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Edit Comment Close Premium member Presentation Transcript FIRST EXPERIENCE OF AD SYRINGES IN INDIA: FIRST EXPERIENCE OF AD SYRINGES IN INDIA A CASE STUDY Dr. K.Suresh, UNICEF, Delhi MD, DIH, DF, FIAP, FIPHA, FISCDBACKGROUND: BACKGROUND Before 1985: Syringes & needles for vaccination/ other uses were state responsibility Sterilization process was boiling in saucepan Electric sterilizer & autoclave Syringes & needles supply InadequateBACKGROUND: BACKGROUND 1985- Inception of UIP GOI supplied Glass syringes and needles (UNICEF-Sup) Norm - 1 syringes @ 40 injection 1 needle @ 10 injection 1 BCG needle @ 5 injection Autoclave & Drum sterilizers for PHCs & institutions 1986-87 Double rack pressure cooker sterilizer provided for SC for outreach sessionsBACKGROUND: BACKGROUND 1987-88: Plastic reusable syringes were supplied and tried Experience not encouraging, so banned Reverted back to glass syringes UNICEF continued to supply all Glass Syringes and replacement of gas kit & other spare parts 1995-96 onwards GOI supplies glass syringes from GOI/ WB fund 1998-99 AD syringes tried for the first time INTRODUCTION OF AD SYRINGES: INTRODUCTION OF AD SYRINGES The existing mechanisms of sterilizing reusable glass /plastic disposable syringes were a matter of concern For injection safety, UNICEF India procured offshore AD syringes and supplied to all the districts (NNT)/cities (measles) since 1998. 8.5 m women have been immunized with TT Around 3.3 million children in age group 9-59 months urban urban measles campaignSlide6: 0.5ml AD SyringesMETHOD OF TRAINING THE VACCINATORS: METHOD OF TRAINING THE VACCINATORSUSER FRIENDLINESS: USER FRIENDLINESS Observers from UNICEF Delhi and Jaipur and state Government officers were involved 64 sites were visited during NNT campaigns in Rajasthan and MP and over 200 workers were interviewed using a structured protocol. During urban measles campaigns assessment was carried out in 8 and at least 600 workers were interviewed and their opinion were recorded. REASONS FOR USERS’ CHOICE: REASONS FOR USERS’ CHOICE %WITHDRAWL OF VACCINE ADS Vs. CONVENTIONAL: WITHDRAWL OF VACCINE ADS Vs. CONVENTIONAL Rest were non-respondersRESIDUAL VACCINE IN SYRINGE: RESIDUAL VACCINE IN SYRINGEWASTAGE OF ADS: WASTAGE OF ADSSlide13: One piece Two pieceEXPERIENCE WITH ONE PIECE Vs. TWO PIECE: EXPERIENCE WITH ONE PIECE Vs. TWO PIECE Observation- Disadvantage of using two piece ADS Sterilization of needle is compromised in field situation while fixing the needle Leakage of vaccine when needle is not fixed well Air bubble get in due to loose fitting of needle Proportion of vaccine wastage was more Overall time per injection is more for two piece Based on this, ICO requested Copenhagen not to supply two piece ADS to India ProgrammeSlide15: USER FRIENDLINESS STUDY OF MONOJECT BCG ADS AND NEEDLES Around 8500 protocol of around 280 users were received and analyzed Observations Instruction given on the packet of syringe - 4.54 pt. Plunger rod in terms of easy to break - 4.42 (this lead to higher wastage rate ~14%) Sharpness of needle - 4.58 Comfortability of intradermal injection - 4.41 Preference for Monoject - 4.51 DISPOSAL OF ADS: DISPOSAL OF ADS Disposal of AD Syringes continued to be the main concern Several methods were tried during the campaign First Method -syringes and needles were burnt in the open space on the ground using dry twigs, leaves and paper. Second Method - needles and syringes were burnt in a pit using dry wings, leaves and papers. The burnt syringes and needles formed an ugly lump of molten plastic in both the methods. DISPOSAL OF ADS: DISPOSAL OF ADS Third method - digging of pits around 9-12” deep. Used needles and syringes were kept in cardboard or shoeboxes with a hole of about 2 inches radius on the top of the box. These boxes were then kept inside the pit and cotton swaps soaked with spirit/ kerosene were slipped inside the boxes through these holes. The boxes then were lit with fire. It burnt them completely, even without raking. In the end only the burnt needles remained. Finally the pits were closed with the excavated earth. STUDY ON FUME & RESIDUAL: STUDY ON FUME & RESIDUAL Carried by Shri-ram Institute for Industrial Research Purpose To ascertain the air quality on burning in enclosed area Outdoor exercise dispersal of smoke formedSTUDY ON FUME & RESIDUAL: STUDY ON FUME & RESIDUAL Characterisation The burnt material of disposable syringes does not show any reactive nature. ADS is not self combustible. The pH of the water leachate of the sample is 6.9. The sample does not reveal the chance of corrosive nature. The water leachate of the sample is free from acute toxicity. STUDY ON FUME & RESIDUAL: STUDY ON FUME & RESIDUAL Observations & Recommendations Burning in enclosed area high concentration of pollutants strictly prohibited Burning in open area Addition of 5-8% pollution Dioxins were not detected. Needs - Clearance from Environmental Authorities Burning in open area could be done STUDY ON FUME & RESIDUAL: STUDY ON FUME & RESIDUAL Suggestions for Open Area Burning area with sufficient assimilative capacity Not more than 100 syringes are burnt at one time Kerosene/spirit use very less quantity to start ignition Ensure sufficient wind speed Ash disposal: ash not hazardous nature and is safe for disposal in the pit pit should be immediately covered after complete burning and further cooling to avoid the scatting of waste CONCLUSION: CONCLUSION Injection Safety is a major concern NO Monitoring of injection Practices Replenishment & Ensuring use of injection safety equipment-NOT EASY AD syringe is the best option Management of sharps and plastics-a challenge Environmental safety Reduce injection over use You do not have the permission to view this presentation. In order to view it, please contact the author of the presentation.
ad syringes suresh Vittoria Download Post to : URL : Related Presentations : Share Add to Flag Embed Email Send to Blogs and Networks Add to Channel Uploaded from authorPOINTLite Insert YouTube videos in PowerPont slides with aS Desktop Copy embed code: (To copy code, click on the text box) Embed: URL: Thumbnail: WordPress Embed Customize Embed The presentation is successfully added In Your Favorites. Views: 628 Category: Education License: All Rights Reserved Like it (0) Dislike it (0) Added: January 09, 2008 This Presentation is Public Favorites: 0 Presentation Description No description available. Comments Posting comment... By: pavit.juit (37 month(s) ago) yaar i wanted to see the ppt ... im not able to ?? it says ask the author.... Saving..... Post Reply Close Saving..... Edit Comment Close Premium member Presentation Transcript FIRST EXPERIENCE OF AD SYRINGES IN INDIA: FIRST EXPERIENCE OF AD SYRINGES IN INDIA A CASE STUDY Dr. K.Suresh, UNICEF, Delhi MD, DIH, DF, FIAP, FIPHA, FISCDBACKGROUND: BACKGROUND Before 1985: Syringes & needles for vaccination/ other uses were state responsibility Sterilization process was boiling in saucepan Electric sterilizer & autoclave Syringes & needles supply InadequateBACKGROUND: BACKGROUND 1985- Inception of UIP GOI supplied Glass syringes and needles (UNICEF-Sup) Norm - 1 syringes @ 40 injection 1 needle @ 10 injection 1 BCG needle @ 5 injection Autoclave & Drum sterilizers for PHCs & institutions 1986-87 Double rack pressure cooker sterilizer provided for SC for outreach sessionsBACKGROUND: BACKGROUND 1987-88: Plastic reusable syringes were supplied and tried Experience not encouraging, so banned Reverted back to glass syringes UNICEF continued to supply all Glass Syringes and replacement of gas kit & other spare parts 1995-96 onwards GOI supplies glass syringes from GOI/ WB fund 1998-99 AD syringes tried for the first time INTRODUCTION OF AD SYRINGES: INTRODUCTION OF AD SYRINGES The existing mechanisms of sterilizing reusable glass /plastic disposable syringes were a matter of concern For injection safety, UNICEF India procured offshore AD syringes and supplied to all the districts (NNT)/cities (measles) since 1998. 8.5 m women have been immunized with TT Around 3.3 million children in age group 9-59 months urban urban measles campaignSlide6: 0.5ml AD SyringesMETHOD OF TRAINING THE VACCINATORS: METHOD OF TRAINING THE VACCINATORSUSER FRIENDLINESS: USER FRIENDLINESS Observers from UNICEF Delhi and Jaipur and state Government officers were involved 64 sites were visited during NNT campaigns in Rajasthan and MP and over 200 workers were interviewed using a structured protocol. During urban measles campaigns assessment was carried out in 8 and at least 600 workers were interviewed and their opinion were recorded. REASONS FOR USERS’ CHOICE: REASONS FOR USERS’ CHOICE %WITHDRAWL OF VACCINE ADS Vs. CONVENTIONAL: WITHDRAWL OF VACCINE ADS Vs. CONVENTIONAL Rest were non-respondersRESIDUAL VACCINE IN SYRINGE: RESIDUAL VACCINE IN SYRINGEWASTAGE OF ADS: WASTAGE OF ADSSlide13: One piece Two pieceEXPERIENCE WITH ONE PIECE Vs. TWO PIECE: EXPERIENCE WITH ONE PIECE Vs. TWO PIECE Observation- Disadvantage of using two piece ADS Sterilization of needle is compromised in field situation while fixing the needle Leakage of vaccine when needle is not fixed well Air bubble get in due to loose fitting of needle Proportion of vaccine wastage was more Overall time per injection is more for two piece Based on this, ICO requested Copenhagen not to supply two piece ADS to India ProgrammeSlide15: USER FRIENDLINESS STUDY OF MONOJECT BCG ADS AND NEEDLES Around 8500 protocol of around 280 users were received and analyzed Observations Instruction given on the packet of syringe - 4.54 pt. Plunger rod in terms of easy to break - 4.42 (this lead to higher wastage rate ~14%) Sharpness of needle - 4.58 Comfortability of intradermal injection - 4.41 Preference for Monoject - 4.51 DISPOSAL OF ADS: DISPOSAL OF ADS Disposal of AD Syringes continued to be the main concern Several methods were tried during the campaign First Method -syringes and needles were burnt in the open space on the ground using dry twigs, leaves and paper. Second Method - needles and syringes were burnt in a pit using dry wings, leaves and papers. The burnt syringes and needles formed an ugly lump of molten plastic in both the methods. DISPOSAL OF ADS: DISPOSAL OF ADS Third method - digging of pits around 9-12” deep. Used needles and syringes were kept in cardboard or shoeboxes with a hole of about 2 inches radius on the top of the box. These boxes were then kept inside the pit and cotton swaps soaked with spirit/ kerosene were slipped inside the boxes through these holes. The boxes then were lit with fire. It burnt them completely, even without raking. In the end only the burnt needles remained. Finally the pits were closed with the excavated earth. STUDY ON FUME & RESIDUAL: STUDY ON FUME & RESIDUAL Carried by Shri-ram Institute for Industrial Research Purpose To ascertain the air quality on burning in enclosed area Outdoor exercise dispersal of smoke formedSTUDY ON FUME & RESIDUAL: STUDY ON FUME & RESIDUAL Characterisation The burnt material of disposable syringes does not show any reactive nature. ADS is not self combustible. The pH of the water leachate of the sample is 6.9. The sample does not reveal the chance of corrosive nature. The water leachate of the sample is free from acute toxicity. STUDY ON FUME & RESIDUAL: STUDY ON FUME & RESIDUAL Observations & Recommendations Burning in enclosed area high concentration of pollutants strictly prohibited Burning in open area Addition of 5-8% pollution Dioxins were not detected. Needs - Clearance from Environmental Authorities Burning in open area could be done STUDY ON FUME & RESIDUAL: STUDY ON FUME & RESIDUAL Suggestions for Open Area Burning area with sufficient assimilative capacity Not more than 100 syringes are burnt at one time Kerosene/spirit use very less quantity to start ignition Ensure sufficient wind speed Ash disposal: ash not hazardous nature and is safe for disposal in the pit pit should be immediately covered after complete burning and further cooling to avoid the scatting of waste CONCLUSION: CONCLUSION Injection Safety is a major concern NO Monitoring of injection Practices Replenishment & Ensuring use of injection safety equipment-NOT EASY AD syringe is the best option Management of sharps and plastics-a challenge Environmental safety Reduce injection over use