BRYANT Y LIN, M.D.
Osteopathic Medicine in Palo Alto, CA

License number
California A95766
Category
Osteopathic Medicine
Type
Internal Medicine
Address
Address
211 Quarry Rd Suite 305, Palo Alto, CA 94304
Phone
(650) 723-6028

Professional information

Bryant Lin Photo 1

Bryant Lin, Palo Alto CA

Specialties:
Internist
Address:
211 Quarry Road, Palo Alto, CA 94304
Education:
Medical School - Tufts University
Tufts-New England Medical Center (Internship)
Tufts-New England Medical Center (Residency)
Stanford University Medical Center (Fellowship)
Stanford University Medical Center (Fellowship)
Languages:
English
Awards and Publications:
A new approach for ICD rhythm classification based on support vector machines. Kamousi B, Tewfik A, Lin B, Al-Ahmad A, Hsia H, Zei P, Wang P. Conf Proc IEEE Eng Med Biol Soc. 2009: 2009 2478-81, Direct visualization of cardiac radiofrequency ablation lesions. Eversull CS, Lin B, Irani AR, Quigley ML, Mourlas NJ, Hsia HH, Zei PC, Al-Ahmad A, Wang PJ. J Cardiovasc Transl Res. 2009; 2 (2): 198-201, Visualizing ablation gaps in vitro using a deflectable fiber optic endocardial visualization catheter. Irani AR, Lin B, Eversull C, Hsia HH, Zei PC, Wang PJ, Al-Ahmad A. J Interv Card Electrophysiol. 2009; 25 (2): 107-10, A covariance-based algorithm: a novel technique for rhythm discrimination in ICDs. Kamousi B, Lin B, Al-Ahmad A, Hsia H, Zei P, Natale A, Moss A, Daubert J, Zareba W, Wang P. Conf Proc IEEE Eng Med Biol Soc. 2008: 2008 5478-81, Feasibility Testing of Novel Ablation Catheter-based Temperature Measurement Device Bryant Lin MD, Ronald Lo MD, Z Cheng MD, Manuela Kuehnel, Peter van der Sluis, Henry H. Hsia MD, Paul C. Zei MD PhD Paul J Wang MD, Amin Al-Ahmad MD. Cardiostim 2008. 2008, Novel Method to Assess Gap Distance Between Ablation Lesions Lin BY, Eversull C, Chen H, Hsia H, Al-Ahmad A. Featured Poster Heart Rhythm Society. 2006, Extraction of buried P waves from printed electrocardiograms. Lin B, Wang PJ, Mahapatra S, Homoud M, Link M, Estes NA, Al-Ahmad A. Ann Noninvasive Electrocardiol. 2005; 10 (2): 142-5, Contractile actin expression in torn human menisci. Lin BY, Richmond JC, Spector M. Wound Repair Regen. 2002 Jul-Aug; 10 (4): 259-66, Changes in Physical and Biochemical Properties of Cartilage in the Guinea Pig Spontaneous OA Model are Consistent with Hypertrophic Remodeling Lin BY, Sebern EL, Frank EH, Dube N, and Grodzinsky AJ. Transactions of the Orthopaedic Research Society. 1998: 23 130
Board certifications:
American Board of Internal Medicine
Hospital affiliations:
Stanford Hospital


Bryant Lin Photo 2

System And Method To Counter Material Deposition On Devices In The Urinary Tract

US Patent:
2008020, Aug 28, 2008
Filed:
Apr 27, 2007
Appl. No.:
11/796231
Inventors:
Bryant Lin - Palo Alto CA, US
Stewart McCallum - Villanova PA, US
Tatum Tarin - Redwood City CA, US
Ross Venook - Burlingame CA, US
International Classification:
A61H 1/00, A61F 7/12
US Classification:
601 2, 607113
Abstract:
The invention relates to a device and method to counteract the deposition of material on devices that dwell in the urinary tract and which include an operably connected motion-inducing actuator. Counteracting material deposition includes impeding or preventing deposition as well as diminishing extant deposition. Deposition is counteracted by moving the device with the motion-inducing actuator; motion may include movement of the device with respect to its position within the urinary tract, as well as deformational or vibrational movement of the device. Embodiments of the device receive energy from a source either by physical or wireless connection. In some embodiments the motion-inducing actuator is integral with the structure of the device, in other embodiments the actuator is a separate structure. In still other embodiments, the device receives energy directly, without intervention of an actuator. In some of these latter embodiments, the device may include an energy focusing element.


Bryant Y Lin Photo 3

Dr. Bryant Y Lin, Palo Alto CA - MD (Doctor of Medicine)

Specialties:
Internal Medicine
Age:
51
Address:
Stanford Family Medicine Clinic
900 Blake Wilbur Dr, Palo Alto 94304
(650) 723-6963 (Phone)
Certifications:
Internal Medicine, 2005
Awards:
Healthgrades Honor Roll
Languages:
English
Hospitals:
Stanford Family Medicine Clinic
900 Blake Wilbur Dr, Palo Alto 94304
Stanford Hospital and Clinics
300 Pasteur Dr, Stanford 94305
Education:
Medical School
Tufts University School Of Medicine
Graduated: 2002
Tufts Med Center


Bryant Yenfong Lin Photo 4

Bryant Yenfong Lin, Stanford CA

Specialties:
Internal Medicine, General Practice
Work:
Stanford University
900 Blake Wilbur Dr, Stanford, CA 94305
Education:
Tufts University (2002)


Bryant Lin Photo 5

Devices And Related Methods For Treating Incontinence

US Patent:
2007027, Nov 29, 2007
Filed:
Mar 28, 2007
Appl. No.:
11/729118
Inventors:
Bryant Lin - Palo Alto CA, US
Paul Wang - Saratoga CA, US
Joseph Knight - Palm Harbor FL, US
Stewart McCallum - Villanova PA, US
Bertha Chen - Menlo Park PA, US
Tatum Tarin - Redwood CA, US
International Classification:
A61M 27/00
US Classification:
604264000
Abstract:
A device completely disposable within a bodily lumen of a patient and for controlling flow through the bodily lumen having a device body having a proximal end, a distal end and a device lumen within the device body extending from the proximal end to the distal end and a fixation element extending from the outer wall of device body adapted and configured to engage with the wall of the bodily lumen. The device body is adapted and configured to move from a position where the device lumen blocks flow through the bodily lumen to a position where the device lumen allows flow through the bodily lumen. In other configurations, there are one or more valves within the device lumen adapted and configured to move between a position to block flow through the bodily lumen and a position to allow flow through the bodily lumen. There is also a method for implanting a device within a body lumen by placing a device having a device body and fixation elements extending from the device body on a catheter and then dilating the body lumen such that the device body and the fixation elements may advance through the dilated body lumen without the fixation elements engaging the wall of the body lumen. Next, advancing the device to an implant site within the body lumen and then engaging the walls of the body lumen with the fixation elements.