Description:FIELD OF THE INVENTION

[0001] The present invention relates to a polyherbal emulsion preparation device for septicemia that is designed for preparation and application of a polyherbal emulsion for therapeutic purposes, specifically for treating septicemia.

BACKGROUND OF THE INVENTION

[0002] Septicemia, a severe bloodstream infection, often requires the use of herbal remedies alongside conventional treatments for supporting immune function and promoting recovery. Traditionally, herbal emulsion preparations have been made manually, combining multiple herbal extracts known for their antibacterial, anti-inflammatory, and immune-boosting properties. The process typically involves grinding, heating, and mixing ingredients by hand or using rudimentary mechanical mixers. However, these methods often lead to inconsistent formulations, imprecise dosages, and a lack of standardization in the final product, reducing the efficacy and reliability of the treatment. Additionally, such processes are time-consuming and may introduce contamination risks.

[0003] Traditionally, the preparation of polyherbal emulsions for septicemia involved the manual mixing of multiple herbal extracts, oils, and solvents, using mortar and pestle or simple hand-operated mixers. This was done to create an emulsion of active compounds from plants known for their antimicrobial, anti-inflammatory, and immune-boosting properties, which aids in treating septicemia. But the method is quite time consuming and labour-intensive. So, people use some machines like High-Shear Mixers as these aids in during preparation of polyherbal emulsion and perform the operation within minimal consumption of time. But these are quite costly, making them inaccessible to smaller manufacturers or individual practitioner.

[0004] WO2020012447A1 discloses about an invention that includes a polyherbal extract formulation obtained from the plants Guava (Psidium guajava), Jamun (Syzygium cumin), Bitter gourd (Momordica charantia) and Amla (Phyllanthus emblica). The formulation comprises air-dried guava leaf powder at a concentration of 250mg, extracts from guava leaf at a concentration of the 100mg obtained by 60% ethanol extraction process, dried jamun fruit powder at a concentration of 100mg, jamun seed extract at a concentration of 20mg obtained by 70% ethanol extraction process, dried bitter gourd fruit powder at a concentration of 100mg and dried amla fruit powder at a concentration of 50mg. The formulation is effective in managing blood glucose level among diabetic individual. The formulation results in reducing the post prandial spike in the blood sugar and also reduces the spike in the morning fasting blood sugar.

[0005] EP1560641B1 discloses about an invention that includes a method and a system for the emulsification of a pre-mix of two or more immiscible liquids by flowing or circulating one or more times said pre-mix through one or more magnetic fields.

[0006] Conventionally, many devices have been developed that are capable of preparing polyherbal emulsion for septicemia. However, these existing devices are incapable of preparing a customized polyherbal emulsion as per the health needs of an individual. Additionally, these existing devices also lack in determining required dosage of each herb, that results in preparation of incorrect formulation.

[0007] In order to overcome the aforementioned drawbacks, there exists a need in the art to develop a device that requires to be capable of autonomously preparing a customized polyherbal emulsion tailored to the health needs of an individual, specifically targeting the treatment of septicemia by incorporating health monitoring data. In addition, the developed device also needs to improve the accuracy and efficiency of emulsion preparation by automatically determining the required dosage of each herb, thereby ensuring correct formulation is prepared based on the user’s health data.

OBJECTS OF THE INVENTION

[0008] The principal object of the present invention is to overcome the disadvantages of the prior art.

[0009] An object of the present invention is to develop a device that is capable of autonomously preparing a customized polyherbal emulsion tailored to health needs of an individual, specifically targeting the treatment of septicemia by incorporating health monitoring data.

[0010] Another object of the present invention is to develop a device that is able to improve accuracy and efficiency of emulsion preparation by automatically determining the required dosage of each herb, thereby ensuring correct formulation is prepared based on the user’s health data.

[0011] Yet another object of the present invention is to develop a device that is able to facilitate delivery of additional therapeutic interventions, when symptoms persist, thereby allowing the user to access a holistic approach to managing septicemia.

[0012] The foregoing and other objects, features, and advantages of the present invention will become readily apparent upon further review of the following detailed description of the preferred embodiment as illustrated in the accompanying drawings.

SUMMARY OF THE INVENTION

[0013] The present invention relates to a polyherbal emulsion preparation device for septicemia that is capable of assessing user's health parameters, for determining appropriate herbal ingredients used for preparing polyherbal emulsion, and accordingly produces an emulsion that is applied to the skin for relief from septicemia-related symptoms.

[0014] According to an embodiment of the present invention, a polyherbal emulsion preparation device for septicemia comprises of a housing positioned on a ground surface and installed with plurality of chambers stored with different herbs, the herbs include but not limited to clove, Prickly pear, and oregano, a wrist wearable body is wirelessly associated with the device that is accommodated over wrist of a user affected with septicemia, a contact sensor arranged with the body for detecting presence of the body on the user’s wrist, a sensing module that includes a Fiber Bragg Grating sensor and an electrochemical sensor installed with the body for detecting vital health parameters and blood glucose level of the user, a motorized iris lid configured with each of the chambers to open for dispensing the user-defined amount of the herbs in a container attached underneath the chambers, an L-shaped telescopically operated pusher attached with a U-shaped member is configured within the container to extend and retract in a continuous manner for applying a force to extract oil from the herbs, a motorized slider is configured with the pusher to translate the pusher along walls of the container for appropriately crushing all herbs to extract the oil, and a receptacle arranged underneath the container and installed with a set of electronic nozzles that are connected with a set of vessels stored with water phase ingredients including Sodium Lauryl Sulphate, Potassium, Chloroform, and distilled water, for dispensing the ingredients in the receptacle.

[0015] According to another embodiment of the present invention, the proposed device further comprises of a stirrer installed within the receptacle to rotate for stirring the ingredients and obtain water-phase solution, an electronic valve configured with the container for dispensing the extracted oil in the receptacle, the oil is filtered through a filter installed underneath the valve and is added in the receptacle, an electronic spout installed with the receptacle to open for dispensing the emulsion on a cotton pad positioned underneath the receptacle, a speaker mounted on the housing for notifying the user to collect the cotton pad and apply the cotton pad on wounded area of the user’s body for reducing symptoms of the septicemia, in case the symptoms are not reduced even after applying the emulsion, the speaker notifying the user to stand in front of a cuboidal unit attached on the housing and stored with water for taking steam, a robotic arm assembled on the housing for transferring the clove from one of the chambers to the housing, a heating unit installed with the body for heating the body to produce steam having accent of clove to reduce the symptoms of the septicemia and a battery is associated with the device for supplying power to electrical and electronically operated components associated with the device.

[0016] While the invention has been described and shown with particular reference to the preferred embodiment, it will be apparent that variations might be possible that would fall within the scope of the present invention.

BRIEF DESCRIPTION OF THE DRAWINGS

[0017] These and other features, aspects, and advantages of the present invention will become better understood with regard to the following description, appended claims, and accompanying drawings where:
Figure 1 illustrates a perspective view of a polyherbal emulsion preparation device for septicemia.

DETAILED DESCRIPTION OF THE INVENTION

[0018] The following description includes the preferred best mode of one embodiment of the present invention. It will be clear from this description of the invention that the invention is not limited to these illustrated embodiments but that the invention also includes a variety of modifications and embodiments thereto. Therefore, the present description should be seen as illustrative and not limiting. While the invention is susceptible to various modifications and alternative constructions, it should be understood, that there is no intention to limit the invention to the specific form disclosed, but, on the contrary, the invention is to cover all modifications, alternative constructions, and equivalents falling within the spirit and scope of the invention as defined in the claims.

[0019] In any embodiment described herein, the open-ended terms "comprising," "comprises,” and the like (which are synonymous with "including," "having” and "characterized by") may be replaced by the respective partially closed phrases "consisting essentially of," consists essentially of," and the like or the respective closed phrases "consisting of," "consists of, the like.

[0020] As used herein, the singular forms “a,” “an,” and “the” designate both the singular and the plural, unless expressly stated to designate the singular only.

[0021] The present invention relates to a polyherbal emulsion preparation device for septicemia that autonomously formulates a personalized polyherbal emulsion customized to the specific health requirements of an individual, thereby treating septicemia by integrating health monitoring data. Additionally, the proposed device enhances the precision and effectiveness of the emulsion preparation process by automatically calculating the necessary dosage of each herb, thereby ensuring that the formulation is accurately prepared according to the user’s health information.

[0022] Referring to Figure 1, a perspective view of a polyherbal emulsion preparation device for septicemia is illustrated, respectively, comprising a housing 101 positioned on a ground surface and installed with plurality of chambers 102, a motorized iris lid 103 configured with each of the chambers 102, a container 104 attached underneath the chambers 102, an L-shaped telescopically operated pusher 105 attached with a U-shaped member 106.

[0023] Figure 1 further illustrates a receptacle 107 arranged underneath the container 104 and installed with a set of electronic nozzles 108 that are connected with a set of vessels 109, a stirrer 110 installed within the receptacle 107, an electronic valve 111 configured with the container 104, an electronic spout 112 installed with the receptacle 107, a speaker 113 mounted on the housing 101, a motorized slider 114 is configured with the usher 105, a cuboidal unit 115 attached on the housing 101, a robotic arm 116 assembled on the housing 101.

[0024] A housing 101 is positioned on a ground surface, designed to support multiple chambers 102. Each of these chambers 102 is dedicated to storing different herbs, wherein the herbs include, but not limited to clove, Prickly pear, and oregano. The housing 101 is constructed to securely hold the herbs in separate, compartmentalized sections to maintain their individual properties and prevent cross-contamination. The arrangement of the chambers 102 allows for easy access and management of the stored herbs. These herbs are used for preparing polyherbal emulsions or other medicinal formulations. The chambers 102 are designed to preserve the quality and potency of the herbs for their intended use.

[0025] A wrist-wearable body is wirelessly linked to the device, designed to be worn on the wrist of a user affected by septicemia. This wearable unit is configured to monitor and transmit health-related data from the user to the device, facilitating real-time analysis of symptoms and conditions associated with septicemia. The device communicates wirelessly with the wearable body to gather physiological data, such as temperature, heart rate, and other vital signs. This integration enables continuous tracking of the user's health status, for allowing the device to provide customized treatment recommendations to the user of any concerning symptoms.

[0026] A contact sensor is integrated into the body of the wrist-worn device, designed to detect the presence of the device on the user’s wrist. The sensor continuously monitors physical contact between the wearable device and the user's skin. Upon detection of the device's placement on the wrist, the sensor enables the communication and data transfer between the wearable and the microcontroller. This ensures the device is functioning correctly, only when worn, and prevents false readings or unnecessary operations when the device is not in contact with the user’s wrist.

[0027] The contact sensor operates by detecting physical contact of user’s wrist with the body. It typically uses capacitive or resistive technology. In capacitive touch sensors, a conductive object (like user’s wrist) alters the sensor's electrical field, changing its capacitance. This change is detected and processed by the microcontroller. The microcontroller analyzes the data and detects presence of the body on the user’s wrist.

[0028] The body is installed with a sensing module which includes a Fiber Bragg Grating sensor and an electrochemical sensor for detecting vital health parameters and blood glucose level of the user. The Fiber Bragg Grating (FBG) sensor works by reflecting specific wavelengths of light from a fiber-optic strand that is modified with periodic variations. When the sensor is applied to the user’s body, changes in temperature or strain cause a shift in the reflected light wavelength. The microcontroller analyzes this shift, converting it into data regarding the user’s health parameters, such as heart rate or blood oxygen levels. Any deviation in wavelength indicates a change in physiological condition, which is processed to provide real-time health status of the user.

[0029] The electrochemical sensor operates by detecting changes in electrical signals when in contact with the user’s skin. The sensor contains electrodes that interact with sweat or blood from the user’s skin, causing a chemical reaction. This reaction generates a measurable electrical current that is proportional to the concentration of glucose or other analytes. The sensor sends this data to the microcontroller, which processes and displays the user's blood glucose level, enabling continuous monitoring of the user's condition.

[0030] The microcontroller is programmed to evaluate the user's health condition, medical history, and specific requirements based on input data. Upon receiving this information, the microcontroller references a pre-stored database that contains the optimal proportions of various herbs used for polyherbal emulsion preparation. Simultaneously, the data is processed with considering factors such as the user's specific symptoms, allergies, and any contraindications. Based on the analysis, the microcontroller calculates the precise amount of each herb to be used, ensuring a formulation tailored to the user’s needs.

[0031] As per the determined amount, the microcontroller actuates a motorized iris lid 103 which is configured with each of the chambers 102. The iris lid 103 comprises of a ring and a blade with multiple protrusions. The ring is fabricated with multiple grooves. The ring is installed with the motor that is actuated by the microcontroller for rotating the ring with a specified speed to regulate the opening and closing of the lid 103 in order to dispense the user-defined amount of the herbs in a container 104 attached underneath the chambers 102.

[0032] An L-shaped telescopically operated usher 105 is securely attached to a U-shaped member 106 within the container 104. The usher 105 is designed to extend and retract in a controlled manner, allowing for precise movement inside the container 104. The telescopic function enables the usher 105 to adjust its length depending on the container 104 contents and required action. The U-shaped member 106 supports and guides the movement of the pusher 105, thereby ensuring it operates smoothly within the container 104.

[0033] The pusher 105 is pneumatically actuated, wherein the pneumatic unit of the pusher 105 comprises of a cylinder incorporated with an air piston and the air compressor, wherein the compressor controls discharging of compressed air into the cylinder via air valves which further leads to the extension/retraction of the piston. The piston is attached to the telescopic pusher 105, wherein the extension/retraction of the piston corresponds to the extension/retraction of the pusher 105. The actuated compressor allows extension of the pusher 105 in a continuous manner for applying a force to extract oil from the herbs.

[0034] Synchronously, the microcontroller generates a command and regulates actuation of a motorized slider 114 which is configured with the pusher 105. The slider 114 consists of a pair of sliding rails fabricated with grooves in which the wheel of a slider 114 is positioned that is further connected with a bi-directional motor via a shaft. The microcontroller actuates the bi-directional motor to rotate in clockwise and anti-clockwise direction that aids in rotation of shaft, wherein the shaft converts the electrical energy into rotational energy for allowing movement of the wheel to translate over the sliding rail by a firm grip on the grooves. The movement of the slider 114 results in translation of the pusher 105 along walls of the container 104 for appropriately crushing all herbs to extract the oil.

[0035] A receptacle 107 is positioned underneath the container 104 and is equipped with a set of electronic nozzles 108. These nozzles 108 are connected to a set of vessels 109 that store water-phase ingredients, including Sodium Lauryl Sulfate, Potassium, Chloroform, and distilled water. The nozzles 108 are controlled by the microcontroller that actuates their dispensing functions. Upon activation, the microcontroller directs the nozzles 108 to release the specified water-phase ingredients into the receptacle 107 in precise amounts. This controlled dispensing ensures accurate formulation of the mixture, which is essential for the intended emulsion or formulation process. The use of electronic nozzles 108 allows for efficient, automated control over the distribution of ingredients.

[0036] The receptacle 107 is installed with a stirrer 110 which facilitates stirring of the ingredients and obtain water-phase solution. Prior actuation of the stirrer 110, the microcontroller actuates an electronic valve 111 that is configured with the container 104. The electronically controlled valve 111 is used to control extracted oil flow by varying the size of the flow passage as directed by a signal from a controller. This enables the direct control of flow rate and dispenses the extracted oil in the receptacle 107. The oil that is dispensed is filtered by means of a filter installed underneath the valve 111, and after filtration of dispensed oil is completed, the oil is added in the receptacle 107.

[0037] As the oils is dispensed within the receptacle 107 the microcontroller actuates the stirrer 110. The stirrer 110 consists of a motor connected to a rotating shaft within the receptacle 107. When activated by the microcontroller, the motor drives the shaft, causing the attached blades to rotate. This rotation creates a swirling motion in the water-phase ingredients and oil present within the receptacle 107, for ensuring thorough mixing. The stirrer 110 maintains a consistent speed and rotation, for allowing the ingredients such as Sodium Lauryl Sulphate, Potassium, Chloroform, distilled water and oil to blend evenly. The continuous agitation helps to obtain the emulsion.

[0038] The electronic spout 112 connected to the receptacle 107, controlled by the microcontroller. When the microcontroller activates the spout 112, it sends a signal to open the valve 111, allowing the emulsion to flow out of the receptacle 107. The spout 112 is precisely positioned above a cotton pad, ensuring that the dispensed emulsion is directed onto the pad. The amount of emulsion released is regulated by the microcontroller, allowing for controlled dispensing. Once the desired amount of emulsion is dispensed, the microcontroller deactivates the valve 111, stopping the flow and preventing further dispensing.

[0039] The housing 101 is installed with a speaker 113 that notifies the user to collect the cotton pad and apply the cotton pad on wounded area of the user’s body for reducing symptoms of the septicemia. The speaker 113 disclosed herein works by receiving signals from the microcontroller, converting them into sound waves through a diaphragm’s vibration, and producing audible sounds with the help of amplification and control circuitry in order to notify the user to collect the cotton pad and apply the cotton pad on wounded area of the user’s body for reducing symptoms of the septicemia.

[0040] In the event that the symptoms are not alleviated despite the application of the polyherbal emulsion, the microcontroller, upon detecting a lack of improvement, triggers the re-actuation of the speaker 113. This application of speaker 113 generates a notification alert for the user to position themselves in front of a cuboidal unit 115 integrated into the housing 101. The cuboidal unit 115, which contains a reservoir of water, is designed to emit steam upon activation. The steam inhalation process is intended to support further relief, potentially enhancing the emulsion's effectiveness by promoting better absorption or facilitating the user’s recovery.

[0041] The microcontroller, upon receiving the necessary commands, actuates a robotic arm 116 that is integrated into the housing 101. This robotic arm 116 is specifically designed to transfer the clove from one of the designated chambers 102 to the unit. The process involves the robotic arm 116 moving with precision and control to ensure that the clove is properly handled and placed into the unit for further use. The entire operation is controlled and coordinated by the microcontroller to ensure that the transfer is executed smoothly and efficiently, without the need for manual intervention, thereby optimizing the preparation process.

[0042] The robotic arm 116 consists of multiple joints and actuators controlled by the microcontroller. When activated, the microcontroller sends signals to the actuators, which move the arm 116 in a coordinated manner. The arm 116 end effector engages the clove within the chambers 102, securely grasping it. The arm 116 then moves along its pre-programmed path, navigating toward the designated unit. Once positioned, the gripper releases the clove into the unit. The robotic arm 116 operates with high precision, ensuring accurate transfer with minimal delay, and returns to its idle position.

[0043] A heating unit, integrated within the designated unit, is activated by the microcontroller to initiate the heating process. Upon activation, the heating element of the unit begins to generate controlled heat, which is directed to the water contained within the unit. As the water reaches a predefined temperature, it undergoes a phase change, converting into steam. The steam, infused with the natural aroma of clove, is then released into the environment. This steam, containing therapeutic volatile compounds from the clove, is intended for inhalation by the user to alleviate symptoms associated with septicemia, such as inflammation/infection.

[0044] Moreover, a battery is associated with the device for powering up electrical and electronically operated components associated with the device and supplying a voltage to the components. The battery used herein is preferably a Lithium-ion battery which is a rechargeable unit that demands power supply after getting drained. The battery stores the electric current derived from an external source in the form of chemical energy, which when required by the electronic component of the device, derives the required power from the battery for proper functioning of the device.

[0045] The present invention works best in the following manner, where the housing 101 as disclosed in the invention is developed to be positioned on the ground surface, installed with plurality of chambers 102 stored with different herbs. The herbs as disclosed herein includes but not limited to clove, Prickly pear, and oregano. The wrist wearable body is wirelessly associated with the device which is dedicated towards accommodation over wrist of a user affected with septicemia. Afterwards the contact sensor detects presence of the body on the user’s wrist and based upon the detected presence, the processing unit installed with the body activates the sensing module including Fiber Bragg Grating sensor and electrochemical sensor for detecting vital health parameters and blood glucose level of the user. The motorized iris lid 103 opens for dispensing the user-defined amount of the herbs in the container 104 attached underneath the chambers 102. Then the L-shaped telescopically operated pusher 105 attached with the inverted U-shaped member 106 extends and retracts in the continuous manner for applying the force to extract oil from the herbs. Thereafter the motorized slider 114 translates the pusher 105 along walls of the container 104 for appropriately crushing all herbs to extract the oil.

[0046] In continuation, then the receptacle 107 arranged underneath the container 104 installed with set of electronic nozzles 108 that are connected with the set of vessels 109 stored with water phase ingredients including Sodium Lauryl Sulphate, Potassium, Chloroform, and distilled water dispenses the ingredients in the receptacle 107. The stirrer 110 installed within the receptacle 107 rotates for stirring the ingredients to obtain water-phase solution. Now the electronic valve 111 dispenses the extracted oil in the receptacle 107. The oil is filtered through the filter installed underneath the valve 111 and is added in the receptacle 107. Synchronously, the stirrer 110 stirs the water-phase solution with the oil to obtain the emulsion. The electronic spout 112 opens up for dispensing the emulsion on the cotton pad positioned underneath the receptacle 107. The speaker 113 mounted on the housing 101 notifies the user to collect the cotton pad and apply the cotton pad on wounded area of the user’s body for reducing symptoms of the septicemia. In case the symptoms are not reduced even after application of the emulsion, the microcontroller activates the speaker 113 for notifying the user to stand in front of the cuboidal body attached on the housing 101 and stored with water for taking steam.

[0047] Although the field of the invention has been described herein with limited reference to specific embodiments, this description is not meant to be construed in a limiting sense. Various modifications of the disclosed embodiments, as well as alternate embodiments of the invention, will become apparent to persons skilled in the art upon reference to the description of the invention. , Claims:1) A polyherbal emulsion preparation device for septicemia, comprising:

i) a housing 101 positioned on a ground surface and installed with plurality of chambers 102 stored with different herbs, wherein a wrist wearable body is wirelessly associated with said device that is accommodated over wrist of a user affected with septicemia;
ii) a contact sensor arranged with said body for detecting presence of said body on said user’s wrist, in accordance to which a processing unit installed with said body activates a sensing module installed with said body for detecting vital health parameters and blood glucose level of said user, and send a signal to a microcontroller installed with said housing 101, wherein based on values of said vital health parameters and blood glucose level, said microcontroller determines an amount of each of said herb to be used for preparing a polyherbal emulsion;
iii) a motorized iris lid 103 configured with each of said chambers 102 that are actuated by said microcontroller to open for dispensing said user-defined amount of said herbs in a container 104 attached underneath said chambers 102, wherein an L-shaped telescopically operated pusher 105 attached with a U-shaped member 106 is configured within said container 104 are is actuated by said microcontroller to extend and retract in a continuous manner for applying a force to extract oil from said herbs;
iv) a receptacle 107 arranged underneath said container 104 and installed with a set of electronic nozzles 108 that are connected with a set of vessels 109 stored with water phase ingredients including Sodium Lauryl Sulfate, Potassium, Chloroform, and distilled water, wherein said microcontroller actuates said nozzles 108 for dispensing said ingredients in said receptacle 107, wherein said microcontroller actuates a stirrer 110 installed within said receptacle 107 to rotate for stirring said ingredients and obtain water-phase solution;
v) an electronic valve 111 configured with said container 104 that is actuated by said microcontroller for dispensing said extracted oil in said receptacle 107, wherein said oil is filtered through a filter installed underneath said valve 111 and is added in said receptacle 107, followed by actuation of said stirrer 110 for stirring said water-phase solution with said oil to obtain said emulsion; and
vi) an electronic spout 112 installed with said receptacle 107 that is actuated by said microcontroller to open for dispensing said emulsion on a cotton pad positioned underneath said receptacle 107, wherein said microcontroller activates a speaker 113 mounted on said housing 101 for notifying said user for collecting said cotton pad and applying said cotton pad on wounded area of said user’s body for reducing symptoms of said septicemia.

2) The device as claimed in claim 1, wherein a motorized slider 114 is configured with said pusher 105 that is actuated by said microcontroller that translates said pusher 105 along walls of said container 104 for appropriately crushing all herbs to extract said oil.

3) The device as claimed in claim 1, wherein said herbs includes, but not limited to clove, Prickly pear, and oregano.

4) The device as claimed in claim 1, wherein said sensing module includes a Fiber Bragg Grating sensor for detecting said vital health parameters and an electrochemical sensor for detecting blood glucose level.

5) The device as claimed in claim 1, wherein in case said symptoms are not reduced even after applying said emulsion, said microcontroller activates said speaker 113 for notifying said user to stand in front of a cuboidal unit 115 attached on said housing 101 and stored with water for taking steam.

6) The device as claimed in claim 1 and 5, wherein said microcontroller actuates a robotic arm 116 assembled on said housing 101 for transferring said clove from one of said chambers 102 to said unit, followed by activation of a heating unit installed with said unit for heating said unit to produce steam having accent of clove to reduce said symptoms of said septicemia.

7) The device as claimed in claim 1, wherein said L-shaped telescopically operated pusher 105 are powered by a pneumatic unit that includes an air compressor, air cylinder, air valves and piston which works in collaboration to aid in extension and retraction of said pusher 105.

8) The device as claimed in claim 1, wherein a battery is associated with said device for supplying power to electrical and electronically operated components associated with said device.