Patents by Inventor Yunjie Tong
Yunjie Tong has filed for patents to protect the following inventions. This listing includes patent applications that are pending as well as patents that have already been granted by the United States Patent and Trademark Office (USPTO).
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Patent number: 10912470Abstract: A system and method for analyzing blood flow in a subject's brain is provided. In some aspects, the method includes analyzing fMRI data to identify signals related to blood flow, and selecting a zero time lag seed regressor using the identified signals. The method also includes correlating the selected seed regressor to identify a subset of the fMRI data that correlates with the seed regressor and is offset in time, combining the subset of the data to determine a time-delayed regressor, and performing repetitions to obtain a number of time-delayed regressors, where for each repetition, the seed regressor is adjusted using a previous time-delayed regressor. The method further includes analyzing the data using the time-delayed regressors to determine blood delivery from vessels across the brain, and generating a report. In some aspects, a second recursive procedure may be performed using an optimized seed regressor obtained from a first recursive procedure.Type: GrantFiled: November 7, 2014Date of Patent: February 9, 2021Assignee: MCLEAN HOSPITAL CORPORATIONInventors: Yunjie Tong, Blaise B. Frederick
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Patent number: 10201314Abstract: A system and method for evaluating a circulatory function of an individual includes at least one connection configured to receive signals indicative of functional data relating to at least one functional parameter of the cardiovascular system of the subject and to at least two disparate locations on the subject. A processor is coupled to the at least, one connection and configured to receive the functional data from the at least one connection. The processor is also configured to compare the functional data to identify variations that deviate from an expected delay associated with the disparate locations and provide an assessment of the cardiovascular system function based on the comparison of the functional data.Type: GrantFiled: April 3, 2013Date of Patent: February 12, 2019Assignee: MCLEAN HOSPITAL CORPORATIONInventors: Blaise Frederick, Lia Maria Hocke, Yunjie Tong
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Patent number: 10085642Abstract: The application features methods, devices, and systems for measuring blood flow in a subject. The computer-implemented methods include receiving functional magnetic resonance imaging (fMRI) data that provides information on at least one of volume or oxygenation of blood at one or more locations in a body over a first predetermined length of time. The methods also include receiving near-infrared spectroscopic (NIRS) imaging or measurement data representing at least one of blood concentration or oxygenation at a first portion of the body over a second predetermined length of time.Type: GrantFiled: June 6, 2011Date of Patent: October 2, 2018Assignee: McLean Hospital CorporationInventors: Blaise Frederick, Yunjie Tong
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Publication number: 20160287100Abstract: A system and method for analyzing blood flow in a subject's brain is provided. In some aspects, the method includes analyzing fMRI data to identify signals related to blood flow, and selecting a zero time lag seed regressor using the identified signals. The method also includes correlating the selected seed regressor to identify a subset of the fMRI data that correlates with the seed regressor and is offset in time, combining the subset of the data to determine a time-delayed regressor, and performing repetitions to obtain a number of time-delayed regressors, where for each repetition, the seed regressor is adjusted using a previous time-delayed regressor. The method further includes analyzing the data using the time-delayed regressors to determine blood delivery from vessels across the brain, and generating a report. In some aspects, a second recursive procedure may be performed using an optimized seed regressor obtained from a first recursive procedure.Type: ApplicationFiled: November 7, 2014Publication date: October 6, 2016Applicant: MCLEAN HOSPITAL CORPORATIONInventors: Yunjie Tong, Blaise B. FREDERICK
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Publication number: 20150065827Abstract: A system and method for evaluating a circulatory function of an individual includes at least one connection configured to receive signals indicative of functional data relating to at least one functional parameter of the cardiovascular system of the subject and to at least two disparate locations on the subject. A processor is coupled to the at least, one connection and configured to receive the functional data from the at least one connection. The processor is also configured to compare the functional data to identify variations that deviate from an expected delay associated with the disparate locations and provide an assessment of the cardiovascular system function based on the comparison of the functional data.Type: ApplicationFiled: April 3, 2013Publication date: March 5, 2015Inventors: Blaise Frederick, Lia Maria Hocke, Yunjie Tong
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Publication number: 20130144140Abstract: The application features methods, devices, and systems for measuring blood flow in a subject. The computer-implemented methods include receiving functional magnetic resonance imaging (fMRI) data that provides information on at least one of volume or oxygenation of blood at one or more locations in a body over a first predetermined length of time. The methods also include receiving near-infrared spectroscopic (NIRS) imaging or measurement data representing at least one of blood concentration or oxygenation at a first portion of the body over a second predetermined length of time.Type: ApplicationFiled: June 6, 2011Publication date: June 6, 2013Inventors: Blaise Frederick, Yunjie Tong
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Patent number: 7110118Abstract: A method and apparatus for performing optical microscopy in one to three dimensions employs a spectral self-interference fluorescent microscopy technique that includes providing at least one fluorescent microscopy sample, at least one objective lens, and at least one reflecting surface. The fluorescent sample is disposed between the objective lens and the reflecting surface, the distance from the sample to the reflecting surface being several to several tens times an excitation wavelength. Excitation light causes the fluorescent sample to emit light, at least a portion of which is reflected by the reflecting surface. The objective lens collects the reflected light and the light emitted directly by the fluorescent sample. The direct and reflected light interfere causing spectral oscillations in the emission spectrum. The periodicity and the peak wavelengths of the emission spectrum are spectroscopically analyzed to determine the optical path length between the fluorescent sample and the reflecting surface.Type: GrantFiled: December 19, 2001Date of Patent: September 19, 2006Assignee: Trustees of Boston UniversityInventors: Selim M. Ünlü, Anna Swan, Bennett B. Goldberg, Stephen Ippolito, Lev Moiseev, Samuel Lipolf, Yunjie Tong
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Publication number: 20040036884Abstract: A method and apparatus for performing optical microscopy in one to three dimensions employs a spectral self-interference fluorescent microscopy technique that includes providing at least one fluorescent microscopy sample (220a, 220b), at least one objective lens (201), and a reflecting surface (204). The fluorescent sample is disposed between the objective lens and the reflecting surface, the distance (d1, d2) from the sample to the reflecting surface is several to several tens times an excitation wavelength. Excitation light (216) causes the fluorescent sample to emit light (214), at least a portion (214b) of which is reflected by the reflecting surface. The objective lens collects both the reflected light and the light emitted directly by the fluorescent sample (214a). The direct and reflected light interferences causing spectral oscillations in the emission spectrum.Type: ApplicationFiled: June 18, 2003Publication date: February 26, 2004Inventors: Selim M. Unlu, Anna Swan, Bennett B. Goldberg, Stephen Ippolito, Lev Moiseev, Samuel Lipolf, Yunjie Tong