart using the Digital Pen and Paper in a Low Resource Setting:A Prospective Interventional Study](image-2.png "") 12![Figure 1: Digital pen with its components (left) and Digital paper with printed microdots (right)](image-3.png "Figure 1 : 2 ?") 3![Figure 3: Anaesthetic Documentation Completeness](image-4.png "Figure 3 :") ISignificant blood loss1Vitals recorded in full4DrugsadministeredandFull details1AntibioticsLevel of block1Regionalanesthesia2documentationPost-operativePost-op recovery analgesiaPain protocols when appropriate1EncounterOxygen therapyWhere appropriate1Post-op ward analgesiaDocumentation on either operative record or1medication chartPost-op fluid and transfusionTo cover 24 hours1orders vomiting) protocol PONV (post-op nausea andWhere appropriate1Year 2018d) Ethical Consideration Ethics approval for the study was granted by7Name of anesthetic providers Data field Patient's name, hospital number, gender, weight Date the Harare Central Hospital (HCH) ethics committees On pre-op and intra-op encounters Anesthetic Documentation Requirement Pre-operative Encounter Each to be documented in both the pre-op and intra-op document On pre-op and intra-op encounters [(HCH Ethics Committee and Joint Research Ethics Committee JREC/Ref #14/46]. Since records were uploaded onto standard Android platform, data was encrypted to protect patient identity. Only the researcher and two consultant anaesthetists had password-protected access to the files for editing and data cleaning. The database was backed up by XCallibre's cloud based system.1 Maximum score 4 1D D D K D ) Volume XVIII Issue VIII Version Iand signature(Procedure Medical status Medications and allergyBrief description on pre-op and intra-op encounters ASA grading On pre-op assessment2 1 1ResearchEncounter Intra-operativePrevious anesthesia Airway, dentition and GORD (Gastro-oesophageal reflux disease) Premedication Anesthetic plan Risks Consent Fasting Anesthetic technique Anesthetic machine checkList and complications (or none) Airway: Mallampati score, thyromental distance Dentition: any loose, false or broken teeth If appropriate Brief description Brief description Including for regional anesthesia Fasting instructions Time and dose of administration Full details (general and regional)1 3 1 1 1 1 1 1 1Medical Global Journal ofDrugs administeredDegree of difficulty, grade view, Size and type1AirwayBreathing systems, flows and mode of1ventilation2Breathing systemList details (e.g. size and site of Central1venous catheter Intra-arterial line, )Monitoring methodSite, size of IV access. Type and volume offluid1Must be documentedVascular access and IVT1Timing and doses© 2018 Global Journals © 2018 Global Journals ## Acknowledgements This work has been funded by The Novel Education Clinical Trainees and Researchers (NECTAR) Programme as part of Medical Education Partnership Initiative (MEPI), Zimbabwe. The authors would like to acknowledge the work of our statisticians. ## Declaration The authors declare that they haveno competing interests. Xcallibre is an independent company from which the study DPPS was sought commercially. The company had no involvement or financial interest in the study. All authors cited above had contributions in the conception, study design, data acquisition, analysis and development of this manuscript. The datasets used and analyzed for this study are available upon reasonable request with permission from JREC and the Ministry of Health. 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