FIELD

The present disclosure relates generally to pain management systems and more particularly, to a system and method with IoT for pain remedy and rehabilitation of patients.

DEFINITIONS OF TERMS USED IN THE SPECIFICATION

The expression ΊοΤ used hereinafter in this specification refers to Internet of Things wherein uniquely identifiable objects/devices are represented in the Internet structure such that these objects/devices have the ability to transfer data over a network. This definition is in addition to those expressed in the art.

BACKGROUND

In disorders such as paralysis, arthritis and the like, a key in rehabilitation is 'earlier the recovery - lesser the disability' . Conventionally, treatments used for recovery of such disorders require a patient to undergo therapies using one of the magneto-mechanical oscillations and the pulsed electromagnetic field.

However, the magneto-mechanical therapy uses a single applicator which is area specific, i.e., it can only be used to treat a specific region on the body of a patient. Also, as the conventional magneto-mechanical applicators get heated quickly and are heavy and small in size, they are not suitable for longer therapy sessions. Moreover, there are no predefined treatment protocols, nor are there any special attachments/heads available with the conventional magneto-mechanical applicators in order to treat different regions of body such as spine, face etc. Further, the pulsed electromagnetic field (PEMF) therapy also does not include predefined treatment protocols and does not provide different waveforms for treatment. Additionally, there is no auto synchronization between the magneto-mechanical applicator and the PEMF applicator. Furthermore, both the conventional therapies do not include IoT based devices.

Accordingly, there is a need to limit the aforementioned drawbacks and provide a system and method with IoT for pain remedy and rehabilitation of patients. OBJECTS

Some of the objects of the present disclosure, which at least one embodiment herein satisfies, are as follows:

It is an object of the present disclosure to ameliorate one or more problems of the prior art or to at least provide a useful alternative.

Another object of the present disclosure is to provide a system with IoT that combines the magneto-mechanical therapy and the PEMF therapy with auto synchronization.

Yet another object of the present disclosure is to provide a system with IoT that facilitates faster healing in attaining recovery from an illness such as paralysis, arthritis, non-healing ulcer and the like.

Still another object of the present disclosure is to provide a system with IoT that includes predefined treatment protocols for ease of use.

A further object of the present disclosure is to provide a system with IoT that provides noninvasive therapy which does not have any side effects. Furthermore, an object of the present disclosure is to provide a system with IoT that includes IoT data enabled devices.

Other objects and advantages of the present disclosure will be more apparent from the following description, which is not intended to limit the scope of the present disclosure.

SUMMARY The present disclosure envisages a system with IoT for pain remedy and rehabilitation of patients. The system includes at least two applicators, a memory, a communication unit, a control unit and a server. Each of the at least two applicators are configured to provide one of the pulsed electromagnetic field and the magneto-mechanical oscillating field to a prescribed body part of a patient for a prescribed amount of time to complete a therapy session. The memory stores patient data, pre-determined processing rules, and pre-determined patterns. The communication unit accepts input signals from authorized users, wherein the input signals correspond to different activities including starting therapy sessions, stopping the therapy sessions, setting frequencies and waveforms for the therapy sessions, requesting a data backup of the therapy sessions, and selecting a pattern from the pre-determined patterns for the therapy sessions. The control unit cooperates with the communication unit and the memory to receive the input signals and the processing rules respectively, and is configured to control the at least two applicators based on the input signals and the processing rules, during the therapy sessions. The control unit is further configured to record data related to the therapy sessions and, store the recorded data in the memory. The server cooperates with the memory to receive the recorded data related to the therapy sessions, and is configured to provide the recorded data and the patient data to the authorized users over a network.

In an embodiment, the at least two applicators are a pulsed electromagnetic field (PEMF) applicator and a handheld magneto-mechanical oscillator, and the system includes at least two drivers configured to respectively drive the at least two applicators.

In another embodiment, the communication unit includes an input module configured to accept the input signals, a display configured to display status of the therapy sessions and/or status of the at least two applicators, and a buzzer configured to provide indications on completion of the activities and/or occurrence of errors and/or pre-determined alerts.

Further, in one embodiment, the control unit is configured to automatically synchronize frequencies of oscillations between the at least two applicators, and further configured to stop the therapy sessions based on pre-set time limits.

Still further, in one embodiment, the system comprises at least two operation modes including an independent applicator mode and a combined applicator mode. The authorized users are selected from a group of doctors, physiotherapists, yoga therapists, trained professionals and the like.

In an embodiment, the server includes a report creator configured to create reports by analyzing the recorded data. In another embodiment, the system facilitates the authorized users to access the server over the network through the Internet and/or the mobile web by using user devices, wherein the user devices are selected from a group of mobile phones, laptops, desktops, iPADs, PDAs, tablets and the like. Further, the system includes a remote control configured to provide a plurality of control signals and tracking signals to the control unit, to respectively control and track activities of the at least two applicators, wherein the control signals are the input signals provided to the control unit.

The present disclosure also envisages a method with IoT for pain remedy and rehabilitation of patients. The method comprising the following steps:

• providing one of the pulsed electromagnetic field and the magneto-mechanical oscillating field, by each of at least two applicators, to a prescribed body part of the patients for a prescribed amount of time to complete one therapy session;

• storing patient data, pre -determined processing rules, and pre-determined patterns in a memory;

• accepting input signals from authorized users, by using a communication unit, wherein the input signals correspond to different activities including starting therapy sessions, stopping the therapy sessions, setting frequencies and waveforms for the therapy sessions, requesting a data backup of the therapy sessions, and selecting a pattern from the pre-determined patterns for the therapy sessions;

• controlling, by using a control unit, the at least two applicators based on the input signals and the processing rules, during the therapy sessions;

• recording, by using a control unit, data related to the therapy sessions and storing the recorded data in the memory; and

• receiving, at a server, the recorded data related to the therapy sessions, and providing the recorded data and the patient data to the authorized users over a network.

BRIEF DESCRIPTION OF THE ACCOMPANYING DRAWING

The system and method of the present disclosure will now be described with the help of the accompanying drawing, in which:

Figure 1 illustrates a schematic block diagram of a system with IoT for pain remedy and rehabilitation of patients, in accordance with one embodiment of the present disclosure;

Figure 2 illustrates a flow diagram of a method with IoT for pain remedy and rehabilitation of patients, in accordance with one embodiment of the present disclosure;

Figure 3 illustrates a schematic view of a system with IoT for pain remedy and rehabilitation of patients, in accordance with one embodiment of the present disclosure; and Figures 4a and 4b show a top view and a front view respectively, of a magneto-mechanical applicator of the system of Figure 3, in accordance with another embodiment the present disclosure.

List and details of reference Numerals used in the description and drawings:

DETAILED DESCRIPTION

In disorders such as paralysis, arthritis and the like, a key in rehabilitation is 'earlier the recovery - lesser the disability'. Conventionally, treatments used for recovery of such disorders require a patient to undergo therapies using one of the magneto-mechanical oscillations and the pulsed electromagnetic field. However, the magneto-mechanical therapy uses a single which is area specific, i.e., it can only be used to treat a specific region of the body a patient. Also, as the conventional magneto-mechanical applicators get heated quickly and are heavy and small in size, they are not suitable for longer therapy sessions. Moreover, there are no predefined treatment protocols, nor are there any special attachments/heads available with the conventional magneto-mechanical applicators in order to treat different regions of body such as spine, face etc. Further, the pulsed electromagnetic field (PEMF) therapy also does not include predefined treatment protocols and does not provide different waveforms for treatment. Additionally, there is no auto synchronization between the magneto-mechanical applicator and the PEMF applicator. Furthermore, both the conventional therapies do not include IoT based devices.

Therefore, there is a need to limit the aforementioned drawbacks and provide a system and method with IoT for pain remedy and rehabilitation of patients.

In one aspect, the present disclosure provides a system with IoT (hereinafter referred to as system) for pain remedy and rehabilitation of patients. The system is a physiotherapy system having an integration of magneto-mechanical and electromagnetic modalities. Both the modalities are effective for early recovery from pains and various disorders. The system facilitates cellular metabolism and healing thereby providing a wide range of applications in healthcare industries. In another aspect, the present disclosure provides a method for pain remedy and rehabilitation of patients.

Referring to the accompanying drawing, figure 1 and figure 3 respectively provide a schematic block diagram and a schematic view of a system 100 for pain remedy and rehabilitation of patients, in accordance with different embodiments of the present disclosure. The system includes at least two applicators 102, a memory 108, a communication unit 104, a control unit 106 and a server 110.

Each of the at least two applicators 102 are configured to provide one of the pulsed electromagnetic field and the magneto-mechanical field to a prescribed body part of a patient for a prescribed amount of time to complete a therapy session. In one embodiment, the at least two applicators 102 are a pulsed electromagnetic field (PEMF) applicator 102a and a handheld magneto-mechanical oscillator 102b, and the system includes at least two drivers (not shown in the figures) configured to respectively drive the at least two applicators. In another embodiment, the two drivers are a motor driver and a PEMF driver, wherein the motor drives the magneto-mechanical oscillator 102b and the PEMF driver drives the PEMF applicator 102a. The memory 108 stores patient data, pre-determined processing rules, and pre-determined patterns. In one embodiment, the memory 108 is a non-volatile memory including a flash memory, an electrically erasable programmable read-only memory (EEPROM) and the like. In another embodiment, the memory 108 also stores redesigned patterns and IoT data, where the IoT data is the data which is trans-receivable to/from the server 110.

The communication unit 104 accepts input signals from users, wherein the input signals correspond to different activities including starting therapy sessions, stopping the therapy sessions, setting frequencies and waveforms for the therapy sessions, requesting a data backup of the therapy sessions, and selecting a pattern from the pre-determined patterns for the therapy sessions. In an embodiment, the users are selected from a group of patients, nurses, care providers, physiotherapists and the like. In another embodiment, the communication unit 104 includes an input module 104a which accepts the input signals, a display 104b which displays status of the therapy sessions and/or status of the at least two applicators 102, and a buzzer 104c which provides indications on completion of the activities and/or occurrence of errors and/or pre-determined alerts. In a further embodiment, the predetermined patterns have preset frequencies and waveforms for a particular treatment. These stored pre-determined patterns are editable by authorized users. The pre-determined patterns are pre-set for different conditions. The system 100 allows the authorized users to select one of the patterns depending on the condition, for example, the conditions like spondylitis, hemiplegia, Bell's palsy and the like have respective set patterns of preset frequencies and waveforms for treatment. The control unit 106 cooperates with the communication unit 104 and the memory 108 to receive the input signals and the processing rules respectively, and is configured to control the at least two applicators 102 based on the input signals and the processing rules, during the therapy sessions. In one embodiment, the control unit 106 is configured to automatically synchronize frequencies of oscillations between the at least two applicators 102, and is further configured to stop the therapy sessions based on pre-set time limits. The control unit 106 automatically synchronizes frequency of an oscillation between the magneto-mechanical oscillator applicator 102b and the PEMF applicator 102a during the therapy sessions. This auto-synchronization creates resonance and facilitates the system 100 to provide a therapy which may also be known as a quantum resonance therapy. The control unit 106 ensures a reliable operation of the at least two applicators 102 in case of a no load condition. The control unit 106 further records data related to the therapy sessions and, stores the recorded data in the memory 108. In one embodiment, the communication unit 104, the control unit 106 and the memory 108 are integrated in one unit.

The server 110 cooperates with the memory 108 to receive the recorded data related to the therapy sessions, and is configured to provide the recorded data and the patient data to authorized users over a network. In one embodiment, the authorized users are selected from a group of doctors, physicians, physiotherapists, admins and the like. In another embodiment, the server 110 includes a report creator (not shown in the figures) configured to create reports by analyzing the recorded data. Different types of reports help the authorized users to analyze a patient's condition/progress. In one embodiment, the server 100 may be an external server. In yet another embodiment, the system 100 facilitates the authorized users to access the server 110 over the network through the Internet and/or the mobile web by using user devices (not shown in the figures). In a further embodiment, the authorized users are accredited users who have to undergo a pre-defined training course/process. The accredited users may be practitioners and/or trainers. In one embodiment, the user devices are selected from a group of mobile phones, laptops, desktops, iPADs, PDAs, tablets and the like. In a further embodiment, the system 100 includes a remote control (not shown in the figures) which provides a plurality of control signals and tracking signals to the control unit 106, to respectively control activities and track activities, of the at least two applicators 102, wherein the control signals are the input signals provided to the control unit 106. In one embodiment, the recorded data is transmitted to the server 110 via GPRS. In another embodiment, the recorded data includes treatment given to patients, frequency and waveform used during the therapy session, and/or the preset treatment used by a patient, date and time of the therapy session, and the like. Further, the system 100 is safeguarded against unauthorized tampering and maintains data security compliance. In an embodiment, the system 100 comprises at least two operation modes including an independent applicator mode and a combined applicator mode. In the independent applicator mode, the user can start the therapy by using only one applicator from the at least two applicators 102. The combined applicator mode enables the user to use the at least two operators 102 at the same time with auto synchronization. In yet another embodiment, the system 100 comprises a plurality of sensors including a pH sensor, an oxygen saturation sensor and the like, which are connected to the control unit 106. In a further embodiment, the communication unit 104 includes a port (not shown in the figures) which is one of a RS-232 serial communication port and a USB Host that may be used to take data backup of the therapy sessions. In another embodiment, the PEMF applicator 102a and the magneto-mechanical applicator 102b are connected to the control unit 106 via a wire(s) 302.

Figure 4a and 4b show a top view and a front view respectively, of a magneto-mechanical applicator 102b of the system of figure 3, in accordance with another embodiment the present disclosure. The magneto-mechanical applicator 102b illustrated in figures 1 and 3 has a single head whereas the magneto-mechanical applicator, of figures 4a and 4b, has a twin head. In an embodiment, the magneto-mechanical applicator 102b has four magnets 112.

The system 100 of the present disclosure may be portable or it can be fixed at a desired location like hospital. In one embodiment, the at least two applicators 102 present the system 100 are specialized applicators which can be used in specific medical conditions. For example, different special applicators are provided to treat different conditions including a diabetic foot, mental disorders (depression, insomnia etc.), and the like. The system 100 may also be used by veterinarians to treat animals/pets.

The specifications of the system 100 of the present disclosure in accordance with an embodiment are described herein below. However, it is understood that the specifications of the system 100 may vary in other alternative embodiments as per intended use. Specifications -

1. 4Hz to 30Hz oscillation frequency for the handheld oscillator applicator

2. 0.5Hz to 30Hz oscillation frequency for the PEMF applicator

3. Operation modes - i). Independent Applicator and ii). Combined Applicator

4. User selectable speed for both the applicators

5. Auto synchronization of the frequency of oscillation between the handheld oscillator applicator and the PEMF applicator

6. Reliable operation of the handheld applicator in case of no load condition

7. Auto stop time function to stop the therapy session

8. Facility to store predefined treatments and facility to take backup and data upload to and download from a server using GPRS and Wi-Fi.

9. Keypad for user input 10. 128x64 Graphical display

11. Power Supply - 230V AC

12. Housing - Waterproof high quality enclosure

13. Operating temperature - 5 °C to 65 °C

Referring to the accompanying drawing, figure 2 illustrates a flow diagram of a method 200 with IoT for pain remedy and rehabilitation of patients, in accordance with one embodiment of the present disclosure. The method 200 includes a step of providing one of the pulsed electromagnetic field and the magneto-mechanical field, by each of at least two applicators (102), to a prescribed body part of the patients for a prescribed amount of time to complete one therapy session 202. It also includes steps of storing patient data, pre-determined processing rules, and pre-determined patterns in a memory (108) 204, accepting input signals from users, by using a communication unit (104), wherein the input signals correspond to different activities including starting therapy sessions, stopping the therapy sessions, setting frequencies and waveforms for the therapy sessions, requesting a data backup of the therapy sessions, and selecting a pattern from the pre-determined patterns for the therapy sessions 206, controlling, by using a control unit (106), the at least two applicators (102) based on the input signals and the processing rules, during the therapy sessions 208. The method 200 further includes the steps of recording, by using a control unit (106), data related to the therapy sessions and storing the recorded data in the memory (108) 210, and receiving, at a server (110), the recorded data related to the therapy sessions, and providing the recorded data and the patient data to authorized users over a network 212.

In an embodiment, the system 100 facilitates faster healing in attaining recovery from an illness such as paralysis, arthritis, non-healing ulcer and the like, by providing the quantum resonance therapy. In one exemplary embodiment, the operative configuration used during the quantum resonance therapy includes the following steps:

1. Applying the magneto-mechanical oscillating field with the help of the magneto- mechanical oscillator 102b on the spine of a patient: ± 5 minutes to ± 25 minutes;

2. Applying simultaneously, the pulsed electromagnetic field with the help of the pulsed electromagnetic field (PEMF) applicator 102a on the spine, and the magneto- mechanical oscillating field with the help of the magneto-mechanical oscillator 102b on the local affected area of the patient: ± 5 minutes to ± 25 minutes; and 3. Applying the magneto-mechanical oscillating field with the help of the magneto- mechanical oscillator 102b on the local affected area: ± 5 minutes to ± 35 minutes.

The present disclosure will now be explained with the anecdotal examples given below. The quantum resonance therapy with the above mentioned steps (which are not known in the art collectively) is used on the patients to obtain the following results:

1. A 74- year-old female patient suffering from bilateral knee pain was diagnosed with osteoarthritis since 10 years. The patient complained of pain in both knees especially medially while descending stairs and sitting cross legged. She was under regular medications comprising non-steroidal anti-inflammatory drugs (NSAIDS), pain killers, along with calcium and vitamin D supplementations for the last 10 years. The patient was started on physiotherapy using the system 100 of the present disclosure: 20 sessions of 1 hour for a period of 2 months along with exercises and the regular medications. At the end of 2 months, the patient reported 60% reduction in pain and a significant improvement in her walking gait.

2. A 42-year-old male patient had a fall from slide and was suffering from pain at the base of the spine in sitting position since 6 months. He was diagnosed with subluxation of coccyx leading to coccydynia. The patient was prescribed painkillers and calcium supplementations; however, he did not experience relief from pain. The patient was given physiotherapy using system 100 of the present disclosure: 6 sessions of 20 minutes for a period of 20 days along with exercises. The patient reported 80% reduction in pain at the end of 20 days.

3. A 64- year-old male patient suffering from pain in the neck since 1 week was diagnosed with acute trapezitis. He had applied topical pain relief gel for the same. The patient did not experience complete relief from pain. He was started on physiotherapy using the system 100 of the present disclosure: 4 sessions of 20 minutes for a period of 10 days along with exercises. The patient was totally painless at the end of 10 days.

4. A 78-year-old female patient was suffering from non-healing ulcer on the lower left foot since 1 year. The patient has a history of chronic diabetes and was under medications. Regular dressing was being applied for the ulcer. The patient was given physiotherapy using the system 100 of the present disclosure: 25 sessions of 40 minutes for a period of 3 months along with exercises. Complete wound healing was reported by the patient at the end of 3 months.

A 28-year-old female patient suffering from inability to perform facial movements and expressions since 15 days was diagnosed with Bell's palsy. The patient was prescribed oral steroids and vitamin supplementations. The patient was started on physiotherapy using the system 100 of the present disclosure: 11 sessions of 30 minutes for a period of 20 days along with exercises. The patient reported 70% improvement in facial movements and expressions, at the end of 20 days.

A 57-year-old female patient was suffering from severe shoulder pain since 8 months. She had experienced mild trauma in the gymnasium while lifting weight and was advised ultrasonography. Later, she was diagnosed with partial supraspinatus tear, and was started on a treatment in the form of painkillers. Arthroscopy was also recommended, but as the patient was not ready for a surgery, she was given a physiotherapy treatment with the system of the present disclosure: 21 sessions of 30 minutes over 6 months along with exercises. The patient reported 90% pain relief and improvement in range of motion of shoulder.

A 52-year-old female patient was suffering from knee pain since 3 months. The patient had history of fall and was diagnosed with ligament sprain having meniscus tear. She was under regular medications comprising non-steroidal antiinflammatory drugs (NSAIDS), pain killers, along with vitamin supplementations for the last 3 months. The patient was started on a physiotherapy treatment with the system 100 of the present disclosure: 12 sessions of 30 minutes over a period of 20 days along with exercises. The patient reported 60% reduction in pain.

A 42-year-old male patient was suffering from pain in neck, upper back and both knee joints since 2 years. He was diagnosed with a complex regional pain syndrome. He took medical treatment in the form of painkillers and supplementations. A physiotherapy treatment was given with the system 100 of the present disclosure: 40 sessions of 20 minutes for a period of 3 months along with exercises. The patient reports 80% reduction in continuous pains. 9. A 66-year-old male patient was suffering from low back ache within 15 minutes of walking since 4 months. The patient was advised for X-RAY of limbo-sacral region and was diagnosed with L5 sacralisation. The patient took treatment in the form of Ayurveda medicines. The patient was started on a physiotherapy treatment with the system 100 of the present disclosure: 10 sessions of 30 minutes in a period of 1 month along with exercises. The patient reported that he can walk for 30 minutes and the pain is reduced by50 %.

10. A 39-year-old male patient was suffering from low back ache radiating to right lower limb. The X-RAY showed disc lesion in L4-L5 and L5 -SI. A physiotherapy treatment was given to the patient with the system 100 of the present disclosure: 18 sessions of 30 minutes in period of 2 months along with exercises. The patient reported 70% relief in pain.

Additional anecdotal examples are provided in Table 1 below:

Therapy

Patient Symptoms Medication treatment using

Comments details /Diagnosis /Treatment the system of the

present disclosure

and pain

mainly in the

small joints.

RA factor was

found, to be

positive

F, 35 Wrist and hand NSAIDS and 8 sessions over 1 80 % years pain since 1 vitamin month along with reduction in old year. supplementations exercises pain

Diagnosed

with carpal

tunnel

syndrome.

M, 65 Right sided Anti-hypertensive 45 sessions over 6 70 % years paralysis since treatment, but months along with functional old 1 year. History suffered exercises improvement of ischaemic lesion

hypertension and was

since 10 years diagnosed as

and was on. hemiplegia

M, 68 Inability to do Vitamin 20 sessions over 3 60% years ankle supplementation months along with improvement old movements. with foot drop exercises in ankle

Diagnosed as a splint movement case of

common

peroneal nerve

injury.

F, 38 Inability to Medical 30 sessions over 3 75 % years move all four treatment with months along with functional old limbs since 3 immunoglobulins exercises improvement months. and

Diagnosed supplementations

with Gullian

barre

syndrome

M, 3 Cerebral palsy Corrective 90 sessions over 2 25% years with delayed surgeries with years along with functional old milestones hamstring and exercises improvement Therapy

Patient Symptoms Medication treatment using

comments details /Diagnosis /Treatment the system of the

present disclosure

TA release in gait pattern

F, 62 Chronic Anti-diabetics, 21 sessions in a Colour years diabetes, dry anti-coagulants, period of 1 month Doppler old gangrene of immunity along with showed great toe and enhancers and exercises significant second toe vitamin improvement since 6 supplementations. in blood flow months. Colour-Doppler in femoral

Advised for showed partial and anterior surgery. occlusion of tibial artery femoral and and partial anterior tibial improvement artery and in dorsalis complete pedis artery. occlusion of The dry dorsalis pedis gangrene artery. showed 60% improvement

F, 45 Overall Radiotherapy and 25 sessions over a 50 % years swelling and Chemotherapy period of 3 months reduction in old heaviness in along with oedema and right lower exercises. 70% limb since 6 functional months. improvement

Diagnosed as

case of

lymphoedema

due to soft

tissue sarcoma.

M, 33 Sleeplessness Sedatives and 12 sessions in 1 He years since 2 years. anxiolytics month period experienced old Diagnosed 75% of with insomnia improvement due to stress.

F, 25 One sided Painkillers 8 sessions in a 80 % pain years headache since period of 15 days relief old 8 months. along with

Diagnosed as a exercises

case of Therapy

Patient Symptoms Medication treatment using

Comments details /Diagnosis /Treatment the system of the

present disclosure

migraine.

F, 35 Facial pain on NSAIDS, 20 sessions in a 80 % years left side since painkillers and period of 2 months reduction in old 1 year. vitamin along with pain

Diagnosed as supplementations. exercises

trigeminal

neuralgia.

M, 27 Pain on outer NSAIDS, 15 sessions in a 70 % years side of right painkillers and period of 1 month reduction in old elbow. History vitamin along with pain

of straining his supplementations. exercises

right arm and

had pain while

doing elbow

movements.

Diagnosed as a

case of right

sided lateral

epicondylitis.

F, 35 Pain in the sole Painkillers and 6 sessions in a 60 % years of the left foot. shoe inserts with period of 15 days reduction in old Diagnosed as a soft insoles. along with pain

case of left exercises

foot plantar

fasciitis with

calcaneal spur.

F, 27 Right sided Craniotomy 60 sessions over 8 80 % years hemiplegia surgery months along with functional old exercises recovery

F, 35 Clinical Anti-depressants 10 sessions over a 80 % years depression period of 20 days improvement old since 3 months along with

exercises

F, 65 Bilateral knee Total knee 20 sessions over 2 Improved the years pain. arthroplasty for months along with recovery old Diagnosed both knees exercises significantly with tri- compartmental

osteoarthritis. Therapy

Patient Symptoms Medication treatment using

Comments details /Diagnosis /Treatment the system of the

present disclosure

F, 40 Irritable bowel Ayurveda 12 sessions in a 60 % relief in years syndrome medications period of 1 month the condition old since 3 years. along with

exercises

M, 46 Unable to write Supplementations 12 sessions in a Was able to years since 12 years period of 21 days write a page old and was along with without diagnosed as exercises difficulty writer's hand.

F, 54 Ringing sound Medications as 25 sessions in a 60 % years in the left ear prescribed by the period of 3 months. reduction in old since 6 years. ENT surgeon. ringing

Diagnosed as a Audiometry sound, and case of testing showed improved tinnitus. 80% hearing loss. hearing

M, 72 Bedridden due Regular dressing 15 sessions in a Bedsores years to stroke, for 6 maintained period of 25 days recovered old months which along with completely led to exercises

development

of bed sores.

M, 70 Fracture neck Total hip 30 sessions in a Significant years femur arthroplasty period of 4 months improvement old along with in recovery exercises

F, 66 Pain in sole of Painkillers and 6 sessions in a 60 % years the left foot. shoe inserts with period of 15 days reduction in old Diagnosed soft insoles along with pain

with left foot exercises

plantar fasciitis

with calcaneal

spur.

F, 66 Bilateral leg Painkillers, 60 sessions in a 70 % years pain, calcium and period of 6 months reduction in old diagnosed as a vitamin D along with pain

case of supplementations exercises

osteoporosis.

M, 8 Inability to Corrective 50 sessions in a Significant years move right arm surgery with period of 4 months improvement Therapy

s. Patient Symptoms Medication treatment using

Comments

No. details /Diagnosis /Treatment the system of the

present disclosure

old since birth. tendon transfer along with in shoulder for shoulder and exercises and hand hand. movement

Inference:

From the abovementioned anecdotal examples, it is observed that the use of the system 100 of the present disclosure provides an average of approximately 70% reduction of pain in patients.

TECHNICAL ADVANCEMENTS

The present disclosure described herein above has several technical advantages including, but not limited to, the realization of a system and method with IoT for pain remedy and rehabilitation of patients which:

- combines the magneto-mechanical oscillating therapy and the PEMF therapy with auto synchronization;

- facilitates faster healing in attaining recovery from an illness such as paralysis, arthritis, non-healing ulcers and the like;

- includes pre-defined treatment protocols for ease of use;

- enhances effects of the therapy and maintain cellular metabolism balancing;

- facilitates equilibrium of sympathetic and parasympathetic systems as well as an autonomic coordination with peripheral systems;

- facilitates improved lymphatic drainage, micro-circulation and vascularity and increased vessel lumen diameter;

- facilitates detoxification/ removal of metabolic waste;

- facilitates improvement in local factors such as acidosis and oxygen saturation;

- facilitates non-invasive therapy that does not have any side effects;

- stabilizes the frequency of treatment even in voltage fluctuations; and

- includes IoT data enabled devices. The embodiments hereinabove and the various features and advantageous details thereof are explained with reference to the non-limiting embodiments in the following description. Descriptions of well-known components and processing techniques are omitted so as to not unnecessarily obscure the embodiments herein. The examples used herein are intended merely to facilitate an understanding of ways in which the embodiments herein may be practiced and to further enable those of skill in the art to practice the embodiments herein. Accordingly, the examples should not be construed as limiting the scope of the embodiments herein

The use of the expression "at least" or "at least one" suggests the use of one or more elements or ingredients or quantities, as the use may be in the embodiment of the disclosure to achieve one or more of the desired objects or results.

The foregoing description of the specific embodiments will so fully reveal the general nature of the embodiments herein that others can, by applying current knowledge, readily modify and/or adapt for various applications such specific embodiments without departing from the generic concept, and, therefore, such adaptations and modifications should and are intended to be comprehended within the meaning and range of equivalents of the disclosed embodiments. It is to be understood that the phraseology or terminology employed herein is for the purpose of description and not of limitation. Therefore, while the embodiments herein have been described in terms of preferred embodiments, those skilled in the art will recognize that the embodiments herein can be practiced with modification within the spirit and scope of the embodiments as described herein.