Patent Publication Number: US-2022218319-A1

Title: Medical device and method for conducting papanicolaou (pap) test

Description:
BACKGROUND OF THE INVENTION 
     Cancer is a leading cause of death in the United States. Cervical cancer is the second most common cause of cancer-related mortality in women worldwide. Cervical cancer often has a poor prognosis, even when diagnosed early, and signs and symptoms may not appear until the cancer is quite advanced and complete surgical removal is not possible. The 5-year survival rate of the cervical cancer is about 80% or more if the cancer is detected early, the survival rate is increased. 
     Human Papillomavirus (HPV) is present in 99.7% of cervical cancer patients. Epidemiological and laboratory studies suggest a key role for human papillomavirus (HPV) in cervical carcinogenesis. However, HPV infection alone is not sufficient for cervical carcinogenesis. Most HPV infections resolve spontaneously, but if an oncogenic (high risk) HPV infection persists, there may be progression to a high-grade cervical dysplasia or cervical cancer. 
     The most common method for diagnosing infection of the HPV is a cervical Papanicolaou smear (hereinafter, a Pap smearing test) that performs a cell diagnostic test by using the eliminated cells obtained from the cervix. This Papanicolaou (Pap) smear has become the most commonly used method to screen for cervical dysplasia. It has been a success and the incidence of cervical cancer has been dramatically reduced. However, cytology screening programs have limitations, especially limited sensitivity, and repeated tests are therefore necessary. 
     The Papanicolaou test (also called Pap smear, Pap test, cervical smear, or smear test) is a screening test used to detect potentially pre-cancerous and cancerous processes in the endocervical canal (transformation zone) of the female reproductive system. The PAP smear is an important routine gynecological test, usually done in females to detect and screen for potentially precancerous and cancerous processes in the cervix (opening of the uterus or womb) or colon. 
     Each year about a quarter million of women around the world die from cervical cancer. Women who don&#39;t get routine pap tests experience a greater risk for developing cervical cancer. Nearly 90% of cervical cancer deaths occur in less developed regions where access to medical testing and care is limited. The world health organization (WHO) and cancer association encourage easier and more affordable methods to be offered. However, many women with access are still avoiding this potentially lifesaving test due to many various issues. 
     Medical diagnostic testing methods are critical screening tools for the early detection of pathological conditions. Early detection permits the identification of such conditions at a stage when successful treatment is more likely. Early treatment also frequently involves less damaging or less invasive treatment methods and decreases the impact on the patient. In addition to routine screening, diagnostic testing is also used in a variety of other applications, including biopsy analysis and monitoring the results of ongoing medical treatment. 
     One particularly useful tool in diagnostic testing is the Papanicolaou staining process. This process was first developed for the staining of gynecological specimens, and has led to a dramatic decrease in the fatality rate from cervical cancer. The tests known in the art typically require an in-office visit with a gynecologist where the doctor takes a sample of the cervix for lab analysis. Current medical practice requires a gynecologist for performing the pap-test using medical devices such as a speculum. The gynecologist inserts the speculum into the patient&#39;s vagina to access the cervix for tissue sample collection. Many women find this method an uncomfortable, intrusive exam, and opt to not have the routine screening performed. The existing method makes the experience very painful, uncomfortable, and is awkward. Moreover, the existing pap-test procedures are not capable of any form of mobile or self-testing options, and are generally expensive for the patients. 
     As stated above, the prior art method of conducting a pap smear involves the use of a speculum to spread and open the patient&#39;s vagina. The utilization the speculum could be extremely uncomfortable and painful to many patients as the vagina is spread apart. Some women have even described the speculum as agonizing and the fear and apprehension associated with the speculum has unfortunately caused many women to delay the pap smear test, or in some cases to even avoid it entirely. This is unacceptable because it could allow preventable cancer to remain undiagnosed. 
     A few devices and methods exist for enabling the patient to perform self-test for screening and detecting potentially precancerous and cancerous processes in the cervix (opening of the uterus or womb) or colon. However, the existing devices and methods are major limitations, including, for example, failure to provide proper visualization, digital guidelines, and instructions. Further, the existing devices and methods are not suitable for less developed countries and also do not provide flexibility and are generally bulky in diameter and difficult to use and experience by the patient. 
     Henceforth, there is a need for a medical device and method for enabling a woman to simply and conveniently collect a personal cervical cell sample for use during a Papanicolaou (PAP) test or PAP smear. There is also a need for an efficient and inexpensive medical device and method for enabling a woman to privately perform the PAP test, without the need for assistance from a gynecologist or other medical practitioner. Further, there is also a need for an efficient and inexpensive medical device and method used to detect cervical cancer, chlamydia, gonorrhea, and HPV. In addition, there is a need for newer, unique, and revolutionary methods of pap-test using the medical device of the present invention. 
     SUMMARY OF THE INVENTION 
     The present invention discloses a gynecological medical device. The present invention further discloses a medical device for enabling a woman to simply conduct a Papanicolaou (PAP) test by conveniently collecting a cervical cell sample, without the need for assistance by a gynecologist or other medical practitioner. In one embodiment, the medical device is a mobile or portable self-testing medical device. The mobile capability of the medical device, offered to less or underdeveloped for medical professional and world health associations, provides mass testing without the need of necessary expensive, difficult, and painful examination setups and equipment, and hard to access testing locations and procedures. 
     As such, the present invention is configured to provide a self-testing kit that allows all medical professional offices to offer the pap-test with considerations that it be beneficial, economical, and more accessible. The self-testing kit can be a mobile device, which could allow medical professionals and users to conduct the pap-test without restricting the testing be done by Gynecologists, thereby allowing accessibility and ease of use and ultimately mass testing procedure. 
     In one embodiment, the device comprises a protective endoscopic catheter or protective guide, an endoscopic device, a cell extraction device, and a computing device. In one embodiment, the protective guide is a disposable dual-chambered tube. In one embodiment, the protective guide has a maximum external diameter of less than 1 cm and is configured to reduce the overall diameter to help with the discomfort of larger size tubing inserted into the vaginal channel. In one embodiment, the protective guide comprises an upper chamber and a lower chamber. In one embodiment, the upper chamber has a lip stopper. The lip stopper could allow an average finger to be inserted vertically, instead of a round tubing of the same larger diameter. In one embodiment, the protective guide has a dimension of about 7 mm width. In one embodiment, the protective guide has a dimension of about 13.5 mm to about 14 mm height. The protective guide has a diameter of about 14 mm or significantly higher all around the shape. 
     In one embodiment, the endoscope device comprises a camera and a light emitting device assembly. The light emitting device assembly comprises one or more light emitting diodes (LEDs). In an exemplary embodiment, the light emitting device comprises at least 4 LEDs. In one embodiment, the one or more light emitting diodes are configured to produce illumination for the camera through the endoscope to acquire video and/or image data of the user&#39;s cervical area. In one embodiment, the lip stopper is configured to stop the endoscopic camera from going forward within the hollow middle to provide better visualization without creating extra barrier in front of the light and lenses of the camera. In one embodiment, the device comprises a camera cover configured to cover the camera and the light emitting device. The camera cover is, in one example, an endoscope cover. 
     In one embodiment, the endoscope device provides more privacy, thereby eliminating uncomfortable and awkward experience of the users. Further, the device allows the medical professional to look at the handheld display to monitor the pap-test procedure. In one embodiment, the protective guide makes the test procedure less invasive and less painful. Also, the chambers follow the vertically shaped entrance of vaginal canal. The protective guide is a self-testing and professional medical testing device and could include the use of a sterile medical gel lubricant to allow for easier insertions and sample collection. 
     In one embodiment, the device further comprises a thin flexible transparent sheath configured to cover the camera cover and a cell extraction device cover configured to cover the cell extraction device. The flexible transparent sheath is a condom covering the camera cover. In one embodiment, the thin flexible transparent sheath covers the endoscope cover, the endoscope, and endoscope cord. During the test, the cell extraction device is pushed outward from the cell extraction device cover, thereby allowing the cell extraction device brush to contact the cervix and removes/collects sample cells from the cervix, wherein the cell extraction device is then pulled back into the cell extraction device cover after sample cells are collected from the cervix. In one embodiment, the lower chamber has a punch through a very thin medical grade poly-vinyl chloride (PVC). 
     In one embodiment, the cell extraction device cover comprises a tunnel configured to insert the cell extraction device. The camera cover and cell extraction device cover are press fit together. In one embodiment, the protective guide further comprises at least one elastic band for holding the camera cover and the cell extraction device cover together. In one embodiment, the cell extraction device is a pap smear brush. In one embodiment, the cell extraction device is a pap smear broom. In one embodiment, the cell extraction device is a Pap smear spatula. 
     In one embodiment, the endoscope device is securely positioned within the upper chamber of the disposable protective guide. In one embodiment, the cell extraction device comprises a handle at one end and a brush affixed at another end. In one embodiment, the cell extraction device is slidably positioned within the lower chamber of the protective guide. In one embodiment, the cell extraction device is configured to enable a user to slide outward for positioning the brush around the user&#39;s cervix, thereby conveniently collecting a cervical cell sample. 
     The cervical OS is part of the female reproductive system and is located in the pelvis. It is part of the cervix, which is in the lower part of the uterus. The cervix is about two inches in length but can vary in length and width during a woman&#39;s lifetime. In one embodiment, the lower chamber is protected from vaginal fluids to avoid contamination until it reaches the OS cervical point for cell collection procedures. After reaching the point of interest, the brush is pushed forward to punch through the thin vinyl protection curtain. The brush is then turned a few times clockwise and counterclockwise to collect the cells from the surrounding tissues of the OS. In one embodiment, the brush that contains collected cells will be inserted and rinsed by inserting and swirling the spatula/brush in the solution vial vigorously for about 10 times. In one embodiment, the end of the brush tube punches through the thin vinyl protection wall. In one embodiment, the upper chamber comprises a lip stopper configured to stop the endoscopic camera from going forward with hollow middle to provide better visual without creating extra barrier in front of the light emitting device and lenses of the camera. 
     In one embodiment, the computing device is in communication with the endoscope via a connecting cable. In one embodiment, the connecting cable is a universal serial bus (USB) cable. In one embodiment, the computing device is in communication with the endoscope device and is configured to improve detection accuracy and visual examinations of the targeted cervical area, thereby enabling the user to accurately position the cell extraction device and comfortably collect the cervical cell sample for conducting the PAP test without the need for assistance by a gynecologist and/or a medical practitioner. In one embodiment, the device could be used in a wireless and mobile manner. 
     In one embodiment, the computing device comprises a processor and a memory having a software module executed by the processor. In one embodiment, the software module is at least one of a plugin component and/or a browser extension. Further, the processor is in communication with a server via a network. The computing device further comprises a database in communication with the server configured to store data related to the PAP test for the user. In one embodiment, the database is in communication with the server and the server is configured to store data related to testing documentation for patients, medical history forms &amp; patient file database, training videos and guideline manuals, image and video file capture and storage, specimen label and laboratory requisition forms, and Health Insurance Portability and Accountability Act (HIPAA) compliant integration options for Electronic Health Record (EMR) systems. 
     In one embodiment, the computing device is at least anyone of a smart phone, a tablet, a computer, a laptop, a monitor, and other suitable electronic communication device that is configured to provide visual reference for the medical professionals conducting the test. In one embodiment, the device is further configured to be utilized in the early detection of chlamydia, gonorrhea, human papillomavirus (HPV), and other sexually transmitted viruses or infections (STI). In one embodiment, the device brush and camera assembly at the end piece stop the device from completely going forward or pushing through the chambers. The end-cap feature of the present disclosure helps to stop the device from being completely inserted during the pushing of the brush and applied forces. In one embodiment, the end-cap part is shaped as to the external shape of the vagina. 
     One aspect of the present disclosure is directed to a medical device for conducting a Papanicolaou (PAP) test, comprising: (a) a protective endoscopic catheter or protective guide having an upper chamber and a lower chamber; (b) an endoscope device having a camera and a light emitting device assembly, wherein the endoscope device is securely positioned within the upper chamber of the disposable protective guide; (c) a cell extraction device having a handle at one end and a brush affixed at another end, wherein the cell extraction device is slidably positioned within the lower chamber of the protective guide, and wherein the cell extraction device is configured to enable a user to slide outward for positioning the brush around the user&#39;s cervix, thereby conveniently collecting a cervical cell sample; and (d) a computing device in communication with the endoscope device configured to improve detection accuracy and visual examinations of the targeted cervical area, thereby enabling the user to accurately position the cell extraction device and comfortably collecting the cervical cell sample for conducting the PAP test without the need for assistance by a gynecologist and/or a medical practitioner, wherein the computing device comprises a processor and a memory having a software module executed by the processor, wherein the software module is at least one of a plugin component and/or a browser extension, wherein the processor is in communication with a server via a network, and a database in communication with the server configured to store data related PAP test for the user. 
     Another aspect of the present disclosure is directed to a protective guide for protecting a cell extraction device during a pap smear test, comprising: a camera configured to determine the location of the cervix; a light emitting device configured to illuminate the surfaces or spaces to view the width; a camera cover configured to cover the camera and the light emitting device; a thin flexible transparent sheath configured to cover the camera cover; and a cell extraction device cover configured to cover the cell extraction device, wherein the cell extraction device is pushed outward from the cell extraction device cover, thereby allowing the cell extraction device brush to contact the cervix and removes/collects sample cells from the cervix, wherein the cell extraction device is pulled back into the cell extraction device cover after collecting sample cells from the cervix. 
     In one embodiment, a method for collecting cervical tissue samples is disclosed. In one embodiment, the method allows the user to collect the cervical tissue samples by themselves with maximum comfort and privacy at any convenience time. The method comprises the following steps. At one step, the protective guide is inserted through the introitus of a user&#39;s vagina. In one embodiment, the protective guide comprises the lower chamber and the upper chamber. The lower chamber is configured to receive the cell extraction device. The upper chamber is configured to receive the endoscope device. At another step, an exact location of the cervix is determined using the endoscope device. 
     At another step, the cell extraction device is pushed outward from the lower chamber to contact the cervix. At another step, the cervical tissue samples are collected from the cervix using the cell extraction device. At another step, the cell extraction device is then pulled back into the lower chamber. At another step, the protective guide is removed with the endoscope device and cell extraction device from the user&#39;s vagina. At another step, the cervix tissue samples are secured in a collection container for submitting them to a lab for diagnosis and results. In one embodiment, the method is utilized for early detection of chlamydia, gonorrhea, human papillomavirus (HPV), abnormal cervical cells, precancerous and cancerous lesions, vulvar cancers, cervical polyps, growths and anomalies of the vaginal canal and cervix, and other sexually transmitted viruses or infections. 
     In one embodiment, a method of collecting cervical tissue samples from a patient/user for conducting a PAP smear test is disclosed. The method provides a less painful and more comfortable sampling procedure for collecting cervical tissue samples. The method comprises the following steps. At one step, the cell extraction device is inserted into the protective guide. In one embodiment, the protective guide comprises the upper chamber for receiving the endoscope device. The endoscope device comprises a camera and a light emitting device assembly. In one embodiment, the protective guide further comprises the lower chamber for receiving the cell extraction device and to allow for access and movement of the cell extraction device. In one embodiment, the cell extraction device comprises a handle at one end and a brush or head fixed at another end. 
     At another step, the protective guide with the endoscope device and cell extraction device is gently inserted through the introitus of a user&#39;s vagina until the cervix is visualized. At another step, the location of the cervix is determined using the endoscope device. If the visualization is not easily accomplished, the protective guide is gently withdrawn and the endoscope device&#39;s probe is slightly bend upwards and inserted again. If visualization is still not accomplished, the protective guide is gently withdrawn and the endoscope device&#39;s probe is slightly bend downwards and inserted again. At another step, the cell extraction device is pushed outward from the lower chamber to contact the cervix. 
     At another step, the cell extraction device is cleansed to clear secretions from the cervix. In one embodiment, the secretion is cleared using a cleansing swab. At another step, the cervical tissue samples are collected from the cervix using the cell extraction device. In one embodiment, one or more culture swabs are used to take samples for bacteria and STD&#39;s. At another step, the cell extraction device is pulled back into the lower chamber. At another step, the protective guide is removed with the endoscope device and cell extraction device from the user&#39;s vagina. At another step, the cervix tissue samples are secured in a collection container. At another step, the sample&#39;s container is submitted to PapEasy lab for diagnosis and results. In one embodiment, the samples are submitted with the contact information of the user via a dedicated application software. In another embodiment, the samples are submitted with the contact information of the user on submission sheet included in the sample&#39;s package. 
     In one embodiment, a method for generating results for a PAP smear test is disclosed. The method utilizes a dedicated application software or mobile application or application program or web-based application or desktop application to conduct the PAP smear test via online. The application software is installed into a user device. The method comprises the following steps. At another step the application software allows the user to create a PapEasy user account. The user creates their account by registering into a registration portal of a dedicated PapEasy application software using one or more user credentials. In one embodiment, the one or more user credentials may include user name, first name, last name, password, and contact information. At another step, the collected user&#39;s cervical tissue samples are submitted to PapEasy Lab for diagnosis and results. At another step, the user&#39;s contact information is submitted clearly in the registration portal while submitting the samples for PAP smear test. At another step, the results of the PAP smear test are sent to the registered PapEasy user account. In one embodiment, the result of PAP test sent to the registered account is notified to the user as soon as the results are ready via a message or email. 
     Another aspect of the present disclosure is directed to a medical device for conducting a Papanicolaou (PAP) test, comprising: (a) a protective endoscopic catheter or protective guide having an upper chamber and a lower chamber; (b) an endoscope device having a camera and a light emitting device assembly, wherein the endoscope device is securely positioned within the upper chamber of the disposable protective guide, wherein the upper chamber comprises a lip stopper configured to stop the endoscopic camera from going forward with hollow middle to provide better visual without creating extra barrier in front of the light emitting device and lenses of the camera; and (c) a cell extraction device having a handle at one end and a brush affixed at another end, wherein the cell extraction device is slidably positioned within the lower chamber of the protective guide, wherein the cell extraction device is configured to enable a user to slide outward for positioning the brush around the user&#39;s cervix, thereby conveniently collecting a cervical cell sample; and (d) a computing device in communication with the endoscope device configured to improve detection accuracy and visual examinations of the targeted cervical area, thereby enabling the user to accurately position the cell extraction device and comfortably collecting the cervical cell sample for conducting the PAP test without the need for assistance by a gynecologist and/or a medical practitioner, wherein the computing device comprises a processor and a memory having a software module executed by the processor, wherein the software module is at least one of a plugin component and/or a browser extension, wherein the processor is in communication with a server via a network; wherein the computing device is in communication with the endoscope via a universal serial bus (USB) cable, and a database in communication with the server configured to store data related PAP test for the user. 
     Another aspect of the present disclosure is directed to a protective guide for protecting a cell extraction device during a pap smear test, comprising: (a) an endoscopic device, comprising a camera configured to determine the location of the cervix; a light emitting device configured to illuminate the surfaces or spaces to view the width; a camera cover configured to cover the camera and the light emitting device, wherein the camera cover is an endoscope cover; and a thin flexible transparent sheath configured to cover the camera cover, wherein the flexible transparent sheath is a condom covering the camera cover; and (b) a cell extraction device cover configured to cover the cell extraction device, wherein the cell extraction device is a pap smear brush or pap smear broom, or pap smear spatula, wherein the cell extraction device is pushed outward from the cell extraction device cover, thereby allowing the cell extraction device brush to contact the cervix and allow for the extraction of sample cells from the cervix, wherein the cell extraction device is pulled back into the cell extraction device cover after collecting sample cells from the cervix. 
     Another aspect of the present disclosure is directed to a method of collecting cervical tissue samples from a patient/user, comprising the steps of: inserting a protective guide through the introitus of a user&#39;s vagina, wherein the protective guide comprising an upper chamber configured to receive an endoscope device and a lower chamber configured to receive a cell extraction device; determining the location of the cervix using the endoscope device; pushing the cell extraction device outward from the lower chamber to contact the cervix; collecting cervical tissue samples from the cervix using the cell extraction device; pulling the cell extraction device back into the lower chamber; removing the protective guide with the endoscope device and cell extraction device from the user&#39;s vagina; and securing the cervix tissue samples in a collection container for submitting them to a lab for diagnosis and results. In one embodiment, the method allows the user to collect the cervical tissue samples by themselves with maximum comfort and privacy at any convenience time. In another embodiment, the method is utilized for early detection of chlamydia, gonorrhea, human papillomavirus (HPV), abnormal cervical cells, precancerous and cancerous lesions, vulvar cancers, cervical polyps, growths and anomalies of the vaginal canal and cervix, and other sexually transmitted viruses or infections. 
     One aspect of the present disclosure is directed to a method of collecting cervical tissue samples from a patient for conducting a PAP smear test, comprising the steps of: (a) inserting a cell extraction device into a protective guide, wherein the protective guide comprising an upper chamber for receiving an endoscope device having a camera and a light emitting device assembly and a lower chamber for receiving the cell extraction device and to allow for access and movement of the cell extraction device, and wherein the cell extraction device comprising a handle at one end and a brush or head fixed at another end; (b) inserting the protective guide through the introitus of a user&#39;s vagina until the cervix is visualized; (c) determining the location of the cervix using the endoscope device; (d) pushing the cell extraction device outward from the lower chamber to contact the cervix; (e) cleansing the cell extraction device to clear secretions from the cervix; (f) collecting cervical tissue samples from the cervix using the cell extraction device; (g) pulling the cell extraction device back into the lower chamber; (h) removing the protective guide with the endoscope device and cell extraction device from the user&#39;s vagina; (i) securing the cervix tissue samples in a collection container; and (j) submitting the sample&#39;s container to PapEasy lab for diagnosis and results. In a related embodiment of the method, a small lubricant package is used to lubricate the vaginal introitus enough to coat the rim of the vaginal opening. In another embodiment, the endoscope device is bent slightly upwards or downwards to visualize the cervix. In one embodiment, the samples are submitted with the contact information of the user via a dedicated application software. 
     Another aspect of the present disclosure is directed to a method for generating results for a PAP smear test, comprising the steps of: creating a PapEasy user account by registering into a registration portal of a dedicated PapEasy application software using one or more user credentials; submitting the user&#39;s cervical tissue samples to PapEasy lab for diagnosis and results; submitting the user&#39;s contact information into the registration portal, and receiving the PAP test result on the registered PapEasy user account. In a related embodiment of the method, the result of PAP test sent to the registered account of the user as soon as the results are ready via a message or email. 
     Other objects, features and advantages of the present invention will become apparent from the following detailed description. It should be understood, however, that the detailed description and the specific examples, while indicating specific embodiments of the invention, are given by way of illustration only, since various changes and modifications within the spirit and scope of the invention will become apparent to those skilled in the art from this detailed description. 
    
    
     
       BRIEF DESCRIPTION OF DRAWINGS 
         FIG. 1  exemplarily illustrates a schematic diagram of a pap smear testing device, according to an embodiment of the present invention; 
         FIG. 2  exemplarily illustrates a schematic diagram of an endoscopic camera, according to an embodiment of the present invention; 
         FIG. 3  exemplarily illustrates a schematic diagram of a protective catheter assembly, according to an embodiment of the present invention; 
         FIG. 4  exemplarily illustrates a block diagram of the device, according to an embodiment of the present invention; 
         FIG. 5  exemplarily illustrates a perspective view of the protective guide provided with the endoscope and cell extraction device, according to an embodiment of the present invention; 
         FIG. 6  exemplarily illustrates a side view of the protective guide, according to an embodiment of the present invention; 
         FIGS. 7 and 8  exemplarily illustrate perspective views of the protective guide, according to an embodiment of the present invention; 
         FIG. 9  exemplarily illustrates a cut-sectional view of the protective guide, according to an embodiment of the present invention; 
         FIG. 10  exemplarily illustrates an enlarged view of the protective guide, according to an embodiment of the present invention; 
         FIG. 11  exemplarily illustrates a side view of the endoscope device, according to an embodiment of the present invention; 
         FIG. 12  exemplarily illustrates a side view of the cell extraction device, according to an embodiment of the present invention; 
         FIG. 13  exemplarily illustrates an end-to-end PapEasy methodology, according to an embodiment of the present invention; 
         FIG. 14  exemplarily illustrates a method of collecting cervical tissue samples, according to an embodiment of the present invention; 
         FIG. 15  exemplarily illustrates a method for conducting a PAP smear test, according to an embodiment of the present invention; and 
         FIG. 16  exemplarily illustrates a method for generating results of the PAP smear test, according to an embodiment of the present invention. 
     
    
    
     DETAILED DESCRIPTION 
     The present invention generally relates to a gynecological medical device and more particularly relates to a medical device for enabling a woman to simply conduct a Papanicolaou (PAP) test by conveniently collecting a cervical cell sample without the need for assistance by a gynecologist or other medical practitioner. 
     A description of embodiments of the present invention will now be given with reference to the figures. It is expected that the present invention may be embodied in other specific forms without departing from its spirit or essential characteristics. The described embodiments are to be considered in all respects only as illustrative and not restrictive. The scope of the invention is, therefore, indicated by the appended claims rather than by the foregoing description. All changes that come within the meaning and range of equivalency of the claims are to be embraced within their scope. 
     Referring to  FIG. 1 , a schematic diagram of a pap smear test device  100 , according to one embodiment of the present invention. The device  100  allows for a comfortable and efficient testing procedure, without the utilization of a speculum. The patient no longer has to experience the fear, pain, and apprehension that is commonly associated with the pap smear test. In one embodiment, the device  100  allows for mobile testing options, self-testing kits, and for an easier and quicker cell collection or gathering of a sample of cells from the cervix. In one embodiment, the device  100  is utilized for concept detection, sample collection, screening, early detection, collections of abnormal cells from the cervix, and for new testing procedures. The device  100  has the potential to positively benefit the health of millions of women worldwide and help to save many lives by enabling the early detection of cervical cancer, chlamydia, gonorrhea, human papillomavirus (HPV), and other sexually transmitted viruses or infections. 
     In one embodiment, the device  100  comprises a protective endoscopic catheter assembly or a protective guide  102  having an upper chamber  122  and a lower chamber  120  (shown in  FIG. 4 ). In one embodiment, the protective guide  102  is a disposable dual-chambered tube. 
     In one embodiment, the device  100  further comprises an endoscope or endoscopic device  104  and a computing device  106  (shown in  FIG. 1 ). The endoscope  104  has a small a camera and a light emitting device assembly at its distal end  110  (shown in  FIG. 2 ). In one embodiment, the light emitting device assembly comprises one or more light emitting diodes (LEDs). In an exemplary embodiment, the light emitting device assembly comprises at least 4 LEDs. In one embodiment, the device  100  involves the use of the endoscopic camera with an adjoining protective guide  102  (shown in  FIG. 3 ). 
     In one embodiment, a flexible vaginal swab brush or a cell extraction device  126  (shown in  FIG. 4 ) is inserted into the targeted cervical area via the protective guide  102  for sample cell collection. In one embodiment, the endoscope  104  is attached to the computing device  106  via a connecting cable  108  and is configured to provide visual reference for the medical professionals conducting the test. In one embodiment, the connecting cable  108  is a universal serial bus (USB) cable. In one embodiment, the computing device  106  is at least anyone of a mobile phone, smart phone, tablet, laptop, desktop, monitor, or other suitable electronic communication device configured to provide visual reference for the medical professionals conducting the test. 
     Referring to  FIG. 2 , a schematic diagram of the endoscope  104 , according to one embodiment of the present invention. The endoscope  104  includes an endoscope camera and a light emitting device at its insertion end or distal end  110 . In one embodiment, the light emitting device comprises at least 4 light emitting diodes (LEDs). The LEDs are configured to illuminate the surfaces or spaces that would otherwise need to be surgically opened or enlarged to viewing width. The endoscope  104  further comprises a connecting cable  108  and a USB connection  112 . In one embodiment, the endoscope  104  is connected to computing device  106  using the connecting cable  108 . In one embodiment, the connecting cable  108  could be the USB cable. The widespread use of endoscope  104  could be attributed to their ease of use. In addition, the endoscope  104  is simple and inexpensive to connect with the computing device  106 . 
     Referring to  FIG. 3 , a schematic diagram of the disposable protective endoscopic catheter assembly or protective guide  102 , according to one embodiment of the present invention. The protective guide  102  comprises a tube guide  114  having a first end or proximal end  116  and a second end or distal end  118 . The endoscope  104  is inserted into the protective guide  102  via the first end  116 . The endoscope brush contacts the targeted cervix area via the second end  118 . In one embodiment, the protective guide  102  has dual chambers as one piece with an existing combined vaginal swab brash assembly, which is a recommended sanitary package. In one embodiment, the protective guide  102  has an external diameter not exceeding 1 cm configured to reduce the overall diameter to help with the discomfort of larger size tubing inserted into vaginal channel. 
     Referring to  FIG. 4 , a block diagram of the pap smear test device  100 , according to one embodiment of the present invention. The device  100  comprises a disposable protective endoscopic catheter assembly or a protective guide  102  having the first end  116  and the second end  118 . In one embodiment, the protective guide  102  has two chambers including an upper chamber  122  and a lower chamber  120 . The protective guide  102  has a maximum external diameter of 1 cm. In one embodiment, this external diameter is 0.5 cm; and in another embodiment, the external diameter is about 0.8 cm. The reduced overall diameter helps with the discomfort of larger size tubing inserted into the vaginal channel. 
     In one embodiment, the device  100  further comprises a camera and a light emitting device. In one embodiment, the camera and light emitting device is an endoscope  104 . In one embodiment, the light emitting device comprises one or more light emitting diodes (LEDs). In an exemplary embodiment, the light emitting device comprises at least 4 LEDs. In one embodiment, the endoscope  104  is securely positioned within the upper chamber  122  of the protective guide  102 . The endoscopic camera is configured to detect the location of the targeted cervix. 
     The light emitting device is configured to illuminate the surfaces or spaces to view the width. In one embodiment, the one or more light emitting diodes are configured to produce illumination for the camera through the endoscope to acquire video and/or image data of the user&#39;s cervical area. 
     In one embodiment, the protective guide  102  further comprises a camera cover to enclose or cover the camera and the light emitting device assembly. In one embodiment, the camera cover is an endoscope cover. In one embodiment, the protective guide  102  further comprises a thin flexible transparent sheath configured to cover the camera cover. In one embodiment, the thin flexible transparent sheath is a condom covering the camera cover. In one embodiment, the thin flexible transparent sheath covers the endoscope cover, the endoscope, and the endoscope cord. 
     In one embodiment, the upper chamber  122  is sealed at the proximal end  116  and is configured to protect the endoscopic camera, which is inserted to complete the procedure. In one embodiment, the endoscope  104  (endoscopic camera probe and LED source) could have a length of about 6 to 8 inches. In a particular embodiment, the endoscope  104  has a length of about 7 inches. The endoscope  104  comes with the connecting cable. In one embodiment, the connecting cable  108  is a USB cable. In one embodiment, the connecting cable  108  could be an optical connecting cable. 
     Referring to  FIG. 4 , in one embodiment, the device  100  further comprises a cell extraction device  124  having a handle at one end and a brush or head affixed at another end. In one embodiment, the cell extraction device  124  is slidably positioned within the lower chamber  120  of the protective guide  102 . The lower chamber  120  has an opening at the proximal end  116  configured to allow the insertion of the cell extraction device  124  into it. In one embodiment, the cell extraction device  124  is configured to enable a user to slide it outward for positioning the brush around the user&#39;s cervix, thereby conveniently collecting a cervical cell sample. 
     The lower chamber  120  also protects the cell extraction device  124  from vaginal fluid contamination. The lower chamber  120  has an opening at the distal end  118  configured to allow the cell extraction device  124  to be pulled into the targeted cervical area to collect the sample cell. In one embodiment, the cell extraction device  124  has a flat tail handle  126  configured to rotate and twist the cell extraction device  124  in both directions for improved sample cells collection. In one embodiment, the protective guide  102  further comprises a cell extraction device cover configured to enclose the cell extraction device. In one embodiment, the cell extraction device cover comprises a tunnel configured to insert the cell extraction device  124 . 
     In one embodiment, the camera cover and cell extraction device cover are press fit together. In one embodiment, the protective guide  102  further comprises at least one elastic band for holding the camera cover and the cell extraction device cover together. In one embodiment, the cell extraction device  124  is a pap smear brush. In one embodiment, the cell extraction device  124  is a pap smear broom. In one embodiment, the cell extraction device  124  is a pap smear spatula. 
     In one embodiment, the device  100  further comprises a computing device  106 . The computing device is in communication with the endoscope  104  and is configured to improve the detection, accuracy and visualization of the targeted cervical area, thereby enabling the user to accurately position the cell extraction device and comfortably collect the cervical cell sample for conducting the PAP test. One of the benefits and features of the present disclosure is that the device allows for this extraction to happen without the need for assistance by a gynecologist and/or a medical practitioner and without any discomfort or pain associated with presently available devices and methods. 
     In one embodiment, the computing device  106  comprises a processor and a memory having a software module executed by the processor. In one embodiment, the software module is at least one of a plugin component and/or a browser extension. In one embodiment, the processor is in communication with a server via a network. In one embodiment, the computing device  106  further comprises a database in communication with the server configured to store data related to the user&#39;s PAP test results. In one embodiment, the database in communication with the server is configured to store data related to testing documentation for patients, medical history upload forms and patient file database, training videos and guideline manuals, image and video file captures and storage, specimen label and laboratory requisition form printable templates, and Health Insurance Portability and Accountability Act (HIPAA) compliant integration options for Electronic Health Record (EMR) systems. 
     In one embodiment, the computing device  106  is in communication with the endoscope  104  via a connecting cable  108 . In one embodiment, the connecting cable  108  could be USB cable. In one embodiment, the computing device  106  could have a display or visual screen with the size of about 7.5 to 9.5 inches. The screen size enables the medical professionals to properly detect and more easily see and visualize the targeted cervical area. Also, the screen size is utilized and helpful for accurate and improved visual examinations. In one embodiment, the computing device  106  could be a mobile medically graded tablet computer with standard sized, high resolution visual screens with the size of about 7.5″ to 9.5″. The mobile medically graded tablet computer is used to improve the detection accuracy and provide a high-quality visual examination of the targeted vaginal area. In some embodiments, the computing device  106  could be a mobile phone, smart phone, tablet, laptop, desktop, monitor, or other suitable electronic communication device configured to provide visual reference for the medical professionals conducting the test. 
     In one embodiment, the computing device  106  could be installed with a customized or dedicated software application. The application could have built-in informational documentation videos and guidelines, medical history recording and patient file accessibility, images and video file storage, label and laboratory requisitions, and allow for electronic data sharing among medical professionals. In an exemplary embodiment, the application includes testing documentation for patients, medical history upload forms and patient file database, training videos and guideline manuals, image and video file capture and storage, specimen label and laboratory requisition form printable templates, Health Insurance Portability and Accountability Act (HIPAA) compliant integration options for Electronic Health Record (EMR) systems. 
     During the test procedure, the cell extraction device  124  is pushed outward from the cell extraction device cover so that said cell extraction device brush contacts the targeted cervix and removes cells from the cervix. Once the cells have been removed from the cervix, the cell extraction device  124  is then pulled back into the cell extraction device cover. The removed sample cells are placed on a glass slide that sent to the laboratory for testing to detect abnormalities. 
     In one embodiment, the device  100  is available as a self-test kit. The self-test kit comprises an endoscopic camera and cable, two disposable catheter assemblies, lubricating jelly, packet-sterile, latex-free surgical gloves, and cell preservation solution, cell collection bottle including requisitions, and specimen transport bags. These components are packed in vacuumed sealed sanitized packaging. The kit has a directional app or YouTube download to show how to use the device to collect samples by the user and without any other third party present, and also provide instructions on how to return the specimen back to the lab for further testing. 
     Referring to  FIG. 5 , a perspective view of the protective endoscopic catheter or protective guide  102  provided with the endoscope device  104  and the cell extraction device  124  in one embodiment is disclosed. In one embodiment, the protective guide  102  comprises a lower chamber  120  and an upper chamber  122 . In one embodiment, the endoscope device  104  comprises a camera and a light emitting device assembly at its distal end  110 . The endoscope device  104  is securely positioned within the upper chamber  122  of the protective guide  102 . 
     The protective guide  102  has a proximal end  116  and a distal end  118 . In one embodiment, the cell extraction device  124  is slidably positioned within the lower chamber  120  of the protective guide  102 , via the proximal end  116 . In one embodiment, the cell extraction device  124  is configured to enable the user to slide outward at the distal end  118  for positioning the brush  128  (shown in  FIG. 10 ) around the user&#39;s cervix, thereby conveniently allowing for a cervical cell sample to be collected for the PAP test. In one embodiment, the protective guide  102  has a length of about, but not limited to, 15 mm. In one embodiment, the inside diameter of the upper chamber  122  is about, but not limited to, 7 mm. The average depth of a vagina is about 3 inches to about 7 inches (approximately 7.6-17.7 cm). It is not necessary to make different sizes as the camera to guide the individual to reach the end of vaginal canal. The length is suited to reach the shorter length of travel with a few inches sticking out or end with maximum length of travel. 
     Referring to  FIGS. 6-8 , a side view and perspective views of the protective endoscopic catheter or protective guide  102  in one embodiment is disclosed. In one embodiment, the protective guide  102  comprises at least two chambers i.e., a lower chamber  120  and an upper chamber  122 . In one embodiment, the protective guide  102  could be a disposable dual-chambered tube. In one embodiment, the lower chamber  120  is configured to receive the cell extraction device  124  and the upper chamber  122  is configured to receive the endoscope device  104 . In one embodiment, the protective guide  102  has a maximum external diameter of about 1 cm. 
     Referring to  FIG. 9 , a cut-sectional view is shown of the protective guide  102 , according to one embodiment of the present invention. In one embodiment, a disk  130  is securely affixed to one end of the protective guide  102 . In one embodiment, the disk  130  has a diameter of about 40 mm. In one embodiment, another end of the protective guide  102  has a diameter of about 14 mm. In one embodiment, the protective guide  102  has a length of about 175 mm. The ideal length of the protective guide  102  is measured from the tip to the stopper cap and the end. The length of the protective guide  102  is no longer than 7 inches. In addition, the protective guide  102  is explored with slight upward curb to consider the inside shape of vagina. 
     In one embodiment, the protective guide  102  has a lower chamber  120  and an upper chamber  122 .  FIG. 10  exemplarily illustrates an enlarged view of the cut-sectional protective guide  102 , according to one embodiment of the present invention. In one embodiment, the upper chamber has a lip stopper. In one embodiment, the lip stopper is configured to stop the endoscopic camera from going forward with hollow middle to provide better visualization without creating an extra barrier in front of the light and lenses of the camera. In one embodiment, the lower chamber has a punch through thin medical grade poly-vinyl chloride (PVC). 
     In one embodiment, the lower chamber is protected from vaginal fluids to avoid contamination until it reaches the OS cervical point for cell collection procedures. After reaching the ideal point of interest, the brush will be pushed forward to punch through the thin vinyl protection curtain. The brush is then turned a few times clockwise and counter-clockwise to collect the cells from the surrounding tissues of the OS. In one embodiment, the brush/spatula that contains the collected cells is inserted and rinsed in the cell collection vial for about 10 times or about five minutes. In one embodiment, the lower chamber  120  of the protective guide  102  has a diameter of about 5.7 mm and the upper chamber  122  has a diameter of about 5.5 mm. In one embodiment, the protective guide  102  is made of, for example, a transparent material. The protective guide  102  could be made of an opaque material. 
     Referring to  FIG. 11 , a side view of the endoscope device  104  in one embodiment is disclosed. In one embodiment, the endoscope device  104  is used for screening the user&#39;s cervix or cervical area using the computing device  106  (shown in  FIG. 4 ). In one embodiment, the endoscope device  104  comprises a camera, one or more light emitting diodes (LEDs), and at least one USB port connection. In one embodiment, the camera could be, but is not limited to, a USB endoscope camera. In one embodiment, the endoscope device  104  is inexpensively and simply connected to the computing device  106  or a large screen via the USB port connection or a cable  108  (shown in  FIG. 4 ), for example, a video cable. 
     The location of the user&#39;s cervix could be determined by utilizing the camera. In one embodiment, the one or more light emitting diodes (LEDs) are configured to produce illumination for the camera through the endoscope device  104  to acquire video and/or image data of the user&#39;s cervical area. In one embodiment, the endoscope device  104  has a diameter of about, but is not limited to, 5 mm and the length ranges from about 8.5 mm to about 21.5 mm. 
     Referring to  FIG. 12 , the cell extraction device  124  of the present invention in one embodiment is disclosed. In one embodiment, the cell extraction device  124  comprises a handle  126  at one end and a brush  128  affixed at another end. In one embodiment, the handle  126  could be a flat tail handle in order to rotate and twist the cell extraction device  124  in both directions for efficiently collecting the cervical cell sample. In one embodiment, the cell extraction device  124  is slidably positioned within the upper chamber  122  of the protective guide  102 . The cell extraction device  124  is configured to enable the user to slide it outward for positioning the brush  128  around the user&#39;s cervix, thereby conveniently collecting the cervical cell sample without the need for assistance by a gynecologist or other medical practitioner. In one embodiment, the protective guide  102  will guide and protect the brush  128  from vaginal fluid contamination. 
     The cell extraction device  124  is pushed outward from the upper chamber  122  of the protective guide  102 , so that said brush  128  contacts the user&#39;s cervix and removes sample cells from the cervix. The cell extraction device  124  is pulled back into the upper chamber  122  of the protective guide  102  after the sample cells have been removed from the user&#39;s cervix. In one embodiment, the cell extraction device  124  has a length of about, 8 inches. In one embodiment, the handle  126  has a length of about one inch. The one size protective guide  102  with endoscopic camera of the instant pap-test testing device easily acts as a guide to the end of the vaginal canal, regardless of the length. The device could be sticking out a few inches for a shorter or minimum length, whereas the device is fully inserted for the maximum length depending on the need. 
     According to the present invention, the device provides lower procedure costs. The device makes the test procedure less invasive and painful. The device shortens the procedure time-frame and increases the efficiency. Also, the device makes the testing process more accurate. It makes testing equipment more accessible. In addition, it allows for mobile testing options, self-testing kits, easier and quicker cell collection of a sample of cells from the cervix, digital visualizations to allow closer examination and added privacy, video recording and collecting visual data, with training applications and software dedicated to testing procedures. 
     Advantageously, all medical professionals are capable of conducting the test using the device. The device has a smaller insertion diameter for total catheter assembly. It could also be used as self-testing kit, providing for a more accurate and robust test than existing devices. The efficiency and simplicity of the testing process allows for more tests to be scheduled per day than traditional pap-tests. Medical professionals without a gynecological background can be efficiently and easily trained in this testing method to complete the sample collection procedure. Indeed, women with no training are able to follow basis instructions and to use this device in the privacy of their homes and or in locations where no other person is present. The present disclosure allows for more accessibility by the everyday consumer to medical professionals, laboratories, and medical technicians to do the test based on the sample taken by the everyday consumer. In addition, mobile nurses and trained staff could reach patients anywhere, lending this device especially useful in locations and countries where access to healthcare and medical diagnostics is very limited. 
     Further, the device could potentially create a new market profitability for medical professionals. It reduces the testing cost so that more women can do the testing. It could also be expanded for all medical centers, including for example, specialty doctor offices. The device is affordable enough for an independent, traveling medical professional to provide in-home testing to their patients. Also, mobile medical practices could purchase several devices and provide each of their mobile professionals with kits for use in the field. 
     The present disclosure will allow access and testing to a much wider and larger group of women in the U.S. and worldwide and is likely to garner support from world health organizations and women health associations. There will be revenue from disposable catheter assembly and self-testing kits. Laboratories will be able to establish partnerships with medical Offices and receive self-tested specimens to process test results, generating revenue for the lab and cutting costs for the medical practices. The self-test will include profit margins from laboratory as well for distributions. 
     As such, one aspect of the present disclosure is directed to a medical device for conducting a Papanicolaou (PAP) test, comprising: (a) a protective endoscopic catheter or protective guide having an upper chamber and a lower chamber; (b) an endoscope device having a camera and a light emitting device assembly, wherein the endoscope device is securely positioned within the upper chamber of the disposable protective guide; (c) a cell extraction device having a handle at one end and a brush affixed at another end, wherein the cell extraction device is slidably positioned within the lower chamber of the protective guide, and wherein the cell extraction device is configured to enable a user to slide outward for positioning the brush around the user&#39;s cervix, thereby conveniently collecting a cervical cell sample; and (d) a computing device in communication with the endoscope device configured to improve detection accuracy and visual examinations of the targeted cervical area, thereby enabling the user to accurately position the cell extraction device and comfortably collecting the cervical cell sample for conducting the PAP test without the need for assistance by a gynecologist and/or a medical practitioner, wherein the computing device comprises a processor and a memory having a software module executed by the processor, wherein the software module is at least one of a plugin component and/or a browser extension, wherein the processor is in communication with a server via a network, and a database in communication with the server configured to store data related PAP test for the user. 
     In one embodiment, the protective guide is a disposable dual-chambered tube. In another embodiment, the light emitting device assembly comprises one or more light emitting diodes (LEDs). In one embodiment, the one or more light emitting diodes are configured to produce illumination for the camera through the endoscope to acquire video and/or image data of the user&#39;s cervical area. In one embodiment, the computing device is in communication with the endoscope via a universal serial bus (USB) cable. In another embodiment, the database in communication with the server is configured to store data related to testing documentation for patients, medical history upload forms &amp; patient file database, training videos and guideline manuals, image and video file capture and storage, specimen label and laboratory requisition form printable templates, and Health Insurance Portability and Accountability Act (HIPAA) compliant integration options for Electronic Health Record (EMR) systems. 
     In one embodiment, the computing device is at least anyone of a smart phone, a tablet, a computer, a laptop, a monitor, and other suitable electronic communication device configured to provide visual reference for the medical professionals conducting the test. In another embodiment, the medical device is further configured to utilize for early detection of chlamydia, gonorrhea, human papillomavirus (HPV), and other sexually transmitted viruses or infections (STI). In one embodiment, the protective guide has a maximum external diameter of less than 1 cm. 
     Another aspect of the present disclosure is directed to a protective guide for protecting a cell extraction device during a pap smear test, comprising: a camera configured to determine the location of the cervix; a light emitting device configured to illuminate the surfaces or spaces to view the width; a camera cover configured to cover the camera and the light emitting device; a thin flexible transparent sheath configured to cover the camera cover; and a cell extraction device cover configured to cover the cell extraction device, wherein the cell extraction device is pushed outward from the cell extraction device cover, thereby allowing the cell extraction device brush to contact the cervix and removes/collects sample cells from the cervix, wherein the cell extraction device is pulled back into the cell extraction device cover after collecting sample cells from the cervix. 
     In one embodiment, the camera and light emitting device is an endoscope. In another embodiment, the camera cover is an endoscope cover. In one embodiment, the flexible transparent sheath is a condom covering the camera cover. In one embodiment, the thin flexible transparent sheath covers the endoscope cover, the endoscope, an endoscope cord. In one embodiment, the cell extraction device cover comprises a tunnel configured to insert the cell extraction device. In another embodiment, the camera cover and cell extraction device cover are press fit together. In a related embodiment, the protective guide further comprises at least one elastic band for holding the camera cover and the cell extraction device cover together. In one embodiment, the cell extraction device is a pap smear brush. In another embodiment, the cell extraction device is a pap smear broom. In yet another embodiment, the cell extraction device is a pap smear spatula. 
     Referring to  FIG. 13 , an end-to-end PapEasy methodology  1300  for conducting PAP smear test, according to an embodiment of the present invention. The methodology  1300  provides training and instructions  1302  to collect samples for conducting PAP test. The methodology  1300  provides step by step instructions and training materials in various formats. In some embodiments, the step by step instructions and training materials may be in the form of hard-copy materials with texts and graphics included inside the box, digital formats; mobile app and portal “how to use” page, multimedia (for example, video, 3D animation, webinar, online workshops, and podcast), social media and YouTube, web-info, blogs, telemedicine portal, community page, help-desk support (live and email), and frequently asked questions (FAQ) page. 
     The methodology  1300  further provides professional and personally capable women the health testing method  1304 . The methodology  1300  utilizes the device  100  to collect the samples for conducting the PAP test. The device  100  comprises one or more hardware components  1306 , a vision system  1308 , a sterile testing swab  1310 , and a supporting materials  1312 . In one embodiment, the hardware components  1306  are mechanical components. In one embodiment, the vision system  1308  includes one or more electronics and software modules. In one embodiment, the sterile testing swab  1310  is a medical component. In one embodiment, the supporting materials  1312  include, but not limited to, lubricant, sample containers, and cleansing swab. 
     The methodology  1300  is used for cervical cancer testing procedure  1314 . In one embodiment, the methodology  1300  is utilized for early detection of chlamydia, gonorrhea, human papillomavirus (HPV)  1316 , and other sexually transmitted viruses or infections  1318 . Further, the methodology  1300  provides testing path videos  1320  and one or more modules  1322  such as testing images, artificial intelligence (AI), machine learning (ML), and medical statistics. 
     Referring to  FIG. 14 , a method  1400  of collecting cervical tissue samples, according to an embodiment of the present invention. In one embodiment, the method  1400  allows the user to collect the cervical tissue samples by themselves with maximum comfort and privacy at any convenient time. The method  1400  comprises the following steps. At step  1402 , the protective guide  102  is inserted through the introitus of a user&#39;s vagina. In one embodiment, the protective guide  102  comprises the lower chamber  120  and the upper chamber  122 . The lower chamber  120  is configured to receive the cell extraction device  124 . The upper chamber  122  is configured to receive the endoscope device  104 . At step  1404 , an exact location of the cervix is determined using the endoscope device  104 . 
     At step  1406 , the cell extraction device  124  is pushed outward from the lower chamber  120  to contact the cervix. At step  1408 , the cervical tissue samples are collected from the cervix using the cell extraction device  124 . At step  1410 , the cell extraction device  124  is then pulled back into the lower chamber  120 . At step  1412 , the protective guide  102  is removed with the endoscope device  104  and cell extraction device  124  from the user&#39;s vagina. At step  1414 , the cervix tissue samples are secured in a collection container for submitting them to a lab for diagnosis and results. In one embodiment, the method  1400  is utilized for early detection of chlamydia, gonorrhea, human papillomavirus (HPV), abnormal cervical cells, precancerous and cancerous lesions, vulvar cancers, cervical polyps, growths and anomalies of the vaginal canal and cervix, and other sexually transmitted viruses or infections. 
     Referring to  FIG. 15 , a method  1500  of collecting cervical tissue samples from a patient/user for conducting a PAP smear test is provided, according to an embodiment of the present invention. The method  1500  provides a less painful and more comfortable sampling procedure for collecting cervical tissue samples. The method  1500  allows the user to choose a private place where they lie down comfortably on their back. A pillow may be placed under their head for comfort and ease of accessing the instruments. Before starting the tissue collecting procedure, the external labia and introitus (lips and opening of vagina) with sterile cleansing cloth included, to remove any external debris. In addition, a small lubricant package is utilized to lubricate vaginal introitus (opening of vaginal entrance), enough to coat the rim of the vaginal opening, but not obscure the visualization end or camera of the endoscope device  104 . Next, the user lies on their back with knees flexed or in frog leg position. 
     The method  1500  comprises the following steps. At step  1502 , the cell extraction device  124  is inserted into the protective guide  102 . In one embodiment, the protective guide  102  comprises the upper chamber  122  for receiving the endoscope device  104 . The endoscope device  104  comprises a camera and a light emitting device assembly. In one embodiment, the protective guide  102  further comprises the lower chamber  120  for receiving the cell extraction device  124  and to allow for access and movement of the cell extraction device  124 . In one embodiment, the cell extraction device  124  comprises a handle  126  at one end and a brush or head fixed at another end. 
     At step  1504 , the protective guide  102  with the endoscope device  104  and cell extraction device  124  is gently inserted through the introitus of a user&#39;s vagina until the cervix is visualized. At step  1506 , the location of the cervix is determined using the endoscope device  104 . If the visualization is not easily accomplished, the protective guide  102  is gently withdrawn and the endoscope device&#39;s probe is slightly bent upwards and inserted again. If visualization is still not accomplished, the protective guide  102  is gently withdrawn and the endoscope device&#39;s probe is slightly bent downwards and inserted again. At step  1508 , the cell extraction device  124  is pushed outward from the lower chamber  120  to contact the cervix. 
     At step  1510 , the cell extraction device  124  is cleansed to clear secretions from the cervix. In one embodiment, the secretion is cleared using a cleansing swab. At step  1512 , the cervical tissue samples are collected from the cervix using the cell extraction device  124 . In one embodiment, one or more culture swabs are used to take samples for bacteria and STD&#39;s. At step  1514 , the cell extraction device  124  is pulled back into the lower chamber  120 . At step  1516 , the protective guide  102  is removed with the endoscope device  104  and cell extraction device  124  from the user&#39;s vagina. At step  1518 , the cervix tissue samples are secured in a collection container. At step  1520 , the sample&#39;s container is submitted for diagnosis and results. In one embodiment, the samples are submitted with the contact information of the user via a dedicated application software. In another embodiment, the samples are submitted with the contact information of the user on submission sheet included in the sample&#39;s package. 
     Referring to  FIG. 16 , a method  1600  is provided for generating results for a PAP smear test, according to one embodiment of the present invention. The method  1600  utilizes a dedicated application software or mobile application or application program or web-based application or desktop application to conduct the PAP smear test via online. The application software is installed into a user&#39;s device. The method  1600  comprises the following steps. At step  1602 , the application software allows the user to create a PapEasy user account. The user creates their account by registering into a registration portal of a dedicated PapEasy application software using one or more user credentials. In one embodiment, the one or more user credentials may include user name, first name, last name, password, and contact information. At step  1604 , the collected user&#39;s cervical tissue samples are submitted to PapEasy Lab for diagnosis and results. At step  1606 , the user&#39;s contact information is submitted clearly in the registration portal while submitting the samples for PAP smear test. At step  1608 , the results of the PAP smear test are sent to the registered PapEasy user account. In one embodiment, the result of PAP test is sent to the registered account of the user as soon as the results are ready via a message or email. 
     According to the present invention, the PapEasy provides an easy, less painful, and comfortable sampling procedure. It is gentler for collecting samples and eliminates the need of a speculum. The PapEasy is an easy self-administration procedure. The method is used in many circumstances including; women with atrophic vaginitis and post-menopausal mucosa, post-partum atrophic changes, virginal introitus, including those who have had penetration or who have not had penetration for extended period of time, or in same sex relationships without penetrative sexual activity. Speculum use, even with smaller size speculum, can be extremely uncomfortable, painful, and even psychologically disturbing and traumatic. Moreover, in cases of rape or child sexual abuse, PapEasy would be a much more palatable, acceptable, and comfortable alternative. 
     PapEasy is performed away from the physician&#39;s office in a home or field setting. Home testing is becoming the acceptable new format in healthcare. The method decreases the level of exposure (for example to COVID-19). It provides the ability to have remote discussion of results with a healthcare provider without having to enter the office. PapEasy allows not only the preservation of comfort and privacy for the patient, but also convenience of timing that can accommodate all lifestyles. Many patients may prefer a self-administered test to undressing in front of a physician. 
     In addition, PapEasy may be used anywhere and performed by anyone with minimal instruction, this opens the testing arena to areas that are medically underserved in the U.S. and worldwide, which may be a solution for dwindling manpower of medical practitioners. PapEasy allows access of cervical cancer screening to be vastly increased. This is the only form of pap collection that does not require specific medical training to effectively collect samples. This opens the possibility of a wider number of personnel at medical centers, and even in the field of social workers, rape crisis teams, outreach teams to homeless populous, sex workers, etc., to be able to do cancer and HPV screening and STD screening. 
     Further, PapEasy has a clear priority of early detection of HPV, abnormal cervical cells, precancerous and cancerous lesions for prevention of cervical cancer deaths, early treatment and education. PapEasy modality is a suitable format for testing and diagnosing STD&#39;s, vulvar cancers, cervical polyps, and growths and anomalies of the vaginal canal and cervix. The potential for vaginal and cervical health testing and diagnosis is enhanced by the novel device and method of the present disclosure. 
     The foregoing description comprise illustrative embodiments of the present invention. Having thus described exemplary embodiments of the present invention, it should be noted by those skilled in the art that the within disclosures are exemplary only, and that various other alternatives, adaptations, and modifications may be made within the scope of the present invention. Merely listing or numbering the steps of a method in a certain order does not constitute any limitation on the order of the steps of that method. 
     Many modifications and other embodiments of the invention will come to mind to one skilled in the art to which this invention pertains having the benefit of the teachings presented in the foregoing descriptions. Although specific terms may be employed herein, they are used only in generic and descriptive sense and not for purposes of limitation. Accordingly, the present invention is not limited to the specific embodiments illustrated herein. While the above is a complete description of the preferred embodiments of the invention, various alternatives, modifications, and equivalents may be used. Therefore, the above description and the examples should not be taken as limiting the scope of the invention, which is defined by the appended claims.