Necessity of strengthening the current clinical regulatory for companion diagnostics: An institutional comparison of the FDA, EMA, and MFDS

Companion diagnostics (CDx), which is essential in precision medicine, is changing to a personalized treatment approach. CDx is a test that identifies patients who can benefit from a specific drug and those who experience side effects of drugs for safe and effective treatment. Conversely, when CDx has inadequate diagnostic performance or has not been adequately validated in a particular treatment, treatment prediction based on diagnostic results is not possible. Given the importance of CDx for the clinical use of biomarkers, strict regulation is essential. Regulators are providing more stringent regulations and are developing or revising guidelines. For example, the EU’s In Vitro Diagnostic Regulation has defined CDx for the first time, raising awareness of the importance of CDx. However, if a new clinical performance test needs to be performed to meet the latest specifications or requirements for clinical data, problems such as securing clinical samples or institutions, cost, and time may occur. Therefore, an efficient clinical regulatory process may be required to meet stringent regulatory requirements. This study examines the need to strengthen the current clinical regulatory framework for CDx through an institutional comparison of regulatory agencies (FDA, EMA, and MFDS).


INTRODUCTION
Precision medicine is changing the treatment of many diseases through targeted testing and treatment approaches.Companion diagnostics (CDx) based on biomarkers is essential for individualized treatment. 1CDx pre-selects patients suitable for a targeted therapy.It also detects specific biomarkers to identify patients who might benefit from a particular drug and those who might be at risk of experiencing side effects. 2 Thus, patients expect better effects through personalized medical care.Accordingly, the demand for CDx is gradually increasing. 3eatment prediction based on CDx results is not possible if the diagnostic performance is inadequate or the test has not been adequately validated for a particular treatment.The strict regulation of CDx is essential, as clinical uses of biomarkers are important. 4CDx was recalled or removed from the market in 2019 due to inaccuracies in diagnostic performance.The United States Food and Drug Administration (FDA) recalled a CDx (FoundationOne CDx) used to identify colorectal cancer patients eligible for treatment with target drugs because of concerns about potential false-positive MSI-H (microsatellite instability marker-high). 5 the number of CDx grows, regulatory agencies are proposing tougher regulations and guidelines.The FDA has strengthened its leading position in providing a regulatory environment for CDx since the first approved CDx. 6,7In particular, the definition of CDx was established in guidelines published in 2014, and guidelines for co-development and labeling are consistently presented.The newly presented In Vitro Diagnostic Regulation (IVDR) in the European Union (EU) has established strengthened clinical and regulatory requirements.It directly refers to regulatory requirements for CDx.The clinical regulation of CDx in the Ministry of Food and Drug Safety (MFDS) of Korea emerged with the development of guidelines in 2015.In 2018, separate guidelines for safety, performance, and protocol evaluation, different from the 2015 guidelines, were presented.
Various studies have been conducted on the clinical regulation of CDx.Studies examining the requirements of clinical regulations of CDx and the challenges of clinical implementation increased from 2014 to 2020 after the definition of CDx was first established by the FDA.A study in 2014 by Olsen and Jørgensen considered the scientific and medical challenges of CDx in achieving a high level of analytical and clinical validity, with a focus on regulatory requirements in many parts of the world. 8In 2015 Lee and Shen described the regulatory model for CDx in the United States and discussed key strategies for a successful co-development program, changes in clinical management as technology advances, and regulatory considerations. 9Recent studies have reviewed and updated new or existing regulations on the European side according to the application of the IVDR.Enzmann et al. ( 2016) reviewed potential problems caused by the new EU regulations, suggesting the importance of a close relationship and interface between pharmaceuticals and CDx. 10 Studies have also been conducted to consider the challenges of clinical implementation faced by CDx due to regulatory tightening 1 and discuss their impact. 11However, when a new clinical performance test needs to be conducted to meet the latest specifications or requirements by the FDA and MFDS and recertified according to IVDR in EU, problems such as securing clinical samples or institutions, cost, and time taken for clinical trials may occur. 12An efficient regulatory framework may also be required to address the challenges arising from stringent regulatory requirements.Although existing studies have reviewed regulatory changes and discussed challenges posed by strict clinical regulation, no studies have conducted institutional comparisons by country (FDA, European Medicines Agency [EMA], and MFDS) on the need to strengthen the process or framework for efficient clinical regulation.
Thus, the objective of this study was to review the need to strengthen the current clinical regulatory framework for CDx by comparing the requirements of regulatory agencies (FDA, EMA, and MFDS).

LITERATURE SELECTION AND DATA COLLECTION
Approval status of CDx products was analyzed in the databases of regulatory agencies by country to February 2023. 13,14Europe was excluded from the search because of restrictions on access due to the transparency of approval information at the notified bodies, responsible for approving CDx in the EU.Guidelines published by regulatory agencies by country (FDA, EMA, and MFDS) were used for institutional comparisons.Although this study focused more on analyzing the guidelines, which included the contents of CDx clinical regulations, reports and seminar data were also reviewed for a broader analysis from various perspectives, such as that of industry.

DATA EXTRACTION AND ANALYSIS
Diagnostic name, manufacturer, indications, diagnosis method, description, and intended use were extracted from the collected list to analyze approval status.Only performance (analytical and clinical performance) and usefulness (clinical trial) evaluation methods to secure the safety and efficacy of CDx were extracted in the institutional analysis of regulatory agencies (FDA, EMA, and MFDS).Content on analysis and clinical verification, or clinical efficacy and significance, were extracted from the guidelines related to clinical regulations for institutional comparisons.
The total quantity of CDx products approved by the FDA and MFDS, the intended use, and the proportion according to indication type and diagnosis method were included in the approval status analysis.Differences between institutions were analyzed according to performance evaluation and clinical trial.Based on the findings, an SWOT (strengths, weaknesses, opportunities, and threats) analysis was conducted to review the need for strengthening the current clin-ical regulatory framework for CDx.The overall research model is shown in Figure 1.

OVERALL ANALYSIS
6][17][18][19][20][21][22][23][24] The FDA published the "In Vitro Companion Diagnostic Devices" guideline in 2014, establishing the definition of CDx for the first time.CDx was defined as: an in vitro diagnostic (IVD) companion device that could be essential for the safe and effective use of a corresponding therapeutic product (identify patients who are most likely to benefit, be at increased risk for serious side effects as a result of treatment with a particular therapeutic product, and monitor response to treatment to achieve improved safety or effectiveness).The FDA categorizes devices into three classes (1, 2, and 3) based on the risk that might be assigned to the patient or user.Most class 1 devices are exempt from pre-market notification (510(k)) requirements, class 2 devices follow 510(k), and class 3 devices follow premarket approval (PMA).CDx is class 2 or 3, and follows the 510(k) or PMA pathway under the federal Food, Drug, and Cosmetic Act.In particular, there are differences in the regulatory pathway depending on whether a new drug or device is approved, and the evaluation of technical documentation also depends on the approval pathway (510(k) or PMA).With the introduction of the IVDR, the EMA newly established the definition of CDx as a device that is essential for the safe and effective use of a corresponding medicinal product (identify patients who are most likely to benefit and to be at increased risk of serious adverse reactions as a result of treatment).Definitions of CDx established by the FDA and EMA show a clear difference.The FDA includes "devices that monitor response to treatment" in the definition of EMA.The IVDR assigns devices to four risk classes (A, B, C, and D) based on patient and public health risks.EMA classifies CDx as class C according to rule 3, and requires independent conformity assessment and technical document evaluation for the CDx.The MFDS generally follows regulations similar to those of the FDA and defines a CDx as a test system that performs tests that predict the responsiveness and safety of a drug for use in the treatment of a specific patient (selection of patients who can expect a high effect or risk of serious side effects by specific treatment, determining the dosage, timing of administration, and discontinuation of administration, and selecting patients from a group that has been confirmed to be effective through sufficient research).The MFDS classifies IVDs into four classes (1, 2, 3, and 4) according to the degree of potential risk to individuals and public health.CDx are categorized as class 2 or 3, and the regulatory path varies depending on the development path (new or existing approval) (Table 1).

ANALYSIS OF APPROVAL STATUS
We identified CDx approved by the FDA and MFDS.A total of 53 and 32 products have been approved by the FDA and MFDS, respectively.As a result of the analysis, various types of CDx were identified according to intended use, indications, and diagnosis method.Detailed analysis results are presented in the supplemental information (Tables S1 and S2; Figures S1 and S2).The FDA considers intended use, the selection of an appropriate study population, and the minimization of specific sources of bias as important factors influencing the design of clinical investigations of diagnostic devices (Table S3).Diagnostic clinical performance is evaluated by a measure that quantifies how closely the output of a diagnostic device correlates with the clinical reference standard used to evaluate patients for that purpose.The selection of appropriate clinical performance measures will depend on the device's intended use, characteristics, and clinical reference standard, and the study goal is set to establish the diagnostic clinical performance of the device to support a risk-benefit analysis.Performance evaluation of a CDx can be achieved by evaluating analytical performance, clinical performance, and method comparison. 25well-controlled clinical investigation is essential for demonstrating the scientific evidence and effectiveness of a device.According to Code of Federal Regulations title 21 (21 CFR) 860.7, valid scientific evidence is evidence of well-controlled investigations, partially controlled studies, unmatched controlled studies and objective trials, well-documented case histories conducted by qualified professionals, and significant human experience reports for marketed devices. 26here appropriate, the type of evidence that may be needed to deter-mine the reasonable assurance that a device is safe includes investigations using laboratory animals, human subject investigations, nonclinical studies, and analytical studies of IVDs.A device can be demonstrated to be effective if, on the basis of valid scientific evidence, it can be determined that it is applied for its intended use and conditions of use for a significant portion of the target population.The plan, protocol, and results of the clinical study should include: the scientific rationale for the study, population definition (including selection and exclusion criteria), the intended use, endpoint, protocol, and outcome analysis method (statistical analysis, including data analysis) (Table S4).Verification of such a CDx should include procedures from sample preparation to the reporting of results. 9

Europe (EMA)
Regulations on clinical evidence were strengthened when Europe transitioned from In Vitro Diagnostic Medical Device Directive (IVDD) regulations to the IVDR.Accordingly, the manufacturer must specifically describe and justify the level of clinical evidence and plan, and conduct and document the performance evaluation.Therefore, based on the latest knowledge in the medical field, scientific proof must be provided that the intended clinical benefit can be achieved and that the device is safe in accordance with the following three indicators. 27

Definition
in vitro diagnostic devices that provide essential information for the safe and effective use of the treatment -identify patients who are most likely to benefit from a particular therapeutic product -identify patients likely to be at increased risk for serious side effects as a result of treatment with a particular therapeutic product -monitor response to treatment with a particular therapeutic product for the purpose of adjusting treatment to achieve improved safety or effectiveness a device which is essential for the safe and effective use of a corresponding medicinal product -identify, before and/or during treatment, patients who are most likely to benefit from the corresponding medicinal product -identify, before and/or during treatment, patients likely to be at increased risk of serious adverse reactions as a result of treatment with the corresponding medicinal product a test system that performs a test to predict the reactivity and safety of a drug in order to use it for the treatment of a specific patient -selection of patients who can expect a high effect on a specific treatment -selection of patients at risk of serious side effects by specific treatment -determining the dosage, timing of administration, and discontinuation of administration for a specific treatment in a specific patient -select patients from a group that has been confirmed to be effective through sufficient research on the treatment itself, even though information on the safety and effectiveness of the treatment is lacking in other groups

Class class 2 or 3 class C class 2 or 3
Regulatory path review and approval under the Federal Food, Drug, and Cosmetic Act (FD&C Act) and related medical device regulations (1) for new therapeutics, verifying that the device has been adequately validated and meets applicable standards for safety and effectiveness or substantial equivalence for the intended use indicated in the therapeutic product's labeling (2) approval of therapies without an approved IVD device -new therapies to treat serious or life-threatening conditions : may decide to approve a therapeutic product if it is intended to treat a serious or life-threatening condition for which no satisfactory alternative treatment exists and for which there is a benefit to using an IVD -already approved treatment : in general, supplementation of previously licensed treatments is not permitted until the device is approved, but change approval is possible if it is judged that there is a risk due to lack of device notified bodies shall apply for all devices the technical documentation assessment procedure described in section 5. www.moleculartherapy.org

Review
Scientific validity: how good is the evidence for the associations between biomarkers and clinical or physiological conditions?Analytical performance: how well does the device detect the biomarker?Clinical performance: how good is the device at selecting patients who will respond to the drug?Scientific validity is supported by studies evaluating analytes for potential clinical applications in the international medical device regulators forum.Analytical performance evaluates the probability of how well a device detects a biomarker.Clinical performance has a different goal from that of analytical performance.Analytical performance research focuses on the analysis target, and clinical performance research focuses on the patient.There are two options for clinical performance data.
Clinical performance defined as a correlation with a clinical condition or disease: clinical performance data and reports are required for devices that measure a specific analyte that is associated with a clinical condition or disease and has a medical decision point (cutoff).Clinical performance defined as a correlation with a physiological or pathophysiological state: analyte measurements that do not have a clear medical decision point (cutoff) or those that are not related to clinical status may be defined as being correlated with physiological or pathophysiological conditions, or justification for missing clinical performance data may be considered.

Korea (MFDS)
The MFDS applies a risk-based approach to review the intended use (whether it provides reasonable certainty about safety and effectiveness) and the level of risk resulting from a false-positive or false-negative result.The evaluation is based on the premise that when an in vitro companion diagnostic device (IVD-CDx; the English name in MFDS) uses biomarkers to select patients for drug administration, the safety, efficacy, and efficiency of the drug are directly affected by the performance of the device.Therefore, evaluations are performed four ways: evaluation of the IVD-CDx in pharmaceutical clinical trials, evaluation of IVD-CDx equivalence, and analytical and clinical performance evaluation.Clinical significance and clinical cutoff values for an IVD-CDx should be established and evaluated using the results of pharmaceutical clinical trials conducted on patients classified according to IVD-based tests.Therefore, when applying for permission, an explanation of the clinical trial results of the relevant drug, including information on the name of the drug used in the clinical trial, test name, test method, and summary of the test results, should be provided.

Institutional comparison
Clinical validation requirements for CDx in the United States, Europe, and Korea have a common goal of ensuring CDx accuracy and reliability.In addition, for the purpose of performance evaluation of CDx by country (FDA, EMA, and MFDS), there is a commonality in that the purpose of use is important to secure safety and effectiveness.However, differences in evaluation method exist because of the unique requirements of each regulatory agency.In particular, FDA values associations between product characteristics and clinical reference standards, while MFDS values risk-based evidence collection for safety and efficacy.
In analytical performance, the FDA specifies that it should consider the type of studies needed to support marketing approval of the device and be planned accordingly.Analytical performance should collect appropriate criteria for sample collection and the handling or control of endogenous and exogenous interferences and cross-reactivity, including analytical sensitivity, analytical specificity, precision (repeatability and reproducibility), accuracy, limits of detection and quantification, measurement range, linearity, and bias.In the EMA, reports of the new requirements for providing clinical evidence (scientific validity, analytical performance, and clinical performance) are mandatory.Therefore, the manufacturer must demonstrate the conformity of the device to general safety and performance requirements by evaluating all relevant scientific validation, analytical data, and clinical performance data.Clinical evidence must document the following items in the performance evaluation report: justification of the approach taken to collect clinical evidence, literature search methodology, and literature search protocol or report; the technology or device on which the device is based or its intended purpose and the performance or safety claims of the device; scientific validity and the nature and extent of the evaluated analytical and clinical performance data; clinical evidence as acceptable performance for state-of-the-art technology in medicine; post-market performance follow-up and any new conclusions derived from the report.In particular, performance evaluation reports for class C devices should be updated with data at least annually, if necessary.The performance evaluation report shall be part of the technical documentation.Demonstration of scientific validity and analytical and clinical performance should be assessed by identifying unresolved issues or gaps in the data and reviewing available data related to test devices and their intended use by a systematic scientific literature review and an assessment of the safety and performance of the device conducted by evaluating all relevant data and generating new or additional data needed to resolve outstanding issues.The MFDS evaluates whether there is a change in the user or environment to confirm the reliability of the product itself.Evaluation indicators include accuracy, precision, specificity, measurement of quantification range or detection limit, point and linearity interval, analytical cutoff, standard material, sample information, interference reaction, and possibility of contamination.The cutoff value is intended to indicate a point at which subjects suitable for randomization can be reliably identified, appropriate doses selected, or other clinical trial decisions made.Thus, a positive or negative point for the target marker should be specified.Specifying the cutoff before using the test in a clinical trial is a very important point because a change in the cutoff can change the patient classification (positively or negatively).The statistical analysis plan should include a sensitivity analysis for missing results and should compare the distribution of variables (characteristics of the sample, handling, and treatment) that may affect the results of the analysis.In particular, the impact of missing data on clinical performance (e.g., hazard ratios for subsets of marker definitions) should be analyzed.In late-stage therapy development, if a clinical trial is properly designed for a population based on marker detection, the results can be used to establish the clinical effectiveness of the device.The appropriate clinical trial design will depend on the intended use of the device and the predictive or prognostic properties of the markers, but may include factors such as the intrinsic properties of the markers (predictive, prognostic, or useful), disease progression, safety profile, and negative population (potential benefit).According to FDA guideline 2016, to prove that the results of the "training set (candidate CDx)" sample used to establish the clinical decision point and analysis criteria are very similar to the clinical trial assay (CTA), a "bridging study" between the two tests can be conducted by utilizing the original sample and a pre-specified statistical analysis plan.This evaluates the concordance between the two tests using the same sample of eligible patients to evaluate the effectiveness of the treatment in patients whose marker status was determined by the candidate CDx.High analytical concordance with the CTA indicates the high performance of a candidate CDx in predicting the effective-ness of a therapeutic agent. 18According to the EMA, clinical performance must be demonstrated and maintained throughout the lifetime of the device as specified by the manufacturer, including diagnostic sensitivity, diagnostic specificity, negative or positive predictive values, likelihood ratio, and expected values in normal and affected populations.The indicators of clinical performance are highly dependent on the intended purpose and, in the case of a CDx, the purpose is divided into treatment stratification (predicting treatment response) and treatment selection (intended use of the selected CDx) (Table S5).Performance evaluation of a device is a continuous process of evaluation and analysis to demonstrate the scientific validity and the analytical and clinical performance of the device as stated by the manufacturer with respect to its intended use.Evaluations must be thorough and objective, taking into account both favorable and unfavorable data.The intended use underlying the performance evaluation plan is the sole responsibility of the manufacturer and directly determines the level of performance studies and post-market performance follow-up activities.If the use of other sources of clinical performance data cannot be justified, clinical performance studies must be conducted.Article 57 of IVDR requires the manufacturers to ensure that devices used for performance studies comply with the general safety and performance requirements described in annex 1, in addition to those covered by performance studies (Table S6).
Where appropriate, performance studies should be conducted under conditions similar to the normal use conditions of the device and should be designed and conducted in a manner that ensures that the clinical data generated are scientifically valid and reliable.CDx studies should consider the intended purpose, medical treatment, and patient outcomes and should conduct clinical performance studies to demonstrate clinical effectiveness (Table S7).The EMA specifies that a clinical development program must be conducted together with a drug if a CDx is co-developed with the drug and gets market approval for the first time or if there is a change in the indication.A bridging study in which the device evaluates the pivotal clinical trial of the drug or the conformity of the device used in the pivotal clinical trial of the drug may also be performed.If a bridging study is performed, it should provide a sufficient basis for concluding that its performance is comparable to that of the device used in clinical trials of the drug.Consequently, the safety and effectiveness of the drug should be demonstrated to be identical to those described in the summary of the product.Clinical performance data may be substantiated based on one or a combination of clinical performance studies, scientific literature, or published experience from routine diagnostic testing.The demonstration of clinical performance can be direct, indirect, or a combination of both.Direct demonstration means that data are based on the specific device produced from a study using prospectively collected specimens or leftover specimens.Indirect demonstration means that data are based on a literature search or comparison with a reference device (method comparison).Direct demonstration yields a stronger level of evidence of clinical performance data than indirect demonstration.Therefore, it should be applied to higher risk classes or new devices.In particular, method comparison studies can provide evidence of equivalence to a reference device with strongly approved clinical evidence. 28The follow-up CDx www.moleculartherapy.orgReview is a device that pursues the same indication as the jointly developed CDx (original CDx).Although it targets the same biomarkers, it does not necessarily pursue the same technology as the original CDx nor does it run concurrently with clinical trials of drugs.Therefore, the follow-up CDx should be similar to the original CDx in terms of clinical evidence (analytical and clinical performance) and related safety and efficacy of the drug.To this end, sufficient documentation of the comparative analytical performance results and the clinical performance results for the safety and efficacy of the drug should be provided in the summary of product characteristics (SmPC). 20The MFDS specifies that, if an IVD-CDx that is scheduled for approval application is not used in clinical pharmaceutical trials, an equivalence test (clinical trial) can be conducted between the IVD-CDx and an approved product used as the control.It is best to use samples collected from subjects who participated in clinical trials of related drugs when testing for IVD-CDx equivalence, but if it is difficult to use the samples of subjects included in the clinical trial, an equivalence test may be conducted separately using samples of a new group of subjects collected and preserved based on the same selection criteria as those of the clinical trial.Criteria, such as positive or negative matching rates required to determine an appropriate IVD-CDx, are evaluated by considering the characteristics of the target disease, the number of patients (realistically identifiable number of functional cases), and confidence intervals.Analytical and clinical performance evaluations should present verification indicators that can demonstrate the safety and effectiveness of an IVD-CDx (Table S8).Clinical performance (clinical sensitivity and specificity) should be evaluated using test data on human-derived specimens to prove the safety and efficacy of an IVD-CDx.Clinical performance should be performed to secure three pieces of evidence: evidence on the prognostic impact related to the status of the biomarker, evidence on the impact of the proposed test on the patient's health, and direct, high-quality evidence and statistical significance determinations obtained from patients.Therefore, a comparison of the effects of targeted therapy and general therapy may be required when an IVD-CDx is used to predict treatment effects.In addition, assessing the health effects of patients may require the consideration of random assignments and the morbidity of the test and control groups.If the cutoff value is set on the basis of the clinical cutoff value (sensitivity and specificity), a valid clinical rationale should be provided.In this case, data on test subjects (demographics, selection criteria, exclusion criteria, and the total number of patients) and statistical methods, such as receiveroperating characteristic curve analysis, should be presented.If it is difficult to evaluate clinical sensitivity and specificity because disease diagnosis is not the main purpose of the test, clinical data showing the clinical effectiveness of the test can be submitted.[24] While the FDA and EMA firmly specify individual evaluation indicators, the MFDS lacks information on specific indicators other than its emphasis on cutoffs.In clinical trials to establish clinical usefulness, the FDA and MFDS recommend the use of clinical trial data for drugs.The EMA may conduct study designs differently depending on whether the drug and CDx are co-developed.While the FDA and MFDS recommend joint development and accept both prospective and retrospective studies, the EMA presents recommendations for collecting evidence through other routes rather than recommending joint development (Table 2).
The institutional comparison is an important point that can support the need for an efficient regulation process.By identifying commonalities and differences in requirements, it can avoid duplication and streamline of regulation and consequently accelerate product approval.In particular, understanding the institutions unique to regulators can also access global markets.In addition, if it does not end with simply creating an efficient process based on regulatory comparison but leads to opportunities for international harmonization and standardization, it will contribute to improving the accessibility of infrastructure by understanding the regulatory environment of various countries.

SWOT ANALYSIS
An SWOT analysis is a strategic planning tool used to identify and analyze the strengths, weaknesses, opportunities, and threats of a particular situation or decision.Strength is analyzed as an internal positive factor.Opportunity is analyzed as an external positive factor.Weakness is analyzed as an internal negative factor.Threat is analyzed as an external negative factor.0][31][32][33][34][35][36][37][38][39][40] An SWOT analysis of the need to strengthen the clinical regulatory framework is conducted as follows.

CONCLUSIONS
In this study, the need to establish a clinical regulatory framework for CDx was reviewed through institutional comparison of regulatory agencies, namely the FDA, EMA, and MFDS.In the analysis of the overall regulations regarding CDx by country, CDx was defined as a device that provides information through diagnosis for the safe and effective use of therapeutics.While the safety and effectiveness of a CDx is important, the safety and effectiveness of the treatment must also be secured for patients identified for CDx use.Therefore, the key to a CDx is to secure clinical usefulness (safety and effectiveness of drugs) together with clinical effectiveness (performance of the device).Since a CDx, by definition (providing essential information for the safe and effective use of medicines), affects clinical trials of drugs, it is subject to more complex regulations than other IVDs.
The analysis of the FDA and MFDS approval statuses of CDx confirmed that CDx with different purposes was developed and licensed for various diseases by applying various technologies.As the development of a CDx can be related to complex clinical regulations and processes, it is necessary to consider several variables such as disease-specific (oncology or non-oncology) and technology-specific (PCR, immunohistochemistry, fluorescent in situ hybridization, and next-generation sequencing) variables and the intended use (diagnosis, screening, prediction, and monitoring).One study suggested that a CDx requires case-by-case consideration because it has scientific, regulatory, and other unique characteristics given the diversity of devices. 2 Therefore, a large-scale case study is needed to prepare a guide for the efficient clinical implementation of various CDx.
There are some differences in the clinical validation requirements for CDx in the United States, Europe, and Korea.Although there is a common goal of ensuring accuracy and reliability based on the intended use of a CDx, each regulatory body has unique requirements.The FDA emphasizes the relevance of the final outcome values to the clinical reference standard, and the MFDS focuses on the level of risk by applying a risk-factor-based approach.Analytical performance and clinical performance are common evaluation indicators, and methods for comparison to existing devices (FDA method comparison, MFDS equivalence evaluation) are presented.In particular, the evaluation of clinical usefulness, which is valued by the three regions, commonly holds that clinical trial data of pharmaceuticals should be collected.The three regulatory agencies seek clinical validation of CDx through well-designed clinical studies demonstrating the ability of the test to identify patients likely to respond to the treatment.In other words, findings that the CDx improves patient outcomes when used to guide treatment decisions should be provided.Clinical studies are conducted depending on whether pharmaceuticals and the CDx are co-developed, and bridging studies to evaluate device compatibility can also be conducted.However, even though the MFDS developed guidelines for safety and effectiveness evaluation (2018) after the publication of the guidelines for approval (2015), some sections need to be supplemented.This (2018 guideline) merely lists recommendations for the preparation of clinical trial protocols and can be insufficient as a guide for conducting clinical studies.Therefore, the clinical framework to establish the clinical usefulness of a CDx should be supplemented in future studies.
Demand is increasing in the CDx market, due to the paradigm shift to precision medicine.Accordingly, several countries are establishing continuous regulatory support. 29,32This can improve patient outcomes and reduce medical costs by ensuring the accuracy and reliability of a CDx and assist with clinical implementation by providing developers with a process for standards required for verification.In response to stricter clinical CDx regulations, manufacturers should put in place measures to promote collaboration between diagnostic companies, pharmaceutical companies, and regulatory agencies for more effective CDx development and approval. 1owever, the enormous data resources needed to establish the framework may take a lot of time, which may delay CDx and drug co-development and approval.CDx verification criteria vary between countries, and implementation of the framework can be difficult in countries or regions with limited infrastructures. 34However, if an effective internationally harmonized clinical process framework is established for enhanced clinical regulation, it can contribute to providing a more personalized and effective treatment.In conclusion, if studies are conducted to develop an efficient process by establishing a framework for the clinical regulation of CDx based on internationally harmonized regulations, it will facilitate the development and clinical implementation of CDx to enable more effective treatments for patients.
Our study has several strengths.This study reviewed the changing CDx regulations and conducted institutional comparison by country to prepare an efficient plan for clinical tasks.Rather than simply mentioning the need for efficiency measures, considerations for the application of the process were also proposed by analyzing various data.However, this study had a limitation in that it was not possible to analyze the current permit status in Europe.This needs to be done as a future case study if European Database on Medical Devices (EUDAMED) transparency is addressed.In addition, the SWOT analysis was supplemented by accepting the opinions of various stakeholders, including seminars, webinars, and press releases.This study showed that the reinforcement of a framework for complex CDx clinical regulations, which is increasingly important in precision www.moleculartherapy.orgReview

Figure 1 .
Figure 1.Research model This flowchart presents the process of analysis of approval status, institutional comparison, and SWOT analysis. www.moleculartherapy.orgReview

Table 1 .
Regulatory requirements for CDx by FDA, EMA, and MFDS

Table 1 .
Continued 2 of annex IX, the technical documentation assessment procedure described in and in accordance with directive 2001/83/EC of the European Parliament and of the Council, and consult with the competent authority designated by the member state or with the EMA in accordance with section 5.2 of annex IX -in the case a new IVD-CDx is developed, the drug is reviewed by the Drug (bio-herbal drug) Review Department in accordance with "Regulations on product approval, notification, and review of pharmaceutical products" or "Regulations on product approval and review of biological products" for drug efficacy in the selected patient group.Companion diagnostic medical devices are reviewed by the Medical Device Review Department in accordance with the "Regulations on medical device approval, notification, review" -if a product equivalent to an already licensed companion diagnostic medical device is developed, review clinical trial data comparing the equivalence between the already licensed product and the new product (Continued on next page) -> a New Drug Application for a treatment is submitted and reviewed by Center for Devices and Radiological Health while being reviewed by Center for Drug Evaluation and Research or It is important that adequate samples are collected in sufficient quantities, banked (if analyte stability permits), and properly maintained to support the full range of analytical studies.Collecting appropriate patient characteristics and pathological characteristics of the sample (e.g., tumor content, necrosis, obesity, presence of large amounts of epilepsy, and other characteristics) can help support conclusions about assay performance.Parameters such as sensitivity, specificity, reproducibility, precision, and accuracy should be established to evaluate analytical performance, and the stability of samples and reagents should be evaluated.The EMA judges assay performance as the basis for conducting clinical trials.

Table 2 .
and effective CDx development and approval.These strengths can be further highlighted by the opportunity that the demand for CDx is rapidly increasing as the paradigm shift in precision medicine enables personalized treatment.Accordingly, availability of accurate and reliable CDx tests are increasing to provide patients with more personalized and effective care.It can also be an important Institutional comparison by FDA, EMA, and MFDS