Hip fractures Hip dislocation Trochanteric bursitis Femoral artery pulse

Question 1

What is the typical mechanism of injury for hip fractures in the elderly?

Answer 1

A low impact fall

Question 2

What percentage of patients with hip fractures are over 60 years old?

Answer 2

92%

Question 3

What is the predominant gender affected by hip fractures?

Answer 3

73% of patients are female

Question 4

What are the common risk factors associated with hip fractures?

Answer 4

Osteoporosis, smoking, alcohol use, malnutrition, neurological impairment, impaired vision, low BMI

Question 5

What is the mortality rate at one year for individuals with hip fractures?

Answer 5

30%

Question 6

How are hip fractures classified in terms of intracapsular and extracapsular fractures?

Answer 6

Based on their location in relation to the intertrochanteric line

Question 7

What are the subdivisions of intracapsular fractures?

Answer 7

Subcapital and transcervical fractures

Question 8

What are the potential complications of intracapsular fractures?

Answer 8

Femoral head AVN and non-union

Question 9

What classification system is used for intracapsular fractures, predicting union and risk of AVN?

Answer 9

The Garden classification

Question 10

Why are intracapsular fractures prone to femoral head AVN and non-union?

Answer 10

They can damage the medial femoral circumflex artery

Question 11

Why are AVN and non-union rare in extracapsular fractures?

Answer 11

The blood supply to the head of the femur remains intact

Question 12

What are the typical symptoms of hip fractures?

Answer 12

Hip/groin pain, swelling, inability to weight bear

Question 13

What signs might be observed in a patient with a hip fracture?

Answer 13

Shortened and externally rotated lower limb on the affected side, potential cognitive impairment, signs of dehydration, and altered neurovascular status of the lower limb

Question 14

How are hip fractures typically diagnosed using X-rays?

Answer 14

Most are visible on pelvic and lateral hip X-rays; loss of Shenton’s line indicates a hip fracture

Question 15

What alternative imaging may be required if X-rays do not show the fracture, despite clinical suspicion?

Answer 15

MRI after 10 days or immediately in cases of persistent clinical suspicion

Question 16

What is the primary treatment for hip fractures and why?

Answer 16

Surgical management followed by early mobilization to prevent complications from prolonged bed rest

Question 17

What is the recommended approach for pain management in hip fractures?

Answer 17

Local nerve blocks rather than strong opiates

Question 18

What is the 30-day mortality rate for hip fractures?

Answer 18

5-10%

Question 19

What percentage of patients experience a decline in independence after a hip fracture?

Answer 19

Half of the patients

Question 20

What are two major risk factors for hip fractures?

Answer 20

Increasing age and osteoporosis

Question 21

Which gender is more commonly affected by hip fractures?

Answer 21

Females

Question 22

Why are hip fractures generally prioritized on the trauma list?

Answer 22

Due to the significant morbidity and mortality associated with them

Question 23

What is the goal timeline for performing surgery after a hip fracture?

Answer 23

Within 48 hours

Question 24

What is the specialty that focuses on the medical co-morbidities of orthopedic inpatients, particularly elderly patients with hip fractures?

Answer 24

Orthogeriatrics

Question 25

How are hip fractures categorized?

Answer 25

Into intra-capsular and extra-capsular fractures

Question 26

Name the basic structures at the top of the femur.

Answer 26

Head, Neck, Greater trochanter, Lesser trochanter, Intertrochanteric line, Shaft (body)

Question 27

What structures does the hip joint capsule attach to?

Answer 27

Attaches to the acetabulum on the pelvis and the intertrochanteric line on the femur

Question 28

Why is a displaced intra-capsular fracture concerning?

Answer 28

It can damage the blood vessels supplying the femoral head, leading to avascular necrosis

Question 29

What surgical interventions might be necessary for patients with a displaced intra-capsular fracture?

Answer 29

Femoral head replacement with hemiarthroplasty or total hip replacement

Question 30

What concept regarding blood supply to the head of the femur influences the choice of operation for hip fractures?

Answer 30

Retrograde blood supply determines the choice of operation

Question 31

How did understanding intra-capsular or extra-capsular fractures impact the management of patients with hip fractures during an FY1 job in trauma and orthopedics?

Answer 31

It facilitated the identification and justification of the choice of operation, making trauma meetings less stressful

Question 32

What is the area affected in intra-capsular fractures?

Answer 32

The area proximal to the intertrochanteric line

Question 33

What is the purpose of the Garden classification in intra-capsular neck of femur fractures?

Answer 33

It classifies these fractures based on completeness and displacement

Question 34

How are non-displaced intra-capsular fractures managed?

Answer 34

Internal fixation (e.g., with screws) to hold the femoral head in place while the fracture heals

Question 35

What is the treatment for displaced intra-capsular fractures (Grade III and IV)?

Answer 35

Head of the femur needs to be removed and replaced

Question 36

What does hemiarthroplasty involve in treating hip fractures?

Answer 36

It involves replacing the head of the femur but leaving the acetabulum in place, often offered to patients with limited mobility or significant co-morbidities

Question 37

When is total hip replacement generally offered in the context of hip fractures?

Answer 37

Generally offered to patients who can walk independently and are fit for surgery

Question 38

Why doesn’t the blood supply to the head of the femur need to be replaced in extra-capsular fractures?

Answer 38

Extra-capsular fractures leave the blood supply to the head of the femur intact

Question 39

How are intertrochanteric fractures treated?

Answer 39

Treated with a dynamic hip screw (sliding hip screw)

Question 40

What is the preferred treatment for subtrochanteric fractures?

Answer 40

Intramedullary nail (a metal pole inserted through the greater trochanter into the central cavity of the shaft of the femur)

Question 41

What are the typical symptoms seen in a patient with a hip fracture?

Answer 41

Pain in the groin or hip, inability to weight bear, shortened, abducted, and externally rotated leg

Question 42

Why is assessing patients with a new hip fracture for acute illnesses important?

Answer 42

Often there is a good reason for the fall and identifying acute illnesses such as anemia, electrolyte imbalances, arrhythmias, etc., is crucial for optimizing the patient and minimizing surgery delays

Question 43

What is meant by the term “mechanical fall” in the context of hip fractures?

Answer 43

It implies a simple explanation for why the patient fell, but it’s important to explore the fall in more detail as there might be an underlying medical or social cause that’s correctable

Question 44

What is Shenton’s line, and where can it be visualized on an X-ray?

Answer 44

It is a continuous line formed by the medial border of the femoral neck and extends to the inferior border of the superior pubic ramus, visible on an AP x-ray of the hip

Question 45

How can a fracture be confirmed if X-rays are negative but still suspected?

Answer 45

MRI or CT scanning may be employed

Question 46

What essential management steps occur upon a patient’s admission with a hip fracture?

Answer 46

Appropriate analgesia, diagnostic investigations (e.g., x-rays), venous thromboembolism risk assessment and prophylaxis, pre-operative assessment, and input from orthogeriatrics

Question 47

According to NICE guidelines, when should surgery ideally be performed after admission for a hip fracture?

Answer 47

Within 48 hours, either the same day or the day after admission

Question 48

Why is the operation for hip fractures aimed to allow weight bearing immediately post-surgery?

Answer 48

To enable physiotherapists to start mobilization and rehabilitation as soon as possible

Question 49

Why is post-operative analgesia crucial in hip fracture management?

Answer 49

It encourages patients to mobilize quickly after the operation

Question 50

What are the two primary classifications of hip fractures based on their anatomic location?

Answer 50

Intracapsular and extracapsular fractures

Question 51

How are intracapsular fractures defined in relation to the hip joint?

Answer 51

They occur in the region of the femoral head and neck within the joint capsule of the hip

Question 52

Where do extracapsular fractures occur within the femur?

Answer 52

They occur outside the fibrous joint capsule, in the intertrochanteric or subtrochanteric area of the femur

Question 53

Why are hip fractures more common in the elderly population?

Answer 53

Due to associated conditions such as osteoporosis, Vitamin D, and calcium deficiency

Question 54

What is the typical presentation of a hip fracture patient after a fall?

Answer 54

An acutely shortened, externally rotated leg compared to the contralateral side

Question 55

What are some clinical features indicating a hip fracture?

Answer 55

Hip or back pain, joint deformity, and the inability to bear weight

Question 56

Which type of fracture is more at risk of avascular necrosis and displacement of the femoral head?

Answer 56

Intracapsular fractures

Question 57

Why are intracapsular fractures more prone to avascular necrosis?

Answer 57

Disruption of the retinacular arteries branching from the medial circumflex femoral arteries, affecting blood supply to the femoral head

Question 58

Why are extracapsular femoral neck fractures less likely to undergo avascular necrosis?

Answer 58

The retinacular arteries are not disrupted, maintaining their blood supply function

Question 59

What imaging techniques are primarily used to confirm the diagnosis of a hip fracture?

Answer 59

Anterior-posterior and lateral hip x-rays

Question 60

What might be done if x-rays are inconclusive despite strong clinical suspicion of a hip fracture?

Answer 60

A CT scan

Question 61

How can intracapsular fractures be identified on imaging, particularly regarding Shenton’s line?

Answer 61

Identified by a loss of Shenton’s line, a line drawn from the inferior border of the superior pubic rami along the inferomedial border of the femoral neck

Question 62

What are key visual indicators of an intracapsular hip fracture?

Answer 62

Prominent lesser trochanter, external rotation, shortening, or angulation of the femoral neck

Question 63

Where do extracapsular fractures typically occur?

Answer 63

Intertrochanteric fractures between the greater and lesser trochanter or subtrochanteric fractures distal to the trochanters in the subtrochanteric region

Question 64

What are the surgical options for managing hip fractures?

Answer 64

Open reduction and internal fixation (ORIF) or arthroplasty

Question 65

What is open reduction and internal fixation (ORIF)?

Answer 65

A type of open surgery where the fractured bone is reconstructed using screws, plates, intramedullary rods, or a combination

Question 66

What does arthroplasty involve in the context of hip fractures?

Answer 66

Partial or total replacement of the femoral and acetabular components of the hip joint

Question 67

What potential complications might arise due to a hip fracture?

Answer 67

Sciatic nerve damage, chronic pain, nonunion, future arthritic changes, and dislocation

Question 68

What symptoms might occur if the sciatic nerve is damaged due to a hip fracture?

Answer 68

Paraesthesia in the sciatic nerve’s dermatomal distribution, and weakness in knee flexion, ankle dorsiflexion, and ankle plantar flexion

Question 69

What traumatic events commonly cause hip dislocations?

Answer 69

Motor vehicle collisions, especially head-on collisions

Question 70

Which type of hip dislocation is most frequent, and what percentage of dislocations do they account for?

Answer 70

Posterior dislocations, amounting to approximately 90%

Question 71

What is a common example of a high-velocity car accident causing a posterior dislocation?

Answer 71

Dashboard injury, which leads to hip forced into flexion, adduction, and internal rotation

Question 72

How does hyper-abduction with extension cause anterior dislocation, and in what scenario might this occur?

Answer 72

Motorcycle crashes, where the legs are hyper-abducted while riding

Question 73

Who is at an increased risk of hip dislocations, particularly posterior ones?

Answer 73

Individuals with hip replacements

Question 74

What are the common symptoms experienced by individuals suffering from a hip dislocation?

Answer 74

Audible “pop” or “clunk,” pain, and inability to bear weight

Question 75

What are the typical findings on examination for a posterior dislocation?

Answer 75

Shortening and internal rotation of the affected limb

Question 76

How is a diagnosis of hip dislocation confirmed?

Answer 76

X-ray

Question 77

What complications can result from hip dislocations, especially posterior ones?

Answer 77

Sciatic nerve damage, labral tears, and associated hip fractures

Question 78

What repetitive actions can lead to trochanteric bursitis?

Answer 78

Repetitive actions such as climbing stairs

Question 79

What causes the inflammation in trochanteric bursitis?

Answer 79

Tendons from the gluteus medius and minimus compressing the trochanteric bursa against the greater trochanter

Question 80

How is trochanteric bursitis diagnosed based on clinical symptoms?

Answer 80

Chronic pain in the lateral thigh and point tenderness over the greater trochanter

Question 81

How can pain be elicited to diagnose trochanteric bursitis?

Answer 81

Manually resisting abduction of the thigh while the person is lying on the unaffected side

Question 82

Where can the femoral artery be located in the femoral triangle, and how is it identified?

Answer 82

It can be palpated distal to the inguinal ligament at the mid inguinal point, which is halfway between the pubic symphysis and anterior superior iliac spine

Question 83

What information can assessing the femoral pulse provide in a clinical context?

Answer 83

It can offer insights into blood flow to the limb, especially in cases of peripheral artery disease, and it’s a significant location for catheterization in therapeutic and diagnostic procedures

Question 84

Why is the femoral artery important in cardiac catheterization procedures?

Answer 84

It can be used for cardiac catheterization for both diagnostic angiography and therapies such as stent placement

Question 85

What is retroperitoneal hemorrhage, and what can cause it during catheterization?

Answer 85

It occurs when blood tracks into the retroperitoneal space due to puncturing the posterior wall of the common femoral artery, and if arterial puncture is done above the inguinal ligament

Question 86

Why is retroperitoneal hemorrhage potentially life-threatening, and what are its clinical signs?

Answer 86

External compression can’t be applied in the retroperitoneal space, potentially leading to fatal bleeding; clinical signs include hemodynamic instability, flank pain, and a significant drop in hemoglobin

Question 87

In what situations is the femoral artery prone to injury?

Answer 87

Proximal femur fractures, hip surgery, and traumatic events where it can be lacerated due to its superficial position within the femoral triangle

Question 88

What causes varicose veins and what complications can arise due to venous insufficiency?

Answer 88

Varicose veins develop due to venous insufficiency, leading to pooling of blood in the leg veins, causing complications such as painful thrombosis, edema, and cosmetic issues

Question 89

How is the Trendelenburg test or tourniquet test utilized in diagnosing venous insufficiency?

Answer 89

It involves raising the affected leg above the head, manually draining the leg’s veins, applying a tourniquet at the saphenous opening, and observing for the reappearance of varicose veins upon standing

Question 90

What does the reappearance of varicose veins upon standing after the tourniquet is placed at the saphenous opening indicate?

Answer 90

The problem is distal to the level of the tourniquet, as the veins are filling again, signifying an incompetent valve lower down

Question 91

What is a saphena varix, and what are its clinical characteristics?

Answer 91

It is a dilation of the saphenous vein at its junction with the femoral vein in the groin, clinically presenting as a groin swelling that enlarges with increased intraabdominal pressure

Question 92

How is a saphena varix differentiated from a femoral hernia?

Answer 92

While both become apparent when the patient coughs, a saphena varix typically has a bluish tinge and disappears when the patient is lying down

Question 93

What are the main venous graft sites used in coronary bypass surgery for coronary artery disease?

Answer 93

The great and small saphenous veins

Question 94

Why is the great saphenous vein often the preferred choice for grafting in coronary bypass surgery?

Answer 94

It’s superficial, easy to access, long enough for grafting, and has a muscular and elastic fiber-rich wall

Question 95

What is a potential complication during great saphenous vein harvesting in surgeries, and what are its associated symptoms?

Answer 95

Saphenous nerve injury, causing pain or numbness along the medial border of the lower leg and foot

Question 96

What are the clinical findings associated with saphena varix?

Answer 96

Groin swelling, often the size of a golf ball, coloration with a bluish tinge, and disappearance of swelling when the individual is lying down

Question 97

Why is the lower limb a preferred site for intramuscular injections?

Answer 97

Due to its large muscles with numerous blood vessels, which facilitates faster absorption of medication compared to subcutaneous injections

Question 98

Which is one of the most popular intramuscular injection sites in the lower limb, and why?

Answer 98

The superolateral quadrant of the gluteal region; it’s used for large volume and more viscous injections

Question 99

How can the superolateral quadrant of the buttock be marked for an injection?

Answer 99

By placing the index finger on the anterior superior iliac spine and spreading the fingers along the iliac crest, ensuring the injection is given in the triangle between the fingers, anterior to the proximal joint of the middle finger to avoid injuring the sciatic nerve

Question 100

Why should the superomedial quadrant of the buttock be avoided for injections?

Answer 100

It poses a risk of injuring the sciatic nerve and major blood vessels

Question 101

What consequences can result from injury to the superior gluteal nerve in the superomedial quadrant?

Answer 101

Presentation of a Trendelenburg gait due to impaired function of muscles like the gluteus medius, gluteus minimus, and tensor fascia latae, affecting pelvis stabilization and thigh abduction

Question 102

What is Trendelenburg gait, and how is it characterized?

Answer 102

Trendelenburg gait is characterized by tilting of the pelvis towards the unaffected side when the patient stands on the affected leg, indicating a positive Trendelenburg sign. The patient leans towards the side of the affected superior gluteal nerve to compensate and maintain balance.

Question 103

What are some common causes of Trendelenburg gait?

Answer 103

Gluteus medius and gluteus minimus weakness due to conditions like osteonecrosis of the hip, Legg-Calve-Perthes disease, developmental dysplasia of the hip, nonunion of femoral neck fractures, and hip surgery can result in a Trendelenburg gait.

Question 104

What is piriformis syndrome, and how does it develop?

Answer 104

Piriformis syndrome refers to piriformis muscle injury or hypertrophy leading to sciatica-like symptoms. The sciatic nerve runs under the piriformis muscle and can become compressed. It develops following trauma to the buttocks, piriformis muscle strain, and scarring around the nerve.

Question 105

What is the “wallet sign” associated with piriformis syndrome?

Answer 105

The “wallet sign” occurs when an individual can no longer sit on their wallet without it causing symptoms, indicating piriformis syndrome.

Question 106

What are the common causes of hamstring strains?

Answer 106

Hamstring strains typically occur due to overuse and can be seen in active individuals, particularly professional athletes. Inadequate warm-up before activity, muscle fatigue, and trauma are also contributing factors.

Question 107

What movements or actions can lead to a hamstring strain?

Answer 107

Hamstring strains occur when there is forced flexion of the hip while the hip and knee are extended, for instance, during activities such as kicking a football.

Question 108

What are the consequences and severity of hamstring strains?

Answer 108

Mild strains may cause pain, swelling, and minimal functional loss. Severe strains, including complete tears, can result in significant pain, loss of knee flexion, and even lead to large muscle hematomas. In severe cases, they can cause an avulsion fracture of the ischial tuberosity.

Question 109

How do quadriceps tendon tears typically occur?

Answer 109

Quadriceps tendon tears can occur during a sudden, forceful contraction of the quadriceps muscle, especially during activities involving deceleration from a fall or athletic activities.

Question 110

How are quadriceps tendon injuries classified?

Answer 110

Quadriceps tendon injuries can be classified in relation to the patella as either proximal or distal to the patella. Proximal injuries occur at the quadriceps tendon, causing a palpable defect above the patella, potentially pulling it down. Distal injuries occur within the patellar ligament, causing a palpable defect below the patella and potentially pulling it upwards.

Question 111

What are the clinical findings associated with quadriceps tendon tears?

Answer 111

Clinical findings include pain, inability to bear weight, loss of knee extension, rapid knee effusion, and a loud “pop” sound at the time of injury. Risk factors include anabolic steroid abuse, hypoparathyroidism, and chronic kidney disease.