Advanced surface engineering for surgical blades

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References

Bhushan

Bhattacharya

. Coatings on surgical tools and how to promote adhesion of bio-friendly coatings on their surfaces. In: Mittal KL and Etzler FM (eds) Adhesion in Pharmaceutical, Biomedical and Dental Fields. Austin, TX: Scrivener Publishing LLC, 2017.

Shetty

Hatton

Barnett

, et al. Modeling the cutting edge geometry of scalpel blades. Proc Inst Mech Eng B J Eng Manuf 2017; 231: 65–72.

McCarthy

Hussey

Gilchrist

. On the sharpness of straight edge blades in cutting soft solids: part I – indentation experiments. Eng Fract Mech 2007; 74: 2205–2224.

Gebel

Exner

French

, et al. The role of surface disinfection in infection prevention. GMS Hyg Infect Control 2013; 8: Doc10. [Online]

Rutala

Weber

. The benefits of surface disinfection. Am J Infect Control 2004; 32: 226–231.

Otter

Yezli

French

. The role played by contaminated surfaces in the transmission of nosocomial pathogens. Infect Control Hosp Epidemiol 2011; 32: 687–699.

Warda

. Hygiene requirements for the cleaning and disinfection of surfaces: recommendation of the commission for hospital hygiene and infection prevention at the robert koch institute (RKI). Bundesgesundheitsblatt Gesundheitsforschung Gesundheitsschutz 2004; 47: 51–61.

van Straten

Dankelman

van der Eijk

, et al. A circular healthcare economy; a feasibility study to reduce surgical stainless steel waste. Sustain Prod Consum 2021; 27: 169–175.

Doerstling

Fox

Salinas

, et al. Striking a balance: strategies for addressing single-use surgical equipment in infection prevention. Antimicrobial Stewardship & Healthcare Epidemiology : ASHE 2025; 5: e132. Online.

10.

Surgicals

. Premium Diamantine Edge High Performance Surgical Blades

; 06. https://www.jaisurgicals.com/diamantine-edge-high-performance-blades.html. (Accessed: Oct 2025) [Online]. Available.

11.

Secker

Hervé

Zhao

, et al. Doped diamond-like carbon coatings for surgical instruments reduce protein and prion-amyloid biofouling and improve subsequent cleaning. Biofouling Jul. 2012; 28: 563–569.

12.

Absolute Medical Germany, “Medical PVD coatings (TiN),” https://amg-implants.com/en/services/pvd-coating/titanium-nitride-tin. Available: https://amg-implants.com/en/services/pvd-coating/titanium-nitride-tin (Accessed: Oct. 06, 2025). [Online].

13.

Clea Pinca

Ontoria

Vasquez

. Properties of nitride-coated surgical scalpel blades. Plasma Med 2023; 13: 1–14.

14.

Faghani G Rabiee

Nourouzi

Elmkhah

. Self-Cleaning properties of TiN/CrN nanoscale multi-layer deposited on surgical 420C stainless steel. J Nanostruct 2019; 9: 702–711.

15.

Cruz

Nascimento

Souza

, et al. On the adhesion of protein in nitrided metallic coatings for electrosurgical electrodes of stainless steel. Mater Res 2022; 25: e20210547. Online.

16.

Szindler

Basiaga

, et al. Application of ALD thin films on the surface of the surgical scalpel blade. Coatings 2021; 11: 1096. Online.

17.

Szindler

Bicz

, et al. Al2O3/ZnO multilayer coatings for improvement in functional properties of surgical scalpel blades. Coatings 2025; 15: 36. Online.

18.

Zirconia ZrO2 Ceramic CNC Machining for Medical Surgical Blades.”. 06. https://www.newaymachining.com/study-cases/zirconia-zro2-ceramic-cnc-machining-for-medical-surgical-blades. (Accessed: Oct 2025)[Online]. Available.

19.

Chu

Diyatmik

Tseng

, et al. Coating cutting blades with thin-film metallic glass to enhance sharpness. Sci Rep 2019; 9: 1–11.

20.

Key Aspects of Surgical Blades Supplied by Surgical Blade Manufacturers in India.” 06. https://www.gwsmed.com/blogs/key-aspects-of-surgical-blades-supplied-by-surgical-blade-manufacturers-in-india. (Accessed: Oct 2025) [Online]. Available.

21.

Application of PTFE in the Medical Field.” . 06. https://www.epol.net.au/blog/30-application-of-ptfe-in-the-medical-field?srsltid=AfmBOooNgsh0_52aDcUaFjSpxApM3wJcJm02EDWoiJoVv6j1Fy1S221S. (Accessed: Oct 2025) [Online]. Available.

22.

Gentelia

Karpowich

Zobrist

, et al. Electrosurgical blade with direct adhesion of silicone coating. Patent: CA2397825C, 2001[Online].

23.

Shen

Liu

Cai

, et al. Reversible polydimethylsiloxane coatings for anti-fouling and lubrication of medical metals. Chem Eng J 2025; 516: 163934. Online.

24.

Martin

Ling

Bigdelle

, et al. Nanometric-Scale-Polished, engineered surgical scalpel blades reduce tissue inflammation and scarring. Surgeries 2025; 6: 30. Online.

25.

Wang

Huang

, et al. Fabrication and cutting performance of bionic micro-serrated scalpels based on the miscanthus leaves. Tribol Int 2020; 145: 106162. Online.

26.

Butler-Smith

See

Humphery

, et al. A comparison of the tactile friction and cutting performance of textured scalpel blades modified by direct Laser writing and direct Laser interference patterning processes. Procedia CIRP 2022; 111: 657–661.

27.

Soja

Tredinnick

, et al. Surface finishing of additively manufactured stainless steel surgical instruments. Rapid Prototyp J 2021; 27: 59–70.