The focus of elderly recovery is to prevent or delay the occurrence of elderly diseases from the perspective of function improvement, reduce the risk of illness or accidental damage, and make life more quality in old age. Rehabilitation is an extension of treatment. The elderly and physical injury patients are the types of patients in the rehabilitation hospital. The multi -functional digital DR and ordinary X -ray images are high compared with the image quality resolution, wide grayscale, and large image information. To improve the accuracy of diagnosis and provide basic guarantee for the rehabilitation of the above patients!

Multi -functional digital DR collection digital photography, digital perspective, digital angiography and other functions are in one body. It is widely used in clinical application. It can also perform high -definition spots in perspective. The clinical symptoms and signs are not typical, the common disease coexistence, severe condition, fast change and other characteristics. Multifunctional DR can observe the lesions under continuous perspective, especially in observing the cardiopulmonary function of the elderly after discovering the lesion, accurately obtain high -definition images of the lesion, which is more conducive to the correct diagnosis of doctors.

For the diagnosis of patients with limb injury, such as fracture patients, multi -functional digital DR also has a unique advantage: dynamic large -faced perspective images, which is convenient for observing the overall state of complete bone thoracic, heart, lung, and diaphragm in the state of breathing, which is conducive to conducive Identify the area and location of the rib fracture, and the multi -functional digital DR can be converted to the position of patients under perspective, so that the overlapping or covered ribs of the tissue organs can be clearly displayed. During the turning process, the suspected lesions are performed in real -time millisecond grab. The diagnosis advantage of hidden fractures is obvious.

At the same time, the panoramic splicing technology of multi -functional DR can assist spinal malformation orthopedic therapy and rehabilitation examination, and provide high -precision images for clinical clinical. This technology can be automatically or manual, the image has no stitching marks, the accuracy of the full spine reorganization image is high, and the structure is clear. In the rehabilitation treatment of patients with spine -side bending, the application of splicing technology can also help clinically to the patient’s overall shape and lesions of the patient’s spine comprehensive and intuitively, providing good support for subsequent treatment.

Multi -functional digital DR ultra -high -heat capacity High -speed ball pipe can easily cope with high -intensity clinical work; symmetrical bed design with large angles of the ball pipe tilt, easily realize no dead angles, meet the photography needs of clinical and angles; ultra -high power High -pressure generator, ensure the quality of the whole machine on the source, standardize dual high -density filter grille, dedicated to further improve the image quality. At the same time Fusion can provide further care for children and patients who need multiple films for children and patients who need multiple films.

The application of multi -functional digital DR can effectively improve the accuracy of diagnosis and disease detection rate. Pulit multi -functional digital DR can also be digital photography, perspective, angiography, etc. in the whole body. The scope of application scenarios can be extended to internal medicine, surgery, gynecology, pediatrics, orthopedics, emergency examinations, physical examinations, etc. A high cost -effective inspection equipment for one machine.

In recent years, with the development of X -ray imaging technology, the emergence of multi -functional images DR -visual dynamic DRF has enhanced the X -ray examination technology to improve the precise diagnosis of anorectal diseases. What are the application advantages of multi -functional image DR in anorectal examination? The low -doses of multi -functional images DR, continuing records, high -definition films, high -quality dynamic images and images of high -quality dynamic images and images are favored by the image of hospitals at all levels.

multi -functional image DR

Multifunctional image DR has obvious advantages in anorectal examination. First of all, 17 × 17 inches significant surface imaging. For large -scale imaging parts such as esophageal, stomach, intestines, colon, can be completed at one time, which greatly reduces the patient’s radiation dose and examination time. Compared with the intestinal machine, the quality of the image has been greatly improved.

Multi -functional image DR large surface imaging

At the same time, in real -time films can be used in the process of perspective to achieve fast -moving static image switching, especially in esophageal angiography, which can quickly capture the image of the lesion. It also has a video storage and playback function. After the patient’s examination is over, the video can still pass the video through the video Play the patient diagnosis without repeated examinations.

At present, the clinical examination of anorectal diseases includes electronic colon examination, anal ducts, rectal ultrasound, and X -ray pyrine. Compared with the previous two, the diagnosis of X -ray tadpole enema is also more accurate. It has more widespread clinical applications, and the subject of the subject is good, painless, and easy to accept.

Multi -functional image DR application scenario

In addition to the agent enema, multi -functional images DR is also suitable for gastrointestinal angiography, uterine fallopian tube angiography, etc. Performing the needs of the lower point and simple interventional treatment, it is fully applicable to clinical diagnosis of multiple departments such as hospital medical examinations, internal medicine, surgery, orthopedics, trauma, and emergency department.

Gastrointestinal angiography HD image

It can be seen that multi -functional images DR can not only improve the accuracy of diagnosis and disease detection rate, but also reduce hospital costs, increase income, and improve the hospital’s comprehensive service capabilities.

The use of multi -functional image DR for anorectal disease examination has two outstanding characteristics of real -time and dynamicity. The inspection process is timely and accurate, the collection information is rich, the image is clear, and the observations are added with multiple angles. It can be more comprehensive and perfect. It can be randomly recorded and dynamic records of different parts and angles of the lesions in order to compare the analysis and research. As a real multifunctional perspective photography system, the dynamic DRF has a comprehensive general release function from digital photography to special angiography, which can achieve high -quality image effects and meet the diagnostic needs of high standards of various types and levels of medical institutions. The hospital’s later development provides core guarantees!

Often heard of minimally invasive robotic spine surgery, the first reaction of the people may be: wow, robots do surgery, so what does the doctor do? Can you rest assured that the surgery will be done by a robot? First of all, let us first understand the minimally invasive robotic spine surgery system.

In fact, the so-called minimally invasive robotic spine surgery, is the doctor through the robotic system to complete the surgery, in the end, the robot is just a tool, to complete the surgery is still the doctor.

Perlove Minimally Invasive Spine Robot

The minimally invasive spine robotic surgery system is mainly composed of three parts: robotic arm, imaging system and computerized navigation system. Robot-assisted surgery is based on preoperative imaging data to develop a surgical plan, the doctor to determine the plan, the robotic arm to assist the doctor in the operation to be implemented. With the help of computer navigation intraoperative positioning and tracking system, the robotic arm is more accurate and stable than manual positioning, and the clinical precision of Perlove spine minimally invasive robot reaches sub-millimeter level (≤0.7mm), which greatly improves the precision and repeatability of surgery.

For patients with orthopedic diseases, surgery is the main means of treatment. At present, domestic orthopedic surgery mostly adopts the traditional “unarmed operation” mode, the surgical effect is too dependent on the experience of the surgeon in charge, large incisions and high radiation may increase the risk of surgery, and the accuracy and stability of the surgery need to be improved.

So, what are the advantages of minimally invasive spine robot?

1、Accurately reach the lesion

In the traditional surgical process, the doctor needs to feel the location of the lesion based on experience. In the robot-assisted surgical process, the robot’s “brain”, “eyes” and “arms” are coordinated to accurately reach the lesion according to the surgical plan formulated by the doctor.

2. Tiny incision wound

Under the joint collaboration of the doctor and the minimally invasive spine robot, the doctor does not need to cut a long wound to find the lesion, but usually only needs to cut a few tiny incisions. This significantly reduces the amount of bleeding and the dose of radiation the patient receives.

3. Stable surgery

The robot’s “arm” has strong stability, which allows the surgeon to formulate a surgical plan that can be accurately fed back to the surgical instruments, getting rid of the dependence on their own muscle strength, so that the surgeon is more stable and more natural to carry out the surgery.

4. Good postoperative results

Because minimally invasive robotic-assisted spine surgery is characterized by high accuracy, strong stability and tiny incisions, it greatly reduces bleeding and pain, speeds up post-operative recovery, reduces hospitalization time and complications, and doesn’t make patients feel inferior due to long scars after open surgery.

Minimally invasive robotic spinal surgery

Data and statistics show that minimally invasive robotic-assisted spine surgery reduces hospitalization time by 27%, complication rate by 48%, return rate by 46%, and infection rate by a significant decrease compared with traditional surgery. In addition, the application of the robot greatly reduces the number of intraoperative X-ray fluoroscopies (by 50%-74%), significantly reducing radiological damage to both patients and surgeons.

At present, the treatment for malignant tumors mainly includes 4 major means: 1. Surgical resection treatment; 2. Radiation treatment (radiotherapy); 3. Chemical drug treatment (chemotherapy); 4. Interventional therapy. Interventional therapy refers to the intervention of tiny catheter into the patient’s tumor blood vessels and injection of high concentration of anti-cancer drugs to kill or “starve” the tumor cells under the monitoring and guidance of imaging diagnosis, such as mobile flatbed C-arm X-ray machine, nuclear magnetic resonance, ultrasound, etc. It can also kill the tumor cells through radiofrequency ablation, microwave ablation, cryoablation and radioactive particle implantation. It can also kill tumor cells through radiofrequency ablation, microwave ablation, cryoablation and radioactive particle implantation.

Perlove Medical mobile tablet C-arm

What are the advantages of tumor interventional therapy? Compared with traditional surgery, radiotherapy and chemotherapy, interventional therapy has the following advantages:

1、Small trauma: Interventional therapy can avoid the risk of traditional surgical incision, and as a minimally invasive technology, it will only leave a wound of about 1-2mm in the affected area. In addition, after surgical tumor resection surgery, patients may need to rest in bed for three days before they can have normal activities, whereas after minimally invasive interventional therapy, they can get up and move around within half an hour, or even return to the pre-operative level in just eight hours, which is especially suitable for older or surgery-intolerant tumor patients because of the small trauma without affecting patients’ daily life.

2. High accuracy: Interventional therapy is carried out with the help of mobile flatbed C-arm X-ray machine, CT, ultrasound and other imaging equipments, so it can accurately locate the tumor site of the patient with small deviation, and greatly protect the integrity of the normal tissues and organs around the tumor.

3. Obvious effect: Although interventional therapy also uses drugs, it is different from “taking medicine and injections” in internal medicine. High concentration of anti-tumor drugs can be applied to local tumor tissues through tiny catheters, which will not harm organs and tissues even in large doses, and it can eliminate tumors in a targeted way, and it can also shrink tumors and strive for another chance of surgery for the patients. It can also shrink the tumor and get another chance of surgery for the patient.

4、Low side effects: Interventional therapy can eliminate tumor tissues in a targeted way, even if the large dose of drugs will not cause harm to normal tissues, low toxic side effects and few complications are the great advantages of interventional therapy.

Advantages of mobile flat C-arm in tumor interventional therapy

Mobile flat C-arm is a kind of interventional radiology equipment, which can provide high-definition images during the procedure, helping doctors to better observe the lesion area, so as to carry out the treatment more accurately.

The advantages of the mobile flatbed C-arm are:

1、High definition images

2、Easy to operate

3、Small volume, low dose

Application department of Perlove medical mobile plate C-arm

Perlove Medical’s high-end interventional C-arm is mobile flatbed C-arm, which can meet about 80% of the surgical needs of large DSA equipment, and compared with large DSA equipment, mobile flatbed C-arm occupies a small area and has low operating costs, does not require large-scale renovation and decoration of the operating room, does not require fixed installation, and can be moved at any time to any one of the operating rooms where it is needed, and can be plugged into a power source for immediate use, which is fast and convenient. It not only has gynecological and vascular intervention capability, but also has ERCP special function. It is equipped with super large output power, unique design of large heat capacity of bulb tube, large size digital flat panel detector and wide range of mechanical travel and diagnostic space design to provide lower dose, larger field of view and more detailed HD images for clinical use.

In the field of spine surgery, the high complexity and risk of clinical surgery puts forward higher requirements for pre-, mid- and post-surgical image verification, surgical equipment, operator experience and operation techniques. In specific clinical applications, PUMA Orthopaedic Minimally Invasive Robot can be widely used in multi-segmental spine surgery, assisting doctors to locate the lesion site, providing preoperative surgical process planning for spine surgery (percutaneous vertebroplasty, pedicle screw internal fixation and other surgeries), visual guidance of the nail position and angle, and simulation assistance for the nail insertion, and so on. Do you know what are the advantages of using minimally invasive orthopedic robots for vertebroplasty?

What is Vertebroplasty?

Vertebroplasty, known as Percutaneous vertebra pasty (PVP), is a minimally invasive spinal surgery that involves making a small incision of about 3mm on the skin surface, and then injecting bone cement (polymethylmethacrylate) into the diseased vertebrae after surgical tools pass through the incision to enter the diseased vertebrae along the bony structures in order to alleviate the patient’s pain, restore vertebral body height, increase vertebral body stability, and strengthen the vertebral body. The injection of cement (polymethylmethacrylate) into the diseased vertebral body can relieve pain, restore the height of the vertebral body, increase the stability of the vertebral body and strengthen the vertebral body.

What are the advantages of minimally invasive orthopedic robot for vertebroplasty?

At present, orthopedic surgery is generally “dangerous, difficult, blind, lack of” four major problems. Dangerous: adjacent to important blood vessels and nerves; difficult: narrow space in the operation area, difficult to operate the instruments; blind: the eyes can not see the actual operation area, to imagine the structure of the bones in the brain; lack of: the lack of personalized surgical plan for the patient.

Spine surgery is known as “dancing on the tip of the knife”, these four problems are particularly prominent, has always been extremely dependent on the operation of the doctor, the entire operation of the doctor’s energy is also a small test. For young doctors, without several years or hundreds of operations to learn and familiarize themselves with, they simply can not reach the conditions of surgery alone.

Through the use of minimally invasive orthopedic robot-assisted navigation and positioning technology, the doctor can make targeted planning based on the patient’s 3D C-arm image before surgery, and the minimally invasive orthopedic robot is responsible for accurately moving the robotic arm to the puncture path preset in the pre-operative planning during surgery, with a margin of error of less than 1 millimeter, so that the doctor can “see and hit where you want to hit,” and the surgeon “can see and hit where you don’t want to hit. The error is less than 1mm, so that the doctor can “see, hit accurately and hold steadily”.

If we use an example from life to make an analogy, it is like we drive a car and use navigation software, we want to get to a place, the application of map navigation is extremely accurate and fast method.

There are three steps to realize the navigation function:

1. Enter the starting point and end point
2. Select the route
3. Follow the navigation prompts to move forward

In minimally invasive orthopedic robot-assisted surgery, the patient’s needs are equivalent to inputting the starting point and end point, inputting the 3D image into the special software for planning and designing is equivalent to choosing a route, and intra-operative operation is equivalent to advancing according to the navigation prompts. the image captured by the 3D C-arm is equivalent to the real-time road condition, which provides the doctor with an even more accurate 3D “map”, and the robot then guides the doctor to the place. The images captured by the 3D C-arm during the operation are equivalent to real-time road conditions, providing the surgeon with a more accurate 3D “map”, and the robot then guides the surgeon to follow the “map” for an accurate driving “navigation system”, and the combination of the two realizes the precision and intelligence of the operation.

It is true that for experienced doctors, they are the “old drivers” and do not need a map to reach their destinations, but with the minimally invasive orthopaedic robot, the entire surgical process will undoubtedly become easier, and the success rate of the surgery will be better guaranteed! For young doctors, the robotic system will help them even more by eliminating the need to find and ask for directions!

Minimally invasive orthopedic robotic-assisted vertebroplasty has the advantages of less trauma, faster postoperative recovery, better treatment results and fewer postoperative complications. At the same time, since it is not necessary to determine the position of nail placement through repeated fluoroscopy, thus it can reduce intraoperative radiation and greatly reduce the radiation hazard for patients, and the surgical process is completed by the minimally invasive orthopedic robot together with the attending surgeon, which greatly increases the safety of the surgery.

In the field of spinal surgery, the high complexity and risk of clinical surgery puts forward higher requirements for pre-, mid-, and post-surgical image corroboration, surgical equipment, operator experience, and operating techniques. In specific clinical applications, Perlove Orthopaedic Minimally Invasive Robot can be widely used in multi-segmental spine surgery, assisting doctors to locate the lesion site, providing pre-operative surgical process planning for spine surgery (percutaneous vertebroplasty, pedicle screw internal fixation and other surgeries), visual guidance of the nail position and angle, and simulation assistance for the nail insertion, and so on. Do you know what are the advantages of using minimally invasive orthopedic robots for vertebroplasty? What is vertebroplasty?

Perlove Orthopedic Robot

What is vertebroplasty?

Vertebroplasty, known as Percutaneous Vertebroplasty (PVP), is a minimally invasive spinal surgery that involves making a small incision of about 3mm on the skin surface, and then injecting cement (polymethylmethacrylate) into the diseased vertebral body to alleviate pain, restore vertebral height, and increase vertebral height. It is then injected into the diseased vertebral body to relieve pain, restore the height of the vertebral body, increase the stability of the vertebral body, and strengthen the vertebral body.

Principle of Vertebroplasty

What are the advantages of minimally invasive orthopedic robotic vertebroplasty?

At present, orthopedic surgery is generally characterized by four major problems: danger, difficulty, blindness and shortage. Dangerous: adjacent to important blood vessels and nerves; Difficult: narrow space in the operation area, difficult to operate instruments; Blind: the eyes can not see the actual operation area, and have to imagine the structure of the bones in the brain; Lack of: the lack of personalized surgical plan for the patient.

Spine surgery is known as “dancing on the tip of the knife”, these four problems are particularly prominent, has always been extremely dependent on the operation of the doctor, the entire operation of the doctor’s energy is also a small test. For young surgeons, without several years or hundreds of operations to learn and familiarize themselves with, they simply can not reach the conditions of surgery alone.

Through the use of minimally invasive orthopedic robot–assisted navigation and positioning technology, the doctor can make targeted planning based on the patient’s 3D C-arm image before surgery, and the minimally invasive orthopedic robot is responsible for accurately moving the robotic arm to the puncture path preset in the pre-operative planning during surgery, with a margin of error of less than 1 millimeter, so that the doctor can “see and hit where you want to hit,” and the surgeon “can see and hit where you don’t want to hit. The doctor can “see, hit accurately and hold steadily”.

Application of minimally invasive orthopedic robots

If we use examples in life to make an analogy, it is like we drive a car using navigation software, we want to go to a place, the application of map navigation is extremely accurate and fast method.

There are three steps to realize the navigation function:

1. Enter the starting point and end point

2. Select the route

3. Follow the navigation prompts to move forward

In minimally invasive orthopedic robot-assisted surgery, the patient’s needs are equivalent to inputting the starting point and end point, inputting the 3D image into the special software for planning and designing is equivalent to choosing a route, and intra-operative operation is equivalent to advancing according to the navigation prompts. the image captured by the 3D C-arm is equivalent to the real-time road condition, which provides the doctor with an even more accurate 3D “map“, and the robot then guides the doctor to the place. The 3D C-arm’s images are equivalent to real-time road conditions, providing the surgeon with a more accurate 3D “map“, and the robot then guides the surgeon to follow the “map” for an accurate driving “navigation system”, the combination of which realizes the precision and intelligence of the surgery.

Orthopedic minimally invasive robot planning image

It is true that for experienced doctors, they are the “old drivers” and do not need a map to reach their destinations, but with the support of the minimally invasive orthopedic robot, the entire surgical process will undoubtedly become easier, and the success rate of the operation will also be better guaranteed! For young doctors, the robotic system will help them even more by eliminating the need to find and ask for directions!

Minimally invasive orthopedic robotic-assisted vertebroplasty has the advantages of less trauma, faster postoperative recovery, better treatment results and fewer postoperative complications. At the same time, since it is not necessary to determine the position of nail placement through repeated fluoroscopy, thus it can reduce intraoperative radiation and greatly reduce the radiation hazard for patients, and the surgical process is completed by the minimally invasive orthopedic robot together with the attending surgeon, which greatly increases the safety of the surgery.

Mobile c-arm x-ray machine is also known as orthopedic small C, a fluoroscopy-based, both photographic X-ray equipment, because of its appearance like the letter C and named. Commonly used in orthopedic surgery, the equipment for the operator’s technical requirements are high, even professional physicians need to be trained to operate skillfully. Next to give you an introduction to the use of mobile c-arm x-ray machine in the process of common problems – mobile c-arm x–ray machine how to adjust the size of the window.

To perlove brand PLX7500A as an example, this is the Nanjing Perlove medical independent research and development production of a three-dimensional mobile c-arm x-ray machine, what is its operating procedures, and how to adjust the size of its window?

PLX7500A mobile flatbed 3D C-arm

I. Turn on the machine

(1) Connect the whole mobile c-arm x-ray machine to the Internet, close the machine air switch, click the mask power on button, click the UPS power switch, and then click the computer host power on button.

(2) Double-click the computer desktop icon [CArmWor…. …], start the workstation software, enter the workstation software according to the patient registration interface form prompts, fill in the patient information, and then click “register and save” to enter the image acquisition interface.

Two-dimensional acquisition operation

Automatic perspective:

Click the automatic fluoroscopy icon, and then click the required irradiation site, such as irradiation of the patient’s lumbar spine, click the lumbar spine part of the human body graphic, and then step on the foot brake 3S – 5S, can be imaged.

Manual fluoroscopy:

Click the manual fluoroscopy icon, then click the required irradiation site, such as irradiation of the patient’s lumbar spine, then click the human body graphic lumbar vertebrae parts, and adjust to the appropriate “KV mA” value, and then step on the foot brake 3S – 5S, can be imaged.

Pulse fluoroscopy:

Click on the pulse fluoroscopy icon, then click on the desired irradiation site, such as irradiation of the patient’s lumbar spine, click on the human body graphic lumbar vertebrae, and adjust to the appropriate “KV mA” value, and then step on the foot brake 3S-5S, can be imaged.

If you want to adjust the size of the window of the mobile c-arm x-ray machine, you need to find the “magnifying glass” button in the toolbar, as shown in the figure below, click on the image window can be zoomed in and out, have you learned?

Perlove medical three-dimensional mobile c-arm x-ray machine is equipped with imported 30cm × 30cm size dynamic plate, as “intraoperative CT“, in the operation to quickly generate CT-like tomographic images and stereo three-dimensional images, to provide more comprehensive image information for the medical practitioner, can accurately observe the situation of the implant.

90cm C-arm opening. The opening space of the frame is spacious, and its opening can reach 90cm, which can be easily stuck into the surgical bed and the patient during clinical positioning, and quickly complete the positioning, avoiding repeated adjustments of the C-arm position and reducing the time for positioning.

PLX7500A Mobile Flatbed 3D C-Arm

Isocenter rack design. The 3D mobile c-arm x-ray machine’s rack adopts an isocentric design rack, the benefit of which lies in the fact that the C-arm does not need to move in the transverse and longitudinal directions in the process of 3D image acquisition, which reduces the interference caused by motion artifacts to the image, and the image quality will be clearer. In contrast, for non-isocentric racks, the C-arm needs to move continuously in the horizontal and vertical directions during 3D acquisition, and the motion artifacts will be relatively serious.

 

Dental X-rays play a pivotal role in the diagnosis and treatment of various oral health issues. They provide valuable insights into the hidden structures of teeth, gums, and jawbone, helping dentists make informed decisions about patients’ dental care. Traditionally, conventional film-based X-rays have been the go-to method for capturing these images. However, the rise of digital technology has paved the way for a more advanced approach—digital dental X-rays.

Digital Dental Radiology Machine >>

Dental Cone Beam Computed Tomography System (CBCT)

The Evolution of Dental X-rays

The journey of dental X-rays dates back to the late 19th century when Wilhelm Conrad Roentgen accidentally discovered X-rays. Over the years, dental professionals integrated X-rays into their practices, revolutionizing dentistry’s diagnostic capabilities. Initially, film-based X-rays were the norm, but as technology evolved, so did the methods used to capture these crucial images.

Conventional Dental X-rays: A Time-Tested Technique

How Conventional X-rays Work

Conventional dental X-rays involve placing a film packet inside the patient’s mouth and exposing it to X-ray radiation. The film is then developed, resulting in images that can be physically held and examined.

Limitations of Conventional Dental X-rays

While conventional X-rays have served dentistry well for decades, they do come with limitations. One major concern is the amount of radiation patients are exposed to, albeit small. Additionally, the process of developing films takes time, leading to a slightly longer wait for diagnosis.

Dental Digital Radiology: Unveiling the Technology

The Process of Digital X-ray Imaging

Unlike conventional X-rays that rely on photographic film, digital dental X-rays utilize electronic sensors to capture images. The process involves placing a sensor in the patient’s mouth, which then transmits the X-ray image to a computer. This digital image can be instantly viewed, manipulated, and stored electronically.

Advantages of Digital Dental Radiology

The transition to digital X-rays brings with it a host of benefits. For starters, digital X-rays expose patients to significantly less radiation compared to conventional methods. This reduction in radiation is a relief for both patients and dental professionals. Moreover, the ability to enhance and enlarge digital images allows dentists to pinpoint issues that might have gone unnoticed in traditional X-rays.

Dental X Ray Machine >>

Digital Dental X-rays V.S. Conventional Dental X-rays

Image Quality and Detail

When it comes to image quality and detail, digital X-rays have a clear advantage. The high resolution and ability to manipulate images digitally allow for better visualization of dental structures.

Radiation Exposure and Safety

Digital X-rays significantly reduce radiation exposure, making them a safer option for patients, especially those who may need frequent X-rays.

Workflow Efficiency and Patient Experience

Digital X-rays streamline the diagnostic process. Images are available immediately, eliminating the wait time for film development. Patients also appreciate the comfort of not having to bite down on film packets.

Making the Transition: Factors to Consider

Cost Considerations

The shift to digital X-rays requires an initial investment in equipment and training. However, the long-term cost savings, along with improved patient care, often outweigh the initial expenses.

Training and Implementation

Dental professionals need adequate training to make a smooth transition to digital X-rays. The proper implementation ensures efficient utilization of the technology.

Conclusion

In the realm of dental diagnostics, both digital and conventional X-ray methods have their place. Digital X-rays offer remarkable advantages in terms of image quality, patient safety, and workflow efficiency. As technology continues to advance, the future of dental X-rays holds exciting possibilities. The integration of artificial intelligence and enhanced image processing may further improve diagnostic accuracy and patient outcomes.

As a leading manufacturer of dental X-ray machines, our commitment lies in the continuous advancement of dental digital radiography systems. We take great pleasure in sharing our expertise at the forefront of dental X-ray machine technology. Whether you have inquiries about our dental x ray machines or encounter any challenges during the purchasing process, please don’t hesitate to reach out to us. Your queries will receive our prompt attention and response.