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liquids jet with different density with frequency 20 kHz using condition monitoring. The influence of the liquid on the cutting depth was studied by using contactless measurement device MicroProf, FRT. The cutting depths were compared to studies that used a continuous water jet to assess the volume flow reduction. On-line condition measurement was used for controlling the disintegration process without compromising the structural integrity of neighbouring materials. With a flow rate of 0.54 l/min, a maximum disintegration depth of 1.3 mm and material removal of 0.4 mm3 was obtained using physiological saline and 1.1 mm and 0.2 mm3 for water. Continuous jets required approximately 1.0 l/min to reach similar cutting depths. Hence, a pulsating liquid jet enhances the cutting capacity with reduced flow rate. Signal strength for individual pressures 7–10 MPa is not significant, but signal increases during significant bone cement removal. 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J. Int. Meas. Confed., 82, pp. 375-383 ;\n Honl, M., Dierk, O., Küster, J.R., Müller, G., Müller, V., Hille, E., Morlock, M., Die Wasserstrahldiskotomie im mikroinvasiven Zugang-In-vitro-Testung und erste klinische Aspekte eines neuen Verfahrens (2001) Z. Orthop. Ihre Grenzgeb., 139, pp. 45-51 ;\n Hloch, S., Valicek, J., Kozak, D., Preliminary results of experimental cutting of porcine bones by abrasive waterjet (2011) Teh. Vjesn. Gaz., 18, pp. 467-470 ;\n Honl, M., Rentzsch, R., Müller, G., Brandt, C., Bluhm, A., Hille, E., Louis, H., Morlock, M., The use of water-jetting technology in prostheses revision surgery—first results of parameter studies on bone and bone cement (2000) J. Biomed. Mater. Res. A, 53, pp. 781-790 ;\n Hreha, P., Radvanská, A., Hloch, S., Peržel, V., Królczyk, G., Monková, K., Determination of vibration frequency depending on abrasive mass flow rate during abrasive water jet cutting (2015) Int. J. Adv. Manuf. Technol., 77, pp. 763-774 ;\n Schwieger, K., Carrero, V., Rentzsch, R., Becker, A., Bishop, N., Hille, E., Louis, H., Honl, M., Abrasive water jet cutting as a new procedure for cutting cancellous bone—in vitro testing in comparison with the oscillating saw (2004) J. Biomed. Mater. Res. Part B Appl. Biomater., 71, pp. 223-228 ;\n Affatato, S., Merola, M., Ruggiero, A., Tribological performances of total knee prostheses: roughness measurements on medial and lateral compartments of retrieved femoral components (2019) Meas. J. Int. Meas. Confed. ;\n May, T.C., Krause, W.R., Preslar, A.J., Vernon Smith, M.J., Beaudoin, A.J., Cardea, J.A., Use of high-energy shock waves for bone cement removal (1990) J. Arthroplasty, 5, pp. 19-27 ;\n Schreurs, B.W., Bierkens, A.F., Huiskes, R., Hendrikx, A.J.M., Slooff, T.J.J.H., The effect of the extracorporeal shock wave lithotriptor on bone cement (1991) J. Biomed. Mater. Res., 25, pp. 157-164 ;\n Braun, W., Claes, L., Ruter, A., Paschke, D., [Effect of shock waves on the strength of connection between bone and polymethylmethacrylate. an in vitro study of human femur segments] (1992) Z. Orthop. Ihre Grenzgeb., 130, pp. 236-243 ;\n Schmidt, J., Nordmann, K., Removal of bone cement from the femoral canal using an acoustic emission-controlled milling device (1994) Med. Biol. Eng. Comput., 32, pp. 258-260 ;\n Schmidt, J., Porsch, M., Hackenbroch, M.H., Koebke, J., Brimmers, P., Modified intracorporeal lithotripsy for cement removal in hip prosthesis exchange operations–experimental principles (1998) Z Orthop Ihre Grenzgeb., 136, pp. 44-49 ;\n Schurman, D.J., Maloney, W.J., Segmental cement extraction at revision total hip arthroplasty (1992) Clin. Orthop. Relat. Res., 285, pp. 158-163 ;\n Jingushi, S., Noguchi, Y., Shuto, T., Nakashima, T., Iwamoto, Y., A device for removal of femoral distal cement plug during hip revision arthroplasty: a high-powered drill equipped with a centralizer (2000) J. Arthroplasty, 15, pp. 231-233 ;\n (2001) Archiv. Orthopaedic Trauma Surg., 121 (5), pp. 274-277 ;\n Piatek, S., Westphal, T., Holmenschlager, F., Becker, R., Winckler, S., Retrograde cement removal in periprosthetic fractures following hip arthroplasty (2007) Arch. Orthop. Trauma Surg., 127, pp. 581-585 ;\n Szendröi, M., Tóth, K., Kiss, J., Antal, I., Skaliczki, G., Retrograde genocephalic removal of fractured or immovable femoral stems in revision hip surgery (2010) HIP Int., 20, pp. 34-37 ;\n Tóth, K., Sisák, K., Nagy, J., Manó, S., Csernátony, Z., Retrograde stem removal in revision hip surgery: removing a loose or broken femoral component with a retrograde nail (2010) Arch. Orthop. Trauma Surg., 130, pp. 813-818 ;\n Savvidis, E., Löer, F., Zur Operationstechnik bei der Femurschaftfensterung im Rahmen von Revisions-Operationen nach Hüftgelenk-Totalendoprothesen (2008) Z. Orthop. Ihre Grenzgeb., 127, pp. 228-236 ;\n Nelson, C.L., Barnes, C.L., Removal of bone cement from the femoral shaft using a femoral windowing device (1990) J. Arthroplasty., 5, pp. 67-69 ;\n Sydney, S.V., Mallory, T.H., Controlled perforation. A safe method of cement removal from the femoral canal (1990) Clin. Orthop. Relat. Res., pp. 168-172 ;\n Klein, A.H., Rubash, H.E., Femoral windows in revision total hip arthroplasty (1993) Clin. Orthop. Relat. Res., pp. 164-170 ;\n Buehler, K.O., Walker, R.H., Polymethylmethacrylate removal from the femur using a crescentic window technique (1998) Orthopedics, 21, pp. 697-700 ;\n Arif, M., Sivananthan, S., Choon, D.S.K., Revision of total hip arthroplasty using an anterior cortical window, extensive strut allografts, and an impaction graft: follow-up study (2004) J. Orthop. Surg. Hong Kong, 12, pp. 25-30 ;\n Zweymüller, K.A., Steindl, M., Melmer, T., Anterior windowing of the femur diaphysis for cement removal in revision surgery (2005) Clin. Orthop. Relat. Res., 441, pp. 227-236 ;\n Younger, T.I., Bradford, M.S., Magnus, R.E., Paprosky, W.G., Extended proximal femoral osteotomy. A new technique for femoral revision arthroplasty (1995) J. Arthroplasty., 10, pp. 329-338 ;\n Chen, W.-M., McAuley, J.P., Anderson Engh, J.C., Robert, J., Hopper, H., Engh, C.A., Extended slide trochanteric osteotomy for revision total hip arthroplasty (2000) J. Bone Jt. Surg., 82-A, p. 5 ;\n Miner, T.M., Momberger, N.G., Chong, D., Paprosky, W.L., The extended trochanteric osteotomy in revision hip arthroplasty: a critical review of 166 cases at mean 3-year, 9-month follow-up (2001) J. Arthroplasty, 16, pp. 188-194 ;\n Khanna, G., Bourgeault, C.A., Kyle, R.F., Biomechanical comparison of extended trochanteric osteotomy and slot osteotomy for femoral component revision in total hip arthroplasty (2007) Clin. Biomech., 22, pp. 599-602 ;\n Goto, K., Kawanabe, K., Akiyama, H., Morimoto, T., Nakamura, T., Clinical and radiological evaluation of revision hip arthroplasty using the cement-in-cement technique (2008) J. Bone Joint Surg. Br., 90, pp. 1013-1018 ;\n Keeling, P., Prendergast, P.J., Lennon, A.B., Kenny, P.J., Cement-in-cement revision hip arthroplasty: an analysis of clinical and biomechanical literature (2008) Arch. Orthop. Trauma Surg., 128, pp. 1193-1199 ;\n (2009) J. Bone Joint Surg., 91-B (5), pp. 577-582 ;\n Liang, X., Liu, Z., Wang, B., State-of-the-art of surface integrity induced by tool wear effects in machining process of titanium and nickel alloys: a review (2019) Meas. J. Int. Meas. Confed. ;\n Moeckel, B.H., Evans, B.G., Salvati, E.A., Ranawat, C.S., Cement-within-cement revision hip arthroplasty (1993) Bone Joint J., 75, pp. 869-871 ;\n Canestri, F., Proposal of a computerized algorithm for continuous wave CO2 laser on-line control during orthopaedic surgery. 2. Simplified algorithm version (LCA-s) and helmet-mounted data access device solution (1997) Int. J. Clin. Monit. Comput., 14, pp. 199-206 ;\n Scholz, C., Matthes, M., Kar, H., Boenick, U., Removal of bone cement with laser (1991) Biomed. Tech. (Berl), 36, pp. 120-128 ;\n Sherk, H.H., Lane, G., Rhodes, A., Black, J., Carbon dioxide laser removal of polymethylmethacrylate (1995) Clin. Orthop. Relat. Res., pp. 67-71 ;\n Honnart, F., Use of ultrasound for the removal of cement in hip prosthesis reoperations (1996) Rev. Chir. Orthop. Reparatrice Appar. Mot., 82, pp. 171-174 ;\n Schwaller, C.A., Elke, R., Cement removal with ultrasound in revision or total hip prosthesis (2001) Orthopade, 30, pp. 310-316 ;\n Goldberg, S.H., Cohen, M.S., Young, M., Bradnock, B., Thermal tissue damage caused by ultrasonic cement removal from the humerus (2005) J. Bone Jt. Surg. – Ser. A, 87, pp. 583-591 ;\n Goldberg, S.H., Studders, E.M., Cohen, M.S., Ultrasonic cement removal in revision arthroplasty (2007) Orthopedics, 30, pp. 632-635 ;\n Caillouette, J.T., Gorab, R.S., Klapper, R.C., Anzel, S.H., Revision arthroplasty facilitated by ultrasonic tool cement removal. Part II: histologic analysis of endosteal bone after cement removal (1991) Orthop. Rev., 20, pp. 435-440 ;\n Smith, P.N., Eyres, K.S., Safe removal of massive intrapelvic cement using ultrasonic instruments (1999) J. Arthroplasty, 14, pp. 235-238 ;\n Gardiner, R., Hozack, W.J., Nelson, C., Keating, E.M., Revision total hip arthroplasty using ultrasonically driven tools (1993) J. Arthroplasty, 8, pp. 517-521 ;\n Honl, M., Rentzsch, R., Müller, G., Brandt, C., Bluhm, A., Hille, E., Louis, H., Morlock, M., The use of water-jetting technology in prostheses revision surgery – first results of parameter studies on bone and bone cement (2000) J. Biomed. Mater. Res., 53, pp. 781-790 ;\n Honl, M., Rentzsch, R., Schwieger, K., Carrero, V., Dierk, O., Dries, S., Louis, H., Morlock, M., The water jet as a new tool for endoprosthesis revision surgery–an in vitro study on human bone and bone cement (2003) Biomed. Mater. Eng., 13, pp. 317-325 ;\n Honl, M., Schwieger, K., Carrero, V., Rentzsch, R., Dierk, O., Dries, S., Pude, F., Morlock, M., The pulsed water jet for selective removal of bone cement during revision arthroplasty (2003) Biomed. Tech. (Berl.), 48, pp. 275-280 ;\n Kraaij, G., Tuijthof, G.J.M., Dankelman, J., Nelissen, R.G.H.H., Valstar, E.R., Waterjet cutting of periprosthetic interface tissue in loosened hip prostheses: an in vitro feasibility study (2015) Med. Eng. Phys., 37, pp. 245-250 ;\n Hloch, S., Foldyna, J., Sitek, L., Zeleňák, M., Hlaváček, P., Hvizdoš, P., Kľoc, J., Magurová, D., Disintegration of bone cement by continuous and pulsating water jet (1848) Tech. Gaz., 3651, pp. 593-598 ;\n Hloch, S., Foldyna, J., Pude, F., Kľoc, J., Zeleňák, M., Hvizdoš, P., Monka, P., Mihalčinová, E., Experimental in-vitro bone cements disintegration with ultrasonic pulsating water jet for revision arthroplasty | Eksperimentalna in-vitro razgradnja koštanog cementa pomoću ultrazvučnog pulzirajućeg mlaza vode za potrebe revizijske artroplastike (2015) Teh. Vjesn., 22 ;\n Lee, C., Properties of bone cement: the mechanical properties of PMMA bone cement (2005) Well-Cemented Total Hip Arthroplast, pp. 60-66", "hasCitationDuplums" : false, "userChangeableUntil" : "2019-08-22T19:17:43.922+0000", "directInstitutesForSort" : "", "ownerAuthorCount" : 8, "ownerInstituteCount" : 21, "directInstituteCount" : 0, "authorCount" : 5, "contributorCount" : 0, "hasQualityFactor" : true, "link" : "/api/publication/30770429", "label" : "Hloch S. et al. On-line measurement and monitoring of pulsating saline and water jet disintegration of bone cement with frequency 20 kHz. (2019) MEASUREMENT 0263-2241 1873-412X 147", "template" : "