Circular Economy in Conjunction with Treatment Methodologies in the Biomedical and Dental Waste Sectors

Boulding K (1966) The economics of the coming spaceship Earth. http://www.ub.edu/prometheus21/articulos/obsprometheus/BOULDING.pdf

Dasgupta PS, Heal GM (1979) Economic theory and exhaustible resources. Cambridge University Press

EC (2011a) A resource-efficient Europe – flagship initiative under the Europe 2020 Strategy. COM 21

EC (2011b) Road map to a more resource efficient Europe. SEC 1067

COM (2020) 98 final Βrussels, 11.3.2020

CED EU INFO 2015/04 (2015) https://cedentists.eu/index.php?option=com_newsletter&view=newsletter&id=87&sbid=601&Itemid=4&tmpl=ajax

Stankovic A, Niki D, Nikolic M (2008) Report: Treatment of medical waste in Nisava and Toplica districts, Serbia. Waste Manag Res 26:309–313

Kumari R, Srivastava K, Wakhlu A, Singh A (2013) Establishing biomedical waste management system in Medical University of India. A successful practical approach. Clin Epidemiol Global Health 131-136

World Health Organization (WHO) (2009) World Health Organisation and health care without harm. Healthy hospitals, healthy planet, healthy people. Addressing climate change in health care settings. http://www.who.int/globalchange/publications/healthcare_settings/en/index.html

Komilis D, Fouki A, Papadopoulos D (2012) Hazardous medical waste generation rates of different categories of healthcare facilities. Waste Manag 37:1434–1441

Nwachukwu NC, Orji FA, Ugbogu OC (2013) Healthcare waste management: public health benefits, and the need for effective environmental regulatory surveillance in Federal Republic of Nigeria. https://doi.org/10.5772/53196

World Health Organization (WHO) (2013) Medical waste. http://www.who.int/topics/medical_waste/en/

Bazrafshan E, Mostafapoor FK (2010) Survey of medical waste characterization and management in Iran: a case study of Sistan and Baluchestan Province. Waste Manag Res 29:442–450

Hiltz M (2007) The environmental impact of dentistry. J Can Dent Assoc 73(1):59–62

Abdulla F, Qdais HA, Rabi A (2008) Site investigation on medical waste management practices in Northern Jordan. Waste Manag 28:450–458

Mbongwe B, Mmereki BT, Magashula A (2008) Healthcare waste management: current practices in selected healthcare facilities, Botswana. Waste Manag 28(1):226–233

Mandalidis A, Topalidis A, Voudrias EA, Iosifidis N (2018) Composition, production rate and characterization of Greek dental solid waste. Waste Manag 75:124–130

Darwish RO, Al-Khatib IA (2006) Evaluation of dental waste management in two cities in Palestine. East Mediter Health J 12(Supp2):217–221

European Parliament. Regulation (EU) 2017/852 of the European parliament and of the council of 17 May 2017 on mercury and repealing Regulation (EC) No 1102/2008

Arvanitoyannis IS, Varzakas T (2008) Vegetable waste treatment: comparison & critical presentation of methods, and treatment. Crit Reviews Food Science Nutr 48(3):205–247

EU (2008) The Green paper. On the management of biowaste in the European Union. Brussels, 3.12.2008 COM 811 final. https://eur-lex.europa.eu/legal-content/EN/TXT/PDF/?uri=CELEX:52008DC0811&from=EN

Eco Dentistry Association (2016) Why reduces waste. Reveal marketing solutions. https://ecodentistry.org/green-dentistry/what-is-green-dentistry/reduce-waste/

Di Maria F, Sisani F, Contini S (2018a) Are EU waste-to-energy technologies effective for exploiting the energy in bio-waste? Appl Energy 230:1557–1572

EC (2017). Communication from the commission to the European parliament, the council, the European economic and social committee and the committee of the regions. The role of waste-to-energy in the circular economy. COM 34 final, 26.1.2017. http://ec.europa.eu/environment/waste/waste-toenergy.pdf

Abdullahi YA, Akunna JC, White NA, Hallet PD, Weatley R (2008) Investigating the effects of anaerobic and aerobic post-treatment on quality and stability of organic fraction of municipal solid waste as soil amendment. Bioresour. Technol 99:8631–8636

Di Maria F, Sisani F, Norouzi O, Mersky RL (2019) The effectiveness of anaerobic digestion of bio-waste in replacing primary energies: an EU28 case study. Renew Sustain Energy Rev 108:347–354

Blengini GA (2008) Using LCA to evaluate impacts and resource conservation potential of composting: a case study of the Asti District in Italy. Resour Conserv Recycl 52:1373–1381

Di Maria F, Micale C (2015a) Life cycle analysis of incineration compared to anaerobic digestion followed by composting for managing organic waste: the influence of system components for an Italian district. Int J LCA 20:377–388

Antonopoulos LS, Karagiannidis A, Tsatsarelis T, Perkoulidis G (2013) Applying waste management scenarios in the Peloponnese region in Greece: a critical analysis in the frame of life cycle assessment. Environ Sci Pollut Res 20:2499–2511

Lundin M, Olofsson M, Pettersson GJ, Zetterlund H (2004) Environmental and economic assessment of sewage sludge handling options. Resour Conserv Recycl 41:255–278

Ahamed A, Yin K, Ng BJH, Ren F, Chang VWC, Wang JY (2016) Life cycle assessment of the present and proposed food waste management technologies from environmental and economic impact perspectives. J Clean Prod 131:607–614

Cremaito R, Mastellone ML, Tagliaferri C, Zaccariello L, Lettieri P (2018) Environmental impact of municipal solid waste management using life cycle assessment: the effect of anaerobic digestion, materials recovery and secondary fuels production. Renew Energy 124:180–188

Di Maria F, Sisani F (2020) A sustainability assessment for use on land or wastewater treatment of the digestate from bio-waste. Waste Manag 87:741–750

Hosseini SF, Rezaei M, Zandi M, Ghavi FF (2013) Preparation and functional properties of fish gelatin-chitosan blend edible films. Food Chemistry 136(3-4):1490–1495

Bonilla J, Bittante AMQB, Sobral PJA (2017) Thermal analysis of gelatin–chitosan edible film mixed with plant ethanolic extracts. J Thermal Anal Calorimetry 130(2):1221–1227

Mastorakis NE, Bulucea CA, Oprea TA, Bulucea CA, Dondon P (2011) Holistic approach of biomedical waste management system about health and environmental risks. Int J Energy Environ 5:309–318

M/s Bamdev Smart Solutions Pvt. Ltd (2016) Common biomedical waste treatment and disposal facility. District Banda, India

Jang YC, Lee C, Yoon OS, Kim H (2005) Medical waste management in Korea. J Environ Manag 80:1–9

Sabiha J, Tufail M, Khalid S (2008) Heavy metal pollution from medical waste incineration at Islamabad and Rawalpindi, Pakistan. Microchem J 90:77–81

Rajor A, Xaxa M, Mehta R (2012) An overview on characterization, utilization and leachate analysis of biomedical waste incinerator ash. J Environ Manag 108:36–41

Gidarakos E, Petrantonaki M, Anastasiadou K, Schramm KW (2009) Characterization and hazard evaluation of bottom ash produced from incinerated hospital waste. J Hazard Mater 172:935–942

Zhao L, Zhang FS, Zhang J (2008a) Chemical properties of rare earth elements in typical medical waste incinerator ashes in China. J Hazard Mater 158:465–470

Soliman SM, Ahmed AI (2007) Overview of biomedical waste management in selected Governorates in Egypt: a pilot study. Waste Manag 27:1920–1923

Tudor TL, Woolridge AC, Bates MP, Phillips PS, Butler S, Jones K (2008) Utilizing a ‘systems’ approach to improve the management of waste from healthcare facilities: best practice case studies from England and Wales. Waste Manag Res 26:233–240

Marinkovic N, Vitale K, JanevHolcer N, Dzakula A, Pavic T (2008) Management of hazardous medical waste in Croatia. Waste Manag 28:1049–1056

Zhao W, van der Voet E, Huppes G, Zhang Y (2009b) Comparative life cycle assessments of incineration and non-incineration treatments for medical waste. Int J Life Cycl Assess 14:114–121

Manga VE, Forton OT, Mofor LA, Woodard R (2011) Health care waste management in Cameroon: a case study from the Southwestern Region. Resources Conserv Recycling 57:108–116

Chen Y, Liu L, Feng Q, Chen G (2012) The 7th International Conference on Waste Management and Technology Key issues study on the operation management of medical waste incineration disposal facilities. Procedia Environ Sci 16:208–213

Zimmermann K (2017) Microwave as an emerging technology for the treatment of biohazardous waste: a mini-review. Waste Manag Res 35(5):471–479

McPherson B, Sharip M, Grimmond T (2019) The impact on life cycle carbon footprint of converting from disposable to reusable sharps containers in a large US hospital geographically distant from manufacturing and processing facilities. Peer J 7:e6204. https://doi.org/10.7717/peerj.6204

Khan BA, Cheng L, Khan A, Ahmed H (2019) Healthcare waste management in Asian developing countries: a mini review. Waste Manag Res 37(9):863–875

Tunesi S, Baroni S, Boarini S (2016) Waste flow analysis and life cycle assessment of integrated waste management systems as planning tools: application to optimise the system of the City of Bologna. Waste Manag Res 34(9):933–946

Ansari M, Ehrampoush MH, Farzadkia M, Ahmadi E (2019) Dynamic assessment of economic and environmental performance index and generation, composition, environmental and human health risks of hospital solid waste in developing countries; a state of the art of review. Environ Int 132:105073

Wajs J, Bochniak R, Golabek A (2019) Proposal of a mobile medical waste incinerator with application of automatic waste feeder and heat recovery system as a novelty in Poland. Sustainability 11:4980. https://doi.org/10.3390/su11184980

Zamparas M, Kapsalis VC, Kanteraki AE, Vardoulakis E, Kyriakopoulos GL, Drosos M, Kalavrouziotis IK (2019) Novel composite materials as P-adsorption agents and their potential application as fertilizers. Glob Nest J 21(1):48–57

Mohseni-Bandpei A, Majlesi M, Rafiee M, Nojavan S, Nowrouz P, Zolfagharpour H (2019) Polycyclic aromatic hydrocarbons (PAHs) formation during the fast pyrolysis of hazardous health-care waste. Chemosphere 227:277–288

Li Y, Zhang S, Zhang W, Xiong W, Ye Q, Hou X, Wang C, Wang P (2019) Life cycle assessment of advanced wastewater treatment processes: Involving 126 pharmaceuticals and personal care products in life cycle inventory. J Environ Manag 238:442–450

Kythavone L, Chaiyat N (2020) Life cycle assessment of a very small organic Rankine cycle and municipal solid waste incinerator for infectious medical waste. Thermal Sci Engineering Progr 18:100526

Alam O, Mosharraf A (2020) A preliminary life cycle assessment on healthcare waste management in Chittagong City, Bangladesh. Int J Environ Sci Technol 17:1753–1764Alam O, Mosharraf A (2020) A preliminary life cycle assessment on healthcare waste management in Chittagong City, Bangladesh. Int J Environ Sci Technol 17:1753–1764

Saeidi-Mobarakeh Z, Tavakkoli-Moghaddam R, Navabakhsh M, Amoozad-Khalili H (2020) A bi-level and robust optimization-based framework for a hazardous waste management problem: A real-world application. J Cleaner Product 252:119830

Llano Martinez G (2012) Environmental Impact of the Pharmaceutical Packaging. Master’s Thesis, Lund University. lup.lub.lu.se/student-papers/record/3044827

Brooks K (2019) Pharmaceutical Packaging Market Report; Contract Pharma. www.contractpharma.com/issues/2019-06-01/view_features/pharmaceutical-packaging-market-trends/

Zadbuke N, Shahi S, Gulecha B, Padalkar A, Thube M (2013) Recent trends and future of pharmaceutical packaging technology. J Pharm Bio Allied Sci 5(2):98–110

Wang C, Wang H, Liu Y (2015) Separation of aluminum and plastic by metallurgy method for recycling waste pharmaceutical blisters. J Clean Prod 102:378–383

Klejnowska K, Pikoń K, Ścierski W, Skutil K, Bogacka M (2020) Influence of temperature on the composition and calorific value of gases produced during the pyrolysis of waste pharmaceutical blisters. Appl Sci 10(3):737

Wang CQ, Wang H, Gu GH, Fu JG, Liu YN (2015) Kinetics and leaching behaviors of aluminum from pharmaceutical blisters in sodium hydroxide solution. J Cent South Univ 22(12):4545–4550

Yousef S, Mumladze T, Tatariants M, Kriu̅kiene R, Makarevicius V, Bendikiene R, Denafas G (2018) Cleaner and profitable industrial technology for full recovery of metallic and non-metallic fraction of waste pharmaceutical blisters using switchable hydrophilicity solvents. Clean Prod 197:379–392

Kumar S, DeGroot RA, Choe D (2008) Rx for smart hospital purchasing decisions: The impact of package design within US hospital supply chain. Int J Phys Distrib Logist Manag 38(8):601–615

Singh A, Sharma PK, Malviya R (2011) Eco friendly pharmaceutical packaging material. World Appl Sci J 14(11):1703–1716

Da Cruz NF, Simões P, Marques RC (2012) Economic cost recovery in the recycling of packaging waste: the case of Portugal. J Clean Prod 37:8–18

Zhang SF, Zhang LL, Luo K, Sun ZX, Mei XX (2014) Separation properties of aluminium–plastic laminates in postconsumer Tetra Pak with mixed organic solvent. Waste Manag Res 32(4):317–322

Samorì C, Cespi D, Blair P, Galletti P, Malferrari D, Passarini F, Vassura I, Tagliavini E (2017) Application of switchable hydrophilicity solvents for recycling multilayer packaging materials. Green Chem 19(7):1714–1720

Agarwal V, Halli P, Helin S, Tesfaye F, Lundström M (2020) Electrohydraulic fragmentation of aluminum and polymer fractions from waste pharmaceutical blisters. ACS Sustainable Chem Eng 8(10):4137–4145. https://doi.org/10.1021/acssuschemeng.9b06810

Van Leeuwen K, de Vries E, Koop S, Roest K (2018) The energy & raw materials factory: role and potential contribution to the circular economy of the Netherlands. Environ Manag 61:786–795

Narancic T, O’Connor KE (2019) Plastic waste as a global challenge: are biodegradable plastics the answer to the plastic waste problem? Microbiol 165:129–137

Reddy MM, Vivekanandhan S, Misra M, Bhatia SK, Mohanty AK (2013) Biobased plastics and bionanocomposites: current status and future opportunities. Prog Polym Sci 38:1653–1689

European Bioplastics. What are bioplastics? https://www.european-bioplastics.org/bioplastics/

Chen YC, Tsai PY (2017) Evaluating the operational risks of biomedical waste using failure mode and effects analysis. Waste Manag Res 35(6):593–601

Koo JK, Jeong SI (2015) Sustainability and shared smart and mutual green growth (SSaM-GG) in Korean medical waste management. Waste Manag Res 33(5):410–418

Ahmad R, Liu G, Santagata R, Casazza M, Xue J, Khan K, Nawab J, Ulgiati S, Lega M (2019) LCA of hospital solid waste treatment alternatives in a developing country: the case of District Swat, Pakistan. Sustain 11:3501. https://doi.org/10.3390/su11133501

Soares SR, Rodrigues A, Finotti VP, da Silva R, Alvarenga F (2013) Applications of life cycle assessment and cost analysis in health care waste management. Waste Manag 33:175–183

Sanchez SA, Eckelman MJ, Sherman JD (2020) Environmental and economic comparison of reusable and disposable blood pressure cuffs in multiple clinical settings. Resour Conserv Recyc 155:104643

Leissner S, Ryan-Fogarty Y (2019) Challenges and opportunities for reduction of single use plastics in healthcare: a case study of single use infant formula bottles in two Irish maternity hospitals. Resour Conserv Recycl 151:104462

National Health Service (NHS) (2017) Identifying high greenhouse gas intensity procured items for the NHS in England. Sustainable Development Unit, National Health Service. https:// www.sduhealth.org.uk/documents/publications/2017/Identifying_High_Greenhouse_Gas_Intensity_Procured_Items_for_the_NHS_in_England_FINAL.pdf

Kizlary E, Iosifidis N, Voudrias E, Panagiotakopoulos D (2005) Composition and production rate of dental solid waste in Xanthi, Greece: variability among dentist groups. Waste Manag 25:582–591

Tzoutzas J (2016) Economia circular e Medicina Dentaria Maxillaris. p.:72

Emin MB, Sinan MB, Erdog T (2009) Medical waste management in Turkey: a case study of Istanbul. Waste Manag 29:445–448

Muhamedagic B, Muhamedagic L, Masic I (2009) Dental office waste – public health and ecological risk. Mater Sociomed 21(1):35–38. https://doi.org/10.5455/msm.2009.21.35-38

Verma LK, Mani S, Sinha N, Rana S (2008) Biomedical waste management in nursing homes and smaller hospitals in Delhi. Waste Manag 28(12):2723–2734

Shinee E, Gombojav E, Nishimura A, Hamajima N, Ito K (2008) Healthcare waste management in the capital city of Mongolia. Waste Manag 28(2):435–441

World Health Organization, WHO (2005) Management of solid healthcare waste at primary health-care centers: a decision-making guide, Geneva

Bhaskar A, Saumyendra VS, Sumit B, Srishti A (2012) Waste management in dental office. Indian J Community Med 37(3):201–202. https://doi.org/10.4103/0970-0218.99934

Jokstad A, Fan PL (2006) Amalgam waste management. Int Dent J 56(3):147–153

US Environmental Protection Agency (US EPA) (2013) Medical waste. http://www.epa.gov.tw/osw/nonhaz/industrial/medical/index.htm

Zappi A, Antoniadou M, Tzoutzas I (2013) Still using amalgam? The dental amalgam controversy. (English/Greek). Hellenic Stomatol Review 57:301–319

Scenihr (2015) https://ec.europa.eu/health/scientific_committees/emerging/docs/scenihr_o_046.pdf

Mackey TK, Contreras JT, Liang BA (2014) The Minamata Convention on Mercury: attempting to address the global controversy of dental amalgam use and mercury waste disposal. Sci Total Environ 472:125–129. https://doi.org/10.1016/j.scitotenv.2013.10.115 Epub 2013 Nov 27

Madhavan A, Sudhakar S, Balasubramani S (2015) Radiographic waste management–an overlooked necessity. World J Pharmaceuticals Res 4(9):2050–2058

Minnesota Pollution Control Agency (2003) Managing photographic and X ray waste. Waste/Hazardous Waste #4.46

European Parliament and Council (2012) Regulation EU No:528/2012

Practice Green health (PGH) (2013) Regulated medical waste (RMW) minimization strategies. Step 7. Review specialty RMW streams: sharps management, Practice Greenhealth, VA USA. https://practicegreenhealth.org/topics/waste/waste-categories-types/regulated-medical-waste/rmw-minimization-strategies

Blenkharn JI (2006) Standards of clinical waste management in UK hospitals. J Hosp Infect 62:300–303

Pasupathi P, Sindhu S, Ponnusha BS, Ambika A (2011) Biomedical waste management for health care industry. Int J Biol Med Res 2:472–486

Casey ML, Hawley B, Edwards N, Cox-Ganser JM, Cummings KJ (2017) Health problems and disinfectant product exposure among staff at a large multispecialty hospital. Amer J Infect Contr 45(10):1133–1138. https://doi.org/10.1016/j.ajic.2017.04.003

Dumas O, Varraso R, Boggs KM, Quinot C, Zock JP, Henneberger PK, Speizer FE, le Moual N, Camargo CA Jr (2019) Association of Occupational Exposure to Disinfectants with Incidence of Chronic Obstructive Pulmonary Disease among US Female Nurses. JAMA network open 2(10):e1913563–e1913563

Vienna City Administration (2012) The Viennese Database for Disinfectants (WIDES)

Zeng F, Lerro C, Lavoué J, Huang H, Siemiatycki J, Zhao N, Ma S, Deziel NC, Friesen MC, Udelsman R, Zhang Y (2017) Occupational exposure to pesticides and other biocides and risk of thyroid cancer. Occup Environ Med 74:502–510

Da Costa JB et al (2014) Toxicity on aquatic organisms exposed to secondary effluent disinfected with chlorine, peracetic acid, ozone and UV radiation. Ecotoxicol 23(9):1803–1813

Henao LD, Turolla A, Antonelli M (2018) Disinfection by-products formation and ecotoxicological effects of effluents treated with peracetic acid: a review. Chemosph. Chemosphere 213:25–40. https://doi.org/10.1016/j.chemosphere.2018.09.005 Epub 2018 Sep 3

Unger SR, Landis AE (2014) Comparative life cycle assessment of reused versus disposable dental burs. Int J Life Cycle Assess 19:1623–1631

Nabizadeh R, Koolivand A, Jonidi Jafari A, Yunesian M, Omrani G (2012) Composition and production rate of dental solid waste and associated management practices in Hamedan, Iran. Waste Manag Res 30:619–624

Ozbek M, Sanin FD (2004) A study of the dental solid waste produced in a school of dentistry in Turkey. Waste Manag 24(4):339–345

Sudhakar V, Chandrashekar J (2008) Dental health care waste disposal among private dental practices in Bangalore City, India. Int Dent J 58(1):51–54

Nazar MW, Pordeus IA, Werneck MAF (2005) Dental waste management in municipal health clinics in Belo Horizonte, Brazil. Pan Am J Public Health 17(4):237–242

Kontogianni S, Xirogiannopoulou A, Karagiannidis A (2008) Investigating solid waste production and associated management practices in private dental units. Waste Manag 28(8):1441–1448

Koolivand A, Mahvi AH, Alipoor V, Azizi K, Binavapour M (2012) Investigating composition and production rate of health care waste and associated management practices in Bandar Abbass, Iran. Waste Manag Res 30:601–606

Chartier Y, Emmanuel J, Pieper U, Prüss A, Rushbrook P, Stringer R, Townend W, Wilburn S, Zghondi R (2014) Safe management of wastes from health-care activities. Edited by WHO (2nd ed.)

Tzoutzas J, Panis V, Kozirakis Κ (2004) The disposal of solid dental waste in the Dental School of the University of Athens. Paedodontia 18(1):23–29

World Health Organization (WHO) (2004) Review of health impacts from microbiological hazards in health-care wastes, Geneva

Duane B, Hyland J, Rowan JS, Archibald B (2012) Taking a bite out of Scotland’s dental carbon emissions in the transition to a low carbon future. Public health 126:770–777

United States Environmental Protection Agency (2017) Dental effluent guidelines. https://www.epa.gov/eg/dental-effluent-guidelines

Tzoutzas I, Antoniadou M (2018) Dental amalgam. Survival under restrictions or withdrawal? Hellenic Dental Association eds, Athens. https://www.eoo.gr/files/2020/Jan/Od_amalgama.pdf

Palaghias G, Karagiannidis A, Kontogianni S, Kalfas S, Xirogiannopoulou A (2007) Investigation of the dental waste production in dental units of Thessaloniki. Conference paper. https://www.researchgate.net/publication/314284942

Wichaiutcha N, Chavalparit O (2019) 3Rs policy and plastic waste management in Thailand. J Mater Cycles Waste Manag 21:10–22. https://doi.org/10.1007/s10163-018-0781-y

Ministry of Economy, Trade and Industry (2007) Towards a 3R-oriented sustainable society: legislation and trends. Japan. http://www.meti.go.jp/policy/recycle/main/data/pamphlet/pdf/handbook2010-eng.pdf

World atlas (2017) The concept of eco-efficiency: why is it so important for the modern world? https://www.worldatlas.com/articles/the-concept-of-ecoefficienty-why-is-it-so-important-for-the-modern-world.html

European Union (2008) COM. Green paper on the management of bio-waste in the European Union