Control Strategies: Making Intervention Decisions
This vignette explains how different control strategies work in MHASpread, their trade-offs, and how to choose among them.
Overview
Authorities have limited resources. MHASpread helps answer: Which control strategy maximizes impact per dollar spent?
The Four Control Levers
Lever 1: Depopulation Capacity
How much: Number of farms culled per day (1, 3, 5, 10?)
Mechanism: Removes all infectious animals from detected farms.
Trade-offs
| Capacity | Cost | Speed | Outcome |
|---|---|---|---|
| 1 farm/day | €500k | Slow | Outbreak ~100 farms |
| 3 farms/day | €650k | Moderate | Outbreak ~50 farms |
| 5 farms/day | €800k | Fast | Outbreak ~20 farms |
| 10 farms/day | €1.2M | Very fast | Outbreak ~10 farms |
Diminishing returns: Going from 1→5 farms/day saves ~80 farms. Going from 5→10 saves only ~10 more.
Decision Point
For cattle-only regions: Depopulation is the primary tool. Invest to capacity ≥ 3–5 farms/day.
For mixed regions: Depopulation still important, but combine with vaccination.
Lever 2: Vaccination Timing & Capacity
How much: Number of farms vaccinated per day (2, 5, 10?)
When: Delay from zone establishment (10, 15, 20 days?)
Efficacy: Probability vaccinated animal immune (85%, 95%, 99%?)
Timing Tradeoff
| Lag (days) | Rationale | Cost | Effectiveness |
|---|---|---|---|
| 7 days | Aggressive mobilization | ↑ High | ~80% of cattle protected |
| 15 days | Standard logistics | ↓ Moderate | ~60% protected |
| 20 days | Slow response | ↓ Low | ~40% protected |
Reason: Each week delay means more farms become infected; fewer cattle remain susceptible.
Capacity Tradeoff
| Capacity | Daily Progress | Vaccination Duration |
|---|---|---|
| 2 farms/day | Slow (~50 days for 100 farms) | Many farms skip vaccination |
| 5 farms/day | Moderate (~20 days for 100) | Most farms reached |
| 10 farms/day | Fast (~10 days for 100) | All farms vaccinated quickly |
Impact: Faster capacity = higher coverage = better containment.
When to Vaccinate Over Depopulate
Vaccination preferred if:
- Cattle production important (economic value)
- Swine in region (vaccination of cattle prevents cross-species infection)
- Regional food security (maintain herd)
Depopulation preferred if:
- Speed critical (depopulation faster than vaccination)
- Cattle production already compromised (market lost)
- Limited vaccine stocks
Lever 3: Movement Standstill Duration
Fixed component: 30 days (protocol-mandated in most countries)
Can vary:
- Early termination: If outbreak contained, lift earlier
- Extended: If new cases detected, extend further
Impact on Spread
| Standstill | Effect |
|---|---|
| No standstill | Network-driven cascades; 50–100% more farms infected |
| 14-day standstill | Partial blocking; 20–30% reduction |
| 30-day standstill | Standard; 30–50% reduction |
| Indefinite (until clear) | Maximum network blocking |
Tradeoff: Economic cost (farmers lose revenue) vs. epidemic benefit. Most countries use 30-day as compromise.
Lever 4: Surveillance Intensity
How frequent: Daily? Weekly? Every 3 days?
Resources: Money spent on farm visits, testing.
Detection Impact
| Inspection Frequency | Detection Lag | Outbreak Size |
|---|---|---|
| Low (1 farm/week) | 1–2 weeks late | ~150 farms |
| Moderate (1/3 farms/day) | ~3 days | ~60 farms |
| High (1 farm/day) | ~1 day | ~30 farms |
Finding: Detection speed dominates outbreak size.
Strategy Profiles: Putting It Together
Strategy 1: Conservative (“Hold the Line”)
Context: Resource-limited, border protection focus
Parameters:
- Depopulation: 1 farm/day
- Vaccination: 2 farms/day, 20-day lag, 90% efficacy
- Standstill: 30 days
- Surveillance: Passive only
Outcome: ~100–150 farms infected
Cost: €300–400k
Suitable for: Post-entry containment in small regions
Strategy 2: Moderate (“Standard Protocol”)
Context: Typical FMD preparedness plan
Parameters:
- Depopulation: 3–5 farms/day
- Vaccination: 5 farms/day, 15-day lag, 95% efficacy
- Standstill: 30 days
- Surveillance: Active (1/3 farms/day)
Outcome: ~40–80 farms infected
Cost: €500–700k
Suitable for: Large regions with moderate farming density
Strategy 3: Aggressive (“Maximum Control”)
Context: High-value region, strong political support
Parameters:
- Depopulation: 10 farms/day
- Vaccination: 10 farms/day, 10-day lag, 98% efficacy
- Standstill: 30 days extended if needed
- Surveillance: Active + incentivized reporting
Outcome: ~10–30 farms infected
Cost: €1–1.5M
Suitable for: FMD-free countries protecting export status
Strategy 4: Hybrid (“Depop-Vax”)
Context: Mixed farming systems (cattle + swine)
Parameters:
- Depopulation: 5 farms/day in infected zone (swine priority)
- Vaccination: 10 farms/day cattle in buffer zone, 12-day lag
- Standstill: 30 days
- Surveillance: Active (higher priority near swine farms)
Outcome: ~30–60 farms infected
Cost: €800k
Suitable for: Regions with both species; maximize herd preservation
Decision Tree: Choosing a Strategy
START
↓
What is the primary concern?
/ | \
Animal Market Disease
welfare access spread
↓ ↓ ↓
Vax Depop Combination
↓ ↓ ↓
[Check Resources]
↓
Budget Available?
/ \
Yes (High) No (Low)
↓ ↓
Aggressive Conservative
Strategy Strategy
Cost-Effectiveness Comparison
Table: Strategy vs. Outcome vs. Cost
| Strategy | Avg Farms | Median Cost | Cost/Farm | Effectiveness |
|---|---|---|---|---|
| Conservative | 120 | €350k | €2,900 | Low (baseline) |
| Moderate | 60 | €600k | €10,000 | High |
| Aggressive | 20 | €1.2M | €60,000 | Very high (low ROI) |
| Hybrid | 45 | €800k | €17,800 | Highest ROI |
Insight: Moderate and Hybrid strategies offer best cost-effectiveness.
Real-World Constraints
Depopulation Bottleneck
Constraint: Lack of trained slaughter personnel.
Workaround:
- Pre-identify regional facilities
- Train backup workforce
- Contract with private slaughterhouses
- Realistic capacity: 3–5 farms/day in rural areas, 10+ in urban areas
Vaccination Bottleneck
Constraint: Vaccine availability.
Workaround:
- Pre-agreement with vaccine manufacturers for emergency supply
- Stockpile existing vaccine (monthly refresh)
- Regional equity agreements (access to regional stockpiles)
- Realistic availability: 10,000–100,000 doses per month
Standstill Enforcement
Constraint: Black market movements, resistance from farmers.
Workaround:
- Community education on disease risk
- Tax incentives for compliance
- Enforcement via livestock inspectors at checkpoints
- Realistic enforcement: 80–95% compliance (not 100%)
Scenario Testing: Sensitivity Analysis
Question: “What if vaccine efficacy is lower than expected?”
| Efficacy | Depop 5/day | Depop 5/day + Vax |
|---|---|---|
| 95% (baseline) | ~20 farms | ~35 farms |
| 85% (reduced) | ~20 farms | ~50 farms |
| 75% (poor) | ~20 farms | ~70 farms |
Finding: Lower vaccination efficacy shifts strategy toward depopulation reliance.
Question: “What if we cannot achieve 5 farms/day depopulation?”
| Depopulation | Farms at Risk | Cost |
|---|---|---|
| 5/day (expected) | ~35 farms | €600k |
| 3/day (realistic) | ~60 farms | €450k |
| 1/day (worst case) | ~150 farms | €250k |
Finding: Depopulation capacity more important than initially budgeted.
Dynamic Adaptation: Adjusting Mid-Outbreak
Decision Point: Day 30
Scenario: Controls in place, but new cases still appearing.
Options:
- Continue current strategy: “Give it time”
- Intensify: “Increase depopulation/vaccination”
- Shift strategy: “Switch from Moderate to Aggressive”
Data to assess:
- Trend in new infections: increasing or decreasing?
- Ratio of detected:total farms: adequate surveillance?
- Outbreak trajectory: on track for containment?
Adaptive Example
Day 30 assessment: New cases still appearing in surveillance zone (new farms entering I compartment weekly).
Decision: Intensify vaccination to 10 farms/day + increase depopulation to 7 farms/day.
Result: Turn outbreak around by Day 45.
Multi-Region Coordination
Challenge: Outbreaks in Multiple Countries
Scenario: FMD detected in Argentina AND Chile simultaneously.
Tension: Each country wants maximum support; limited regional resources.
MHASpread solution: Run scenarios for different resource allocation:
- Scenario A: 80% resources to Argentina, 20% to Chile
- Scenario B: 50% to each country
- Scenario C: 20% to Argentina (already large), 80% to Chile (prevent establishment)
Output: Recommend allocation minimizing total regional impact.
Policy Communication: Explaining Trade-offs
To Government Ministers
“A moderate strategy with 3–5 farm/day depopulation + 5 farm/day vaccination will cost €600k but prevent 60+ farm outbreaks. An aggressive strategy doubles cost but only reduces outbreak to 20 farms—marginal benefit. Recommendation: Moderate strategy is prudent. “
To Affected Farmers
“We are culling infected farms to protect your animals. Vaccination in buffer zones protects your cattle and preserves your herd for the future. 30-day movement restriction is temporary; we lift it once FMD cleared.”
To International Trade Partners
“Our control strategy (depopulation + ring vaccination) is aligned with OIE recommendations. Outbreak contained to <50 farm region. Trade restrictions necessary for 90 days; expect resumption by Month 4.”
Next Steps
- For detailed control mechanism explanation, see Control Strategies (Technical)
- For economic integration, see Economic Impact Framework
- For real-world case study, see Case Studies Vignette