Chondroprotection of articular cartilage integrity: utilizing ultrasonic scalpel and hyperosmolar irrigation solution during cutting
Chondroprotection of articular cartilage integrity: utilizing ultrasonic scalpel and hyperosmolar irrigation solution during cutting
Objectives: ultrasonic (US) cutting of cartilage in orthopaedic surgery has received little attention despite its potential to reduce chondrocyte death which could enhance cartilage repair. We aimed to investigate whether an ultrasonically-vibrating scalpel to cut human articular cartilage could reduce chondrocyte death, and to determine if hyper-osmolarity could provide chondroprotection during the procedure.
Methods: a scalpel (no. 15) was mounted on an ultrasonic transducer to resonate at 35 kHz with 30 μm vibrational displacement. Thirty-six fresh human femoral cartilage samples were divided into four groups based on ultrasonic activation (US or non-US) and saline osmolarity (300 or 600 mOsm/L). Cell viability was assessed using a live/dead cell assay and analysed quantitatively by confocal microscopy. Histology illustrated tissue surface changes at the cut site.
Results: the overall chondrocyte death percentage at both the US and non-US cut sites showed comparable results (p > 0.05) in both osmolarities. However, the zone of chondrocyte death was reduced by 31 ± 5% and 36 ± 6%, respectively, when comparing US cutting at 300 mOsm/L and 600 mOsm/L to the control group (non-US cutting; 300 mOsm/L) (p < 0.05). The width of the cut was consistent at both sites, regardless of the method of cutting.
Conclusion: cutting human cartilage with US in the presence of 300 or 600 mOsm/L media was chondroprotective compared to normal (non-US) scalpel cutting in 300 mOsm/L medium. These results suggest chondroprotection can be achieved while cutting using a US scalpel and raised osmolarity, potentially improving cartilage regeneration and repair following injury.
ultrasonic cutting, articular cartilage, chondroprotection, osmolarity
Mohammed Al-Namnam, Nisreen
96e63146-a197-420a-b7db-ede4488333c7
T. Luczak, Aneta
8138672b-2bfd-4948-86dd-2ee607430c97
Yang, Irene
f5da149e-cd9e-48f4-bad4-27483fedb7a4
Li, Xuan
ed01c0d5-68e0-4abe-8642-5b9ebf153314
Lucas, Margaret
896f4b80-c53c-43d2-bdc5-c76e80ab4a46
C. Hall, Andrew
82caa834-58ba-445b-b695-a12ca89b33e3
R.W. Simpson, A. Hamish
c10e719c-7226-4b2d-b8b2-d4ae0dbd0926
9 July 2024
Mohammed Al-Namnam, Nisreen
96e63146-a197-420a-b7db-ede4488333c7
T. Luczak, Aneta
8138672b-2bfd-4948-86dd-2ee607430c97
Yang, Irene
f5da149e-cd9e-48f4-bad4-27483fedb7a4
Li, Xuan
ed01c0d5-68e0-4abe-8642-5b9ebf153314
Lucas, Margaret
896f4b80-c53c-43d2-bdc5-c76e80ab4a46
C. Hall, Andrew
82caa834-58ba-445b-b695-a12ca89b33e3
R.W. Simpson, A. Hamish
c10e719c-7226-4b2d-b8b2-d4ae0dbd0926
Mohammed Al-Namnam, Nisreen, T. Luczak, Aneta, Yang, Irene, Li, Xuan, Lucas, Margaret, C. Hall, Andrew and R.W. Simpson, A. Hamish
(2024)
Chondroprotection of articular cartilage integrity: utilizing ultrasonic scalpel and hyperosmolar irrigation solution during cutting.
Osteoarthritis and Cartilage Open, 6 (3), [100499].
(doi:10.1016/j.ocarto.2024.100499).
Abstract
Objectives: ultrasonic (US) cutting of cartilage in orthopaedic surgery has received little attention despite its potential to reduce chondrocyte death which could enhance cartilage repair. We aimed to investigate whether an ultrasonically-vibrating scalpel to cut human articular cartilage could reduce chondrocyte death, and to determine if hyper-osmolarity could provide chondroprotection during the procedure.
Methods: a scalpel (no. 15) was mounted on an ultrasonic transducer to resonate at 35 kHz with 30 μm vibrational displacement. Thirty-six fresh human femoral cartilage samples were divided into four groups based on ultrasonic activation (US or non-US) and saline osmolarity (300 or 600 mOsm/L). Cell viability was assessed using a live/dead cell assay and analysed quantitatively by confocal microscopy. Histology illustrated tissue surface changes at the cut site.
Results: the overall chondrocyte death percentage at both the US and non-US cut sites showed comparable results (p > 0.05) in both osmolarities. However, the zone of chondrocyte death was reduced by 31 ± 5% and 36 ± 6%, respectively, when comparing US cutting at 300 mOsm/L and 600 mOsm/L to the control group (non-US cutting; 300 mOsm/L) (p < 0.05). The width of the cut was consistent at both sites, regardless of the method of cutting.
Conclusion: cutting human cartilage with US in the presence of 300 or 600 mOsm/L media was chondroprotective compared to normal (non-US) scalpel cutting in 300 mOsm/L medium. These results suggest chondroprotection can be achieved while cutting using a US scalpel and raised osmolarity, potentially improving cartilage regeneration and repair following injury.
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Accepted/In Press date: 25 June 2024
e-pub ahead of print date: 1 July 2024
Published date: 9 July 2024
Keywords:
ultrasonic cutting, articular cartilage, chondroprotection, osmolarity
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Local EPrints ID: 498195
URI: http://eprints.soton.ac.uk/id/eprint/498195
ISSN: 2665-9131
PURE UUID: 6fed50e8-4116-41a6-ac84-41b7c0b0276f
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Date deposited: 12 Feb 2025 17:40
Last modified: 22 Aug 2025 02:46
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Contributors
Author:
Nisreen Mohammed Al-Namnam
Author:
Aneta T. Luczak
Author:
Irene Yang
Author:
Xuan Li
Author:
Margaret Lucas
Author:
Andrew C. Hall
Author:
A. Hamish R.W. Simpson
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