Where International Medical Training Meets Next-Gen Clinical Innovation

Gain competitive expertise in multi-omics, VPK analytics, and technology-assisted decision support to lead innovation in chronic care and precision health.

Your Learning Journey at a Glance

What you may have learned:

➤ You have strong biomedical training — clinical diagnosis, treatment protocols, and patient safety — aligned with international standards, enabling you to manage acute and chronic conditions effectively.

What you may not know:

➤ You may not be familiar with VPK-based systems biology, integrative diagnostics, regenerative therapeutics, or how to combine traditional and modern medicine safely within global clinical frameworks.

What you will learn:

➤We train you to interpret disease through both biomedical and VPK lenses, use PRISM digital tools, and design scientifically responsible integrative care plans — preparing you for global clinical leadership in regenerative and chronic care.

Basic Certification in PRISM

A globally aligned integrative medicine foundation tailored for internationally trained MDs. You will learn to correlate biomedical assessment with holistic VPK models, gaining skills to interpret clinical data, systems biology markers and PRISM digital diagnostics. This training bridges your conventional medicine background with advanced regenerative & integrative concepts for chronic and end-stage disease care.

Who should join: International Medical Graduates who want cross-system credibility, data-driven integrative skills, and career pathways across India, US, UK, Europe, and emerging global integrative ecosystems.

Outcomes

Dual literacy: Biomedical + VPK diagnostics for personalized care.
Confident collaborative practice with AYUSH and CAM experts.
Ability to design safe, supportive integrative plans within standard clinical pathways

Advanced Certification in PRISM

A hands-on transformation into a leader in regenerative & integrative medicine. Real-world case handling, multi-omics interpretation, and collaborative clinical rotations prepare you to handle chronic and complex diseases that require multidisciplinary approaches. Includes capstone research + innovation exposure aligned with global healthcare standards.

Who should join: After completing Basic course graduates aiming to progress into specialist roles, clinical innovation, international practice expansion, and PhD/PG-level research. Ideal for doctors who want to lead the shift from illness-care to systems-care.

Outcomes

Able to lead integrative teams & manage complex cases with confidence
Capable of innovation: clinical research, protocol & tech development
Globally recognized career pathways across hospitals, industry & academia

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Academic & Clinical Disciplines Covered in I-PRISM

This module explains how scientific discoveries travel from laboratory research to clinical adoption. It covers the full bench-to-bedside chain, including proof-of-concept studies, safety validation, translational bottlenecks, regulatory approvals, clinical implementation, and ethical safeguards. Case examples such as stem-cell therapies, immunotherapy, precision medicine, and tissue engineering show how innovation becomes real treatment.
Objective:
The objective is to shape MDs into evidence-driven, innovation-ready clinicians who understand how breakthroughs emerge and can critically evaluate whether new therapies deserve clinical inclusion. By learning translational logic, physicians gain competence to introduce new modalities responsibly, enhance treatment choices for patients, and play an active role in advancing next-generation regenerative and integrative medicine.

Learners explore the scientific platforms that fuel biomedical discovery — genomics sequencing, proteomics, mass spectrometry, cryogenics, microscopy innovations, cell culture, nanotechnology, and bioassays. Rather than operating equipment, MDs learn what data each technology produces, how reliability is ensured, and how basic research establishes biological truth.
Objective:
The objective is to help physicians become fluent interpreters of laboratory evidence so they can differentiate high-quality research from weak claims, understand how mechanisms of action are scientifically validated, and collaborate effectively with scientists and biotech experts while discussing regenerative or integrative interventions.

This module focuses on how therapies are advanced from fundamental discovery to clinical implementation. It covers clinical trial design, adaptive models, biomarker-based patient grouping, pragmatic research for integrative care, real-world evidence systems, safety surveillance, and global regulatory pathways (ICMR, USFDA, EMA).
Objective:
The objective is to train MDs to bridge laboratory innovation with clinical practice by equipping them to design, interpret, and implement research that supports new therapies. Once skilled in translational methodologies, physicians can lead or contribute to clinical innovation, accelerate safe adoption of emerging treatments, and elevate the scientific credibility of integrative care.

This module demonstrates how mathematical and computational models are used to simulate biology — including physiological systems, disease progression, drug pharmacokinetics/dynamics, and predictive models for treatment outcomes. It supports the shift from intuitive to quantitative decision-making.
Objective:
The objective is to enable physicians to think in measurable, predictive frameworks, allowing them to anticipate disease trajectories, evaluate treatment progress mathematically, and personalize interventions based on modeled predictions rather than trial-and-error approaches.

Physicians learn to analyse healthcare datasets using modern analytical approaches rather than basic biostatistics alone. The module covers data structuring, trends analysis, outcome comparison, health analytics, and introductory machine-learning logic for predictive interpretation.
Objective:
The objective is to empower clinicians to convert raw clinical data into meaningful insights that improve treatment decisions, validate integrative protocols, justify therapies with evidence, and contribute to research publications driven by real patient outcomes.

MDs learn foundational Python programming for healthcare applications — automating data analysis, processing clinical datasets, simulating biological processes, and generating research charts. Training uses real medical data rather than abstract academic exercises.
Objective:
The objective is to transform physicians into technology-enabled problem-solvers who are not dependent solely on external software, but can build, modify, or enhance analytical tools themselves and collaborate fluently with AI, software, and data-science teams in healthcare innovation.

This module trains MDs in the multi-axis diagnostic model used by PRISM: standard clinical diagnostics + biomarkers + digital pulse diagnosis (VPK-18) + Docture-Poly VPK-42 analytics + psychosocial and mind–body parameters. The system focuses on identifying the root-cause physiological imbalance before disease expression.
Objective:
The objective is to upgrade clinicians into system-diagnostic practitioners who can detect subtle deviations early, understand chronic illness development holistically, and build precise, personalised treatment strategies instead of relying only on symptomatic diagnosis and late-stage pathology.

MDs learn how therapeutics are produced under Good Manufacturing Practices (GMP), including herbal formulations, nutraceuticals, bioactive compounds, biologics, regenerative products, and advanced extracts. Topics include standardization, purity testing, stability profiling, and safety validation.
Objective:
The objective is to enable physicians to judge the quality and reliability of integrative and regenerative products, prescribe scientifically standardized formulations with confidence, and collaborate with R&D and industry partners in developing safe, evidence-based clinical products.

This module explores the chemistry of medicinal plants — identifying the active phytocompounds responsible for therapeutic activity, extraction and concentration methodologies, and modern scientific validation of plant-based interventions.
Objective:
The objective is to transform MDs into scientifically-trained integrative prescribers who can understand, justify, and combine herbal and pharmaceutical treatments safely by knowing their chemical mechanisms and interaction profiles.

Learners use computational and programming tools to work with biological datasets — including genomics, transcriptomics, proteomics, metabolomics, pathway analysis, and compound–receptor interaction datasets.
Objective:
The objective is to empower physicians with the ability to personalize treatment using patient-specific biological markers, analyse molecular signatures relevant to chronic disease, and support precision-integrative interventions using multi-omics insights.

MDs learn foundational medical Sanskrit to interpret key phrases, concepts, and terminology from classical Ayurveda texts. The focus is on reading and understanding rather than fluency.
Objective:
The objective is to give clinicians direct access to original Ayurvedic knowledge, allowing them to understand classical concepts accurately and scientifically rather than relying solely on secondary interpretations, thus fostering deeper collaboration between traditional and modern medicine.

This capstone module integrates all previous scientific training to apply Ayurveda and integrative medicine using a translational, clinically responsible approach. Learners study doshas, dhatus, agni, ama, seasonal physiology, mind–body connections, and evidence-supported CAM therapies for chronic disease management.
Objective:
The objective is to empower physicians to design safe, personalised, scientifically justified integrative treatment plans that address root-cause physiology while preserving the standards of modern medicine, transforming them into globally competent regenerative and integrative medicine practitioners.

Application Process

Stage – 1

Eligibility & Application

Candidates must hold MBBS/MD qualification with internship and medical registration, and submit NEET-PG / INI-CET / USMLE score along with CV, SOP & references.

Stage – 2

Score Normalization

Academic Index is calculated using standardized weights from entrance exam percentile (60%) and graduation marks (40%) to ensure fair comparison.

Stage – 3

ISAT Examination

Applicants attempt ISAT assessing clinical reasoning, pathophysiology, investigation choice and readiness for integrative systems medicine.

stage – 4

Shortlisting

A combined CPIS merit score (AI + ISAT) is used to rank and shortlist the top candidates for interviews.

stage – 5

Interview

Focused on evaluating patient-safety judgment, clinical red-flag recognition, and openness to evidence-based integrative thinking.

stage – 6

Final Selection

Final Selection Score (Academic + ISAT + Interview) determines ranking; offers issued to those meeting competency and suitability thresholds.

stage -7

Enrollment & Bridging

Selected candidates complete documentation and undergo bridging modules like introductory data scie nce to prepare for coursework.

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