Tag Archives: Medical

Paranasal sinuses and sinus conditions

The videos on this page can be downloaded upon purchase of a license on Alila Medical Media website. Click here!


Paranasal sinuses, or simply “sinuses” in common language,  are air cavities in the bones of the skull. There are four pairs of sinuses (see Fig. 1, 2 and upper panel of Fig. 3):

– the maxillary sinuses are under the eyes, in the maxillary bones.
– the frontal sinuses are above the eyes, in the frontal bone.
– the ethmoid sinuses are between the nose and the eyes, in the ethmoid bone.
– the sphenoid sinuses are behind the nasal cavity, in the sphenoid bones.

Sinusitis
Fig.1: The four pairs of sinuses. Red = frontal, green =  ethmoid, blue = sphenoid, beige =  maxillary. The right panel show normal sinuses on half of the head and inflamed sinuses on the other half. Click on image to see a larger version on Alila Medical Media website where the image is also available for licensing.

 

The sinuses are lined with respiratory epithelium producing mucus. The mucus drains into nasal cavity through small openings (Fig. 2 left panel, Fig. 3 upper panel). Impaired sinus drainage has been associated with inflammation of sinuses (sinusitis, see below).
Biological function of the sinuses remains unclear.

Nose anatomy labeled. .
Fig. 2: Front view of the sinuses (left panel) showing connections to the nasal cavity. Right panel shows mid-sagittal section of the head. Click on image to see a larger version on Alila Medical Media website where the image is also available for licensing.

 

 

Sinusitis or rhinosinusitis is inflammation of the paranasal sinuses (Fig. 1, right panel). This can be due to:
– allergy (allergic rhinitis): allergens such as pollen, pet dander,.. trigger overreaction of the mucosa of the nose and sinuses resulting in excess mucus, nasal congestion, sneezing and itching.
– infection: usually as a complication of an earlier viral infection of the nasal mucosa, pharynx or tonsils such as during a common cold. Impaired sinus drainage due to inflammation of nasal mucosa during a cold often leads to infection of the sinus itself. Cold-like symptoms plus headache and facial pain/pressure are common complaints.
– other conditions that cause blockage of sinus drainage: structural abnormality such as deviated nasal septum (Fig. 3); formation of nasal polyps (Fig. 4). When a sinus is blocked, fluid builds up making it a favorable environment for bacteria, viruses or fungi to grow and cause infection.
Deviated nasal septum
Fig. 3: Front view of the sinuses (upper panel) showing connections to the nasal cavity, also shown the nasal septum (light blue color). Lower panel shows deviated septum blocking drainage of the right maxillary sinus (your left). Click on image to see a larger version on Alila Medical Media website where the image is also available for licensing.

 

 

 

 

Nasal polyps

Fig. 4: Nasal polyps – overgrowths of nasal mucosa – block sinus drainage. Click on image to see a larger version on Alila Medical Media website where the image is also available for licensing.

 

 

 

Treatment depends on the cause of sinusitis:
– For viral infection : symptom relief medications such as nasal spray for irrigation and decongestion; other conservative treatment for common cold such as rest and drinking plenty of fluid.
– For bacterial infection: antibiotics may be prescribed.
– For allergy: intranasal corticosteroids are commonly used.
– For recurrent (chronic) sinusitis due to structural abnormalities or nasal polyps, nasal surgery may be recommended.

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Asthma (with Animation Video)

The videos on this page can be downloaded upon purchase of a license on Alila Medical Media website. Click here!


Asthma is a chronic respiratory condition where the airway is inflamed and narrowed causing breathlessness, wheezing, chest tightness and coughing. Symptoms come as recurrent episodes called asthmatic attacks more commonly during the night and early morning. Asthma is usually diagnosed in childhood and lasts for life.

Anatomy of asthma

Our lungs consist of millions of air tubes or airways (bronchi and smaller bronchioles) bringing air in and out of the body. Each tube ends with a cluster of air sacs (alveolus, plural alveoli) where the gas exchange process takes place. The airways have a layer of smooth muscle in their wall which enables them to constrict or dilate. In response to the body’s higher demand of air, such as during exercise, the airways dilate to increase air flow. In response to presence of pollutants in the air, they constrict to prevent the lungs from being polluted. In people suffering from asthma these airways are inflamed, narrowed and become more sensitive to certain substances. Asthmatic attack (or exacerbation) happens when the airways react to these substances. During the attack smooth muscle contracts squeezing the airways making them even narrower, mucus secretion increases further obstructs the airways.

Causes of asthma

Causes of asthma are complex and not fully understood but likely involve a combination of genetic and environmental factors. Family history is a known risk factor for asthma. There are at least over twenty genes associated with asthma of which many are involved in the immune system. Most people who have asthma also have allergies. Many environmental factors such as air pollution, chemicals, smoking, allergens have been associated with development of asthma or triggering of asthmatic attacks.

Triggers of asthmatic attack

Triggers are factors that initiate the attack, these can be very different from person to person. Common triggers include :
– allergens (pollen, animal fur, pet dander, sulfites in preserved food..)
– irritants (cigarette smoke, industrial chemicals, dust, household chemicals,..)
– some medication (aspirin, beta blockers,..).
– physical activity, exercise.

Treatments

There is no cure for asthma. The most effective way to manage symptoms is to identify the triggers of asthmatic attack and avoid them.
There are two main classes of medication:
– bronchodilators – substances that dilate bronchi and bronchioles – are used as short-term relief of symptoms.
– inflammation moderators such as corticosteroids are used as long-term treatment.
Asthma inhalers are used to deliver medication to the lungs.

Associated conditions

A number of conditions tend to occur more frequently in people with asthma:
– Allergies :  eczema and hay fever. These individuals are considered hyperallergic (high tendency to develop allergic reactions). The combination of these conditions is called atopy or atopic symdrome.
Gastroesophageal reflux disease (GERD): a condition in which stomach acid backs up and damages the mucosal lining of the esophagus. GERD may worsen asthma symptoms and medications for asthma often worsen GERD symptoms. Treating GERD usually improves asthma and must be included in asthma treatment plan.
Obstructive sleep apnea (OSA): asthmatic patients tend to develop OSA. The mechanism is not fully understood but it’s likely due to nasal obstruction. Click on the link to read more about OSA.
Sinusitis: inflammation of paranasal sinuses. Sinusitis commonly worsens asthma symptoms and makes treatment less effective.

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Swallowing and Dysphagia (with Animation)

Swallowing

Below is a narrated animation about swallowing reflex, phases and overview of neural control. Click here to license this video on Alila Medical Media website.

Swallowing, or deglutition, is the process by which food passes from the mouth, through the pharynx and into the esophagus. As simple as it might seem to healthy people, swallowing is actually a very complex action that requires an extremely precise coordination with breathing since both of these processes share the same entrance: the pharynx. Failure to coordinate would result in choking or pulmonary aspiration. Swallowing involves over twenty muscles of the mouth, throat and esophagus that are controlled by several cortical areas and by the swallowing centers in the brainstem. The brain communicates with the muscles through several cranial nerves.

Swallowing consists of three phases

1. Oral or buccal phase: this is the voluntary part of swallowing, the food is moistened with saliva and chewed, food bolus is formed and the tongue  pushes it to the back of the throat (pharynx). This process is under neural control of several areas of cerebral cortex including the motor cortex.
2. Pharyngeal phase starts with stimulation of tactile receptors in the oropharynx by the food bolus. The swallow reflex is initiated and is under involuntary neuromuscular control. The following actions are taken to ensure the passage of food or drink into the esophagus:
– The tongue blocks the oral cavity to prevent going back to the mouth.
– The soft palate blocks entry to the nasal cavity.
– The vocal folds close to protect the airway to the lungs.The larynx is pulled up with the epiglottis flipping over covering the entry to the trachea (the windpipe). This is the most important step since entry of food or drink into the lungs may potentially be life threatening.
– The upper esophageal sphincter (UES) opens to allow passage to the esophagus.
3. Esophageal phasefood bolus is propelled down the esophagus by peristalsis – a wave of muscular contraction that pushes the bolus ahead of it. The larynx moves down back to original position.

Click here to see an animation of the swallowing process on on Alila Medical Media website where the video is also available for licensing.
Swallowing, labeled
Fig. 1: Anatomy of swallowing. See text for details of phases. The blue arrows represent breathed air. Click on image to see a larger version on Alila Medical Media website where the image is also available for licensing.

 

 

Dysphagia (swallowing disorders)


This  video is available for licensing on Alila Medical Media website. Click HERE!

Dysphagia refers to a group of conditions characterized by difficulty swallowing. There are two main classes of problems that can lead to swallowing disorders:


 1. 
Neuromuscular problems: 

– Muscular disorders that affect skeletal muscles, such as muscular dystrophy, myasthenia gravis…

– Diseases of the nervous system that compromise the way the brain controls the swallowing reflex, such as stroke, Parkinson’s disease, multiple sclerosis…

Weakened muscles and/or impaired coordination as a result of aging.

This class commonly affects the first two phases of swallowing.

2. Narrowing of the throat or esophagus due to throat cancer, esophageal cancer and formation of small sacs or rings in the walls of the esophagus.  Gastroesophageal reflux disease – GERD – is also a common cause. In GERD, scars resulted from stomach acid injuries may obstruct the esophagus and cause difficulty swallowing.

This class mostly affects the third phase of swallowing.

Schatzki ring blocks esophagus
Fig. 2: Schatzki ring makes the lumen of esophagus smaller. Click on image to see a larger version on Alila Medical Media website where the image is also available for licensing.

 

 

 

For people with dysphagia, eating becomes a challenge. The consequences may be serious. Someone who cannot swallow safely is at high risks of choking, pulmonary aspiration and may not be able to eat enough to stay healthy.

Treatment depends on the cause of the condition:

– Muscle strength and coordination exercises may be recommended for some.

– A change in the position of the head and neck when eating could be beneficial to others.

– Right choice of food and drink is important for most. Soft textured food and thickened drinks are recommended for safe swallowing.

– Surgery may be needed to remove narrowed parts of the esophagus.

– Finally, patients with severe dysphagia and recurrent aspiration may have to resort to tube feeding to get nutrition to the body.

                                                                                                                            See all ENT topics

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Vertical Sleeve Gastrectomy and Gastric Lap Band Surgeries

This is a continuation to the main article about bariatric surgery .

Below is a narrated animation of Gastric Sleeve and Gastric Lap Band procedures. Click here to license this video on Alila Medical Media website.

Vertical sleeve gastrectomy (VSG)

In this procedure a cut is made vertically and the larger part of the stomach (up to 85% of its volume) is removed from the body. The remaining is closed with staples to create a “new stomach” that is now having the shape of a tube (see Fig. 1). The procedure preserves both sphincters at the two ends of the stomach and therefore has minimum effect on the functioning of the digestive process.This reduces the risk of malabsorptive complications commonly associated with intestinal bypass. The procedure is irreversible.

Click here to see an animation of VSG procedure  on Alila Medical Media website where the video is also available for licensing.

Vertical Sleeve Gastrectomy (VSG)
Fig. 1: Vertical sleeve gastrectomy procedure. Click on image to see a larger version on  Alila Medical Media website where the image is also available for licensing.

 

 

 

 

VSG procedure is gaining more and more popularity thanks to its simplicity and good results on initial weight loss. However, due to the lack of long-term data, it is yet to be endorsed by bariatric surgery societies and is not covered by some insurance companies.

 

Adjustable gastric band (Lap band)


In this procedure an inflatable silicon band is placed around the top of the stomach to create a small stomach pouch (Fig. 2). During a meal, the pouch is filled up quickly with a small amount of food and releases it slowly into the lower part of the stomach due to the restriction by the band. As the pouch is full, it gives a feeling of satiety (fullness). Slow passage of the food makes the patient feel full for a longer period of time and thus reduces the amount of food intake. The band is connected to a port placed under skin of the abdomen. Through this port, a saline solution (salt water) is injected to adjust the diameter of the band and thus making the passage between the pouch and the lower part of the stomach smaller or larger accordingly to the needs of patient.

Click here to see an animation of gastric band procedure  on Alila Medical Media website where the video is also available for licensing.

Gastric Band Weight Loss Surgery

 

 

Fig. 2: Adjustable lap band procedure. Click on image to see a larger version on Alila Medical Media website where the image is also available for licensing.

 

 

As the procedure involves no cutting or stapling of the stomach, it is minimal invasive and reversible. The surgery can be performed laparoscopically (as opposed to open surgery) through small incisions with the aid of a camera. Recovery time is significantly shortened compared to gastric bypass procedures. Also, as there is no intestinal bypass, the risks of nutritional deficiencies, dumping syndrome and other complications associated with it are significantly reduced.
In terms of weight loss efficiency, however, patients who undergo gastric lap band surgery typically lose less weight than those who have had gastric bypass procedures.

                                                                                              > See Gastric bypass procedures

                                                                                                           > See all Digestive topics

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Bariatric surgery

Below is a narrated animation of body mass index and Roux-en-Y gastric bypass. Click here to license this video on Alila Medical Media website.

Bariatric surgery, or weight loss surgery, refers to a variety of surgical procedures for treatment of morbid obesity. Obesity is determined by Body Mass Index (BMI) which is calculated as the ratio of body weight over square of body height. The higher the BMI the higher the extend of obesity.  A normal BMI is between 20 and 25. An individual is considered morbidly obese if he or she has a body mass index of 40 or more, or of 35 or more and with obesity-related health problems such as diabetes, sleep apnea or hypertension.

Weight loss is achieved by reducing the size of the stomach. Smaller stomach makes you feel full faster and therefore makes it easier to reduce the amount of food intake.

Roux en-Y Gastric bypass (RNY)

This is the most commonly performed bariatric surgical procedure and is considered the gold standard for weight loss treatment. This procedure includes two steps:
1. The stomach is divided into two part : one small pouch at the top of the stomach where it is connected to the esophagus (gastric pouch in Fig. 1) and the rest of the stomach which will be “bypassed”, the two parts are separated and stapled.
2. Rerouting of the intestine: the intestine is cut at about 45cm (18in) down from the end of the stomach. The first part of the intestine (the duodenum) will be “bypassed”. The top end of the second part (the jejunum) is pulled up and connected to the gastric pouch created in step 1. The lower end of the duodenum is reconnected to the jejunum at a lower point (Fig.1). The new configuration has a shape of an Y, hence the name of the procedure.

Click here to see a video animation of gastric bypass procedure on Alila Medical Media website where the video is also available for licensing.

Roux-en-Y Gastric Bypass (RNY) surgery
Fig. 1: Roux-en-Y gastric bypass diagram. Note the passage of food and digestive juice after surgery. Click on image to see a larger version on Alila Medical Media website where the image is also available for licensing.

 

 

How weight loss is achieved?
Firstly, the volume of the stomach is now greatly reduced to a small pouch (usually less than 10% of the original volume) which is filled up fast after a small amount of food intake. This sends a signal to the brain that the stomach is full and generates a feeling of fullness (satiety). This helps to stop eating. Also, if eating continues, vomiting and discomfort may follow. Secondly, as the first part of the intestine (the duodenum) is bypassed, the amount of nutrition absorbed by the body is greatly reduced. In normal digestion, this is where most of the nutrition is absorbed. Malabsorption contributes to weight loss effect.

Complications
While this procedure is proven as an efficient long term weight loss treatment, it associates with significant complication risks. These include: leakage along the staple lines and surgical connections leading to infection and abscess formation; stricture and obstruction of digestive tract due to scar formation; dumping syndrome; nutritional deficiencies; and other general surgical risks  due to complexity of the procedure.

Mini Gastric bypass (MGB)

This is a modification of the more common RNY procedure described above. Here are the differences: (see Fig. 2)
1. In step 1 a long tube is created instead of a pouch.
2. In step 2, the intestine is NOT cut, it is pulled up and hooked up with the new stomach tube.

Mini gastric bypass surgery

Fig. 2: Mini gastric bypass diagram. Click on image to see a larger version on Alila Medical Media website where the image is also available for licensing.

 

 

 

Click here to see a video animation of mini gastric bypass procedure on Alila Medical Media website where the video is also available for licensing.

This procedure is becoming more and more popular as it produces good weight loss results and is simpler than the original procedure resulting in less complication risks. Less cutting and stapling lowers the risk of leakage and infection. It also reduces the bile reflux possibility  as the intestinal rerouting is set at a lower point on the stomach.

                                                                         > NEXT: Gastric Sleeve and Gastric Lap Band

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GERD and Heartburn (with video)

Gastroesophageal reflux disease

This video and other animations of the digestive system are available for licensing on Alila Medical Media website. Click here!



Gastroesophageal reflux disease (GERD) or gastric reflux disease is  a chronic condition where acid from the stomach flows up and damages the mucosa of the esophagus.
At the junction between the esophagus and the stomach is the lower esophageal sphincter (LES). The LES is a ring of muscle that is generally closed tight to prevent stomach acid from coming up. In normal digestion, the LES opens shortly to allow food bolus passing down to the stomach and closes back tight instantly. GERD occurs when the LES is abnormally relaxed and can not close properly (Fig. 1). Heartburn is a burning sensation in the chest associated with each regurgitation of gastric acid and is the most prominent symptom of GERD. 

Gastric reflux, labeled diagram.
Fig. 1: Abnormal relaxation of the lower esophageal sphincter as cause of GERD. Click on image to see a larger version on  Alila Medical Media website where the image is also available for licensing.

 

 

 

Hiatus hernia is believed to be another cause of GERD. Hiatus hernia or hiatal hernia is a condition where the top portion of the stomach is pulled up forming a herniation above  the diaphragm. This situation somehow compromises the esophagus – stomach barrier and facilitates acid reflux.

Hiatal Hernia
Fig. 2: Types of hiatal hernia. Click on image to see a larger version on  Alila Medical Media website where the image is also available for licensing.

 

 

Treatment

Treatment includes dieting and medication. Proton-pump inhibitors, which act to reduce gastric acid production, are drugs of choice. If these fail, a surgery may be recommended. In a procedure called Nissen fundoplication, the top portion of the stomach is wrapped around the lower part of esophagus and sewn into place. This way, the muscles in the wall of the stomach reinforce the closure of the esophagus. This surgical procedure is particularly recommended when hiatus hernia is present as this can be fixed at the same time. The procedure can be done with minimal invasive laparoscopic technique through small incisions with the aid of a camera.
Nissen Fundoplication Surgery
Fig. 3: Nissen fundoplication procedure.  Click on image to see a larger version on Alila Medical Media website where the image is also available for licensing.

 

 

 

                                                                                                                 > See all Digestive topics

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Common knee injuries and surgical repair, part 2

Knee sprains

Knee sprains refer to injuries in any of the ligaments of the knee. The most commonly injured are medial collateral ligament (MCL) running along the inner side of the knee, lateral collateral ligament (LCL) running along the outer side of the knee and anterior cruciate ligament (ACL) that connects the femur and tibia inside the joint (Fig. 1). For more about knee joint anatomy click here.

Knee sprains drawing.
Fig. 1: Common types of knee sprain.  Click on image to see a larger version on Alila Medical Media website where the image is also available for licensing.

 

 

 

Commonly, injury happens after a direct blow to the knee. When the knee is hit from outside it moves inwards and the ligament on the inside (the MCL) is overstretched and injured. Inversely, when the blow comes from the inside of the knee it’s the outside ligament (the LCL) that is hurt. ACL injuries, on the other hand, are caused by twisting movement of the knee and are most common among athletes in sports that involve sudden rotation movement of lower leg.

Anterior Cruciate Ligament injury

 

Fig. 2: Completely torn ACL.  Click on image to see a larger version on Alila Medical Media website where the image is also available for licensing.

 
Mild sprains (stretched ligament but no tear or small tears) can be treated with rest, knee exercises and physical therapy. Complete tears require surgical repair or reconstruction.

 

ACL reconstruction surgery

Below is a narrated animation of ACL reconstruction surgery. Click here to license this video and/or other orthopedic videos on Alila Medical Media website.

This procedure is used to replace a severely damaged or completely torn anterior cruciate ligament (ACL) with a graft. The graft is a piece of  healthy ligament taken from the same person or a donor. Graft from the same person is called autograft and usually works best. The procedure is detailed in Fig. 3. Autograft is commonly taken from the patellar ligament (one that connects the kneecap to the tibia), but hamstring tendon may also be used. See the figure legends for details of procedure, step 1 is done through open surgery, the rest are done through an arthroscope.

ACL reconstruction surgery unlabeled diagram.
Fig. 3: Steps of arthroscopic knee surgery for reconstruction of  anterior cruciate ligament injury: 1. Graft taken from kneecap and patellar ligament; 2. Torn ACL shown; 3. Damaged ACL removed and a channel is drilled through tibia and femur; 4. graft inserted and secured with screws; 5. graft in place. Click on image to see a larger version on Alila Medical Media website where the image is also available for licensing.

 

                                                                                                              >  See all Orthopedic topics

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Common knee injuries and surgical repair, part 1

Knee anatomy

The knee has three bones : the femur (the thigh bone), the tibia (the shinbone) and the patella (the kneecap). The femur and the tibia form a hinge joint. The joint is enclosed by the joint capsule at the back and on the sides, and is covered by the patella and patellar ligament in front. The knee joint is stabilized mainly by the tendons of quadriceps femoris muscle in front and semimembranosus muscle (one of the hamstrings) on the back. Strengthening these two muscles  therefore helps to reduce the risk of knee injuries.

Knee joint labeled drawing.

Fig.1 : Midsagittal section of the knee joint. Click on image to see a larger version on Alila Medical Media website where the image is also available for licensing.

 

 

 

 

Apart from the regular articular cartilage that cover the end surfaces of the three bones there are two additional pads of cartilage that are unique to the knee joint : medial meniscus and lateral meniscus (Fig. 2 and Fig. 3). The menisci act as shock absorbers to cushion the joint.

Two pairs of ligaments help to stabilize the knee : collateral ligaments run along two sides of the knee (Fig. 2), and cruciate ligaments which connect the femur and tibia in the center of the joint and cross each other in the from of an X (hence the names) : anterior cruciate ligament (ACL) and posterior cruciate ligament (PCL) (Fig. 2 and Fig. 3).

Knee joint anatomy

Fig. 2 : Front view of the right knee (the kneecap is removed in this picture to show structures behind).  Click on image to see a larger version on Alila Medical Media website where the image is also available for licensing.

 

 

 

 

Knee meniscus labeled diagram.
Fig. 3 : The right knee viewed from top (femur removed to show structures underneath). Click on image to see a larger version on Alila Medical Media website where the image is also available for licensing.

 

 

Meniscus tear and repair

Commonly referred to as torn cartilage, torn meniscus is a common sport injury. Mild injuries maybe treated with rest, ice, compression and elevation (the RICE approach). Larger tears may require surgery. The goal of surgery is to remove the damaged tissue which is the source of irritation, pain and possibly inflammation, and attempt to induce healing. Treatments vary depending on the location of the tear. If the tear is located on the outer border of the meniscus (the red zone, see Fig. 3) where there is a good blood supply, the damaged loose tissue will be removed and sutures will be used to tight the cartilage together to facilitate self healing. If the tear is located on the inner part (the white zone, see Fig. 3) where the blood supply is poor and hence healing is unlikely, the damaged part is simply removed (partial meniscectomy) (Fig. 4).

Minimal invasive arthroscopic surgery is commonly used for meniscus repair. In case of large tears, open surgery may be required.

Click here to see an animation of arthroscopic meniscus repair on Alila Medical Media website where the video is also available for licensing.

Meniscus tear and surgery treatment
Fig. 4 : Treatment of meniscus tear depends on its location. Click on image to see a larger version on Alila Medical Media website where the image is also available for licensing.

 

 

 

                                                                                                              >  See all Orthopedic topics

 

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Common shoulder injuries and surgical repair (part 1)

Anatomy


There are three bones in the shoulder: the humerus (the bone of the upper arm), the scapula (shoulder blade) and the clavicle (collarbone). Articulations between these bones make up the shoulder joints. The main joint, commonly referred to as “the shoulder joint”, is the joint between the head of the humerus and glenoid cavity of the scapula and is called the humeroscapular or glenohumeral joint. The second joint of the shoulder is formed by the articulation between the clavicle and the acromion (extension of the scapula that forms the top of the shoulder) and is called acromioclavicular joint or AC joint. The two joints are stabilized by associated muscles and ligaments.

Shoulder anatomy
Fig.1: Main components of the shoulder joint. Click on image to see a larger version on  Alila Medical Media website where the image is also available for licensing.

 

 

 

Shoulder dislocation

Shoulder dislocation occurs when the humeral head slips out of the pocket  made by glenoid cavity of the scapula (Fig. 2). This usually happens as a result of trauma (fall, sport injury,..). Dislocation can be anterior where the humerus slips to the front or posterior where it dislocates behind the normal position. Anterior dislocation is more common.

Shoulder dislocation
Fig.2 : Types of shoulder dislocation. Click on image to see a larger version on Alila Medical Media website where the image is also available for licensing.

 

 

 

Below is a narrated animation about shoulder dislocation, bankart lesion and repair. Click here to license this video and/or other orthopaedic videos on Alila Medical Media website.

Bankart lesion and shoulder instability

The glenoid cavity has a ring of fibrocartilage tissue called the labrum around it. The labrum makes the cavity deeper and helps to keep the humeral head in place (Fig.3). During anterior shoulder dislocation, the head of the humerus may be pressed against and damages the anterior portion of the labrum. This type of labral tear is called bankart. Damaged labrum makes it easier for the humeral head to slip out of place again. This vicious cycle leads to repeated shoulder dislocation and severely damaged labrum. The condition is called shoulder instability as it feels like slipping out anytime. Treatment includes physical therapy and, in some cases, surgery for bankart repair (see below).

Click here to see an animation of bankart lesion and arthroscopic repair  on Alila Medical Media website where the video is also available for licensing.

SLAP and bankart lesions
Fig. 3: Anatomy of the shoulder joint with the humerus slightly abducted to show the glenoid cavity and labrum. Types of labral lesions are shown on the right. Click on image to see a larger version on Alila Medical Media website where the image is also available for licensing.

 

 

Bankart repair

During surgery the damaged cartilage is removed, area is cleaned, small holes are then drilled into the bone of glenoid fossa to hold small suture anchors with threads. The threads are attached to the labrum and pulled tightly to hold the labrum to the glenoid (Fig.4). Over time, the labrum will reattach to the glenoid naturally. Physical therapy will be needed to regain the shoulder range of motions and strength.

Shoulder stabilization surgery
Fig.4: Steps of bankart repair surgery. See text for details. Click on image to see a larger version on Alila Medical Media website where the image is also available for licensing.

 

 

 

 

Bankart repair can be done with arthroscopic or open surgery. While arthroscopy is minimal invasive, open surgery maybe recommended for larger tears. In arthroscopic surgery only two or three small incisions are made, an arthroscope is inserted through one of the incision. Arthroscope is an instrument equipped with light and camera which transmits image of the joint to a computer screen. Other small tools are inserted  to carry out the repair (Fig.5).

Click here to see an animation of arthroscopic bankart repair.
Shoulder arthroscopy
Fig. 5 : Arthroscopic surgery for bankart repair. Click on image to see a larger version on Alila Medical Media website where the image is also available for licensing.

 

 

 

 

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Male Reproductive System Gallery

Download diagrams of male organs anatomy and diseases, formation and structure of sperms.

Please note: Free downloads are intended to facilitate healthcare education for people in need in low income countries and can be used for educational purposes only. If you can afford it or if you plan to use the images for commercial purposes, please consider buying instead. You can find a larger image collection at higher resolution for sale at affordable prices on Alila Medical Media website.

To download: right click on full size image – choose “Save image as” and save it into your computer. By downloading from this website you acknowledge that you agree to our Conditions of Use.
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Spermatogenesis process, labeled diagram.
Spermatogenesis process, labeled diagram.
Process of sperm production and meiosis in seminiferous tubule, labeled diagram.
Ovum and spermatozoon structure, labeled diagram.
Ovum and spermatozoon structure, labeled diagram.
Egg and sperm cells anatomy, labeled drawing.
Male reproductive organs sagittal, unlabeled diagram.
Male reproductive organs sagittal, unlabeled diagram.
Illustration of male reproductive system in median section
Male reproductive organs sagittal, labeled diagram.
Male reproductive organs sagittal, labeled diagram.
Illustration of male reproductive system in median section
Prostate cancer staging, unlabeled diagram.
Prostate cancer staging, unlabeled diagram.
Illustration of staging of prostate gland cancer, from small tumor size to metastasis.
Prostate cancer staging, labeled diagram.
Prostate cancer staging, labeled diagram.
Illustration of staging of prostate gland cancer, from small tumor size to metastasis.


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