Saju R Nettikadan

7690325, Apr 6, 2010

Apr 29, 2005

11/120042

Eric R. Henderson - Ames IA, US
Juntao Xu - Ames IA, US
Michael P. Lynch - San Diego CA, US
Curtis L. Mosher - Ames IA, US
Janice Lillian Huff - Houston TX, US
Saju Rappai Nettikadan - Ames IA, US

Bioforce Nanosciences, Inc. - Ames IA

B05C 5/00
B05B 7/06
B05C 3/00

118300, 118313, 118315, 118410

Some embodiments of the present invention provide an apparatus and method in which material is deposited upon a surface from an elongated beam having an aperture defined therein through which the material is moved by passive adsorption. The elongated beam can be substantially planar along substantially its entire length, can be oriented at an acute angle with respect to the surface during deposition processes, and can have a length no greater than about 2 mm. In some embodiments, the aperture can be elongated, can extend from a material reservoir to a location short of the terminal end of the elongated beam or through the terminal end of the elongated beam, and can have a portion extending through the thickness of the elongated beam.

20020172943, Nov 21, 2002

May 30, 2002

10/160372

Eric Henderson - Ames IA, US
Saju Nettikadan - Ames IA, US
Curtis Mosher - Ames IA, US

C12Q001/70
G01N033/554
G01N033/569
B05D003/00

435/005000, 435/007320, 427/002110

The present invention includes a method and apparatus for the detection of a target material. The method and apparatus includes providing a substrate with a surface and forming a domains of deposited materials thereon. The deposited material can be placed on the surface and bound directly and non-specifically to the surface, or it may be specifically or non-specifically bound to the surface. The deposited material has an affinity for a specific target material. The domains thus created are termed affinity domains or deposition domains. Multiple affinity domains of deposited materials can be deposited on a single surface, creating a plurality of specific binding affinity domains for a plurality of target materials. Target materials may include, for example, pathogens or pathogenic markers such as viruses, bacteria, bacterial spores, parasites, prions, fungi, mold or pollen spores. The device thus created is incubated with a test solution, gas or other supporting environment suspected of containing one or more of the target materials. Specific binding interactions between the target materials and a particular affinity domain occurs and is detected by various methods.

20030186311, Oct 2, 2003

Apr 30, 2003

10/427003

Eric Henderson - Ames IA, US
James Johnson - St. Charles IA, US
Saju Nettikadan - Ames IA, US

BioForce Nanosciences, Inc. - Ames IA

C12Q001/68
G01N033/53

435/006000, 435/007100

Provided are methods of detecting molecular interactions using arrays and near field scanning probe techniques. Also provided are methods of characterizing binding interactions under defined reaction parameters, methods of determining antibody binding specificity, methods of selecting a substrate for an array of immobilized molecules and methods of determining molecular occupancy time with respect to binding interactions.

20050239193, Oct 27, 2005

Oct 29, 2004

10/977551

Eric Henderson - Ames IA, US
Saju Nettikadan - Ames IA, US
Curtis Mosher - Ames IA, US
James Johnson - St. Charles IA, US

BioForce Nanosciences, Inc. - Ames IA

C12Q001/70
G06F019/00
G01N033/48
G01N033/50
C12M001/34

435287200, 702019000

The present invention includes a method and apparatus for the detection of a microorganism or microparticle.

20120309647, Dec 6, 2012

May 30, 2012

13/483915

John M. Collins - West Chicago IL, US
Saju R. Nettikadan - Hawthorn Woods IL, US

C40B 50/14
C40B 40/00
C40B 30/06
C12N 5/07

506 10, 506 30, 435373, 506 13

Cell co-culturing methods and arrays providing versatility and high resolution. A method comprising: providing at least one substrate; providing at least one first tip with at least one first cell-adhesion material disposed thereon, and at least one second tip with at least one second cell-adhesion material disposed thereon, wherein the first cell-adhesion material is different from the second cell-adhesion material; depositing the first cell-adhesion material from the first tip to the substrate to form at least one first deposit, and depositing the second cell-adhesion material from the second tip to the substrate to form at least one second deposit; and wherein the first and second deposits are capable of providing selective binding to at least one first cell so that the first cell selectively binds to the first deposit, and wherein the second deposit is capable of binding to at least one second cell.