公开(公告)号：USD595990S1

公开(公告)日：2009-07-14

申请号：US29325010

申请日：2008-09-24

Applicant: Jonathan M. Rothberg ,  Wolfgang Hinz

Designer： Jonathan M. Rothberg ,  Wolfgang Hinz

公开(公告)号：US20090127589A1

公开(公告)日：2009-05-21

申请号：US12002291

申请日：2007-12-14

Applicant: Jonathan M. Rothberg ,  Wolfgang Hinz ,  Kim L. Johnson ,  James Bustillo

Inventor： Jonathan M. Rothberg ,  Wolfgang Hinz ,  Kim L. Johnson ,  James Bustillo

IPC: H01L29/772 ,  H01L21/50 ,  C12M3/00

CPC classification number: G01N27/4148 ,  C12Q1/6818 ,  C12Q1/6874 ,  G01N27/4145 ,  G01N33/54373 ,  G01N33/5438 ,  H01L27/088 ,  H01L29/42324 ,  H01L29/78 ,  H01L2924/01006 ,  H01L2924/01013 ,  H01L2924/01015 ,  H01L2924/01073 ,  H01L2924/14 ,  H01L2924/1433 ,  Y10T436/22 ,  C12Q2565/607 ,  C12Q2565/301 ,  C12Q2533/101

Abstract: Methods and apparatus relating to very large scale FET arrays for analyte measurements. ChemFET (e.g., ISFET) arrays may be fabricated using conventional CMOS processing techniques based on improved FET pixel and array designs that increase measurement sensitivity and accuracy, and at the same time facilitate significantly small pixel sizes and dense arrays. Improved array control techniques provide for rapid data acquisition from large and dense arrays. Such arrays may be employed to detect a presence and/or concentration changes of various analyte types in a wide variety of chemical and/or biological processes. In one example, chemFET arrays facilitate DNA sequencing techniques based on monitoring changes in hydrogen ion concentration (pH), changes in other analyte concentration, and/or binding events associated with chemical processes relating to DNA synthesis.

公开(公告)号：US20090048124A1

公开(公告)日：2009-02-19

申请号：US11788838

申请日：2007-04-20

Applicant: John H. Leamon ,  Kenton L. Lohman ,  Jonathan M. Rothberg ,  Michael P. Weiner

Inventor： John H. Leamon ,  Kenton L. Lohman ,  Jonathan M. Rothberg ,  Michael P. Weiner

IPC: C40B40/06 ,  C40B40/00 ,  C40B40/10 ,  C40B60/12

CPC classification number: C12Q1/686 ,  B01L3/5027 ,  B01L3/502707 ,  B01L3/502715 ,  B01L3/5085 ,  B01L7/52 ,  B01L2300/0636 ,  B01L2300/0819 ,  B01L2300/0877 ,  C07H21/00 ,  C12N15/1075 ,  C12N15/1093 ,  C12Q1/6806 ,  C12Q1/6834 ,  C12Q1/6844 ,  C12Q1/6865 ,  C12Q1/6867 ,  C12Q1/6869 ,  C12Q1/6874 ,  G01N21/253 ,  G01N21/6428 ,  G01N21/6452 ,  G01N21/6458 ,  G01N2021/6484 ,  G01R33/1269 ,  Y02P20/582 ,  Y10T436/143333 ,  C12Q2565/119 ,  C12Q2531/113 ,  C12Q2565/537 ,  C12Q2547/107 ,  C12Q2547/101 ,  C12Q2537/143 ,  C12Q2527/125 ,  C12Q2525/186 ,  C12Q2565/301 ,  C12Q2563/149 ,  C12Q2531/125 ,  C12Q2537/149 ,  C12Q2535/119

Abstract: An apparatus and method for performing rapid DNA sequencing, such as genomic sequencing, is provided herein. The method includes the steps of preparing a sample DNA for genomic sequencing, amplifying the prepared DNA in a representative manner, and performing multiple sequencing reaction on the amplified DNA with only one primer hybridization step.

公开(公告)号：US06274320B1

公开(公告)日：2001-08-14

申请号：US09398833

申请日：1999-09-16

Applicant: Jonathan M. Rothberg ,  Joel S. Bader

Inventor： Jonathan M. Rothberg ,  Joel S. Bader

IPC: C12Q168

CPC classification number: C12Q1/6837 ,  C12Q1/6827 ,  C12Q1/6869 ,  C12Q1/6874 ,  C12Q2531/125 ,  C12Q2535/101 ,  C12Q2565/301

Abstract: Disclosed herein are methods and apparatuses for sequencing a nucleic acid. The method includes annealing a population of circular nucleic acid molecules to a plurality of anchor primers linked to a solid support, and amplifying those members of the population of circular nucleic acid molecules which anneal to the target nucleic acid, and then sequencing the amplified molecules by detecting the presence of a sequence byproduct.

Abstract translation: 本文公开了用于测序核酸的方法和装置。 该方法包括将多个环状核酸分子退火至与固体支持物连接的多个锚定引物，并扩增与靶核酸退火的环状核酸分子群体的那些成员，然后通过 检测序列副产物的存在。

公开(公告)号：US5993634A

公开(公告)日：1999-11-30

申请号：US644073

申请日：1996-05-09

Applicant: John W. Simpson ,  Jonathan M. Rothberg ,  Gregory T. Went

Inventor： John W. Simpson ,  Jonathan M. Rothberg ,  Gregory T. Went

IPC: B01J19/00 ,  G01N27/447 ,  G01N27/26

CPC classification number: B01J19/0093 ,  G01N27/44708 ,  G01N27/44782 ,  G01N27/44791 ,  B01J2219/00783 ,  B01J2219/00828 ,  B01J2219/00831 ,  B01J2219/00833 ,  B01J2219/00873 ,  B01J2219/00995 ,  G01N27/44721 ,  Y10S436/80 ,  Y10T436/143333

Abstract: This invention is an integrated instrument for high-capacity electrophoretic analysis of biopolymer samples. It comprises a specialized high-voltage, electrophoretic module in which the migration lanes are formed between a bottom plate and a plurality of etched grooves in a top plate, the module permitting concurrent separation of 80 or more separate samples. In thermal contact with the bottom plate is a thermal control module incorporating a plurality of Peltier heat transfer devices for the control of temperature and gradients in the electrophoretic medium. Fragments are detected by a transmission imaging spectrograph which simultaneously spatially focuses and spectrally resolves the detection region of all the migration lanes. The spectrograph comprises a transmission dispersion element and a CCD array to detect signals. Signal analysis comprises the steps of noise filtering, comparison in a configuration space with signal prototypes, and selection of the best prototype. Optionally post-processing is done by a Monte-Carlo simulated annealing algorithm to improve results. Optionally, an array of micro-reactors can be integrated into the instrument for the generation of sequencing reaction fragments directly from crude DNA samples.

Abstract translation: 本发明是用于生物聚合物样品的高容量电泳分析的集成仪器。 它包括专门的高压电泳模块，其中迁移通道形成在顶板和顶板中的多个蚀刻凹槽之间，该模块允许同时分离80个或更多个单独的样品。 与底板热接触的是热控制模块，其包括用于控制电泳介质中的温度和梯度的多个珀尔贴热传递装置。 通过透射成像光谱仪检测片段，其同时空间聚焦并光谱地解析所有迁移通道的检测区域。 该光谱仪包括用于检测信号的透射色散元件和CCD阵列。 信号分析包括噪声滤波，配置空间与信号原型的比较以及最佳原型的选择。 可选地，后处理通过蒙特卡罗模拟退火算法完成以改善结果。 任选地，可以将微反应器阵列整合到仪器中，以直接从粗DNA样品产生测序反应片段。

公开(公告)号：US5938904A

公开(公告)日：1999-08-17

申请号：US623346

申请日：1996-03-27

Applicant: Joel S. Bader ,  Jonathan M. Rothberg ,  Michael W. Deem ,  Gregory T. Mulhern ,  Gregory T. Went

Inventor： Joel S. Bader ,  Jonathan M. Rothberg ,  Michael W. Deem ,  Gregory T. Mulhern ,  Gregory T. Went

IPC: B01D57/02 ,  G01N27/26 ,  G01N27/447

CPC classification number: B82Y30/00 ,  G01N27/44773

Abstract: This invention relates to a method and device for separating charged particles according to their diffusivities in a separation medium by means of a spatially and temporarily varying electric potential. The method is particularly suited to sizing and separating DNA fragments, to generating DNA fragment length polymorphism patterns, and to sequencing DNA through the separation of DNA sequencing reaction products. The method takes advantage of the transport of charged particles subject to an electric potential that is cycled between an off-state (in which the potential is flat) and one or more on-states, in which the potential is preferably spatially periodic with a plurality of eccentrically shaped stationary potential wells. The potential wells are at constant spatial positions in the on-state. Differences in liquid-phase diffusivities lead to charged particle separation. A preferred embodiment of the device is microfabricated. A separation medium fills physically defined separation lanes in the device. Electrodes deposited substantially transverse to the lanes create the required electric potentials. Advantageously, injection ports allow sample loading, and special gating electrodes focus the sample prior to separation. The effects of thermal gradients are minimized by placing the device in contact with a thermal control module, preferably a plurality of Peltier-effect heat transfer devices. The small size of a microfabricated device permits rapid separation in a plurality of separation lanes.

Abstract translation: 本发明涉及一种通过空间和暂时变化的电位根据其在分离介质中的扩散性分离带电粒子的方法和装置。 该方法特别适用于分选DNA片段，产生DNA片段长度多态性模式，并通过分离DNA测序反应产物对DNA进行测序。 该方法利用带电粒子的传输，该带电粒子经历在关闭状态（其中电位为平坦）和一个或多个导通状态之间循环的电位，其中电位优选为空间周期性的多个 偏心固定势阱。 势阱在导通状态下处于恒定的空间位置。 液相扩散性的差异导致带电粒子分离。 装置的优选实施例是微制造的。 分离介质填充设备中物理定义的分离通道。 基本横向于通道沉积的电极产生所需的电位。 有利地，注射端口允许样品加载，并且特殊门电极在分离之前聚焦样品。 通过将设备与热控制模块（优选多个珀耳帖效应传热装置）接触来使热梯度的影响最小化。 微型加工装置的小尺寸允许在多个分离通道中快速分离。

公开(公告)号：US20200349342A1

公开(公告)日：2020-11-05

申请号：US16859124

申请日：2020-04-27

Applicant: Tyler S. Ralston ,  Jonathan M. Rothberg ,  Jianwei Liu

Inventor： Tyler S. Ralston ,  Jonathan M. Rothberg ,  Jianwei Liu

IPC: G06K9/00 ,  A61B5/1171 ,  A61B5/00 ,  G01S7/539 ,  G01S7/52

Abstract: An electronic face-identification device, which performs face scanning with ultrasonic waves, includes a housing and an ultrasound device disposed within the housing. The ultrasound device may be configured to transmit ultrasonic waves through air to a face and scan the face with the ultrasonic waves, to receive reflected waves through the air corresponding to reflections of the ultrasonic waves from the face, and to perform a recognition process for the face based on reflections of the ultrasonic waves from the face. The ultrasound device may include a plurality of ultrasound transducers, and electronic circuitry configured to transmit signals to the ultrasound transducers and receive signals from the ultrasound transducers. The face-identification device may be incorporated into various electronic equipment, such as hand-held equipment in the form of smartphones and tablet computers, as well as in larger scale installations at airports, workplace entryways, and the like.

公开(公告)号：US20200156110A1

公开(公告)日：2020-05-21

申请号：US16683652

申请日：2019-11-14

Applicant: Lingyun Miao ,  Keith G. Fife ,  Jianwei Liu ,  Jonathan M. Rothberg

Inventor： Lingyun Miao ,  Keith G. Fife ,  Jianwei Liu ,  Jonathan M. Rothberg

IPC: B06B1/02 ,  B81B3/00 ,  B81C1/00

Abstract: A method of forming an ultrasonic transducer device includes forming an insulating layer having topographic features over a lower transducer electrode layer of a substrate; forming a conformal, anti-stiction layer over the insulating layer such that the conformal layer also has the topographic features; defining a cavity in a support layer formed over the anti-stiction layer; and bonding a membrane to the support layer.

公开(公告)号：US20200033431A1

公开(公告)日：2020-01-30

申请号：US16524638

申请日：2019-07-29

Applicant: Jo Schlemper ,  Seyed Sadegh Moshen Salehi ,  Michal Sofka ,  Prantik Kundu ,  Ziyi Wang ,  Carole Lazarus ,  Hadrien A. Dyvorne ,  Laura Sacolick ,  Rafael O'Halloran ,  Jonathan M. Rothberg

Inventor： Jo Schlemper ,  Seyed Sadegh Moshen Salehi ,  Michal Sofka ,  Prantik Kundu ,  Ziyi Wang ,  Carole Lazarus ,  Hadrien A. Dyvorne ,  Laura Sacolick ,  Rafael O'Halloran ,  Jonathan M. Rothberg

IPC: G01R33/56 ,  G06N3/04 ,  G06F17/18 ,  G06F17/14

Abstract: A magnetic resonance imaging (MRI) system, comprising: a magnetics system comprising: a B0 magnet configured to provide a B0 field for the MRI system; gradient coils configured to provide gradient fields for the MRI system; and at least one RF coil configured to detect magnetic resonance (MR) signals; and a controller configured to: control the magnetics system to acquire MR spatial frequency data using non-Cartesian sampling; and generate an MR image from the acquired MR spatial frequency data using a neural network model comprising one or more neural network blocks including a first neural network block, wherein the first neural network block is configured to perform data consistency processing using a non-uniform Fourier transformation.

公开(公告)号：US20170360404A1

公开(公告)日：2017-12-21

申请号：US15626885

申请日：2017-06-19

Applicant: Tomer Gafner ,  Matthew de Jonge ,  Robert Schneider ,  David Elgena ,  Alex Rothberg ,  Jonathan M. Rothberg ,  Michal Sofka ,  Karl Thiele

Inventor： Tomer Gafner ,  Matthew de Jonge ,  Robert Schneider ,  David Elgena ,  Alex Rothberg ,  Jonathan M. Rothberg ,  Michal Sofka ,  Karl Thiele

IPC: A61B8/00 ,  A61B8/06 ,  A61B8/02 ,  G06T11/60 ,  A61B8/08

CPC classification number: A61B8/46 ,  A61B8/02 ,  A61B8/06 ,  A61B8/065 ,  A61B8/0833 ,  A61B8/085 ,  A61B8/0883 ,  A61B8/4263 ,  A61B8/4427 ,  A61B8/463 ,  A61B8/52 ,  A61B8/5207 ,  A61B8/5215 ,  A61B8/5223 ,  A61B2034/2065 ,  A61B2090/365 ,  A61B2090/378 ,  A61B2090/3937 ,  G06K9/00912 ,  G06K9/4628 ,  G06K9/6271 ,  G06K9/66 ,  G06K2209/05 ,  G06T7/0012 ,  G06T7/0014 ,  G06T7/70 ,  G06T11/60 ,  G06T19/006 ,  G06T2207/10132 ,  G06T2207/20081 ,  G06T2207/20084 ,  G06T2207/20221 ,  G06T2207/30048 ,  G06T2207/30061 ,  G06T2210/41

Abstract: Aspects of the technology described herein relate to techniques for guiding an operator to use an ultrasound device. Thereby, operators with little or no experience operating ultrasound devices may capture medically relevant ultrasound images and/or interpret the contents of the obtained ultrasound images. For example, some of the techniques disclosed herein may be used to identify a particular anatomical view of a subject to image with an ultrasound device, guide an operator of the ultrasound device to capture an ultrasound image of the subject that contains the particular anatomical view, and/or analyze the captured ultrasound image to identify medical information about the subject.