An apparatus for automated assessment of detoxification levels during Vamana procedures, and method thereof

Abstract

Disclosed herein an automated apparatus designed to objectively assess detoxification levels during the Vamana procedure in Ayurveda. It is having a Basin (101) integrated with advanced sensors (102 and 103) for real-time weight (102) and pH measurements (103) of the expelled vomitus. An automated control system facilitates hygienic handling, while a user interface allows input of patient data and real-time monitoring of measurements. The apparatus employs calibrated sensors to ensure precision, and a data processing unit analyses results against standardized detoxification criteria, recommending adjustments to treatment protocols as needed. By automating the process, it enhances accuracy, reduces infection risks, and standardizes detoxification assessment across Ayurvedic practices.

Specification

Description:An apparatus for automated assessment of detoxification levels during Vamana procedures, and method thereof

Field of the Invention
The present invention relates to apparatus and equipment to be used for Vamana procedures. More particularly, the present invention relates to apparatus for automated assessment of detoxification levels during Vamana procedures, and method thereof.

Background of the Invention
Vamana is one of the most important detoxification procedures in Ayurveda, particularly within Panchakarma treatments, which aims to cleanse the body by expelling toxins and vitiated bodily elements. As practiced in Ayurvedic hospitals across India, Vamana plays a significant role in promoting holistic health and restoring bodily balance. However, for the detoxification process to be truly effective, accurate measurement of the detoxification level, traditionally referred to as Shuddhi, is crucial following the Vamana procedure. The results of this measurement directly influence the subsequent dietary regimen prescribed for the patient, impacting the overall success of the treatment. Historically, the assessment of Shuddhi has been carried out through manual observations of the expelled substances and subjective patient feedback, which involve descriptions of the patient's experiences during the procedure. Although this traditional method has provided useful information, it is inherently limited by its reliance on personal interpretation, which can introduce variability and inconsistencies in the results. Consequently, there remains a significant need to develop a more reliable, objective, and standardized approach for assessing detoxification levels post-Vamana.
The absence of advanced technology in the assessment of detoxification levels poses a fundamental challenge to modernizing Ayurvedic practices. In the existing approach, the evaluation of Shuddhi is largely qualitative, based on visual inspection of the vomitus and patients' subjective descriptions of symptoms such as the volume of expelled material or the feeling of lightness experienced after the procedure. These methods are inherently limited, as they can be influenced by the practitioner's judgment and the patient's ability to communicate their experience accurately. Additionally, there is no established quantitative framework or precise measuring tools to ensure consistency across different practitioners or treatment settings. This lack of standardization not only affects the reliability of individual treatment outcomes but also limits the potential for broader clinical validation and integration of Ayurvedic practices into the wider healthcare system. The challenge is further compounded by the difficulty of ensuring that manual assessments are conducted in a manner that is both comfortable and safe for practitioners, given the direct contact with biological waste and the associated risks of infection transmission.
Furthermore, the manual assessment techniques currently used are often cumbersome and labour-intensive. For instance, measuring the weight and pH of the vomitus can be an uncomfortable and time-consuming task for healthcare providers. It requires careful handling of the expelled substances, which can be unpleasant and pose hygiene concerns, especially in high-volume clinical settings. The reliance on these manual methods not only impacts the efficiency of the treatment process but also poses challenges to maintaining a sterile environment. These limitations may lead to delays in obtaining results, affecting the timely adjustment of the patient's dietary and medicinal regimen based on the detoxification level. The practical difficulties associated with traditional assessment methods thus create a significant barrier to achieving optimal clinical outcomes and may discourage some practitioners from adopting a rigorous approach to Vamana procedures.
The motivation to arrive at a more advanced solution stems from the critical need to address the shortcomings of the traditional methodologies and to meet the evolving demands of modern healthcare. With the increasing focus on evidence-based medicine and technological integration in clinical practice, it is necessary to develop automated solutions that can provide objective, precise, and reproducible measurements of detoxification levels. Such advancements would help bridge the gap between conventional Ayurvedic practices and contemporary medical standards, thereby enhancing the credibility and acceptance of Ayurveda in the global healthcare landscape. Additionally, a technological solution that minimizes the need for direct contact with biological waste would improve safety conditions for practitioners, reducing the risk of infection and allowing them to focus more on patient care rather than manual assessments. As a result, there is a compelling need to innovate and develop an automated device that can accurately quantify the detoxification level post-Vamana, standardize the treatment protocols across different Ayurvedic institutions, and foster a more efficient, patient-centric approach to detoxification therapies.

Summary of the Invention
This summary is provided to introduce a selection of concepts in a simplified form that are further described below in the Detailed Description. This summary is not intended to identify key features or essential features of the claimed subject matter. Nor is this summary intended to be used to limit the claimed subject matter's scope.
Both the foregoing summary and the following detailed description provide examples and are explanatory only. Accordingly, the foregoing summary and the following detailed description should not be considered to be restrictive. Further, features or variations may be provided in addition to those set forth herein. For example, embodiments may be directed to various feature combinations and sub-combinations described in the detailed description.
It is one of the objectives of the present invention to provide an apparatus for automated assessment of detoxification levels during Vamana procedures that accurately measures the level of Shuddhi post-Vamana, incorporating objective criteria such as weight and pH of vomitus.
It is one of the objectives of the present invention to provide an apparatus for automated assessment of detoxification levels during Vamana procedures that provides precise and consistent measurements to improve the accuracy of the Vamana procedure and the subsequent dietary regimen.
It is one of the objectives of the present invention to provide an apparatus for automated assessment of detoxification levels during Vamana procedures that reduces the need for manual measurement of vomitus, thereby enhancing safety and comfort for both practitioners and patients.
It is one of the objectives of the present invention to provide an apparatus for automated assessment of detoxification levels during Vamana procedures that establishes standardized protocols for measuring Shuddhi that can be adopted across Ayurvedic hospitals, ensuring consistency in treatment practices.
It is one of the objectives of the present invention to provide an apparatus for automated assessment of detoxification levels during Vamana procedures that minimizes the risk of infection transmission associated with manual measurement techniques, ensuring a safer treatment environment.
It is one of the objectives of the present invention to provide an apparatus for automated assessment of detoxification levels during Vamana procedures that increases practitioner efficiency by streamlining the process of administering Vamana and measuring Shuddhi, allowing practitioners to focus on patient care rather than manual assessments.
It is one of the objectives of the present invention to provide an apparatus for automated assessment of detoxification levels during Vamana procedures that operates on a principle bridged by the gap between traditional Ayurvedic practices and modern technological advancements, promoting a more holistic approach to healthcare.
As a preliminary matter, it will readily be understood by one having ordinary skill in the relevant art that the present disclosure has broad utility and application. As should be understood, any embodiment may incorporate only one or a plurality of the above-disclosed aspects of the disclosure and may further incorporate only one or a plurality of the above-disclosed features. Furthermore, any embodiment discussed and identified as being "preferred" is considered to be part of a best mode contemplated for carrying out the embodiments of the present disclosure. Other embodiments also may be discussed for additional illustrative purposes in providing a full and enabling disclosure. Moreover, many embodiments, such as adaptations, variations, modifications, and equivalent arrangements, will be implicitly disclosed by the embodiments described herein and fall within the scope of the present disclosure.
Accordingly, while embodiments are described herein in detail in relation to one or more embodiments, it is to be understood that this disclosure is illustrative and exemplary of the present disclosure and are made merely for the purposes of providing a full and enabling disclosure. The detailed disclosure herein of one or more embodiments is not intended, nor is to be construed, to limit the scope of patent protection afforded in any claim of a patent issuing here from, which scope is to be defined by the claims and the equivalents thereof. It is not intended that the scope of patent protection be defined by reading into any claim a limitation found herein that does not explicitly appear in the claim itself.
Additionally, it is important to note that each term used herein refers to that which an ordinary artisan would understand such term to mean based on the contextual use of such term herein. To the extent that the meaning of a term used herein-as understood by the ordinary artisan based on the contextual use of such term-differs in any way from any particular dictionary definition of such term, it is intended that the meaning of the term as understood by the ordinary artisan should prevail.
Furthermore, it is important to note that, as used herein, "a" and "an" each generally denotes "at least one," but does not exclude a plurality unless the contextual use dictates otherwise. When used herein to join a list of items, "or" , "/" denotes "at least one of the items," but does not exclude a plurality of items of the list. Finally, when used herein to join a list of items, "and" denotes "all of the items of the list."
In accordance with one embodiment of the present invention, there is provided an apparatus for automated assessment of detoxification levels during Vamana procedures, comprising a basin configured to receive vomitus expelled by a patient during the Vamana procedure, an automatic weighing machine integrated with the basin, designed to measure the weight of the vomitus in real time, a pH measurement system comprising an inbuilt automatic pH meter, calibrated to measure the pH levels of the vomitus, an automated control system configured to trigger a knob that facilitates the release of the basin contents once the weight and pH measurements are complete, a user interface designed for the input of patient data and display of real-time measurement results, wherein the user interface is programmed to allow customizable settings based on individual patient requirements, a data processing unit that collects, analyses, and stores the measurement data for real-time monitoring and subsequent assessment of detoxification levels, and a standardized protocol module comprising software instructions stored in memory, wherein the software instructions provide step-by-step guidelines for operating the apparatus in accordance with established detoxification assessment criteria.
In accordance with one embodiment of the present invention, there is provided an apparatus for automated assessment of detoxification levels during Vamana procedures, comprising a basin configured to receive vomitus expelled by a patient during the Vamana procedure, an automatic weighing machine integrated with the basin, designed to measure the weight of the vomitus in real time, a pH measurement system comprising an inbuilt automatic pH meter, calibrated to measure the pH levels of the vomitus, an automated control system configured to trigger a knob that facilitates the release of the basin contents once the weight and pH measurements are complete, a user interface designed for the input of patient data and display of real-time measurement results, wherein the user interface is programmed to allow customizable settings based on individual patient requirements, a data processing unit that collects, analyzes, and stores the measurement data for real-time monitoring and subsequent assessment of detoxification levels, and a standardized protocol module comprising software instructions stored in memory, wherein the software instructions provide step-by-step guidelines for operating the apparatus in accordance with established detoxification assessment criteria, wherein the automatic weighing machine is calibrated to ensure precise and consistent weight measurements, with a tolerance range of ±0.1% to minimize variability in detoxification assessment.
In accordance with one embodiment of the present invention, there is provided an apparatus for automated assessment of detoxification levels during Vamana procedures, comprising a basin configured to receive vomitus expelled by a patient during the Vamana procedure, an automatic weighing machine integrated with the basin, designed to measure the weight of the vomitus in real time, a pH measurement system comprising an inbuilt automatic pH meter, calibrated to measure the pH levels of the vomitus, an automated control system configured to trigger a knob that facilitates the release of the basin contents once the weight and pH measurements are complete, a user interface designed for the input of patient data and display of real-time measurement results, wherein the user interface is programmed to allow customizable settings based on individual patient requirements, a data processing unit that collects, analyses, and stores the measurement data for real-time monitoring and subsequent assessment of detoxification levels, and a standardized protocol module comprising software instructions stored in memory, wherein the software instructions provide step-by-step guidelines for operating the apparatus in accordance with established detoxification assessment criteria, wherein the pH measurement system is configured to provide continuous monitoring of pH levels during the Vamana procedure, and wherein the pH data is updated in real time to reflect the most recent condition of the vomitus sample.
In accordance with one embodiment of the present invention, there is provided an apparatus for automated assessment of detoxification levels during Vamana procedures, comprising a basin configured to receive vomitus expelled by a patient during the Vamana procedure, an automatic weighing machine integrated with the basin, designed to measure the weight of the vomitus in real time, a pH measurement system comprising an inbuilt automatic pH meter, calibrated to measure the pH levels of the vomitus, an automated control system configured to trigger a knob that facilitates the release of the basin contents once the weight and pH measurements are complete, a user interface designed for the input of patient data and display of real-time measurement results, wherein the user interface is programmed to allow customizable settings based on individual patient requirements, a data processing unit that collects, analyses, and stores the measurement data for real-time monitoring and subsequent assessment of detoxification levels, and a standardized protocol module comprising software instructions stored in memory, wherein the software instructions provide step-by-step guidelines for operating the apparatus in accordance with established detoxification assessment criteria, wherein the apparatus further comprising a hygienic disposal mechanism integrated with the basin and the automated knob, wherein the hygienic disposal mechanism is configured to minimize the risk of infection transmission by ensuring automatic and contact-free handling of the basin contents post-measurement.
In accordance with one embodiment of the present invention, there is provided an apparatus for automated assessment of detoxification levels during Vamana procedures, comprising a basin configured to receive vomitus expelled by a patient during the Vamana procedure, an automatic weighing machine integrated with the basin, designed to measure the weight of the vomitus in real time, a pH measurement system comprising an inbuilt automatic pH meter, calibrated to measure the pH levels of the vomitus, an automated control system configured to trigger a knob that facilitates the release of the basin contents once the weight and pH measurements are complete, a user interface designed for the input of patient data and display of real-time measurement results, wherein the user interface is programmed to allow customizable settings based on individual patient requirements, a data processing unit that collects, analyses, and stores the measurement data for real-time monitoring and subsequent assessment of detoxification levels, and a standardized protocol module comprising software instructions stored in memory, wherein the software instructions provide step-by-step guidelines for operating the apparatus in accordance with established detoxification assessment criteria, wherein the data processing unit is programmed to execute algorithms that detect abnormalities in weight or pH values during the Vamana procedure, prompting the apparatus to recommend adjustments to the treatment protocol in real time.
In accordance with one embodiment of the present invention, there is provided a method for automated assessment of detoxification levels during Vamana procedures, comprising the steps of receiving vomitus in a basin integrated with an automatic weighing machine, measuring the weight of the vomitus in real time using the automatic weighing machine, simultaneously measuring the pH levels of the vomitus using an inbuilt automatic pH meter, continuously displaying the weight and pH data on a user interface configured for real-time monitoring, utilizing a data processing unit to analyse the weight and pH measurements against predefined detoxification criteria stored in memory, triggering an automated knob to release the contents of the basin upon completion of the weight and pH measurements, updating a digital record of the measurements in a data storage unit for subsequent clinical evaluation and research.
In accordance with one embodiment of the present invention, there is provided a method for automated assessment of detoxification levels during Vamana procedures, comprising the steps of receiving vomitus in a basin integrated with an automatic weighing machine, measuring the weight of the vomitus in real time using the automatic weighing machine, simultaneously measuring the pH levels of the vomitus using an inbuilt automatic pH meter, continuously displaying the weight and pH data on a user interface configured for real-time monitoring, utilizing a data processing unit to analyze the weight and pH measurements against predefined detoxification criteria stored in memory, triggering an automated knob to release the contents of the basin upon completion of the weight and pH measurements, updating a digital record of the measurements in a data storage unit for subsequent clinical evaluation and research, wherein the method further comprising the step of implementing a hygienic disposal protocol using the integrated automated knob and basin system to facilitate contact-free handling and disposal of vomitus, thereby reducing the risk of contamination and infection.
In accordance with one embodiment of the present invention, there is provided a method for automated assessment of detoxification levels during Vamana procedures, comprising the steps of receiving vomitus in a basin integrated with an automatic weighing machine, measuring the weight of the vomitus in real time using the automatic weighing machine, simultaneously measuring the pH levels of the vomitus using an inbuilt automatic pH meter, continuously displaying the weight and pH data on a user interface configured for real-time monitoring, utilizing a data processing unit to analyse the weight and pH measurements against predefined detoxification criteria stored in memory, triggering an automated knob to release the contents of the basin upon completion of the weight and pH measurements, updating a digital record of the measurements in a data storage unit for subsequent clinical evaluation and research, wherein the method further including the steps of calibrating the weighing machine and pH meter prior to use in each Vamana procedure to ensure standardized measurements, and allowing for customizable treatment settings through the user interface based on individual patient profiles, thereby optimizing the Vamana procedure according to personalized health data.

Brief Description of the Drawings
Figure 1 shows an apparatus for automated assessment of detoxification levels during Vamana procedures.
Detailed Description of the Invention
The following detailed description refers to the accompanying drawings. Wherever possible, the same reference numbers are used in the drawings and the following description to refer to the same or similar elements. While many embodiments of the disclosure may be described, modifications, adaptations, and other implementations are possible. For example, substitutions, additions, or modifications may be made to the elements illustrated in the drawings, and the methods described herein may be modified by substituting, reordering, or adding stages to the disclosed methods. Accordingly, the following detailed description does not limit the disclosure. Instead, the proper scope of the disclosure is defined by the appended claims. The present disclosure contains headers. It should be understood that these headers are used as references and are not to be construed as limiting upon the subjected matter disclosed under the header.
In the present invention, the apparatus is equipped with advanced sensors (102 and 103) that accurately measure the weight and pH of vomitus for a reliable assessment of Shuddhi levels post-Vamana, eliminating subjective interpretations. Further, by employing calibrated sensors (102 and 103), the Automated Vamana Pitha delivers precise and consistent measurements that enhance the accuracy of both the Vamana procedure and the subsequent dietary regimen, ensuring better patient outcomes.
The Automated Vamana Pitha apparatus [Figure 1] equipped with advanced sensors (102 and 103) that accurately measure the weight and pH of vomitus. This represents a significant upgrade from traditional methods that rely solely on subjective observations, such as visual inspection and patient feedback. The use of sensors (102 and 103) allows for the collection of objective data, which reduces the variability and inconsistency associated with human judgment. Traditional methods can be influenced by the practitioner's interpretation, leading to potential inaccuracies in Shuddhi assessment. The apparatus can provide real-time measurements, allowing for immediate assessment and adjustment of treatment protocols as necessary, which is not feasible with manual methods.

The use of calibrated sensors (102 and 103) ensure that the measurements obtained are both precise and consistent across different patients and treatments. Traditional methods lack this level of calibration, resulting in varying degrees of accuracy. Further, an automated measurement significantly reduces the risk of human error in assessing Shuddhi levels. Manual methods are prone to inconsistencies due to factors such as varying techniques among practitioners and fatigue or oversight during assessments.

Also, the automation of measurement processes significantly reduces the need for manual assessment of vomitus, enhancing both safety and comfort for practitioners and patients alike. This feature minimizes discomfort during the assessment and reduces the time spent on manual evaluations. The apparatus includes comprehensive guidelines for its operation, promoting standardized protocols for measuring Shuddhi. These protocols can be readily adopted across various Ayurvedic hospitals, ensuring consistency in treatment practices.
To address infection transmission risks associated with manual techniques, the apparatus is provided with safety mechanisms such as automated handling and hygienic disposal systems, creating a safer treatment environment for patients and practitioners. The design of the apparatus streamlines the process of administering Vamana and measuring Shuddhi. By automating these tasks, practitioners can focus more on patient care rather than manual assessments, enhancing overall efficiency in clinical settings.
Further, the present invention establishes a set of standardized protocols for measuring Shuddhi, which can be easily implemented across various Ayurvedic institutions, promoting consistency and reliability in treatment practices.
In the present invention, the automated assessment of detoxification levels during Vamana procedures begins by receiving vomitus in a Basin (101) that is integrated with an automatic weighing machine (102), which measures the weight of the vomitus in real-time. Concurrently, the pH levels of the vomitus are measured using an inbuilt automatic pH meter (103). Additionally, a Tray (104) is provided for placing a glass of emetic solution, the weight of which is also measured by the automatic machine. An automatic knob (105) is designed to open and allow the vomitus to be dispensed only after both pH and weight have been accurately measured and displayed on a smart board. Throughout the procedure, the system continuously displays the input weight (from the emetic solution), the output weight (vomitus), and the pH data on a user interface that is configured for real-time monitoring. A data processing unit (106) analyzes these weight and pH measurements against predefined detoxification criteria stored in memory. Upon successful completion of the measurements, the automated knob (105) is triggered to release the contents of the Basin (101). Finally, a digital record of all measurements is updated in a data storage unit (106) and a smart band (106) to display the output, for subsequent clinical evaluation and research purposes.
The apparatus includes an intuitive user interface (106) that simplifies operation for practitioners, allowing for easy input of patient data and quick access to measurement results, thus improving workflow efficiency. Further, by automatic measurement and administration processes, the device significantly reduces discomfort associated with manual methods, enhancing the overall patient experience during the Vamana procedure.
Further, the apparatus allows for customizable settings based on individual patient needs and conditions, ensuring that treatments can be tailored effectively, which is a significant improvement over one-size-fits-all approaches.
In the present invention, the automated Vamana Pitha offers significant general and specific advantages that go beyond solving the primary issue of inconvenient measurement of vomitus. It enhances patient and Ayurveda practitioners' safety, standardizes treatment, provides customization based on Ayurvedic principles, and brings modern data analytics into traditional practices. By addressing both technological and Ayurvedic needs, this invention has the potential to significantly improve the quality, accessibility, and outcomes of Vamana Karma. Also, the automated data collection capabilities support clinical research initiatives aimed at validating Ayurvedic practices and improving treatment methodologies, potentially advancing the field of Ayurveda.
While the invention is amenable to various modifications and alternative forms, some embodiments have been illustrated by way of example in the drawings and are described in detail above. The intention, however, is not to limit the invention by those examples and the invention is intended to cover all modifications, equivalents, and alternatives to the embodiments described in this specification.
The embodiments in the specification are described in a progressive manner and focus of description in each embodiment is the difference from other embodiments. For same or similar parts of each embodiment, reference may be made to each other.
It will be appreciated by those skilled in the art that the above description was in respect of preferred embodiments and that various alterations and modifications are possible within the broad scope of the appended claims without departing from the spirit of the invention with the necessary modifications. , Claims:We Claim:
1) An apparatus for automated assessment of detoxification levels during Vamana procedures, comprising:
a) Washbasin (101) of stainless steel configured to receive vomitus expelled by a patient during the Vamana procedure
b) Automatic weighing machine (102) integrated with the Basin (101), designed to measure the weight of the vomitus in real time;
c) pH measurement system comprising an inbuilt automatic pH meter (103), calibrated to measure the pH levels of the vomitus;
d) an automated control system configured to trigger a knob (105) that facilitates the release of the Basin (101) contents once the weight and pH measurements are complete;
e) a user interface designed for the input of patient data and display of real-time measurement results, wherein the user interface is programmed to allow customizable settings based on individual patient requirements;
f) a data processing unit (106) that collects, analyses, and stores the measurement data for real-time monitoring and subsequent assessment of detoxification levels; and
g) a standardized protocol module comprising software instructions stored in memory, wherein the software instructions provide step-by-step guidelines for operating the apparatus in accordance with established detoxification assessment criteria.
2) The apparatus as claimed in claim 1, wherein the automatic weighing machine (102) is calibrated to ensure precise and consistent weight measurements, with a tolerance range of ±0.1% to minimize variability in detoxification assessment.
3) The apparatus as claimed in claim 1, wherein the pH measurement system (103) is configured to provide continuous monitoring of pH levels during the Vamana procedure, and wherein the pH data is updated in real time to reflect the most recent condition of the vomitus sample.
4) The apparatus as claimed in claim 1, further comprising a hygienic disposal mechanism integrated with the Basin (101) and the automated knob (105), wherein the hygienic disposal mechanism is configured to minimize the risk of infection transmission by ensuring automatic and contact-free handling of the Basin (101) contents post-measurement.
5) The apparatus as claimed in claim 1, wherein the data processing unit is programmed to execute algorithms that detect abnormalities in weight or pH values during the Vamana procedure, prompting the apparatus to recommend adjustments to the treatment protocol in real time.
6) A method for automated assessment of detoxification levels during Vamana procedures, comprising the steps of:
a. receiving vomitus in a Basin (101) integrated with an automatic weighing machine (102);
b. measuring the weight of the vomitus in real time using the automatic weighing machine (102);
c. simultaneously measuring the pH levels of the vomitus using an inbuilt automatic pH meter (103);
d. Tray (104) for placing glass of emetic solution, weight of which is measured by automatic Machine (Input) (104)
e. Automatic knob (105), which only pens and allow vomitus when Ph and Weight get measured and displayed on smart board
f. continuously displaying the Input weight (104), Output (Vomitus) weight (102) and pH data (103) on a user interface configured for real-time monitoring;
g. utilizing a data processing unit (106) to analyse the weight and pH measurements against predefined detoxification criteria stored in memory;
h. triggering an automated knob (105) to release the contents of the Basin (101) upon completion of the weight and pH measurements; and
i. updating a digital record of the measurements in a data storage unit (106) for subsequent clinical evaluation and research.
7) The method as claimed in claim 6, further comprising the step of implementing a hygienic disposal protocol using the integrated automated knob (105) and Basin (101) system to facilitate contact-free handling and disposal of vomitus, thereby reducing the risk of contamination and infection.
8) The method as claimed in claim 6, further including the steps of:
a) calibrating the weighing machine (102) and pH meter (103) prior to use in each Vamana procedure to ensure standardized measurements.
b) allowing for customizable treatment settings through the user interface based on individual patient profiles, thereby optimizing the Vamana procedure according to personalized health data.
c) measuring Blood Pressure continuously as its monitoring we can see on along with detoxification measures displaying on digital screen (106).

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