⚒ Vascular Surgery Nursing

Vascular Surgery Nursing Guide
for GCC Nurses

Comprehensive clinical guide covering PAD, AAA, carotid surgery, DVT/PE, diabetic vascular disease, limb assessment, and post-operative vascular care — with interactive tools calibrated for the GCC healthcare environment, where diabetes and hypertension rates are among the world's highest.

~20%
GCC Diabetes Prevalence
#1
Cause of Vascular Workload
6 Ps
Acute Ischaemia Signs
ABI
Key Diagnostic Tool
🌎 GCC Epidemiology Alert UAE, Saudi Arabia, and Kuwait rank in the top 10 worldwide for diabetes prevalence (~19–25% of adults). This drives an epidemic of peripheral arterial disease, diabetic foot, and vascular complications that dominate vascular surgery workload across GCC hospitals.
Peripheral Arterial Disease (PAD)
🧠 Pathophysiology & Risk Factors

PAD results from atherosclerotic narrowing of peripheral arteries, reducing blood flow to the limbs. In GCC populations, diabetes and smoking (particularly in male expatriate workers) accelerate the process significantly.

Key Risk Factors

  • Diabetes mellitus (strongest GCC risk factor)
  • Smoking — high prevalence in GCC male populations
  • Hypertension (>40% adult prevalence in Gulf states)
  • Dyslipidaemia, hypercholesterolaemia
  • Chronic kidney disease (linked to dialysis access)
  • Age >65, male sex, positive family history
📈 Clinical Spectrum
I
Asymptomatic
ABI <0.9 but no symptoms — detected on screening
II
Intermittent Claudication
Cramping calf pain on walking, relieved by rest — reproducible distance
III
Rest Pain
Burning forefoot pain at rest, worse at night — limb elevation worsens
IV
Tissue Loss / CLI
Ulceration, gangrene — critical limb ischaemia, amputation risk
📋 Rutherford Classification of PAD
CategoryGradeClinical DescriptionTypical ABI
00Asymptomatic0.7–0.9
1IMild claudication0.5–0.8
2IModerate claudication0.5–0.8
3ISevere claudication<0.5
4IIIschaemic rest pain<0.4
5IIIMinor tissue loss (ulcer/focal gangrene)<0.4
6IIIMajor tissue loss (extending gangrene)<0.4
Abdominal Aortic Aneurysm (AAA)
☣ Definition & Screening

AAA is defined as aortic diameter ≥3 cm (infrarenal). Rupture risk increases sharply above 5.5 cm. GCC screening programs mirror NICE/ACC guidelines.

Screening Protocol

  • One-time ultrasound screening: men ≥65 years
  • Women with risk factors (smoking, family history) — consider at 65
  • 3.0–4.4 cm: rescan every 12 months
  • 4.5–5.4 cm: rescan every 3 months
  • ≥5.5 cm (men) / ≥5.0 cm (women): refer for repair
  • Symptomatic (pain, tenderness): emergency referral regardless of size
🚨 Ruptured AAA — Emergency
Haemodynamic Emergency Classic triad: severe tearing back/abdominal pain + pulsatile mass + hypotension. Mortality without surgery >90%. Permissive hypotension (SBP 50–70 mmHg) prior to operative control preserves clot.

Elective vs Emergency Repair

  • Elective EVAR/open: planned, optimised, 30-day mortality <2%
  • Emergency open: midline laparotomy, aortic cross-clamp, 30–50% mortality
  • Emergency EVAR (EVAR-2): if anatomy suitable — faster, less physiological insult
Carotid Artery Disease
🧠 TIA & Stroke Prevention

Carotid stenosis is a major source of embolic stroke. Atherosclerotic plaque at the carotid bifurcation sheds emboli to the cerebral circulation.

Surgical Thresholds

  • Symptomatic stenosis ≥70%: CEA within 2 weeks of TIA/minor stroke
  • Symptomatic 50–69%: CEA if life expectancy >5 yrs
  • Asymptomatic ≥60–70%: individualised — TCAR or CEA
  • TCAR (TransCarotid Artery Revascularisation): flow reversal + stenting — lower cranial nerve risk
🚨 Post-CEA Monitoring Points
  • Neurological assessment q1h — new deficit = emergency CT
  • BP control: SBP target <150 mmHg (hyperperfusion risk)
  • Expanding neck haematoma = airway emergency — call surgeon immediately
  • Cranial nerve assessment: hoarseness, dysphagia, tongue deviation
  • Drain output: >100 mL/hr = return to theatre
  • Duplex USS at 1 month, 6 months, then annually
Deep Vein Thrombosis (DVT)
🌊 Virchow's Triad
🛒
Stasis
Immobility, surgery, long flights, Hajj pilgrimage, construction workers standing
🧰
Hypercoagulability
Malignancy, thrombophilia, oral contraceptives, dehydration (heat exposure in GCC)
🔴
Endothelial Injury
Trauma, surgery, central lines, vascular procedures
📋 Wells Score for DVT
Clinical FeatureScore
Active cancer (treatment within 6 months)+1
Paralysis, paresis, or immobilisation of leg+1
Bedridden >3 days or major surgery <4 weeks+1
Local tenderness along deep venous system+1
Entire leg swollen+1
Calf swelling >3 cm vs asymptomatic side+1
Pitting oedema (greater in symptomatic leg)+1
Collateral superficial veins+1
Alternative diagnosis as likely as DVT−2
≤0 Low  1–2 Moderate  ≥3 High
Pulmonary Embolism (PE)
🤴 Clinical Presentation
  • Sudden dyspnoea, pleuritic chest pain, haemoptysis
  • Tachycardia (HR >100), tachypnoea (RR >20), hypoxia (SpO₂ <95%)
  • Massive PE: haemodynamic collapse, RV failure, cardiac arrest
  • ECG: sinus tachycardia (most common); S1Q3T3 pattern (right heart strain)
  • ABG: hypoxaemia + hypocapnia (type 1 respiratory failure)
  • CTPA: gold standard imaging
📈 PESI Score & Treatment

Pulmonary Embolism Severity Index stratifies 30-day mortality risk to guide treatment intensity.

Massive PE Treatment Systemic thrombolysis (alteplase 100 mg over 2h) if haemodynamically unstable. Surgical embolectomy if thrombolysis contraindicated or failed.

Treatment Ladder

  • Low-risk: DOAC outpatient (rivaroxaban, apixaban)
  • Intermediate: LMWH/UFH bridge, consider IVC filter
  • High-risk: systemic thrombolysis or catheter-directed
  • Massive/arrested: surgical embolectomy (sternotomy, bypass)
Varicose Veins
📈 CEAP Classification
ClassClinical DescriptionManagement
C0No visible or palpable signs of venous diseaseReassurance, lifestyle
C1Telangiectasia / reticular veinsCosmetic sclerotherapy
C2Varicose veins >3 mmCompression + EVLA/foam
C3Oedema (venous origin)Compression stockings
C4Skin changes (lipodermatosclerosis, eczema)Compression + wound care
C5Healed venous ulcerLong-term compression
C6Active venous ulcer4-layer compression + referral
Additional Vascular Conditions
🧈 Renal Artery Stenosis
  • Atherosclerotic (90%) or fibromuscular dysplasia (young women)
  • Presents as resistant hypertension, flash pulmonary oedema, worsening renal function
  • Diagnosis: renal duplex, CTA, or MRA
  • Treatment: angioplasty ± stenting; medical (ACEi/ARB — monitor K⁺/creatinine)
  • GCC: relevant due to high chronic kidney disease burden
🌏 Mesenteric Ischaemia
  • Acute: sudden severe abdominal pain out of proportion to examination
  • Causes: embolism (AF), thrombosis, non-occlusive (low flow states)
  • Lactate rises → bowel infarction → peritonitis → high mortality
  • Chronic: post-prandial pain ('intestinal angina'), weight loss
  • CT angiography: diagnoses acute and chronic forms
  • Treatment: emergency revascularisation ± bowel resection
🇦🇪 GCC Vascular Context
Diabetes Epidemic

UAE (19.3%), Kuwait (23.1%), Saudi Arabia (18.7%) — among world's highest. PAD prevalence in diabetics is 3–4× non-diabetics. Vascular surgery units in GCC are predominantly managing diabetic foot complications.

Construction Worker DVT

Millions of blue-collar workers in UAE/Qatar/Saudi stand for 10–12 hour shifts in extreme heat, leading to dehydration and venous stasis — a significant but underreported DVT risk population.

Hajj Thromboembolism

2–3 million pilgrims annually; prolonged standing, cramped conditions, dehydration, and long-haul flights create a perfect storm for DVT/PE. Anticoagulation counselling for at-risk pilgrims is essential.

Open & Endovascular AAA Repair
⚒ Open AAA Repair

Midline laparotomy or retroperitoneal approach. Proximal aortic clamping, aneurysm sac opened, Dacron graft inserted.

Aorto-Bifemoral Graft

  • Used when iliac arteries are diseased
  • "Trouser graft" configuration — limbs to both femoral arteries
  • Gold standard for aortoiliac occlusive disease
  • Operative time 3–5 hrs; ICU post-op mandatory

Key Nursing Pre-Op Points

  • Bowel prep, IV access (large bore ×2 + arterial line)
  • Group & save / crossmatch (6–8 units PRBC)
  • Epidural insertion for post-op analgesia
  • Cardiac/renal optimisation
📈 EVAR (Endovascular Aneurysm Repair)

Stent-graft deployed via femoral access under fluoroscopy. Requires suitable neck anatomy (>15 mm infrarenal neck, <60° angulation).

Advantages vs Open

  • No laparotomy — shorter ICU/hospital stay
  • Lower 30-day mortality (especially in high-risk patients)
  • No aortic cross-clamp — less cardiac/renal stress

EVAR-Specific Complications

  • Endoleak: blood flow outside graft — Types I–V
  • Type II endoleak (retrograde lumbar/IMA flow) — most common
  • Graft migration, limb thrombosis
  • Post-implantation syndrome: fever + elevated CRP (self-limiting)
  • Requires lifelong CT surveillance (1, 6, 12 months then annually)
Carotid Endarterectomy (CEA)
⚒ Surgical Technique
  1. Patient supine, neck extended and rotated. Regional (cervical block) or general anaesthesia.
  2. Longitudinal incision along anterior border of sternocleidomastoid.
  3. Carotid bifurcation identified, common/internal/external carotid arteries controlled with slings.
  4. Systemic heparin administered (100 units/kg). Carotid vessels clamped.
  5. Shunt inserted if using intraoperative cerebral monitoring (EEG/stump pressure) shows ischaemia.
  6. Arteriotomy along carotid, plaque removed under direct vision.
  7. Closure: patch angioplasty (vein or synthetic) reduces restenosis vs primary closure.
  8. Haemostasis, layered wound closure. Drain optional.
📋 Patch vs Primary Closure
Patch Angioplasty Preferred Evidence supports patch closure (bovine pericardium, PTFE, or saphenous vein) to reduce risk of restenosis and perioperative stroke vs primary closure. Most centres use patch routinely.

Shunting Decision

  • Routine shunting: used by default in all cases
  • Selective shunting: based on stump pressure (<50 mmHg), EEG changes, or awake neurological testing (regional block)
  • Regional anaesthesia allows awake testing — gold standard for shunt decision

TCAR (TransCarotid Artery Revascularisation)

  • Flow reversal + carotid stent via mini-incision
  • Lower cranial nerve injury risk vs CEA
  • Suitable for high surgical risk patients
Peripheral Bypass Surgery
🥊 Bypass Conduit Selection: Vein vs PTFE

Autologous Vein (Saphenous)

  • Gold standard conduit for infrapopliteal bypass
  • Reversed or in-situ technique
  • 5-year patency: 60–70% (femoro-popliteal)
  • Better in infected fields (groin infection)
  • Pre-operative vein mapping by duplex USS essential
  • Arm vein (cephalic) if GSV unavailable

Prosthetic (PTFE / Dacron)

  • Used above-knee femoro-popliteal if vein unavailable
  • Higher infection risk — especially in groin
  • 5-year patency: 50% above knee, 30–40% below knee
  • Adjuncts: Miller cuff, vein patch at distal anastomosis
  • Requires antiplatelet therapy (aspirin ± clopidogrel)
Bypass TypeIndicationPreferred ConduitNotes
Femoro-popliteal (above knee)SFA occlusion, claudication/CLIGSV or PTFEMost common infrainguinal bypass
Femoro-popliteal (below knee)Long SFA + popliteal diseaseGSV preferredPTFE with vein cuff if GSV unavailable
Femoro-distal (tibial/peroneal)CLI, diabetic footGSV mandatoryTechnically demanding; requires good runoff
Axillo-bifemoralAortoiliac disease, high-risk for aortic surgeryPTFE (8 mm ringed)Extra-anatomic; infected aortic graft
Femoro-femoral crossoverUnilateral iliac occlusionPTFE (8 mm)Lower risk than aortobifemoral
Amputations
🔨 Amputation Levels
LevelAbbreviationIndicationRehab Potential
Toe / RayIsolated digit gangrene, adequate perfusionExcellent
Syme's (ankle disarticulation)Forefoot gangrene, adequate heel circulationGood (end-bearing stump)
Below KneeBKA / TTAFoot/distal gangrene, popliteal pulse presentGood — prosthesis well tolerated
Through KneeTKARarely used in vascularModerate
Above KneeAKA / TFAExtensive ischaemia, BKA failed, knee contractureLower — more energy expenditure
Hip DisarticulationHDExtensive proximal disease, wet gangreneLimited
📋 BKA Surgical Overview
  1. Long posterior myocutaneous flap technique (skew flap / Burgess) to ensure vascular supply to stump.
  2. Bone division at 10–14 cm below tibial tubercle (optimal prosthetic length).
  3. Fibula divided 2 cm shorter than tibia, anterior tibial crest bevelled.
  4. Muscles trimmed and fashioned over bone end (myoplasty/myodesis).
  5. Meticulous haemostasis; drain inserted.
  6. Wound closed without tension — crucial in ischaemic limbs.
  7. Rigid dressing or cast applied to control oedema and shape stump.
GCC Note In GCC hospitals, BKA is common due to late-presenting diabetic foot. Many patients arrive with wet gangrene requiring urgent surgery. Rehabilitation planning (prosthetist referral) begins pre-operatively when possible.
Endovascular Procedures
📈 Angioplasty & Stenting (PTA)
  • Percutaneous transluminal angioplasty (PTA): balloon dilation of stenosis/occlusion
  • Stenting (bare metal or drug-eluting): for elastic recoil or flow-limiting dissection
  • Access: femoral artery (retrograde/antegrade), brachial, radial, pedal
  • Drug-coated balloon (DCB): reduces restenosis in femoropopliteal disease
  • Tibial angioplasty: preferred in diabetics for below-knee disease (angiosome concept)
  • Post-procedure: access site pressure, pulse checks q15min ×4
📈 Thrombectomy & Thrombolysis

Catheter-Directed Thrombolysis (CDT)

  • Infusion catheter embedded in thrombus — urokinase or alteplase
  • Duration 12–48 hours; nursing intensive: limb obs q1h, access site q4h
  • Contraindications: recent stroke, surgery <10 days, active bleeding
  • Monitoring: fibrinogen levels (stop if <1.0 g/L), INR, aPTT

Mechanical Thrombectomy

  • Aspiration thrombectomy (AngioJet, penumbra) — acute native vessel or graft occlusion
  • Often combined with CDT (pharmaco-mechanical)
  • Fogarty catheter embolectomy: open surgical technique for embolic occlusion
AV Fistula & Haemodialysis Access
💉 Brescia-Cimino Radiocephalic Fistula

Gold standard for haemodialysis access. Anastomosis between radial artery and cephalic vein at wrist (end-to-side or side-to-side).

  1. Pre-operative vein mapping (duplex) — cephalic vein ≥2.5 mm required
  2. Regional anaesthesia (brachial block) preferred — vasodilation improves outcome
  3. Vessel anastomosis under loupe magnification
  4. Thrill palpated / bruit auscultated immediately post-creation
  5. Maturation: 6–8 weeks before needling (vein must dilate to ≥4 mm)
GCC Relevance — High Volume UAE and Saudi Arabia have high rates of diabetic nephropathy → ESRD → dialysis. AV fistula creation is one of the highest volume vascular procedures in GCC hospitals.
📋 Fistula Complications & Nursing Care

Early Complications

  • Thrombosis: absent thrill — urgent surgical revision or thrombolysis
  • Haematoma: pressure, ice; avoid compression of fistula
  • Steal syndrome: hand ischaemia — burning, pallor distal to fistula

Late Complications

  • Stenosis (venous anastomosis most common): treated by angioplasty
  • Aneurysm formation: large pulsatile swellings along fistula vein
  • Infection: rare with native fistula; higher risk with grafts (PTFE)

Nursing Instructions Post-Creation

  • No BP, cannula, or venepuncture on fistula arm
  • Check thrill daily — absent thrill = emergency review
  • Elevate arm first 48 hours to reduce oedema
  • Avoid constrictive clothing or watches on fistula arm
Fasciotomy for Compartment Syndrome
⚠ Indications
  • Post-bypass reperfusion injury (most common vascular cause)
  • Compartment pressure >30 mmHg or within 30 mmHg of diastolic
  • Prolonged ischaemia (>6 hours) before revascularisation
  • Crush injury, tibial fracture, post-thrombectomy
Do Not Delay Compartment syndrome requires fasciotomy within 1–2 hours of diagnosis. Irreversible muscle necrosis begins at 6 hours. Pain on PASSIVE STRETCH is the earliest and most sensitive sign.
⚒ 4-Compartment Fasciotomy Technique
  1. Two incisions: medial (posteromedial + deep posterior) and lateral (anterior + lateral compartments).
  2. Lateral incision: 15–20 cm fibular shaft. Fascia of anterior and lateral compartments released.
  3. Medial incision: 2 cm posterior to tibia. Superficial posterior fascia released. Deep posterior compartment opened via soleus bridge.
  4. Wound left open — wound VAC applied or saline-soaked gauze.
  5. Delayed primary closure at 5–7 days if swelling subsided; skin graft if not.
Post-Vascular Surgery Assessment: ABCDE + Vascular
📋 Systematic Assessment Framework
ComponentVascular-Specific Focus
A — AirwayPost-CEA: expanding neck haematoma = airway threat; have airway trolley at bedside
B — BreathingPost-AAA: atelectasis, ARDS (aortic cross-clamp reperfusion); SpO₂ monitoring
C — CirculationHaemodynamic stability, pulse quality, graft patency (assess q1h × 24h)
D — DisabilityPost-CEA: NIHSS neuro check; post-AAA: leg movement (spinal cord ischaemia)
E — ExposureWound inspection: groin haematoma, graft limb pulses, wound dehiscence
V — Vascular6 Ps assessment: Pain, Pallor, Pulselessness, Paraesthesia, Paralysis, Poikilothermia
🚨 Graft Surveillance Protocol
  • First 24 hours: pulse checks every 1 hour (femoral, popliteal, DP, PT)
  • 24–48 hours: pulse checks every 2 hours
  • Before discharge: duplex USS baseline graft surveillance
  • Follow-up: duplex at 1, 3, 6, 12 months then annually
  • Graft thrombosis signs: loss of previously felt pulse, limb cooling, pain
  • Action: loss of graft pulse → immediate vascular surgeon notification → return to theatre within 4–6 hours for best outcome
Interactive: 6 Ps Vascular Assessment Tool

📋 Acute Limb Ischaemia — 6 Ps Assessment

Enter your clinical findings for each of the 6 Ps to receive an ischaemia risk level and recommended action.

Post-CEA Monitoring Protocol
🧠 Neurological Monitoring
  • Neurological observation every 1 hour for first 6 hours, then q2h × 18h
  • NIHSS elements: facial droop, arm drift, speech, visual fields, level of consciousness
  • New neurological deficit = emergency — activate stroke protocol
  • CT head ± CT angiography immediately if new deficit
  • Reperfusion haemorrhage risk if BP uncontrolled after CEA
  • Hyperperfusion syndrome: severe ipsilateral headache, seizure, intracerebral haemorrhage — tight BP control critical
⚠ Critical Post-CEA Emergencies
Expanding Neck Haematoma = Airway Emergency Rapid expanding haematoma can compress trachea within minutes. Immediately: call surgeon, prepare airway trolley, consider early intubation before airway lost. In extremis: open wound at bedside to decompress.
BP Management Post-CEA Target SBP <150 mmHg. Use labetalol or GTN infusion. Hypertension → hyperperfusion / haematoma. Hypotension → graft thrombosis / cerebral ischaemia. Avoid both extremes.

Cranial Nerve Injury Signs

  • Hoarseness / voice change (recurrent laryngeal nerve)
  • Dysphagia (vagus nerve)
  • Tongue deviation (hypoglossal nerve)
  • Facial numbness (great auricular nerve — most common, usually recovers)
Post-AAA Monitoring
📈 Multi-System Post-AAA Assessment

Haemodynamic

  • Target MAP 65–85 mmHg
  • CVP / arterial line monitoring
  • Blood transfusion threshold Hb <80 g/L (vascular pts)
  • Vasopressor (noradrenaline) if refractory hypotension
  • Graft limb pulses q1h

Renal & GI

  • Urine output ≥0.5 mL/kg/hr — marker of renal perfusion
  • Urine output <30 mL/hr → review fluid status, check graft patency
  • Bowel sounds: absent initially; return within 48–72 hrs
  • Ischaemic colitis: bloody diarrhoea, left-sided pain, fever — early sigmoidoscopy
  • NG tube drainage: paralytic ileus common post-open AAA

Neurological

  • Spinal cord ischaemia: leg weakness/paraplegia post-TAAA repair
  • Monitoring: regular lower limb power and sensation assessment q2h
  • New lower limb weakness = emergency — spinal drain if in situ, CSF pressure management
  • Maintain MAP >85 mmHg if spinal cord ischaemia suspected
Wound Care & Anticoagulation
🩹 Vascular Wound Care
  • Groin wounds: highest infection risk — vascular anatomy, skin flora (MRSA)
  • Groin wound infection: can involve prosthetic graft → life-threatening
  • MRSA screening: pre-operative swabs in elective cases (GCC protocols vary)
  • Vacuum-assisted closure (VAC/NPWT): for complex/infected vascular wounds
  • Wound dehiscence in PAD patients: impaired healing due to ischaemia
  • Nutrition: adequate protein (≥1.2 g/kg/day) essential for wound healing
Prosthetic Graft Infection Mortality up to 50%. Signs: wound sinus, erythema, anastomotic pseudoaneurysm, sepsis. Requires graft removal + extra-anatomic bypass. MRSA, gram-negative organisms common in GCC.
💊 Post-Op Anticoagulation
AgentIndicationMonitoring
UFH infusionImmediately post-bypass (first 24–48h)aPTT 60–80 sec (1.5–2× control)
LMWH (enoxaparin)DVT prophylaxis, bridge to warfarinAnti-Xa if renal impairment
WarfarinProsthetic graft, AF, hypercoagulable stateINR 2.0–3.0 (load gradually)
Aspirin 75–100 mgAll vascular surgery patients post-opNone routine
Clopidogrel 75 mgDual antiplatelet post-stenting, EVARNone routine
DOAC (rivaroxaban)DVT treatment, selected PAD (COMPASS trial)Renal function
Pain Management in Vascular Patients
🩸 Multimodal Analgesia Approach

Regional Techniques

  • Thoracic epidural: gold standard post open AAA — improves respiratory outcomes
  • Spinal anaesthesia: peripheral procedures
  • Peripheral nerve blocks: femoral, popliteal sciatic block for lower limb surgery
  • Local infiltration analgesia: groin/wound infiltration

Systemic Analgesia

  • Paracetamol: base agent, 1g q6h (hepatic dose adjustment)
  • NSAIDs: use cautiously — renal impairment, gastric risk, anticoagulation interaction
  • Opioids (morphine/oxycodone): PCA or nurse-controlled; constipation management
  • Tramadol: weak opioid; seizure risk in elderly — use cautiously

Special Considerations

  • Vascular patients: frequently elderly, multiple comorbidities, polypharmacy
  • Renal impairment: avoid NSAIDs, reduce opioid doses, consider gabapentin for neuropathic pain
  • Phantom limb pain: gabapentin/pregabalin, amitriptyline, mirror therapy
  • Rest pain: ensure adequate analgesia — reassess after revascularisation
Peripheral Pulse Assessment Guide
📈 Pulse Grading 0–4+
GradeDescriptionClinical Significance
0Absent — not palpableCritical ischaemia likely; confirm with Doppler
1+Barely palpable / thread-likeSeverely reduced flow — urgent assessment
2+Diminished but presentReduced flow — monitor closely, investigate
3+Normal / expectedAdequate peripheral flow
4+Bounding / hyperdynamicAV fistula, aortic regurgitation, high output states
📈 Lower Limb Pulse Locations
PulseLocationTechnique
FemoralMid-inguinal point (midway between ASIS and pubic symphysis)2–3 finger pads, firm pressure; pulsatile mass in AAA/aneurysm
PoplitealPopliteal fossa — knee slightly flexedBoth thumbs on tibial tuberosity, fingers wrap into fossa — requires firm pressure; easy to miss
Dorsalis Pedis (DP)Dorsum of foot, lateral to extensor hallucis longus tendonLight touch with 2–3 fingers; absent in 10% normal population
Posterior Tibial (PT)Behind medial malleolusFirm pressure posterior to medial malleolus; more reliable than DP for ischaemia assessment
📋 Handheld Doppler Technique
  1. Apply ultrasound gel to pulse point. Angle probe at 45–60° to vessel.
  2. Identify signal: triphasic (normal) → biphasic (mild disease) → monophasic (significant disease) → absent.
  3. Triphasic: forward flow, brief reverse flow, secondary forward flow — indicates healthy vessel.
  4. Monophasic: single forward flow only — significant proximal disease or collateral supply.
  5. Document waveform character alongside pulse grade in post-vascular notes.
Diabetic Calcification In GCC diabetic patients, calcified vessel walls may produce a falsely high Doppler signal. A bounding signal with absent palpable pulse warrants ABI interpretation with caution — consider toe-brachial index (TBI) instead.
Ankle-Brachial Index (ABI) Calculator

📈 ABI Calculator

Enter the highest ankle systolic BP (dorsalis pedis or posterior tibial) and the higher brachial systolic BP. ABI = Ankle SBP ÷ Brachial SBP.

ABI Reference Ranges
ABI ValueInterpretationClinical Action
>1.3Non-compressible vessels (calcification)Use toe-brachial index (TBI); common in GCC diabetics
0.9–1.3NormalRoutine surveillance in at-risk patients
0.7–0.89Mild PADLifestyle, risk factor modification, antiplatelet
0.4–0.69Moderate PADVascular review, consider imaging + revascularisation
<0.4Severe / Critical IschaemiaUrgent vascular referral — limb-threatening
Compartment Syndrome
⚠ Causes in Vascular Patients
  • Post-revascularisation reperfusion: most common vascular cause — oedema on restoring flow to ischaemic muscle
  • Prolonged ischaemia (>4–6 hours) before bypass/embolectomy
  • Post-thrombectomy for acute limb ischaemia
  • Crush injury with vascular compromise
  • External compression: tight cast, circumferential dressings, prolonged positioning
  • Tibial fracture with haematoma
🚨 Signs & Monitoring
Earliest Sign: Pain on Passive Stretch Passively extend the toes/dorsiflex the foot — severe pain indicates anterior compartment involvement. This precedes other signs and is a clinical emergency.

Progressive Symptoms

  • 1. Pain on passive stretch (earliest)
  • 2. Tense, woody compartment on palpation
  • 3. Paraesthesia (peroneal nerve — foot dorsum)
  • 4. Weakness (foot drop — anterior compartment)
  • 5. Pallor, pulselessness (late — arterial compromise)

Compartment Pressure Monitoring

  • Normal compartment pressure: <10 mmHg
  • Fasciotomy threshold: >30 mmHg or within 30 mmHg of diastolic BP
  • Stryker needle or arterial line transducer technique
Amputation Stump Care
📋 Residual Limb Management
  • Stump shaping: figure-of-eight bandaging or shrinker sock to create conical shape for prosthetic fitting
  • Bandaging applied immediately post-op (rigid dressing or semi-rigid cast preferred)
  • Elevation first 48 hours to reduce oedema
  • Wound inspection: sutures or staples at 10–14 days (longer if ischaemic healing)
  • Prosthetist referral: as soon as wound healed and stump mature (6–8 weeks BKA)
  • Early mobilisation: parallel bars, then rollator, then prosthesis
📉 Phantom Limb Pain

Occurs in 50–80% of amputees. Pain perceived in the absent limb — distinct from stump pain. Central sensitisation mechanism.

Management

  • Pharmacological: gabapentin/pregabalin (first-line), amitriptyline, duloxetine
  • Mirror therapy: visual feedback reduces central pain representation
  • TENS (transcutaneous electrical nerve stimulation)
  • Psychological support: CBT, relaxation techniques
  • Pre-operative analgesia: epidural or peripheral nerve block may reduce phantom pain incidence
  • GCC note: interpreter support crucial for pain assessment in non-English speaking patients
Post-Fasciotomy Wound Management
🩹 Open Fasciotomy Wound Care

Immediate (Days 1–5)

  • Wound left open — moist dressings (saline-soaked gauze or non-adherent dressing)
  • Wound VAC (NPWT): reduces oedema, promotes granulation, reduces infection
  • Elevation of limb to reduce oedema
  • Daily wound inspection: muscle viability, infection signs
  • Necrotic muscle: debridement may be needed at relook (48–72 hours)

Delayed Closure (Days 5–14)

  • Delayed primary closure if swelling resolved and wound edges approximate
  • Skin grafting if wound cannot close primarily (large fasciotomy defects)
  • Split-thickness skin graft (STSG) from thigh — common after fasciotomy
  • Post-graft: non-compressive dressing, immobilisation, VAC over graft
  • Long-term: scar management, compression hosiery when healed
🌎 GCC Diabetic Vascular Disease Diabetic foot disease is the #1 driver of vascular surgery workload across GCC hospitals. High rates of late presentation, inadequate outpatient surveillance, cultural barriers to foot self-examination, and suboptimal glycaemic control contribute to an amputation epidemic. KFSH, Cleveland Clinic Abu Dhabi, and Dubai Hospital operate dedicated diabetic foot multidisciplinary teams.
Multidisciplinary Diabetic Foot Team
👥 MDT Composition & Roles
Vascular Surgeon
  • Revascularisation planning (bypass / angioplasty)
  • Amputation level decision
  • Graft surveillance
Diabetologist / Endocrinologist
  • Glycaemic optimisation (HbA1c target)
  • Insulin management peri-operative
  • Cardiovascular risk reduction
Wound Care Nurse
  • Wound assessment (NERDS/STONEES criteria)
  • Dressing selection
  • NPWT management
  • Patient/carer education
Podiatrist
  • Nail / callus management
  • Foot orthoses / insoles
  • Skin care education
  • Biomechanical assessment
Orthotist / Prosthetist
  • Offloading devices (TCC, CAM boot)
  • Post-amputation prosthetics
  • Custom footwear
Infectious Disease / Microbiology
  • Antibiotic selection (bone culture)
  • Osteomyelitis management
  • MRSA / resistant organism protocols
Charcot Foot (Neuroarthropathy)
⚠ Recognition & Danger

Charcot neuroarthropathy is a devastating complication of peripheral neuropathy — rapid bone and joint destruction driven by unrecognised trauma and autonomic dysfunction.

Hot Swollen Red Foot in a Diabetic = Charcot Until Proven Otherwise The classical mistake is diagnosing cellulitis. In a neuropathic diabetic with a hot, swollen, red foot and no systemic signs of infection, Charcot is the priority diagnosis. Offloading is immediately critical.

Rocker Bottom Deformity

  • Mid-foot collapse (Lisfranc joint most common)
  • Creates plantar bony prominence → pressure ulceration → infection → osteomyelitis
  • Once deformity established: custom orthosis or surgical reconstruction
📋 Management Stages
Eichenholtz StageFeaturesManagement
Stage 0Hot, swollen foot; no X-ray changes yet; MRI shows bone oedemaTotal contact cast (TCC) offloading immediately; no weight-bearing
Stage IFragmentation — fractures, dislocations visible on X-rayStrict non-weight bearing; TCC; months of immobilisation
Stage IICoalescence — bone repair begins; less warmthTransition to removable cast boot (CAM walker)
Stage IIIConsolidation — stable deformityCustom footwear/orthosis; surgical reconstruction if unstable
Revascularisation in Diabetic Foot
📈 Angioplasty vs Bypass in Diabetics

Diabetic PAD tends to be tibial/below-knee in distribution, often with multi-level disease. The choice between bypass and angioplasty depends on anatomy, patient fitness, and available conduit.

FactorFavours AngioplastyFavours Bypass
Patient fitnessHigh anaesthetic riskGood surgical candidate
Lesion lengthShort (<10 cm), focalLong occlusion, multi-segment
Conduit availableNo suitable veinGood quality GSV
UrgencyAcute/urgent limbElective planning
TASC classificationA and B lesionsC and D lesions
🌟 Angiosome-Directed Revascularisation

The angiosome concept maps foot territories to specific tibial arteries. Revascularising the artery directly supplying the wound ("direct revascularisation") improves healing rates vs indirect revascularisation.

Foot TerritorySupplying Artery
Heel (plantar)Posterior tibial → medial/lateral plantar
Dorsum of footAnterior tibial → dorsalis pedis
Lateral forefootPeroneal → lateral calcaneal
Medial anklePosterior tibial → medial calcaneal

Where direct revascularisation is anatomically impossible, collateral circulation to the angiosome may be augmented by indirect revascularisation.

Amputation Prevention Strategy
📋 Prevention Pathway

Primary Prevention

  • Annual foot examination for all diabetics
  • Diabetic foot screening: ABI, monofilament testing, vibration sense
  • Podiatry access: nail care, callus removal
  • Patient education: daily foot inspection, appropriate footwear
  • GCC challenge: cultural reluctance to self-examine feet, late presentation

Secondary Prevention (Active Wound)

  • Infection control: appropriate antibiotics (IDSA guidelines)
  • Offloading: non-removable TCC superior to removable devices
  • Wound debridement: sharp, enzymatic, or larval therapy
  • Advanced wound dressings: silver, PHMB, NPWT
  • Revascularisation if ischaemic component

Tertiary Prevention (Post-Amputation)

  • Contralateral limb monitoring — 50% of patients require contralateral amputation within 5 years
  • Rehabilitation: physiotherapy, occupational therapy, prosthetics
  • Psychological support: depression common post-amputation
  • Glycaemic optimisation: HbA1c <53 mmol/mol (7%) post-amputation
🇦🇪 GCC Amputation Crisis

High Amputation Rates: Saudi Arabia, UAE, and Kuwait report among the highest rates of diabetes-related lower limb amputation globally. Contributing factors include:

  • Late presentation — patients seek care only when gangrene is established
  • Inadequate primary care follow-up for diabetic foot
  • Cultural barriers: reluctance to show feet, reliance on traditional remedies
  • Language barriers: expatriate patients unable to communicate symptoms
  • Heat and footwear: going barefoot on hot surfaces → unnoticed burns

Major Centres:

  • KFSH (King Faisal Specialist Hospital): high-volume diabetic foot centre, dedicated MDT, limb salvage programme
  • Cleveland Clinic Abu Dhabi: comprehensive vascular surgery, EVAR, CEA, diabetic foot MDT
  • Dubai Hospital: major vascular surgery centre, high AV fistula volume
  • Hamad Medical Corporation (Qatar): developing dedicated vascular surgery programme
Nursing Role GCC nurses are frequently the first to identify diabetic foot complications on ward rounds. Proactive foot inspection at every hospital admission for diabetics — document and escalate any new break in skin.
Renal Transplant Vascular Complications
💉 Vascular Complications Post-Transplant

Renal transplant recipients — a large population in GCC due to high ESRD rates — face unique vascular complications relevant to nursing assessment. See also: Dialysis Nursing Guide.

  • Renal artery stenosis (TRAS): transplant renal artery stenosis — resistant hypertension, declining function; treated by angioplasty
  • Renal artery thrombosis: early post-op — sudden cessation of urine output; emergency re-exploration
  • Renal vein thrombosis: graft swelling, haematuria, pain over graft
  • Lymphocele: perigraft lymph collection — leg oedema, pressure on ureter; managed by aspiration/drain
  • Pseudoaneurysm: anastomotic disruption — pulsatile mass over graft, bleeding
  • AV fistula in transplant recipients: usually retained post-transplant as backup; thrill assessment ongoing
🏫 Vascular Surgery Nursing Quiz

15 questions covering ABI interpretation, 6 Ps, post-CEA care, AAA, DVT/PE, and diabetic vascular nursing. Select your answer then click Check to get immediate feedback.

Question 1 of 15
A patient's ABI is calculated as 0.35. What does this indicate?
Question 2 of 15
Which of the 6 Ps of acute limb ischaemia is typically the EARLIEST clinical sign?
Question 3 of 15
Post-carotid endarterectomy, you notice the patient has developed an expanding neck haematoma. What is your IMMEDIATE priority action?
Question 4 of 15
What is the recommended SBP target for blood pressure management in the immediate post-operative period following carotid endarterectomy?
Question 5 of 15
An ABI of 1.4 is recorded in a 68-year-old diabetic patient. What is the most likely explanation?
Question 6 of 15
What is the critical abdominal aortic aneurysm diameter threshold for elective repair in men?
Question 7 of 15
Post-AAA repair, a patient develops sudden weakness in both lower limbs. What is the most concerning cause?
Question 8 of 15
Which is the EARLIEST and most sensitive clinical sign of compartment syndrome?
Question 9 of 15
A patient is admitted with a hot, swollen, erythematous right foot. They are a 55-year-old diabetic with no fever and normal WBC. The foot is insensate to monofilament. What is the priority diagnosis to exclude?
Question 10 of 15
What does Virchow's triad describe in relation to DVT formation?
Question 11 of 15
For an AV fistula patient post-creation, which instruction is MOST important for the fistula arm?
Question 12 of 15
A massive PE patient arrives in the ED haemodynamically unstable (BP 70/40 mmHg, HR 130, SpO₂ 84%). CTPA confirms saddle PE. What is the first-line treatment?
Question 13 of 15
Which Wells Score result indicates a HIGH probability of DVT?
Question 14 of 15
A post-peripheral bypass patient had palpable pedal pulses at handover. Two hours later, you find the foot is cold, white, and pulses are absent. What is the CORRECT immediate action?
Question 15 of 15
In the context of GCC nursing, which statement about diabetic vascular disease is MOST accurate?
0/15
Complete the quiz to see your result
Quick Reference: Vascular Surgery Essentials
6 Ps of Acute Ischaemia
Pain · Pallor · Pulselessness
Paraesthesia · Paralysis · Poikilothermia
📈
Critical ABI
ABI <0.4 = Critical Ischaemia
Urgent vascular referral
🧠
Post-CEA BP Target
SBP <150 mmHg
Prevent hyperperfusion / haematoma
🚨
Neck Haematoma Post-CEA
Expanding haematoma
= Airway Emergency
Call surgeon + prepare airway NOW
Compartment Syndrome
Pain on passive stretch
= earliest sign
Compartment pressure >30 mmHg → fasciotomy
🍴
AAA Repair Threshold
≥5.5 cm in men
≥5.0 cm in women
Symptom = repair regardless of size
💉
AV Fistula Arm Rule
NO BP / cannula / bloods
on fistula arm — ever
🌟
ABI Non-Compressible
ABI >1.3 in diabetics
= calcified vessels
Use Toe-Brachial Index (TBI)
🇦🇪 GCC-Specific Clinical Priorities
Diabetic Vascular Disease
  • UAE, Saudi, Kuwait top 10 worldwide for diabetes
  • #1 driver of vascular surgery workload in GCC
  • Inspect feet of ALL diabetic inpatients at admission
  • Late presentation = higher amputation rate
High-Volume Procedures
  • AV fistula creation (ESRD epidemic in GCC)
  • Below-knee amputation (diabetic foot)
  • Tibial angioplasty (diabetic infrapopliteal disease)
  • EVAR (aging GCC population, AAA screening uptake)
Construction Worker & Hajj DVT Risk
  • Heat + dehydration + prolonged standing = DVT risk
  • Millions of low-wage workers with limited healthcare access
  • Hajj: 2–3M pilgrims, counsel high-risk on anticoagulation
  • Consider DVT prophylaxis for high-risk pilgrims
Related Clinical Guides
💉 Dialysis Nursing Guide
AV fistula care, haemodialysis, peritoneal dialysis in GCC
🧠 Diabetes Nursing Guide
Glycaemic management, insulin protocols, diabetic foot care
🩹 Wound Care Guide
NPWT, dressing selection, vascular wound management
💌 Cardiology Nursing Guide
Anticoagulation, ACS, cardiac risk in vascular patients
🧠 Stroke Unit Guide
Post-CEA neuro monitoring, stroke protocols, NIHSS
🤮 Orthopaedic Nursing Guide
Amputation rehabilitation, prosthetics, compartment syndrome