Clinical Station - New Patient

Question 1

What are the risk factors for NOF fracture (structure this!)

Answer 1

• Osteoporosis
• Metabolic = Osteomalacia, Paget’s
• Malignant = metastatic deposits, primary cancer
• Infective = osteomyelitis

Question 2

How would you approach NOF fracture assessment

Answer 2

1. ATLS principles with A-E approach
2. Treat any life threatening issues and resuscitate with Crystalloid
3. Take an AMPLES history before starting appropriate analgesia
4. Once stable, take a focused history to include cause of fall and mobility and calculate AMTS
5. Perform a focused examination of the limb ensuring documentation of the NV status
6. Bed side tests - urine dip, ECG, MRSA swabs
7. Haematological tests - FBC, U&E, Bone Profile, LFT, G+S
8. Imaging - AP and lateral of hip, CXR, ?full length femur
9. Consider further investigations e.g. echo
10. Inform senior of patient
11. Commence additional treatments as per local protocol such as VTE prophylaxis and MRSA decolonisation
12. Mark and consent patient for theatre and keep NBM
13. Discuss at next trauma meeting to be listed and arrange OG review
14. Update NOK

Question 3

Outline Garden Classification

Answer 3

1. Stable fracture with Valgus impaction
2. Non-displaced, complete fracture
3. Displaced fracture with maintained end-to-end contact
4. Completely displaced fracture

Question 4

Who should be offered THR according to NICE following NOF fracture

Answer 4

Displaced intracapsular hip fracture who:

• Able to walk independently out of doors with no more than 1 stick
• Are not cognitively impaired
• Are medically fit for anaesthesia

Question 5

How would NOF fracture be managed in a younger patient

Answer 5

• ORIF (attempt to preserve native femoral head)

- High risk of AVN so follow up closely and consent appropriately

Question 6

Hip fracture complications (structure this)

Answer 6

• Bone healing = non-union, malunion, osteonecrosis
• Biomechanical = dislocation
• Social = loss of independence

Question 7

Supracondylar fracture associated injuries

Answer 7

• Neurological = AIN neuropraxia
• Vascular = Brachial artery spasm/injury
• Bony = Ipsilateral distal radius fracture

Question 8

How can you detect supracondylar fractures on XR

Answer 8

• Soft tissue signs = posterior fat pad, anterior sail

- Bony measurements = displacement of anterior humeral line, alteration of Baumann angle

Question 9

How are supracondylar fractures classified

Answer 9

Gartland Classification:

1. Non-displaced
2. Displaced in 1 plane with posterior periosteal hinge
3. Complete displacement

Question 10

How are supracondylar fractures treated

Answer 10

T1 - cast immobilisation for 3-4 weeks
T2 - CRPP
T3 - CRPP or ORIF

Question 11

How would you approach assessing a patient with suspected supracondylar fracture

Answer 11

1. ATLS principles with A to E approach
2. Ensure legal guardian is present
3. AMPLES history
4. Examine limb paying close attention to soft tissues and NV status
5. Analgesia
6. Splint in 30-40 degrees of flexion
7. NBM
8. Consent form 2

Question 12

Supracondylar fracture complications (structure this)

Answer 12

• Hardware = pin migration, infection
• Bony = cubitus varus/valgus
• Vascular = brachial artery injury, Volkmann ischaemic contracture
• Neurological = AIN palsy
• Soft tissue = stiffness

Question 13

Differential diagnosis for painless haematuria (structure this)

Answer 13

• Bladder = cancer, cystitis
• Renal = RCC, renal stones
• Ureter = ureteric stones

Question 14

Investigations for painless haematuria (structure this)

Answer 14

• Bedside = observations, urine dip, urine MC&S, ECG
• Haematological = FBC, U&E, LFT, Bone profile, Coag, G+S
• Imaging = US KUB, CT KUB , IV Urogram
• Invasive = cystoscopy (Gold standard for bladder cancer)

Question 15

NICE Guidelines for haematuria

Answer 15

• Patients over 50 with microscopic haematuria

- Any patient with macroscopic haematuria

Question 16

Outline the treatment for bladder cancer

Answer 16

• Superficial = TURBT, intravesical chemotherapy
• Invasive = radical cystectomy, radical radiotherapy
• Metastatic = platinum-based chemotherapy

Question 17

Grade 1 Shock

Answer 17

• 15% blood loss (750ml)
• Mild tachycardia <100
• Normal BP

Question 18

Grade 2 Shock

Answer 18

• 30% blood loss (1.5L)
• Tachycardia 100-120
• BP normal
• RR >20

Question 19

Grade 3 Shock

Answer 19

• 40% blood loss (2L)
• Tachycardia 120-140
• Hypotension

Question 20

Grade 4 Shock

Answer 20

• > 40% blood loss
• Tachycardia >140
• Marked hypotension
• Confusion

Question 21

Loin pain differential diagnosis

Answer 21

• AAA
• Pyelonephritis
• Renal colic
• Diverticulitis

Question 22

How would you assess a patient with loin pain

Answer 22

1. ATLS principles with an A to E approach
2. Full history focusing on urinary symptoms, infective symptoms, AAA
3. Focused abdominal examination feeling or expansile or other masses, renal angle tenderness
4. Basic bedside tests including urine dip, ECG
5. Insertion of IV cannula and take bloods including cross-match 10 units
6. FAST scan to ascertain AP diameter of abdominal aorta
7. Alert senior
8. If renal colic then CT KUB, If AAA then CT angiogram

Question 23

Define an aneurysm

Answer 23

Pathological dilatation of an artery >1.5x its normal diameter

Question 24

Define true aneurysm

Answer 24

Dilatation involving all layers of the vessel wall

Question 25

Define false aneurysm

Answer 25

Defect in the vessel wall with blood outside the lumen but contained within fibrous capsule

Question 26

When is elective AAA repair indicated

Answer 26

AA diameter >5.5cm

Question 27

What are the causes of aneurysms

Answer 27

1. Degenerative
2. Inflammatory
3. Congenital
4. Mycotic
5. Infective

Question 28

What are the risk factors for AAA (structure this)

Answer 28

Modifiable:
- HTN
- Smoking 
- Hyperlipidaemia 
Non-Modifiable:
- Age
- Male sex

Question 29

Outline the management options for ruptured AAA (structure this)

Answer 29

• Conservative = palliation

- Surgical = open or endovascular

Question 30

Most common site of AAA

Answer 30

Infrarenal abdominal aorta

Question 31

Most common site of AAA rupture and consequence

Answer 31

Posterior wall causing retroperitoneal haemorrhage

Question 32

6 Ps of critical limb ischaemia

Answer 32

• Pain
• Pulseless
• Perishing cold
• Pallor
• Paraesthesia
• Paralysis

Question 33

Outline the principles of management in acute limb ischaemia

Answer 33

1. Resuscitation
2. Escalation to a vascular centre
3. Immediate anticoagulation with 5000 units IV heparin
4. Analgesia
5. Restore arterial continuity
6. Identify and correct underlying source of embolus

Question 34

How does a limb with <6 hours of ischaemic time appear

Answer 34

White

Question 35

How does a limb with 6-12 hours ischaemic time appear

Answer 35

Mottled with blanching on pressure

Question 36

How does a limb with >12 hours ischaemic time appear

Answer 36

Fixed mottling

Question 37

Outline the management for critical limb ischaemia (structure this)

Answer 37

• Conservative = palliation with medication to optimise comfort
• Medical = heparin infusion, typically on a vascular ware
• Surgical = embolectomy or amputation

Question 38

Outline the components of a vascular examination

Answer 38

• Look = signs of PVD e.g. eczema, ulcers, gangrene
• Feel = temperature, capillary refill time, peripheral pulses, aorta, sensation and power
• Listen = bruits over major arteries
• Additional = cardiovascular examination

Question 39

Buergers angle for critical ischaemia

Answer 39

25 degrees

Question 40

When should fasciotomy be considered in reperfusion surgery

Answer 40

If ischaemic time >6 hours

Question 41

Outline the structure of the skin

Answer 41

• Epidermis - superficial part consisting of 5 layers

- Dermis - split into reticular and papillary layer

Question 42

What type of collagen is found in skin

Answer 42

Mostly Type 1 in a ratio of 4:1 with Type 3

Question 43

How are burns classified

Answer 43

1. Superficial/Epidermal
2. Superficial partial thickness
3. Deep partial thickness
4. Full thickness

Question 44

Define a partial thickness burn

Answer 44

Burn leaves part of the germinal epithelium in tact (dermis) so complete healing can take place

Question 45

Define a full thickness burn

Answer 45

Destroys the germinal layer (dermis) and therefore can only heal by scarring

Question 46

How does a superficial burn appear

Answer 46

Red, moist, blanching (no blistering)

Question 47

How does a superficial partial thickness burn appear

Answer 47

Moist, blistered, pink, blanching

Question 48

How does a deep partial thickness burn appear

Answer 48

dry, mottled, red, non-blanching

Question 49

How does a full thickness burn appear

Answer 49

dry, leather, hard, non-blanching, painless

Question 50

Outline the rule of 9s

Answer 50

• Front trunk = 18%
• Back trunk = 18%
• Upper limb = 9%
• Lower limb front = 9%
• Lower limb back = 9%
• Head and neck = 9%
• Perineum = 1%

Question 51

How can TBSA be estimated

Answer 51

• Rule of 9s

- Palm surface area

Question 52

When is IV fluid resuscitation required in burns

Answer 52

• Adult = TBSA >15%

- Child = TBSA >10%

Question 53

How is IV fluid resuscitation calculated in burns patients s

Answer 53

Parkland Formula = 2 x weight (KG) x TBSA

Question 54

List the criteria for Burns Unit transfer

Answer 54

• Need burn fluid resuscitation
• Face/feet/hands/genitals
• Deep partial thickness or full thickness burns
• Significant electrical/chemical burns
• Inhalation injury
• Co-morbidities that could affect recovery
• Burns and concomitant trauma
• Burnt children
• Special social requirements

Question 55

Outline the surgical interventions required in burns

Answer 55

• Full thickness = split thickness graft

- Circumferential = escharotomy

Question 56

How would you manage a burns patient?

Answer 56

1. Stop the burning process
2. Establish airway control
3. Ensure adequate ventilation
4. Manage circulation with burn shock protocol
5. AMPLES history
6. Blood work inc carboxyhaemoglobin
7. CXR if suspected inhalation injury
8. Assess for signs of compartment syndrome
9. Analgesia and sedation
10. Tetanus prophylaxis

Question 57

When is tracheal intubation required in a burns patient?

Answer 57

• Signs of airway obstruction
• TBSA >40%
• Extensive facial burns
• Burns in mouth
• Difficulty swallowing
• Respiratory compromise
• Decreased GCS
• Carboxyhaemoglobin >10%

Question 58

List three types of skin graft

Answer 58

1. Full thickness = consists of epidermis and whole depth of dermis. Donor site requires closure.
2. Split thickness = includes epidermis and part of the dermis. Donor site heals by re-epithelialisation.
3. Composite graft = contains skin, cartilage, or other tissue

Question 59

Swollen testicle differential diagnosis (structure this)

Answer 59

• Testicular = malignancy, hydrocele, spermatocele, epididymitis, torsion
• Abdominal = hernia
• Vascular = varicocele

Question 60

Most likely causes of epistaxis (structure this)

Answer 60

• Local = digital trauma causing bleeding from Little’s area
• Systemic = anticoagulation, bone marrow failure, thrombocytopenia, liver failure

Question 61

How would you manage a patient with epistaxis

Answer 61

1. My priority would be to arrest the haemorrhage
2. I would assess the patients in an ATLS fashion using an A to E approach
3. This would involve assessment of his pulse, BP, CR, respiratory rate and an estimation of blood loss
4. I would secure IV access and take bloods for FBC, clotting, crossmatch
5. I would commence resuscitation fluids as appropriate
6. I would ask a member of the nursing staff to apply pressure to the cartilaginous part of the nose with the patient leant forward
7. I would contact my senior and the ENT registrar on call
8. If simple measures failed to arrest the bleeding I would want to insert a nasal pack
9. If a single bleeding point was identified this could be chemically cauterised with silver nitrate
10. It is likely ENT would perform rhinoscopy

Question 62

Patient with epistaxis has a raised INR, what would you do?

Answer 62

1. I would consider the reason why the patient requires Warfarin and discuss reversal with my registrar or haematology
2. I would stop the Warfarin and give oral or IV Vitamin K as per NICE guidelines

Question 63

List the risk factors for renal stone formation

Answer 63

• High protein intake
• Family history
• Warm climate
• Dehydration
• Previous stones

Question 64

Where are stones likely to impact in the renal tract

Answer 64

1. PUJ
2. SIJ
3. VUJ

Question 65

Differential diagnosis for ureteric colic

Answer 65

• AAA
• Appendicitis
• Diverticulitis
• Ectopic pregnancy
• Salpingitis
• Ovarian torsion
• Biliary colic
• Pyelonephritis
• PUJ obstruction

Question 66

What is the Gold Standard investigation for renal stone disease

Answer 66

CT-KUB (IV Urogram)

Question 67

Outline the acute management of ureteric colic

Answer 67

1. Supportive - rectal diclofenac, antiemetics, rehydration, alpha blockers
2. Drainage - if septic will require nephrostomy or retrograde ureteric stent

Question 68

Outline the surgical management of ureteric stones in a non-septic patient

Answer 68

1. ESWL - for stones <2cm

2. Ureteroscopy and stone destruction

Question 69

Outline the surgical management of renal stones in a non-septic patient

Answer 69

1. ESWL
2. PCNL
3. Flexible ureterorenoscopy and laser lithotripsy
4. Open surgery

Question 70

Describe the structure of the prostate

Answer 70

1. Transitional zone - surrounds the urethra proximal to the ejaculatory ducts (where BPH occurs)
2. Central zone - surounds ejaculatory ducts
3. Peripheral zone - where cancer arises
4. Anterior fibromuscular stroma

Question 71

What are the most common causes of urinary tract obstruction? (structure this)

Answer 71

• Upper tract = stones, malignancy, PUJ obstruction
• Lower tract = BPH, prostate cancer, urethral stricture
• Neurological = MS, diabetes

Question 72

How does BPH typically present

Answer 72

Voiding LUTS - hesitancy, poor stream, straining, terminal dribbling

Question 73

How can the symptoms of prostate disease be graded

Answer 73

International Prostate Symptom Score

Question 74

How would you investigate a patient with suspected BPH

Answer 74

1. Urinalysis
2. Post-void bladder scan
3. Renal function
4. PSA
5. Uroflowmetry
6. Formal urodynamic studies

Question 75

Outline the management of BPH (structure this)

Answer 75

• Conservative = lifestyle measures e.g. reduce caffeine, reassurance
• Medical = Adrenergic antagonsists and 5alphja-reductase inhibitors
• Surgical = TURP, retropubic prostatectomy

Question 76

What is TURP syndrome

Answer 76

• Caused by absorption of large volumes of irrigation fluid through the prostatic venous plexus
• Causes hypervolaemia, hyponatraemia, cerebral oedema
• Symptoms include confusion, bradycardia, visual changes, seizures
• Treat with diuretics

Question 77

How would you insert a suprapubic catheter

Answer 77

1. Consent the patient
2. Prepare the lower half of the abdomen with chlorhexadine and inject LA above the pubic symphysis
3. As anaesthetic injected more deeply urine should be aspirated
4. Make a small incision and use a trochar and plastic sheath to introduce a 16Fr catheter

Question 78

What are the contraindications to suprapubic catheterisation

Answer 78

• Previous abdominal surgery
• History of bladder TCC
• Any bleeding tendency

Question 79

Describe the Gleason Score

Answer 79

Grading system used to determine prognosis in patients with prostate cancer:

• 2-4 = low grade
• 5-7 = moderate grade
• 8-10 = high grade

Question 80

Outline the treatment options for Prostate Cancer (structure this)

Answer 80

1. Conservative - active surveillance for low grade disease
2. Medical - hormonal therapy in metastatic disease
3. Radiological - radiotherapy or brachytherapy for localised disease
4. Surgical - radical prostatectomy for localised disease

Question 81

What organisms cause urinary tract infections

Answer 81

• E.coli
• Proteus
• Klebsiella

Question 82

How would you investigate a testicular lump

Answer 82

1. Examination
2. Urine dip
3. USS scrotum
4. CXR to exclude chest mets
5. Renal USS in older men with varicocele

Question 83

What are the two classes of testicular torsion

Answer 83

1. Extravaginal - seen in neonates, incomplete fixation of the gubernaculum to the scrotal wall allows twisting
2. Intravaginal - most common, high investment of the tunica vaginalis allows testis to rotate

Question 84

Signs of testicular torsion

Answer 84

• Acutely painful and tender hemiscrotum
• Pain radiates to groin/loin
• Vomiting
• Testes lie horizontal as opposed to vertical (bell-clapper)
• Loss of cremasteric reflex

Question 85

What causes hydroceles

Answer 85

• Children = patent processus vaginalis (primary hydrocele)

- Adults = primary, infection, tumour, trauma

Question 86

How does a hydrocele present

Answer 86

• Painless scrotal swelling
• Able to palpate the cord above
• Transilluminates

Question 87

Outline the treatment of hydroceles

Answer 87

• Conservative = if not causing discomfort
• Aspiration = carries risk of infection
• Open repair (gold standard) = Lord Repair or Jaboulay repair

Question 88

How is an epididymal cyst differentiated from a hydrocele

Answer 88

The testicle can be palpated separately from a cyst

Question 89

What is a varicocele

Answer 89

Dilatation of the pampiniform plexus that runs within the spermatic cord

Question 90

Describe how testicular cancer presents

Answer 90

• Painless testicular lump
• Described as a heaviness/ache
• Testes feel firm with thickened cord
• Can present with metastatic disease e.g. chest symptoms

Question 91

Outline the management of testicular cancers

Answer 91

1. Orchidectomy via an inguinal approach
2. Follow up depends on type and stage
   - Seminoma confined to testes = surveillance CTs
   - Seminoma with lymph node mets = chemoradiotherapy
   - NSGT confined to testes = close surveillance
   - NSGT with mets = combination chemotherapy

Question 92

What are the important sites of blood loss to consider in trauma

Answer 92

• Obvious external exsanguination
• Thorax
• Abdomen
• Pelvis
• Long bones

Question 93

How would you apply a pelvic binder?

Answer 93

I would internally rotate the patient’s legs at the hips and apply the pelvic binder at the level of the greater trochanters. I would then tighten the binder and secure it in position.

Question 94

What is shock?

Answer 94

A state where the circulatory system is unable to achieve adequate end organ perfusion

Question 95

What are the types of shock (structure this)

Answer 95

1. Cardiogenic shock which is pump failure
2. Distributive shock which includes septic, neurogenic and anaphylactic shock
3. Hypovolaemic shock

Question 96

What are the stages of hypovolaemic shock

Answer 96

Can be remembered as a tennis score (0-15-30-40)

1. <15% loss - mild tachycardia
2. 15-30% loss - pulse pressure narrows
3. 30-40% - hypotension
4. > 40% - profound end organ dysfunction

Question 97

List the causes of haematemesis (structure this)

Answer 97

1. Oesophageal = varices, ulceration, trauma, Mallory-Weiss
2. Stomach = ulcers, cancer, varices
3. Duodenal = ulcers, varices, malignancy, angiodysplasia

Question 98

Why does Hb reading not reflect acute blood loss

Answer 98

In acute blood loss both red cells and plasma are lost in the same ratio. Serum Hb will only fall after redistribution of interstitial fluid into the plasma occurs 8-12 hours later.

Question 99

Approach to acute assessment of UGIB

Answer 99

1. ATLS principles and adopt A-E approach
2. If the patient is alert and communicating airway maintenance can be assumed
3. I would look, feel and listen to the chest and attach a pulse oximeter. I would administer oxygen.
4. I would assess circulation through CR, pulse, and BP assessment. I would listen to the heart. I would look for other sources of obvious blood loss.
5. I would insert 2 large bore cannula and take bloods for FBC, U&E, LFT, Coag, Crossmatch, VBG
6. I would commence a 500ml fluid bolus and assess response
7. I would examine the patients abdomen looking for epigastric tenderness, peritonitis, or masses and perform a PR examination
8. I would take an AMPLES style history
9. I would alert my SpR and ITU
10. If presumed blood loss was >1.5L I would initiate hte major haemorrhage protocol
11. I would commence IV PPI +/- Terlipressin
12. I would contact the on-call scope consultant and keep the patient NBM

Question 100

Outline the definitive treatment for UGIB pathology

Answer 100

1. Varices - endoscopy coagulation or banding, IV vasopressin
2. Ulcer - endoscopic coagulation or injection, local excision, partial gastrectomy
3. Cancer - partial or subtotal gastrectomy

Question 101

How do duodenal ulcers present

Answer 101

• Epigastric pain on fasting
• Pain at night
• Relieved by food and antacids
• Relapsing remitting
• Back pain

Question 102

How do gastric ulcers present

Answer 102

• Pain on eating
• Weight loss
• N+V
• IDA

Question 103

How are ulcers investigated

Answer 103

1. Endoscopy + CLO
2. Double-contrast barium meal
3. H. pylori tests

Question 104

Outline the difference between the surgical management of gastric ulcers Vs. duodenal ulcers

Answer 104

• Gastric = removal of the ulcer and antrum with Bilroth 1 or 2
• Duodenal = reduce acid secretion via vagotomy

Question 105

What is dumping syndrome

Answer 105

Group of cardiovascular and GI symptoms resulting from rapid gastric emptying after truncal vagotomy or gastric resection.

1. Early dumping is due to hypovolaemia
2. Late dumping is due to hypoglycaemia

Question 106

What postoperative complications are associated with ulcer operations (structure this)

Answer 106

• Anastomotic = obstruction, leak, oesophagitis, bleeding, reflux
• Nerve related = diarrhoea, gastric atony, gastric outlet obstruction, gallstones
• Loss of stomach function = dumping, B12 deficiency, IDA, malnutrition
• Gastric remnant cancer
• Pancreatitis

Question 107

Why do you get low calcium in pancreatitis

Answer 107

Fat necrosis results in the release of triglycerides. These combine with calcium in a process called saponification leading to hypocalcaemia.

Question 108

Eponymous signs associated with pancreatitis

Answer 108

• Grey-Turners sign = bruising on the flanks caused by retroperitoneal haemorrhage
• Cullen’s sign = peri-umbilical bruising secondary to pancreatic enzyme tracking to the anterior abdominal wall with subsequent tissue digestion

Question 109

Common causes of epigastric pain

Answer 109

• Pancreatitis
• Gastritis
• Peptic ulcer
• MI

Question 110

Common causes of umbilical pain

Answer 110

• SBO
• Intestinal ischaemia
• Aortic aneurysm
  Gastroenteritis
• Crohn’s

Question 111

What are the causes of acute bowel ischaemia

Answer 111

• Acute embolic or thrombotic occlusions of the SMA
• Non-occlusive mesenteric ischaemia due to low CO
• Mesenteric vein thrombosis

Question 112

Difference between embolic and thrombotic SMA occlusion

Answer 112

Embolic occlusion (from MI or AF) spare the jejunum as they lodge at the branch of the middle colic artery

Question 113

Gold standard investigation for mesenteric ischaemia

Answer 113

Mesenteric angiography

Question 114

Outline the management of mesenteric ischaemia

Answer 114

1. Resuscitate
2. Restore blood flow:
   - SMA embolus = arteriotomy and embolectomy
   - Thrombus = aortmesenteric bypass
3. Resect necrotic bowel
4. Assess viability of dubious bowel

Question 115

Scoring systems for pancreatitis

Answer 115

• Glasgow

- Ranson

Question 116

Outline the Glasgow score

Answer 116

• PaO2 <8
• Age >55
• Neutrophils >15
• Calcium <2
• Renal (urea >16
• Enzymes (AST >200, LDH >600)
• Albumin <32
• Sugar (glucose >10)

Question 117

Define a mechanical bowel obstruction

Answer 117

Physical blockage inhibiting the transit of bowel contents

Question 118

Define a closed loop obstruction

Answer 118

Colonic obstruction with a competent ileocaecal valve that prevents air escaping proximally into the small bowel, accelerating large bowel distension

Question 119

Outline the management of pseudo-obstruction

Answer 119

1. Rule out mechanical obstruction
2. Correct electrolytes and nutrition
3. Rigid sigmoidoscope and flatus tube
4. Prokinetics such as Erythromycin and Neostigmine

Question 120

Common causes of SBO

Answer 120

1. Adhesions
2. Hernias
3. Intra-abdominal neoplasia

Question 121

Common causes of LBO

Answer 121

1. Tumour
2. Diverticular stricture
3. Volvulus

Question 122

Describe expected bowel sounds in obstruction Vs. ischaemia

Answer 122

• Obstruction = high pitched and tinkling

- Ischaemia = absent

Question 123

What is Laplace Law

Answer 123

As pressure rises, tension in the wall is maximal at the point where the diameter of the tube is greatest

Question 124

Describe how you would manage SBO?

Answer 124

1. Unless there is evidence of strangulation, perforation or closed-loop obstruction then you can initially manage non-operatively
2. This involves analgesia, antiemetics, and symptoms control
3. An NG tube would be used to decompress the stomach and IV fluids administered to replace losses
4. The patient should be kept NBM
5. I would discuss the patient with my seniors and also explain the diagnosis to the patient

Question 125

What factors suggest strangulation in SBO

Answer 125

• Tachycardia
• Fever
• Tenderness and peritonism
• Leucocytosis
• High risk hernias/unscarred abdomen

Question 126

Define cholecystitis

Answer 126

Cholecystitis occurs when a gallstone becomes impacted in Hartmann’s pouch, blocking the exit of the GB

Question 127

How would you assess a patient with suspected cholecystitis?

Answer 127

1. I would assess the patient according to ALS principles using an A to E approach and treat any life threatening issues as they arose
2. I would check the patients allergy status and given analgesia
3. Assuming the patient is stable I would take a focussed history taking note of nature of pain, eliciting features, PMH, alcohol intake
4. I would then perform a focused examination of the abdomen, looking for signs of jaundice and CBD obstruction
5. I would take some initial blood tests including FBC, U&E, LFT, Amylase, Clotting, Crossmatch and a VBG
6. I would then arrange imaging including an USS abdomen and erect CXR
7. If there were signs of infection or pancreatitis I would start antibiotics according to local guidelines
8. I would score the patient to gauge severity
9. I would make the patient NBM, start IV fluids and commence a fluid balance chart
10. I would alert my senior registrar and ITU if required

Question 128

What are the complications of cholecystitis?

Answer 128

• GB Empyema or abscess
• Perforation with biliary peritonitis
• Gallstone ileus
• Mirizzi syndrome
• Chronic cholecystitis

Question 129

Differential diagnosis for diffuse goitre

Answer 129

• Physiological
• Iodine Deficiency
• Treated Graves disease

Question 130

Differential diagnosis for solitary thyroid nodule

Answer 130

• Adenoma (80%)
• Papillary Ca
• Follicular Ca
• Medullary Ca
• Cyst
• Fibrosis
• Thyroiditis

Question 131

Differential diagnosis for parathyroid mass

Answer 131

• Adenoma
• Hyperplasia
• Carcinoma

Question 132

How would you examine a neck lump?

Answer 132

• Size, shape, sounds, skin
• Tenderness, temperature, tethering, transillumability
• Colour, contour, compressibility, consistency
• Provocative movements - tongue protrusion, swallowing
• Systemic features of thyroid disease

Question 133

How would you investigate a neck lump

Answer 133

1. Bedside observations
2. Blood tests - TFT, PTH, Bone profile, Calcitonin
3. Antibody screen - TBG, TPO, TSH-receptor
4. Triple Assessment - Exam, USS, FNAC

Question 134

Management of papillary carcinoma

Answer 134

1. Total thyroidectomy with neck dissection
2. T4 for TSH suppression
3. Annual thyroglobulin

Question 135

Management of thyroid adenoma

Answer 135

Thyroid lobectomy for confirmation of diagnosis

Question 136

Management of acute thyroiditis

Answer 136

Antibiotics and analgesia

Question 137

Management of De Quervains thyroiditis

Answer 137

Aspirin and Prednisolone

Question 138

How do you manage an expanding neck haematoma following thyroidectomy

Answer 138

1. Release the skin sutures
2. Evacuate the subcutaneous haematoma
3. If there is swelling beneath the strap muscles then divide the vicryl sutures and evacuate the haematoma from this layer
4. Urgent senior support

Question 139

Complications of thyroidectomy

Answer 139

• Bleeding
• Nerve damage - ELN, RLN
• Thyroid crisis
• Hypothyroidism
• Hypocalcaemia
• Stridor
• Laryngeal oedema
• Aspiration of vomit
• Tracheomalacia
• Pain
• Dysphagia
• Keloid/hypertrophic scars

Question 140

Most common abdominal organs injured in blunt trauma

Answer 140

• Spleen
• Liver
• Small bowel

Question 141

What is a contraindication to FAST and DPL studies in the trauma patient

Answer 141

Already identified indication for laparotomy

Question 142

Where does the FAST scan examine?

Answer 142

• Pericardial sac
• Hepatorenal fossa
• Splenorenal fossa
• Pelvis (Pouch of Douglas)

Question 143

What are the signs of splenic trauma

Answer 143

• Haemorrhage

- Kehr’s sign - shoulder tip pain

Question 144

How is splenic trauma classified?

Answer 144

1. Capsular tear
2. Tear and parenchymal injury
3. Tear up to the hilum
4. Complete fracture

Question 145

How is splenic trauma managed?

Answer 145

• Haemodynamic instability = laparotomy and splenectomy
• Stable 1-3= HDU observation
• Stable 4 = consider laparotomy

Question 146

What long-term prophylaxis is required in splenectomy patients

Answer 146

• Pneumovax
• Hib vaccin
• Meningovax
• Penicillin

Question 147

How is liver trauma graded?

Answer 147

1 = small laceration or subcapsular haematoma 
6 = avulsion incompatible with survival

Question 148

How is pancreatic trauma typically sustained?

Answer 148

Blunt trauma arising from compression of the pancreas against the spinal column

Question 149

How is pancreatic trauma graded?

Answer 149

• Major = proximal gland damage with gland disruption
• Intermediate = distal gland damage with duct disruption
• Minor = contusion or laceration without duct injury

Question 150

Who is renal trauma more likely to occur in and why?

Answer 150

Children - kidneys are relatively larger

Question 151

How is renal trauma classified?

Answer 151

1 = contusion, subcapsular haematoma 
2 = minor laceration of the cortex 
3 = major laceration extending through the cortex and medulla 
4 = major laceration involving the collecting system 
5 = completely shattered kidney or renal pedicle avulsion

Question 152

What are the criteria for renal imaging?

Answer 152

• Any penetrating trauma to flank or abdomen with haematuria
• Blunt trauma with haematuria
• Blunt trauma with microscopic haematuria and SBP <90
• Deceleration injury
• Associated major intra-abdominal injury and microscopic haematuria
• Any child with a degree of haematuria

Question 153

How is renal trauma managed?

Answer 153

• 98% blunt trauma is managed conservatively with USS monitoring
• Indications for renal exploration include:
  a) Persistent hypotension
  b) Expanding haematoma
  c) Disruption of the renal pelvis with leakage of urine

Question 154

What are the signs of bladder trauma?

Answer 154

• Macroscopic haematuria
• Lower abdominal pain and oliguria/anuria
• Urinary peritonitis
• Blood urea rises with extravasation of urine

Question 155

How is bladder trauma investigated?

Answer 155

Retrograde cystography

Question 156

What should you do if you suspect urethral trauma?

Answer 156

Perform retrograde urethrogram

Question 157

List the indications for laparotomy in abdominal trauma

Answer 157

• Blunt abdominal trauma with hypotension and positive FAST
• Hypotension with abdominal wound that penetrates the anterior fascia
• Gunshot wounds that traverse the peritoneal cavity
• Bleeding from the stomach, rectum, or GU tract following penetrating trauma
• Evisceration
• Peritonitis
• Free air
• CT scan demonstrating rupture, bladder injury, renal pedicle injury
• Aspiration of stomach contents or >10cc blood on DPL

Question 158

How can a child’s size and weight be quickly assessed during trauma

Answer 158

Broselow paediatric emergency tape

Question 159

What is the most common cause of cardiac arrest in children

Answer 159

Hypoxia secondary to airway obstruction

Question 160

Outline the issues of child airway management related to anatomy

Answer 160

1. Large occipitut means c-spine is naturally flexed when supine
2. Tongue and tonsils are relatively large
3. Funnel shaped larynx pools secretions
4. Short trachea
5. Vocal cords are difficult to visualise

Question 161

Difference on oropharyngeal airway insertion for children

Answer 161

Do NOT insert upside down due to risk of damage to soft tissue structures

Question 162

Preferred definitive airway in children

Answer 162

Orotracheal intubation using uncuffed ET tube

Question 163

Risks of bag-valve-mask in ventilating children

Answer 163

Barotrauma

Question 164

How much blood needs to be lost for a child to become hypotensive?

Answer 164

45%

Question 165

Equation for estimating weight in children

Answer 165

(2 x age in years) + 10

Question 166

Fluid bolus volume in children

Answer 166

20ml/KG

Question 167

What is the most common immediately life threatening chest injury in children?

Answer 167

Tension pneumothorax

Question 168

What factors raise suspicion of NAI?

Answer 168

• Discrepancy between history and injury
• Delayed presentation
• Repeated trauma
• Incoherent history between parents
• History of “doctor shopping”
• Inappropriate response to medical advice
• MOI implausible based on the child’s development stage

Question 169

Define primary and secondary head injury

Answer 169

• Primary = occurs at the time of injury and directly damages the brain tissue
• Secondary = occurs after primary injury and is caused by hypoxia, hypercapnia, hypotension, raised ICP, infection

Question 170

What causes extradural haematoma?

Answer 170

• Trauma to the temporal or parietal bones

- Rupture of the middle meningeal artery

Question 171

How does extradural haematoma present?

Answer 171

• Initial concussion
• Lucid interval
• Rapid decompensation
• Pupillary dilatation

Question 172

Why does pupillary dilatation occur in extradural haematoma?

Answer 172

Herniation of the uncus of the temporal lobe across the tentorial edge compresses the 3rd nerve

Question 173

What causes acute subdural haematoma?

Answer 173

• Severe head trauma

- Rupture of bridging veins

Question 174

Describe the Monroe-Kelly Doctrine

Answer 174

• Explains intracranial compensation for an expanding intracranial mass
• Cranium is a rigid box, therefore the total volume must remain constant if ICP is not to change
• Increase in volume of one constituent results in compensatory fall in another

Question 175

How is cerebral blood flow calculated

Answer 175

MAP - ICP

Question 176

How should raised ICP be managed?

Answer 176

• CTB for diagnosis of cause
• Non-operative = nurse with head up, maintain normal pCO2, ICP bolt, optimise fluid management, mannitol, hyperventilate, thiopental
• Operative = burr holes, craniotomy

Question 177

Outline the criteria for neurosurgery unit consultation

Answer 177

• Skull fracture with abnormal neurology
• Confusion or other neuro disturbance >12 hours
• Coma continuing after resus
• Suspect open basal skull fracture
• Depressed skull fracture
• Deterioration in GCS
• Significant abnormality on imaging

Question 178

What are the indications for immediate CTB in head injury?

Answer 178

• Suspicion of NAI
• Post-traumatic seizure
• GCS <14 (<15 in paeds)
• GCS <15 2 hours post-injury
• Open or depressed fracture
• Basal skull fracture
• Focal neurological deficit
• 5cm laceration in children <1

Question 179

What are the 6 life-threatening chest injuries

Answer 179

• Airway obstruction
• Tension pneumothorax
• Open pneumothorax
• Massive haemothorax
• Intercostal disruption
• Cardiac tamponade

Question 180

Define flail chest

Answer 180

Two rib fractures in the same rib of two consecutive ribs (or when there is costochondral separation of a single rib from the thorax)

Question 181

What are the signs of flail chest

Answer 181

• Paradoxical chest wall movement
• Respiratory distress
• Crepitus of ribs
• Hypoxia
• Hypovolaemia if associated with blood loss

Question 182

How does tension pneumothorax cause shock?

Answer 182

Obstructive shock - increasing pressure within the thoracic cavity causes marked reduction in venous return

Question 183

How is tension pneumothorax treated?

Answer 183

• Immediate needle decompression

- Definitive chest drain insertion

Question 184

Signs of open pneumothorax

Answer 184

• Respiratory distress
• Sucking chest wound
• Reduced air entry and increased percussion note over effected side

Question 185

How is open pneumothorax treated

Answer 185

• Occlude wound with 3-sided dressing
• Insert chest drain at alternative site
• Will likely require surgical closure

Question 186

Define massive haemothorax

Answer 186

> =1500ml of blood drained from one side of the chest cavity on insertion of a chest drain (usually caused by penetrating thoracic injury)

Question 187

When is thoracotomy indicated in massive haemothorax

Answer 187

Immediate blood loss >2000ml or continuing loss of >200ml/hr

Question 188

What are the signs of cardiac tamponade?

Answer 188

• Beck’s triad = raised JVP, muffled heart sounds, low BP
• Kussmaul sign = raised JVP on inspiration
• PEA arrest

Question 189

How can cardiac tamponade be distinguished from tension pneumothorax?

Answer 189

Tamponade will have breath sounds bilaterally

Question 190

How is cardiac tamponade treated?

Answer 190

• Ideally thoracotomy should be performed ASAP by a trained surgeon
• If unavailable, a subxiphoid pericardiocentesis can be used as a last resort

Question 191

Describe the 10-second A-E assessment

Answer 191

Asking the patient their name and what happened:

• Talking = airway maintained
• Speech = breathing not severely compromised
• Description = alert and conscious with good perfusion to the brain

Question 192

What three XRs are used in the primary survey

Answer 192

• XR C-spine
• CXR
• AP Pelvis

Question 193

What is the secondary survey?

Answer 193

A head-to-toe evaluation of the trauma patient including a complete history and physical assessment, including reassessment of the vital signs

Question 194

Outline the AMPLE history

Answer 194

• Allergies
• Medications
• PMH
• Last meal
• Events

Question 195

Outline your approach to the management of an open fracture

Answer 195

Make way immediately to the patient as high energy trauma!

1. ATLS
2. Treat life-threatening issues
3. History and top-to-toe examination
4. Focused limb examination with documentation of neurovascular status (if concern use ABPI -> angiogram)
5. IV antibiotics, tetanus, analgesia
6. Re-align and splint limb
7. Photograph wound
8. Remove gross contamination and cover with saline soaked gauze and occlusive film
9. Trauma CT
10. AP and lateral XRs
11. Alert senior
12. Explain to patient, NBM, IV fluids, consent for theatre

Question 196

Outline the urgency of open fracture operating

Answer 196

• Immediate = highly contaminated or vascular compromise
• Within 12 hours = solitary high energy open fracture
• Within 24 hours = low energy open fracture

Question 197

Differential for limping child aged 1-3

Answer 197

• DDH
• Discitis
• Cerebral palsy
• Toddler’s fracture

Question 198

Differential for limping child aged 4-10

Answer 198

• Transient synovitis

- Perthes disease

Question 199

Differential for limping adolescent

Answer 199

• SUFE
• Osgood Schlatters
• Osteochondritis dissecans

Question 200

Differential for limping child at any age

Answer 200

• Septic arthritis
• Osteomyelitis
• JIA
• Reactive arthritis
• Malignancy
• NAI

Question 201

How is Perthes disease managed

Answer 201

• Bed rest
• Pain relief
• Physiotherapy

Question 202

Risk factors for DDH

Answer 202

• Breech
• First born
• Family history
• Oligohydramnios

Question 203

How should suspected DDH be imaged?

Answer 203

• Birth - 4 month = USS

- >4 months = XR

Question 204

How is DDH treated?

Answer 204

• Pavlik harness (<6 months and reducible)
• Closed reduction and Spica (>6 months)
• Open reduction and Spica (>18 months)
• Open reduction and femoral osteotomy (>2 years)

Question 205

Define SUFE

Answer 205

Displacement of the epiphysis infero-posteriorly through the physis

Question 206

Risk factors for SUFE

Answer 206

• Obesity

- Endocrine disorders

Question 207

What are the consequences of SUFE

Answer 207

It is an orthopaedic emergency as further slippage risks AVN

Question 208

Signs of SUFE on examination

Answer 208

• Waddling gait
• Foot will be in ER and can be short
• ROM is limited particularly in IR

Question 209

In whom should prophylactic contralateral hip fixation be performed in with SUFE

Answer 209

• Initial slip at young age <10
• Open triradiate cartilage
• Obese males
• Endocrine disorders

Question 210

What are the complications of SUFE

Answer 210

• Osteonecrosis of the femoral head
• Contralateral SUFE
• Chondrolysis
• Residual proximal femoral deformity
• Slip progression

Question 211

Define a hernia

Answer 211

Protrusion of all or part of a viscus through the wall of the cavity in which it is usually contained

Question 212

Cause of indirect inguinal hernias

Answer 212

Congenital failure of the processus vaginalis to close

Question 213

Path of an indirect inguinal hernia

Answer 213

Extends through deep ring, inguinal canal, and superficial ring to descend into the scrotum

Question 214

Cause of a direct inguinal hernia

Answer 214

An acquired weakness in the abdominal wall which tends to develop in adulthood

Question 215

Path of a direct inguinal hernia

Answer 215

The hernia passes directly forward through the defect in the posterior wall (transversalis fascia) of the inguinal canal. It does NOT typically end up in the scrotum.

Question 216

Outline how you would examine a hernia

Answer 216

• Site, size, shape, sounds
• Tethering, tenderness, temperature, transillumability
• Colour, contour, compressibility, consistency
• Assess reducibility

Question 217

Investigations for hernia

Answer 217

• Basic blood panel including lactate
• USS
• CT abdomen and pelvis

Question 218

What are the indications for emergency surgical intervention in hernias?

Answer 218

• Obstruction
• Strangulation
• Perforation

Question 219

What are the principles of hernia repair?

Answer 219

• Reduce hernia contents
• Remove hernia sac
• Repair defect

Question 220

Why might an ankle fracture not reduce?

Answer 220

Periosteum, deltoid ligament, or soft tissues may be stuck in the joint

Question 221

How would you assess a patient with an ankle fracture?

Answer 221

1. ATLS principles using an A to E approach
2. If the patient was stable I would take a focused history - MOI, comorbidity, mobility, smoking, meds
3. Focused examination of the limb with clear documentation of NV status and skin integrity
4. Clinically deformed ankles should be urgently reduced and splinted
5. AP and Lateral XR with AP proximal tibia if maisoneuneuve fracture suspected
6. Re-check NV status following reduction
7. Check adequacy of reduction with repeat XR
8. Baseline bloods and ECG to prepare for theatre
9. VTE prophylaxis as per local protocol

Question 222

How would you assess a patient with suspected spinal trauma?

Answer 222

1. ATLS approach ensuring the C-spine is triple immobilised
2. Once life threatening injuries are excluded perform a secondary survey using logroll technique
3. Assess need for c-spine imaging using Canadian c-spine rule or NEXUS
4. Perform a full neurological assessment and document this using an ASIA chart
5. Request appropriate imaging - MRI is the investigation of choice for spinal cord injury

Question 223

What is the difference between neurogenic and spinal shock?

Answer 223

• Neurogenic shock = low BP due to loss of vasomotor tone

- Spinal shock = flaccidity and loss of reflexes before spasticity ensues

Question 224

Describe Central Cord Syndrome

Answer 224

Characterised by disproportionately greater loss of motor strength in the upper extremities than the lower extremities with varying degrees of sensory loss. Typically occurs after hyperextension injuries in those with cervical canal stenosis.

Question 225

Describe anterior Cord Syndrome

Answer 225

Results from injury to the motor and sensory pathways in the anterior part of the cord. Characterised by paraplegia and bilateral loss of pain and temperature sensation. However, sensation from dorsal column is preserved.

Question 226

Brown-Sequard Syndrome

Answer 226

Results from hemisection of the cord, usually by penetrating trauma. Consists of ispilateral motor loss (corticospinal) and loss of position sense (dorsal columb) with contralateral loss of pain and temperature sensation (spinothalamic)