Degradation of the PGA suture material used in the manufacture of the resorbable mesh devices was observed during an on-going product stability study. Further investigation indicated that devices over 18-months showed evidence of no longer meeting the pre-defined ball burst specification respective to the number of tissue layers.
Degradation of the PGA suture material used in the manufacture of the resorbable mesh devices was observed during an on-going product stability study. Further investigation indicated that devices over 18-months showed evidence of no longer meeting the pre-defined ball burst specification respective to the number of tissue layers.
Degradation of the PGA suture material used in the manufacture of the resorbable mesh devices was observed during an on-going product stability study. Further investigation indicated that devices over 18-months showed evidence of no longer meeting the pre-defined ball burst specification respective to the number of tissue layers.
Degradation of the PGA suture material used in the manufacture of the resorbable mesh devices was observed during an on-going product stability study. Further investigation indicated that devices over 18-months showed evidence of no longer meeting the pre-defined ball burst specification respective to the number of tissue layers.
Degradation of the PGA suture material used in the manufacture of the resorbable mesh devices was observed during an on-going product stability study. Further investigation indicated that devices over 18-months showed evidence of no longer meeting the pre-defined ball burst specification respective to the number of tissue layers.
Degradation of the PGA suture material used in the manufacture of the resorbable mesh devices was observed during an on-going product stability study. Further investigation indicated that devices over 18-months showed evidence of no longer meeting the pre-defined ball burst specification respective to the number of tissue layers.
Degradation of the PGA suture material used in the manufacture of the resorbable mesh devices was observed during an on-going product stability study. Further investigation indicated that devices over 18-months showed evidence of no longer meeting the pre-defined ball burst specification respective to the number of tissue layers.
Degradation of the PGA suture material used in the manufacture of the resorbable mesh devices was observed during an on-going product stability study. Further investigation indicated that devices over 18-months showed evidence of no longer meeting the pre-defined ball burst specification respective to the number of tissue layers.
Degradation of the PGA suture material used in the manufacture of the resorbable mesh devices was observed during an on-going product stability study. Further investigation indicated that devices over 18-months showed evidence of no longer meeting the pre-defined ball burst specification respective to the number of tissue layers.
Degradation of the PGA suture material used in the manufacture of the resorbable mesh devices was observed during an on-going product stability study. Further investigation indicated that devices over 18-months showed evidence of no longer meeting the pre-defined ball burst specification respective to the number of tissue layers.
Degradation of the PGA suture material used in the manufacture of the resorbable mesh devices was observed during an on-going product stability study. Further investigation indicated that devices over 18-months showed evidence of no longer meeting the pre-defined ball burst specification respective to the number of tissue layers.
Degradation of the PGA suture material used in the manufacture of the resorbable mesh devices was observed during an on-going product stability study. Further investigation indicated that devices over 18-months showed evidence of no longer meeting the pre-defined ball burst specification respective to the number of tissue layers.
Degradation of the PGA suture material used in the manufacture of the resorbable mesh devices was observed during an on-going product stability study. Further investigation indicated that devices over 18-months showed evidence of no longer meeting the pre-defined ball burst specification respective to the number of tissue layers.
Degradation of the PGA suture material used in the manufacture of the resorbable mesh devices was observed during an on-going product stability study. Further investigation indicated that devices over 18-months showed evidence of no longer meeting the pre-defined ball burst specification respective to the number of tissue layers.
Degradation of the PGA suture material used in the manufacture of the resorbable mesh devices was observed during an on-going product stability study. Further investigation indicated that devices over 18-months showed evidence of no longer meeting the pre-defined ball burst specification respective to the number of tissue layers.
Degradation of the PGA suture material used in the manufacture of the resorbable mesh devices was observed during an on-going product stability study. Further investigation indicated that devices over 18-months showed evidence of no longer meeting the pre-defined ball burst specification respective to the number of tissue layers.
Degradation of the PGA suture material used in the manufacture of the resorbable mesh devices was observed during an on-going product stability study. Further investigation indicated that devices over 18-months showed evidence of no longer meeting the pre-defined ball burst specification respective to the number of tissue layers.
Degradation of the PGA suture material used in the manufacture of the resorbable mesh devices was observed during an on-going product stability study. Further investigation indicated that devices over 18-months showed evidence of no longer meeting the pre-defined ball burst specification respective to the number of tissue layers.
Degradation of the PGA suture material used in the manufacture of the resorbable mesh devices was observed during an on-going product stability study. Further investigation indicated that devices over 18-months showed evidence of no longer meeting the pre-defined ball burst specification respective to the number of tissue layers.
Degradation of the PGA suture material used in the manufacture of the resorbable mesh devices was observed during an on-going product stability study. Further investigation indicated that devices over 18-months showed evidence of no longer meeting the pre-defined ball burst specification respective to the number of tissue layers.
Degradation of the PGA suture material used in the manufacture of the resorbable mesh devices was observed during an on-going product stability study. Further investigation indicated that devices over 18-months showed evidence of no longer meeting the pre-defined ball burst specification respective to the number of tissue layers.
Potential for pouch seal failure
Potential for pouch seal failure
Potential for pouch seal failure