Shazam At Work
Personalizing fertility and gynaecology care because every woman is unique
Shazam Platform Modules
IVF Success Report
Shazam IVF Success report helps clinicians analytically arrive at patient chances of success with IVF, and associated ET risks. Built on matching each patient’s health parameter with 15 million patients undergone IVF, the report works on matching algorithm helping you counsel better.
Hormonal Dosage Report
Shazam Hormonal Dosage AI module supports clinicians during patient hormone stimulation in their effort to increase the number of mature eggs retrieved and reduce treatment costs. Built on the foundation of a strong human anatomy model, our hormonal dosage module incorporates Poseidon classification and guidance ensuring optimum hormonal usage.
Fertility Dosage Protocols
Shazam ABCD Fertility Treatment module sifts through prior dosages and identifies factors of success of patients with similar health profile to build optimum therapeutic dosage load and pre-clinical treatment protocol to assist the clinician.
Embryo Grading Report
Shazam Embryo Grading AI module that analyzes patient embryos and prioritizes them for transfer using the well accepted Gardner, Veeck-Zainovic methodology. This is a non-invasive investigational diagnostic that uses millions of embryo images to deliver proximate results, real time.
Shazam Frozen Embryo Transfer module helps the clinician generate patient specific FET calendar based on cleavage or blastocyst stage. Clinicians seamlessly build a cascading flow with pre-built recommenders that are intuitive with full flexibility and control.
How Does it Work
Ready > Set > Scale! Shazam helps clinicians personalize fertility care
Shazam powered by AI complements the Clinical care your patients deserve, providing the Clinician an integrated evidence-based approach. Results: Superior Outcomes
Whether its optimum therapeutic dosage or specific treatment protocol we deeply personalize it for every patient because every woman is unique and so is her health profile.
Trusted by doctors
Over 100+ Fertility Experts and Gynecologists trust us. Our solutions are used and recommended by the best and the brightest clinicians.
All our solutions are real-time or near real time with no long winding queues or waiting cycles. Step into any of our network care providers and walk out in 30 minutes.
No side effects
All our therapeutics are purely autologous with zero external additives leading to zero side effects, and fast acting.
Our Superovulation model calculates optimized hormonal dosage for you ensuring optimum medication.
Shazam is as secure data platform that is military grade and all data is anonymized and private. We never sell any data or expose any of data end points.
Discoveries that are well researched and acknowledged by the scientific community alike are picked up by our integrated discovery platform that sifts through thousands of published fertility and gyanecology research,everyday to screen for the best protocol.
Seragen solutions are available at our exclusive high quality nationwide network
Affected by primary infertility, In Vitro Fertilization (IVF) was not successful as the endometrium was thin (never grew beyond 6mm). The pre-treatment thickness was 5.8mm
Affected by primary infertility, and 3 implantation failures owing to thin endometrium (never grew beyond 6mm). The pre-treatment thickness was 5.8mm
Affected by primary infertility, In Vitro Fertilization (IVF) was deemed ineffective as the endometrium was thin (never grew beyond 6mm). The pre-treatment thickness was 6.7mm
Affected by primary infertility, In Vitro Fertilization (IVF) was unsuccessful as the endometrium was thin (never grew beyond 6mm), pre-treatment thickness was 6.7mm
Affected by primary infertility, In Vitro Fertilization (IVF) was unsuccessful, because of problems caused by a thin endometrium (never grew beyond 7mm). The pre-treatment thickness was 7.1mm
Affected by primary infertility, In Vitro Fertilization (IVF) was deemed ineffective, because of the problems caused by a thin endometrium (never grew beyond 7mm)