# Introduction he Healthcare Industry in India is expected to touch 280 billion USD in 2020 1 .The diagnostic medical imaging equipment such as X-rays, Digital radiography, and CT Scans contribute 75 percent of the total market share 2 . The existing doctor and patient ratio in India are1: 30,000, which is far less than WHO recommendation 3 of 1:1000. The refurbishment market for diagnostic medical imaging has been a powerful contributor in India and expected to grow further. More than 200 Billion USD investment in medical infrastructure creation is projected to fulfill the demands forecasted for Tier II and Tier III cities of Indian market 4 before 2020. Among 106 markets registered for the trading of refurbished medical devices, 85 markets permit the unrestricted importation of used medical devices, including India 5 . Most of the hospitals and diagnostic centers prefer refurbished diagnostic imaging equipment (CT, BMD, X-ray, and Mammography) due to lower cost without compromising the image quality. There have been no restrictions for the importation of the used medical imaging devices until 2015, by the regulator Atomic Energy Regulatory Body (AERB). However, effective September 2015, AERB has made an amendment in the regulatory process which restricts the importation of more than seven years old Pre-owned Medical X-ray equipment in the Country 6 . This change in regulatory norm has necessitated for a comprehensive review of the existing process practices to contain the excessive radiation. # D The radiation studies have shown loss of six days of life expectancy due to diagnostic imaging Xrays 7 . The recommended radiation dose for initial diagnosis is between 0.1 and 100 mSv, while for therapeutic radiation it is between 20 -60 Gy 8 . CT studies have revealed that more than 50 percent of the effective dose was contributed by diagnostic radiology 9 . Exposure beyond threshold levels was reported due to improper adjustments of operational controls 10. There were more than 62 million CT examinations per year 11, and the increasing number of recommendation for CT scan is a serious cause of concern 12 . Studies have predicted more than 29,000 future cancers could be related to CT Scans 13 . The Exposure Index recommended by equipment manufacturers as a measure of radiation dose effectiveness was found to have inconsistencies 14 . The modern technologically driven radiation equipment offer high precision imaging with low dose levels 15 . These research studies mandate the need for immediate change over to innovative new technology medical imaging equipment by gradually eliminating the use of traditional technology equipments including refurbished X-ray equipments. This, establishes the need for stringent compliance with regulatory guidelines and standards towards protecting the existing installed base of X-ray equipment from excessive ionizing radiation and induce the adoption of newer generation equipment. Studies related to regulatory compliance to contain ionizing radiation in Diagnostic Laboratories have shown adequate gaps in implementation 16 # Research Objectives To compare radiation compliance score based on the best practices recommended by the regulator (AERB) among Corporate Hospitals, Government Hospitals, Chain of Diagnostic Centers and Private Diagnostic Centers who are the consumers of X-ray equipments and analyze any significant variation exists. V. # Research Design This Descriptive Research aims at studying the current best practices followed by the institutions housing diagnostic imaging equipment, to contain excessive ionizing radiation based on the recommendations of regulatory standards. This study has covered 25 different cities across Tamil Nadu, India and covered 451 institutions (229 Private Diagnostic Centers, 107 Chain of Diagnostic Centers, 77 Corporate hospitals, and 38 Government hospitals). This study has followed "Stratified Purposive" sampling to ensure adequate representations from the entire stratum. A structured Questionnaire with a seven-point scale (Table I) was administered to collect data from the institutions housing diagnostic imaging equipment. The researcher conducted this study for the period between April 2016 and September 2017. The instrument reliability was tested using Cronbach's Alpha, and it was calculated to be 0.992 (Acceptable threshold limit is 0.8). The sampling adequacy was estimated using Kaiser-Meyer-Olkin test and was estimated to be 0.93839 (Acceptable limit is minimum 0.6). # Kruskal-Wallis Test The Kruskal-Wallis test (Kruskal, & Wallis, 1952) was chosen to test the hypothesis, 'Significant difference exists in the mean ranks of compliance score between these institutions.' A descriptive analysis (Table II ANOVA was performed using absolute mean rank distribution values and results shown in Table III. The researcher rejected the null hypothesis based on the estimated 'P' value ('0'-zero) which is less than Alpha (0.05) value, and so it has been concluded that the variances are not roughly marginal. # VIII. # Kruskal-Wallis Test The test was conducted using SPSS (version 20), and test results of Kruskal-Wallis test have been compiled and presented in Table IV The assumption on the existence of marginating variable was first tested to use the power of Kruskal-Wallis test. The marginating variable was tested with the help of the following hypothesis. .000 From the Kruskal-Wallis test results, the estimated 'P' value is '0" (Zero) which is less than the alpha value (0.05), and hence the hypothesis of 'There will be a significant difference in compliance score between these groups' has been accepted. There is a significant difference between mean ranks of Private Diagnostic Centers and Chain of Diagnostic Centers. However, the mean rank estimated for Government hospitals and corporate hospitals are found to be the same. The results though have shown a significant difference between the groups; it did not point out which group contributes notable variance. Hence the effect size was estimated using Chi-Square value (Chi-Square Value / n -1 *100) and found to be 85.37 percent. This predicts 85.37 percent variability in mean rank is affected by the type of institutions. The following groups formed to repeat the Kruskal-Wallis test to find out the group (s) that statistically significant from each other, and results are summarized: 1. Between Diagnostic Centers and Chain of Diagnostic Centers ( .432 The mean rank between Chain of Diagnostic Centers and Diagnostic Centers has been found to be statistically insignificant from the results of Kruskal-Wallis test with an estimated 'P' value of 0.432, which is higher than the alpha value 0.05. Furthermore, Diagnostic centers and Chain of diagnostic centers attribute 4.41 percent of the variability in the mean rank. The mean rank between corporate hospitals and Government hospitals has been found to be statistically insignificant from the results of Kruskal-Wallis test with an estimated 'P' of 1.00, which is higher than the alpha value 0.05. The 'Zero' chi-square value indicates that there is no significant difference in mean rank between Government hospitals and Corporate hospitals. # Regulatory # IX. # Conclusion It was evident from the analysis that there is a significant difference in regulatory compliance score between the groups of institutions compared. The mean compliance score of Private Diagnostic centers (2.8, Table I) enunciates that dissemination of radiation containment standards into best practices was found to be marginally less than significant levels. The Chain of Diagnostic centers have established practices whose compliance was closely above sufficient levels (mean score 3.29, ![Comparative Analysis of Factors Influencing Compliance to Contain Man-Made Ionizing Radiation in Diagnostic Medical Imaging Devices](image-2.png "A") IA Comparative Analysis of Factors Influencing Compliance to Contain Man-Made Ionizing Radiation inDiagnostic Medical Imaging DevicesYear 2018Volume XVIII Issue 1 Version ID D D D ) D(Sl. No.Description of VariableNMedian ModeMeanStd. DevSkewness Kurtosis1Overall28564.541.654-0.526-1.3482Private Diagnostic Centers7222.81.0690.374-2.8003Chain of Diagnostic Centers7443.290.951-1.678-0.7644Corporate Hospitals766600.7641.5875Government Hospitals766600.7941.587© 2018 Global Journals IISum of SquaresdfMean SquareFSig. ('P' Value)Between Groups862.6073287.536Within Groups173.357247.22339.807.000Total1035.96427 Compliance Score 2 2 4 4Group 1 1 1 1Group Description Diagnostic CentersRank 3.500 3.500 11.000 11.000Mean Rank Distribution 2.86 2.86 2.86 2.86Absolute Mean Rank Distribution .64 .64 8.14 8.14Medical Research2 4 2 3 2 2 4 41 1 1 2 2 2 2 2Chain of Diagnostic Centers3.500 11.000 3.500 3.500 7.000 3.500 11.000 11.0002.86 2.86 2.86 3.29 3.29 3.29 3.29 3.29.64 8.14 .64 .21 3.71 .21 7.71 7.71Global Journal of4211.0003.297.714211.0003.297.716321.5006.0015.506321.5006.0015.506321.5006.0015.5063Government Hospitals21.5006.0015.506321.5006.0015.506321.5006.0015.506321.5006.0015.5021Volume XVIII Issue 1 Version I © 2018 Global Journals IV6421.5006.0015.506421.5006.0015.506421.5006.0015.5064Corporate Hospitals21.5006.0015.506421.5006.0015.506421.5006.0015.506421.5006.0015.50Type of InstitutionsNMean RankDiagnostic centers76.71Regulatory Compliance ScoreChain of Diagnostic Centers Government Hospitals7 78.29 21.50Corporate Hospitals721.50Total286.71Regulatory Compliance ScoreChi-Square23.988df3Asymp. Sig. VII& VIII).2. Between Chain of Diagnostic Centers andGovernment Hospitals (Table IX & X).3. Between Government hospitals and CorporateHospitals (Table XI & XII).Type of InstitutionsNMean RankRegulatory Compliance ScoreDiagnostic centers Chain of Diagnostic Centers7 76.71 8.29Total14Regulatory Compliance ScoreChi-Square0.617df1Asymp. Sig. VA Comparative Analysis of Factors Influencing Compliance to Contain Man-Made Ionizing Radiation inDiagnostic Medical Imaging DevicesYear 2018Volume XVIII Issue 1 Version ID D D D ) D(Type of InstitutionsNMean RankCompliance ScoreChain of Diagnostic centers Government Hospitals7 74.00 11.00Total14© 2018 Global Journals VI VII VIII IXRegulatory Compliance ScoreChi-Square11.492df1Asymp. Sig.0.001The mean rank between Diagnostic Centersalpha value 0.05. However, Diagnostic centers andand Government hospitals has been found to beGovernment hospitals accredit 82.09 percent of thestatistically significant from the results of Kruskal-Wallisvariability in mean ranks.test with an estimated 'P' of 0.001, which is less than theType of InstitutionsNMean RankRegulatory Compliance ScoreCorporate Hospitals Government Hospitals7 77.50 7.50Total14Regulatory Compliance ScoreChi-Square0.000df1Asymp. Sig.1.000 Year 2018Volume XVIII Issue 1 Version ID D D D )(© 2018 Global Journals X XI XII * India Brand Equity Foundation (IBEF). Healthcare 2016 * Medventura Top 6 refurbished medical equipment market place online 2017 * Strategic Marketing Management and Tactics in the Service Industry TSood 2017 IGI Global India JECRC University * Healthy margins elusive for healthcare biz AModi Business Standard December 16, 2017. February 18. 2018 * Global Import Regulations for Pre-owned (Used and Refurbished) Medical Devices SFrancis 2008. 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