177 results about "Doctor's office" patented technology

Applications of RFID technology include: RFID Tags on Automobiles in Parking Garages; RFID w/Toothbrushes; RFID Tags For Laundry Settings; RFID Tags Or Labels to Find a Mate; RFID To Identify The Value Of Coins; RFID Tags In The Doctors Office; RFID Tags Or Labels In Game Arcades; RFID With Prisoners; RFID Tags To Identify Soldiers; RFID Labels As Tags To Label Particular Components Of Aircraft or Other Structures; Car, Snowmobile, Boat, Etc. Ignition That Won't Start Without RFID Card; Car seats with RFID reader and memory; Air bags that adjust based on information on RFID; Car that keeps track of GPS info and knows whos driving based on RFID; RFID Smart Closet; Method of taking attendance; RFID on networked desks to monitor the location of individuals; Personal computer reads RFID to log you in and take you to favorite web page, load favorites list, etc.; RFID labels on Files; RFID address label versions of all label and sheet inventions; RFID sports tickets; Combination function invitation and RFID chip to allow admittance; Roll of tape with RFID built in; Schoolbus reads which kids getting on, keeps record; RFID on each car wheel; RFID key to operate common-area laundry; RFID to automatically adjust weights/treadmill settings in gym; RFID w/clothes measurements, save shelf space at store, get proper size; RFID keyring w/car information; Keep track of who's driving around neighborhood; RFID dental implant; RFID Thumbtack; RFID Doorstop; RFID identification of boats or ships at docks; RFID on cups w/specifics of favorite coffee drinks; RFID on bridges with RFID tanks on top of cars, to detect speeding; RFID on studs in a wall and RFID reader that acts as a stud finder; RFID tags or labels inside tires; RFID cards supplied with newspapers or magazines; RFID card that lights up a when the user reaches a particular location; RFID sports ticket w/automatic map generation to seat; RFID card to tell school cafeteria what lunch to prepare for particular student; student desk with slot to receive RFID card, desks on networks together, Central computing system can tell where any particular student is sitting at any given moment within the school; RFID readers on outdoor play equipment; Authentication of Expensive Items With RFID; Paintings or other art work with RFID label to be used to verify the number in a limited series; RFID on sports helmet or uniform; RFID chips in paint; RFID cards issued to airline passengers to identify type of drinks and meals for a particular passenger, etc.; Greeting Cards With RFID; Decorative Tiles With RFID Tags; RFID in Car Washes; and Adaptive Advertising Based on RFID Information.

A portable digital patient assistant includes an RFID reader, a central processing unit for processing signals received from the RFID reader, a memory for storing data, and an output operatively linked to the central processing unit for providing output information regarding use of medicinal drugs. Methods for using the portable digital patient assistant include use at the doctor's office, pharmacy, emergency medical vehicle, hospital, home, and use while taking medications to the verify authenticity thereof and prevent drug overdoses. Related methods and systems for manufacturing, packaging, and shipping medicinal drugs to prevent the distribution of counterfeit drugs are also provided. One of the methods includes the steps of preparing a predetermined amount of a specific type of drug for patient end-users; forming discrete individual doses of the specific type of drug; and associating a respective RFID tag with each of the discrete individual doses of the specific type of drug so that when the specific type of drug is distributed to the patient end-users, at least one RFID reader may be employed to read the RFID tags associated with each of the discrete individual doses to thereby verify the authenticity of the doses as they move through a distribution channel from a manufacture to the patient end-users.

A combined vascular access port and physiologic parameter monitoring device. The vascular access port and the monitoring device may be connected by a cooperative geometry. The vascular access port and the monitoring device may be implanted at the same time and in the same anatomical location (e.g., subcutaneous pocket). The monitoring device may include a telemetry unit that transmits physiological measurement data to a local data collection system (e.g., carried by the patient or located in the patient's home), which may re-transmit the data to a remote data collection system (e.g., located at a physician's office or clinic) via a suitable communication link.

Systems, methods, apparatus and devices for performing improved gynecologic and urologic procedures are disclosed. The system is configured to permit simultaneous tissue cutting and removal from a target site. The various embodiments enable procedures to be performed outside the hospital setting, such as in a doctor's office or clinic.

Methods and systems for rapidly and conveniently creating prescriptions through the use of portable digital assistants (PDAs) and bar code scanning technology are provided. Prescriptions are created using a form-based approach in which prescribing options are presented to the prescriber for selection. The system allows entry of medication and patient ID by scanning bar codes. A bar code is generated for each prescription and is used to access the prescription information in a database. The bar code and prescription information can be printed on a ticket, which can be presented at a pharmacy when the prescription is picked up. The use of bar codes allows several levels of checking to ensure that the correct medication is dispensed and that the prescription is valid. Prescription information is transmitted between prescribers and pharmacies via a central site at which prescription information is stored. In a preferred embodiment of the invention communication occurs over the Internet, and the creation and transmission of prescriptions are coordinated by a World Wide Web service which sends Web pages to PDAs to present and gather prescription information. The Web pages can provide links to patient and medication information, and the system can advise the prescriber if there is a contraindication to the medication about to be prescribed. The Web service transmits prescription information to pharmacies, receives notification when prescriptions are fulfilled, and can perform other functions such as notifying patients or physicians when prescriptions are close to running out. The Web service can further be used to keep track of medication sample package inventories at prescribing locations such as physician offices. Prescription data can be used to perform market research in a timely fashion.

Systems, methods, apparatus and devices for performing improved gynecologic and urologic procedures are disclosed. The system and devices provide simplified use and reduced risk of adverse events. Patient benefit is achieved through improved outcomes, reduced pain, especially peri-procedural pain, and reduced recovery times. The various embodiments enable procedures to be performed outside the hospital setting, such as in a doctor's office or clinic. An intrauterine access end procedure system includes a mechanical distension element, to eliminate the need for liquid distension media at pressure sufficient to create a risk of intravasation.

Systems, methods, apparatus and devices for performing improved gynecologic and urologic procedures using a flowable distension media are disclosed. The system and devices provide simplified use and reduced risk of adverse events. Patient benefit is achieved through improved outcomes, reduced pain, especially peri-procedural pain, and reduced recovery times. The various embodiments enable procedures to be performed outside the hospital setting, such as in a doctor's office or clinic.

Method and apparatus for managing the physician referral process, whereby a referring physician (e.g., a primary care provider) refers a patient to another physician (e.g., a specialist) for a particular medical procedure, analysis or care. An aggregator provides systems and methods available to physicians and their administrative staff (herein collectively referred to as physicians or doctors) to: book appointments on behalf of their patients online through a doctor directory and calendar function; filter available doctors by specialty, subspecialty, procedure, insurance participation and/or hospital network; transfer a patient's personal information, medical history and pre-selected insurance forms from one doctor's office to another's, electronically; transfer and upload relevant forms and paperwork via fax from one doctor's office to another; track referrals historically (over time) on a by-doctor or by-patient basis; facilitate referrals to and from doctors in a certain network or group.

A system for securely providing prescription medication to patients. The system accepts prescriptions that are submitted from either a physician's office or by the patient at a Kiosk. An electronic image of the prescription is created by scanning and is electronically communicated to a central server. The prescription is validated by the server and a point of delivery, such as a pharmacy is selected based upon the patient's location. The prescription image is then transferred to the point of delivery and the prescribed medicine is delivered to the patient. A confirmation of delivery is then communicated back to the central server.

The present invention is directed to the development of a biosensor based on the immuno-chromatographic method that can provide an assay speed and convenience required for point-of-care (the doctor's office and emergency room) testing or home-version diagnosis. Though certain physical symptoms, such as pregnancy and ovulation, or bacterial infection may be identified by a qualitative analysis for the presence of indicating substances, most analytes for clinical investigation demand their concentrations known in specimens. Therefore, the inventors of the present invention have developed a novel biosensor by combining the immuno-chromatographic method and the electric conductivity detection technology so that on-site quantitative determination at the points of care or at home may be carried out.

Systems, methods, apparatus and devices for performing improved gynecologic and urologic procedures are disclosed. An intrauterine access and procedure system includes a laterally deflectable sheath. The various embodiments enable procedures to be performed outside the hospital setting, such as in a doctor's office or clinic.

A method and system for facilitating the filling out of a medical evaluation form online and/or for facilitating the reviewing of the medical information form online are disclosed. By filling out the medical information form online, the form can be filled out generally anywhere and generally any time prior to a consultation with the doctor. Assistance with the filling out process can be provided, such as by a friend or relative, without requiring that the person providing the assistance accompany the patient to the doctor's office. A doctor can review the medical evaluation form generally anywhere and generally any time prior to the consultation. On line and face-to-face medical evaluations and interactions can potentially be made safer, more efficient and of higher quality by using such a process.

The invention relates to methods, apparatus, articles-of-manufacture, and coded data signals for measuring cardiac output, limb blood flow, perfusion, blood pressure, artery elasticity, and cardiovascular deterioration and disease, including performing these measurements on a continuous heart beat-by-beat basis, for humans and animals. Unlike empirical methods of other noninvasive blood pressure concepts, the invention is grounded on scientifically appropriate hemodynamic principles that studies have validated as accurate, and is practical for wide clinical use. Devices constructed in accordance with the invention can be comfortably employed for numerous applications, including hospital monitoring, physician's office cardiovascular disease management and drug therapy monitoring, home monitoring, and athletic applications.

The invention may be implemented in a variety of single or multi-sensor embodiments, such as: invasive pressure cannula sensor systems; non invasive pressure transducer arrays and piezo or other strain sensing materials that are placed against the skin above arteries; “upstream” pulsing-sensors (that apply single or multi-frequency vibrations that are measured “downstream” from the first placement location); other types of plethysmographic sensors; sonic/ultrasonic/Doppler sensors; MRI blood spin magnetizer/sensors; oxygen sensors; and electrocardiographic sensors, etc.

A novel telehealth video conferencing system (process) that is designed to enable the patient user to have a real-time or near real-time 2 way tele-conference/consult including the transfer of patient specific biometric information with a health care provider team (one or more health care providers simultaneously, i.e. a team consisting of a pharmacist, physician, mental health provider, clinical lab, mental health provider, orthopedist, podiatrist, dentist, clinical specialist, etc. . . . ) located remotely from the telehealth digital/video patient user portal. The present invention, the IPWP is an interactive-digital health care provider network to patient portal designed to provide patients with the same level of quality care that they would expect to receive if they were physically in a multispecialty doctor or health care providers' (nurse practitioner, physician assistant, dentist, ophthalmologist, orthopedist, podiatrist, medical specialty clinic, hospital, etc. . . . ) office. However, the patients that utilize the IPWP will interact with their health care provider/s on a computer/notebook/smart device screen/monitor via existing secure digital web or cellular camera technology in a mobile or stationary, enclosed/private HIPP compliant environment at a retail pharmacy or a pharmacy supported location (workplace, educational facilities, retail stores, etc. . . . that have an in-house, adjacent or an electronic dispensing pharmacy). Current statistics demonstrate that 80% of primary care provider visits result in the health care provider writing a script for medication. Medication management is critical to safe, effective quality care and has been an issue of health care reforms Accountable Care Organization concept since 2009. In order for the patient to receive comparable care to what they would receive in a multispecialty provider/doctor's office with an onsite pharmacy, the IMP will combine the use of existing biometric sensor technologies (i.e. Strain Gauge Tech, IR Thermometer, etc.) in order for the system to take patient real time biometric information such as height, weight, blood pressure, pulse, EKG, blood glucose, body temperature, etc. . . . as well as identify the patient positively by both video capture and biometric scanning (fingerprint, iris scan, driver's license photo, etc. . . . ). It also has the capability to upload information from certain glucose readers in order for the physician to better assess a patient's blood sugar levels and may incorporate the use of magnified micro camera technology and lighting to look at a patient's microanatomy (ear canals, nasal passages, skin conditions, color and eye examination, etc. . . . ). In addition to the use of sensor technology the IPWP can incorporate the use of antimicrobial materials or technologies (copper ions, silver ions, UV light, HEPA filters, etc. . . . ) to reduce the communication of disease from patient to patient. The monitor, web camera, and other vital components will be designed to be permanently or temporarily (mobile system) located within a secure/private enclosure at a pharmacy or pharmacy supported location (private kiosk, room, booth, enclosure, space, etc. . . . ). All patient information and electronic forms will be transmitted via a secure encrypted web based digital or cellular portal to multiple providers as needed simultaneously for a seamless 3-way (or more) consultation/communication. The IPWP will be linked to a smartphone/computer/Internet/web app that will allow the patient to view availability and schedule appointments at their local pharmacies IPWP or alternatively on a walk-in, as needed basis. Lastly, the unit will be equipped with electronic payment technologies such as card (swipe) readers, etc. . . . to capture/collect payment from credit cards, PayPal and debit cards for all health care services provided including, but limited to co-pays, payments, prescriptions, lab test, etc. . . . .

In summary the ability of the patient portal system to provide real time, multiple simultaneously communicating health care providers with real time biometric information (including the onsite or tele pharmacist) is a novel process not limited to the single provider video/audio access currently patented. This new dimension to telehealth promises a telehealth experience that at a minimum matches the diagnostics ability and access of a multispecialty clinic or traditional hospital setting while exceeding the clinical/diagnostic ability of a single health care provider's office or clinic that is more accessible at a 50% reduced cost and resulting in better health outcomes.

Using a secure portable reference to medical information, stored on a portable storage medium, various embodiments allow a patient to give to their doctor an easy-to-use access key that will enable access to desired medical information stored on a computer network. The secure portable reference provides greater transportability of medical records to a patient or medical data repository including a doctor's office, clinic, or hospital, while maintaining data security to satisfy medical data privacy regulations and expectations. Some described embodiments use encrypted information inside the secure portable reference to hide, for example, who is allowed access to the stored medical information, and the network location of the stored information. Some embodiments use a secret PIN to authenticate the user attempting access to the referenced medical information. The secure portable reference contains information on network resources used to enable download access to medical information, including medical records and medical images.

Waste disposal device includes a container, a lid, and a rotation mechanism that rotates a waste-containing member when present in the container. A slide mechanism enables opening movement of the lid to cause the rotation mechanism to rotate the waste-containing member or prevent the rotation mechanism from rotating the waste-containing member depending on its setting. A foot pedal assembly includes a foot pedal and a spring, and causes both opening of the lid when the foot pedal is depressed and closure of the lid when the pressing force is removed. The spring is moved against its bias upon depression of the foot pedal and returns to its original state when the pressing force is removed to cause closure of the lid and rotation of the waste-containing member. The device may be used for medical waste from hospitals, doctors' offices, home health care personnel and facilities, nursing homes, and biohazard laboratories.

An activity monitor which can be pre-programmed at the factory, the doctors office or the pharmacist, or that can be programmed by the user. The activity monitor is affixed to a medicine bottle or container and activity associated with the bottle or container, such as movement, opening, volume changes, etc. are monitored in view to the schedule. The activity monitor records and allows for the analysis of the recorded data to determine is there is a likelihood of substance abuse.

A payment system for spending accounts is provided. The payment system includes a qualified vendor system, such as a point of sale system at a doctor's office, that generates purchase data and point of sale data, such as a co-pay amount, a credit card number, and a point of sale device identifier. An account management system receives the purchase data and point of sale data and generates authorized purchase data, such as by determining whether payment of co-pay can be automatically authorized based on pre-qualification of the doctor's office as an authorized source.