Capping bioprosthetic tissue to reduce calcification
J Dove, D Dobler, J Davidson, GA Wright - US Patent 8,357,387, 2013 - Google Patents
US8357387B2 - Capping bioprosthetic tissue to reduce calcification - Google Patents
US8357387B2 - Capping bioprosthetic tissue to reduce calcification - Google Patents Capping …
US8357387B2 - Capping bioprosthetic tissue to reduce calcification - Google Patents Capping …
Microporation of tissue for delivery of bioactive agents
JA Eppstein - US Patent 9,579,380, 2017 - Google Patents
Related US Application Data Continuation of application No. 10/284.408, filed on Oct. 31,
2002, now abandoned, which is a continuation of application No. 09/331,124, filed as …
2002, now abandoned, which is a continuation of application No. 09/331,124, filed as …
Method of treating glutaraldehyde-fixed pericardial tissue with a non-aqueous mixture of glycerol and a C1-C3 alcohol
B Tian, J Davidson - US Patent 8,007,992, 2011 - Google Patents
(57) ABSTRACT A method of treating a biological tissue that enables dry storage of said
tissue is disclosed. In one embodiment, the method comprises contacting the biological …
tissue is disclosed. In one embodiment, the method comprises contacting the biological …
Applicator for applying functional substances into human skin
Y Tobinaga, S Sugiyama - US Patent 8,353,861, 2013 - Google Patents
Sufficient to penetrate into the stratum corneum or dermis, with the microneedles being of a
material that is capable of disintegration and dispersion into the stratum corneum or dermis …
material that is capable of disintegration and dispersion into the stratum corneum or dermis …
Transdermal integrated actuator device, methods of making and using same
J Eppstein, S McRae - US Patent App. 10/384,763, 2004 - Google Patents
US20040039342A1 - Transdermal integrated actuator device, methods of making and
using same - Google Patents US20040039342A1 - Transdermal integrated actuator device …
using same - Google Patents US20040039342A1 - Transdermal integrated actuator device …
Microporation of tissue for delivery of bioactive agents
JA Eppstein - US Patent 7,758,561, 2010 - Google Patents
5,421,816 5,423,803 5.425, 728 5,427,585 5,445,611 5,458,140 5,459,127 5,462.520
5,547.467 5,548,140 5,554,153 5,580,859 5,582,586 5,611,806 5,651,768 5,713,845 …
5,547.467 5,548,140 5,554,153 5,580,859 5,582,586 5,611,806 5,651,768 5,713,845 …
Solid dose delivery vehicle and methods of making same
BJ Roser, J Kampinga, C Colaco, J Blair - US Patent 6,811,792, 2004 - Google Patents
The present invention encompasses a solid dose delivery vehicle for ballistic administration
of a bioactive material to subcutaneous and intradermal tissue, the delivery vehicle being …
of a bioactive material to subcutaneous and intradermal tissue, the delivery vehicle being …
Microprojection array having a beneficial agent containing coating
MJN Cormier, WA Young, JA Johnson… - US Patent …, 2011 - Google Patents
6,230,051 B1 5/2001 Cormier et al. 2006/0074377 A1 4/2006 Cormier et al. 6,290,991 B1*
9/2001 Roser et al.................... 424,502 6,322,808 B1 1 1/2001 Trautman et al. FOREIGN …
9/2001 Roser et al.................... 424,502 6,322,808 B1 1 1/2001 Trautman et al. FOREIGN …
Engineered particles and methods of use
TE Tarara, JG Weers, A Kabalnov, EG Schutt… - US Patent …, 2007 - Google Patents
Engineered particles are provided may be used for the delivery of a bioactive agent to the
respiratory tract of a patient. The particles may be used in the form of dry poWders or in the …
respiratory tract of a patient. The particles may be used in the form of dry poWders or in the …