Tuberculosis

Shweta Roy and team are developing a small, electronic, tablet strip holder that enables real-time tracking of patient treatment adherence and inventory. The tablet strip holder will be small in size, embedded with a weighing scale to monitor change in weight of tablet strips and thereby monitor treatment adherence. Any change in the weight of the strip will be recorded on a server via SMS using a telemetric SIM within the holder.

Lazar Mathew and team are working on a smart pill box that tracks exactly the time through radio frequency identification (RFID) of the dose coupled with SMS trigger systems. The pill box can dispense blister packs rather than tablets, and incorporates a timer which can only be programmed by the medicine provider. Medication cannot be taken out before or after certain times, preventing double dosage. SMS reminders will be sent to family members as well. Monitoring of up to 90 dosages will be possible with a table-top dispenser.

Nakul Pasricha and team are working to develop special cards, called myTBdoc cards, with unique alphanumeric identifiers printed on them to be given to medical representatives (MRs). TB medicines manufactured by Lupin will also have unique identifiers printed on them. MRs will give myTBdoc cards to private doctors that see TB patients, educating them on correct TB prescription methods.

Avin Agarwal and team will develop an electronic pill box with the software architecture based on a client-server software solution with hardware integration. The technique involves tracking the weight of the remaining pills through an electronic pill box with GSM connection and pressure sensor. This approach tracks if the pill is taken out of the pill box for consumption and reports this information to the central server. The solution could be as effective as DOT and a lot cheaper to implement.

Shashank Garg and team will develop a mobile solution that addresses problems in adherence to TB treatment through the key technologies of mobile phone-based electronic forms, workflow management, identity management, and electronic health records. The objective is to achieve automated tracking and monitoring of individual TB patients for adherence to the TB treatment protocol. ASHA workers will use the mobile application for collection of dosage intake data in the field. A workflow system will provide a closed loop through SMS alerts in case a patient defaults.

Saleem Mohammed of XCode is developing a platform for publishing, through which "health signals" will be delivered. These health signals are delivered over a subscriber's mobile phone in a snack format comprised of a reminder system through SMS, a reply mechanism for confirmation, a 1-minute audio clip that educates about the disease, and a quiz for engagement and incentives to be awarded accordingly. The SMS acts as a teaser to the audio clip that expands and goes into greater detail about TB drug adherence.

Hilmi Quraishi and team are building a system to enable adherence to TB treatment. The proposed solution is sliced from ZMQ's Fully-Technology Linked Model (F-TLM) for TB treatment and management called the Open and Universal Technology based TB (OUT-TB) Management and Treatment Framework. The framework was developed by ZMQ under its Freedom TB initiative. The proposed solution empowers the patients with active compliance reporting, gamification, and effective self-management of TB treatment using mobile-based tools integrated with miniature DOTS Center Systems and DOTS Provider Toolkit.

Bill Thies and the team of 99DOTS aim to achieve 99% TB drug adherence using a combination of basic mobile phones and augmented blister packaging to provide real-time medication monitoring at drastically reduced cost. The approach is to utilize a custom envelope, or blister card, into which each pack of medication is inserted and sealed by the care provider. When the patient dispenses medication from the blister pack, the pills also break through perforated flaps on the blister card. On the back side of each flap is a hidden number.

Nishant Kumar and team are building a mobile hardware app which can serve an electronic pill box and can be attached to a conventional mobile phone. The hardware attachment has a rectangular sleek design, which can be fixed onto the mobile phone or can be used separately. A mobile application runs on the phone and controls the hardware attachment via Bluetooth. This product also facilitates a novel points-based incentives system to further encourage the patient towards continued adherence. A complementary mobile phone application runs on the handheld devices of the health worker.

Ranjan Nanda and Virander Chauhan of the International Centre for Genetic Engineering & Biotechnology in India will gather breath samples from tuberculosis patients and use gas chromatography-mass spectrometry (GC-MS) to identify and track unique molecules such as volatile organic compounds (VOCs) that might serve as biomarkers to diagnose tuberculosis. The overall goal is to then create a handheld "electronic nose" to diagnose the disease in resource-poor settings.