First, the main content of medical image examination technology research

Second, the development of medical imaging technology

Third, the essence of medical imaging technology

Fourth, the learning method of medical imaging examination technology

Chapter I X-ray inspection technology

Section 1 X-ray photography conditions

First, the photosensitive effect and its influencing factors

Second, the formulation of photographic conditions

Section 2 Terms commonly used in X-ray photography

First, anatomical posture

Second, the reference axis and anatomical plane

Third, anatomical location.

Fourth, joint movement.

Five, X-ray photography direction

Six, X-ray photography position

Section 3 X-ray body surface positioning marks

First of all, limbs

Second, the spine

Third, the chest

Fourth, the abdomen

Five, head

Section IV X-ray Photography Steps and Precautions

First of all, traditional X-ray photography

X-ray photography under special circumstances

Section 5 Standards for High Quality X-ray Photographs

First, meet the requirements of diagnostics.

Second, the appropriate image density.

Thirdly, proper image contrast.

Fourth, the sharpness is good.

Fifth, the image noise is less.

Section 6 Location of Conventional X-ray Photography

First, the head

Second, the chest

Third, the abdomen and pelvis

Fourth, the spine

Verb (abbreviation for verb) upper limb

Sixth, lower limbs

Section 7 mammography

First of all, digital mammography technology

Second, mammography examination technology

Section 8 Digital X-ray Detection Technology

I. Inspection Steps

Second, image post-processing.

Third, proper exposure.

Fourth, clinical application

Section 9 X-ray contrast inspection technology

I. Contrast agent

Second, drug sensitivity test, drug reaction and treatment methods

Third, the comparative inspection technology

X ray perspective technique

First, chest fluoroscopy

Second, abdominal fluoroscopy

Third, limb perspective

Chapter 2 CT detection technology

Section 1 CT examination methods

First, CT scanning.

Second, enhance CT scanning.

Third, CT angiography

Fourthly, CT perfusion imaging.

Verb (abbreviation for verb) enhances real-time monitoring.

Sixth, PET-CT

Section 2 Technical Parameters of cT Examination

First, the scanning type.

Second, the exposure conditions

Third, the vision

Fourth, the matrix

Fifth, aim

Six, layer thickness

Seven. Interlayer spacing

Eight. Reconstruction interval

Nine, throw the ball

Speed of lifting front wheel

XI. Electrocardiogram Control

Twelve. Scanning frame tilt angle

Thirteen, algorithm

Section III Display of CT Images and Influencing Factors of Image Quality

First, the display of CT images

Second, the influencing factors of CT image quality

The fourth section CT image post-processing technology

I. Reconstruction technology

Second, the reorganization technology

Section 5 Overview of Clinical Application

I indications and contraindications

Second, the preparation before inspection

Third, the inspection steps

Fourth, matters needing attention

Section 6 CT inspection technology of each part

First, the brain

Second, the head and neck.

Third, the chest

Fourth, the abdomen

Five, pelvic cavity

Six, the spine

Seven, limb joints

Chapter III Magnetic Resonance Examination Technology

Section 1 MRI image display and characteristics

First, the display of nuclear magnetic resonance images.

Second, the characteristics of magnetic resonance images

Section 2 Common Pulse Sequences and Their Applications

1. Spin echo pulse sequence

Second, fast spin echo sequence.

Third, reverse the recovery order.

Fourthly, gradient echo pulse sequence.

5. Echo plane imaging sequence

Section 3 Special Magnetic Resonance Examination Techniques

I. Overcurrent Phenomenon and Compensation Technology

Second, saturation imaging technology

Third, the gate technology

Fourthly, magnetization transfer contrast technology.

Five, magnetic resonance hydrography technology

MR angiography of intransitive verbs

Seven, the clinical application of magnetic resonance spectroscopy

Eight, functional magnetic resonance imaging

The fourth quarter magnetic resonance enhancement examination

I. Classification of magnetic resonance contrast agents

Second, the enhancement mechanism of magnetic resonance contrast agent

Third, the application of magnetic resonance contrast agent

Four. Adverse reactions of magnetic resonance contrast agents and their management

Section 5 Clinical Application of Magnetic Resonance Examination Technology

I. signs

Second, contraindications

Third, the preparation before magnetic resonance examination

Four, the safety requirements of magnetic resonance examination

Five, magnetic resonance examination technology of each part

Section 6 Artifacts and Compensation Technology

First, motion artifacts

Second, the package artifact

Third, chemical shift illusion.

Fourthly, truncation artifacts.

Five, magnetic sensitive artifacts

Six, zipper artifact

Seven, masking artifacts

Eight, cross excitation

Nine, parallel acquisition technology artifact

X. Other artifacts

Section 7 Biological Effects of Magnetic Resonance Imaging System

First, the biological effect of static magnetic field

Second, the biological effect of gradient magnetic field

Third, the biological effect of RF pulse.

Chapter IV Ultrasonic Testing Technology

Section 1 Ultrasonic flaw detection technology and progress

First, two-dimensional ultrasonic flaw detection technology

Second, M-type ultrasonic flaw detection technology

Three, ultrasonic Doppler examination technology

Four, tissue Doppler imaging examination technology

Five, color Doppler energy map

Six, endocardial edge detection technology

Seven. Dynamic display technology of color wall motion

Eight, harmonic imaging technology

Nine, contrast ultrasonic flaw detection technology

Interpersonal ultrasound technique

Eleven, three-dimensional ultrasonic testing technology

Section 2 Clinical Application of Ultrasonic Examination Technology

First, the brain

Second, the eyes, thyroid and salivary glands.

Third, breasts

Fourth, the heart.

Verb (abbreviation for verb) liver

Six, biliary system

Seven, pancreas

Eight, spleen

Nine, kidney

Urinary catheter

Eleven, bladder, prostate, seminal vesicle

Twelve, scrotum

Thirteen. Gynecological medicine

Fourteen obstetrics

Chapter V Film Laser Printing and Development Technology

Section 1 Digital Laser Printing Technology

First, the performance and characteristics of laser printers

Second, dry laser printing technology

Thirdly, wet laser printing technology.

Section 2 Automatic Film Processing Technology

First, automatic cleaning technology

Second, the management of automatic cleaning technology

Chapter VI Quality Management and Evaluation of Radiological Diagnostic Images

Section 1 Quality Management of Radiological Diagnostic Images

Firstly, the concept of quality management is put forward.

Second, the basic concepts of quality management and quality culture

Three. Procedures for quality management activities

Section 2 Evaluation of Radiological Diagnostic Image Quality

First, the subjective evaluation method

Second, the objective evaluation method

Third, the comprehensive evaluation method

Section 3 Similarities and differences between analog imaging and digital imaging quality evaluation

First, the similarities and differences of subjective evaluation results

Second, the similarities and differences of objective evaluation results

Section 4 Influence of Visual Reading Conditions on Image Quality

First, the influence of reading lamp conditions.

Second, the influence of display conditions

Section 5 Introduction of Breast Image Quality Control and Evaluation

I. X-ray quality requirements

Second, the detector requirements

Third, the dose requirements

Fourthly, the influence of viewing conditions on image quality.

refer to

Chinese-English noun index

English-Chinese noun index