1
Yuko Taniike, Shin Ikeda, Shiro Nankai: Biosensor. Matsushita Electric Industrial, McDermott Will & Emery, July 29, 2003: US06599407 (258 worldwide citation)

The present invention provides a biosensor having a favorable response characteristic up to a high concentration range, a low blank response and a high storage stability. This sensor comprises an electrode system including a working electrode and a counter electrode, for forming an electrochemical m ...


2
Yuko Taniike, Shin Ikeda, Shiro Nankai: Biosensor. Matsushita Electric Industrial, McDermott Will & Emery, April 26, 2005: US06885196 (188 worldwide citation)

A highly sensitive biosensor that uses a smaller amount of sample for measurement is described. The biosensor includes a first insulating base plate having a working electrode, a second insulating base plate having a counter electrode opposed to the working electrode, and a reagent layer containing ...


3
Yuko Taniike, Shin Ikeda, Shiro Nankai: Biosensor. Matsushita Electric Industrial, McDermott Will & Emery, October 1, 2002: US06458258 (165 worldwide citation)

The present invention provides a biosensor having a high current response sensitivity, a low blank response and a high storage stability. This sensor comprises an electrode system including a working electrode and a counter electrode, for forming an electrochemical measurement system by coming in co ...


4
Yuko Taniike, Shin Ikeda, Toshihiko Yoshioka: Biosensor with interdigitated electrodes. Matsushita Electric Industrial, Akin Gump Strauss Hauer & Feld, April 4, 2006: US07022218 (124 worldwide citation)

The present invention provides a highly sensitive biosensor capable of yielding good response even when the amount of a sample is extremely small. The biosensor of the present invention includes: a first insulating base plate which has a working electrode comprising a plurality of branches and a fir ...


5
Yuko Taniike, Mariko Miyashita, Shin Ikeda, Toshihiko Yoshioka, Yoshinobu Tokuno: Biosensor and measuring apparatus for biosensor. Matsushita Electric Industrial, McDermott Will & Emery, November 29, 2005: US06969450 (123 worldwide citation)

In biosensor system 1, biosensor 2 is mounted in measuring apparatus 3 for quantifying or detecting existence of a targeted substrate in a sample solution. Mounting end portion 20 of biosensor 2 to be mounted in measuring apparatus 3 has an extension of one base plate in the length direction, and fu ...


6
Yuko Taniike, Shin Ikeda, Shiro Nankai: Analytical element and measuring device and substrate quantification method using the same. Matsushita Electric Industrial, McDermott Will & Emery, April 12, 2005: US06878262 (114 worldwide citation)

The present invention provides an analytical element which is free from evaporation of a sample during measurement and therefore capable of quantifying a substrate using a very small amount of sample with high accuracy and which is free from scattering of the sample during and after the measurement ...


7
Mariko Miyashita, Yuko Taniike, Toshihiko Yoshioka: Body fluid measuring adapter and body fluid measuring unit. Matsushita Electric Industrial, McDermott Will & Emery, August 7, 2007: US07252804 (105 worldwide citation)

An adaptor for body fluid measurement of the present invention includes a puncture instrument holding section for detachably carrying a puncture instrument for protruding a puncture needle and a measuring instrument holding section for detachably carrying a measuring instrument for analyzing body fl ...


8
Yuko Taniike, Shin Ikeda, Shiro Nankai: Biosensor. Matsushita Electric Industrial, McDermott Will & Emery, June 13, 2006: US07060168 (103 worldwide citation)

The present invention provides a biosensor having a favorable response characteristic up to a high concentration range, a low blank response and a high storage stability. This sensor comprises an electrode system including a working electrode and a counter electrode, for forming an electrochemical m ...


9
Yuko Taniike, Mariko Miyashita, Shin Ikeda, Toshihiko Yoshioka: Apparatus for measuring biological component. Matsushita Electric Industrial, Wenderoth Lind & Ponack L, July 3, 2007: US07238160 (3 worldwide citation)

The present invention relates to a biological component measurement apparatus set, in which a puncture mechanism for puncturing skin of a subject to collect a sample blood is integrated with a biosensor measurement apparatus. The puncture mechanism includes a puncture needle, and a cap which is deta ...


10
Yuko Taniike, Mariko Miyashita, Toshihiko Yoshioka: Biosensor, biosensor measuring apparatus and measurement method. Panasonic Corporation, McDermott Will & Emery, June 22, 2010: US07741125 (1 worldwide citation)

A biosensor and a biosensor measuring apparatus whose performance can be easily determined by an ordinary user are provided. A biosensor 100 includes a substrate 1 having a quality deciding section 13 and a sample receiving section 15 provided on the substrate 1 to which a sample is supplied. The qu ...