From c5502085e85f1fb75000c901a90fe417889c10c6 Mon Sep 17 00:00:00 2001
From: Andreas Weyer <dev@cbaoth.de>
Date: Sat, 7 Feb 2026 12:38:27 +0000
Subject: [PATCH] Fix AI research doc formatting, latex math and citations

---
 ...mulatingLDXandD-AmphetaminePlasmaLevels.md | 421 +++++++++---------
 1 file changed, 207 insertions(+), 214 deletions(-)

diff --git a/docs/2026-01-17_AI-Reseach_SimulatingLDXandD-AmphetaminePlasmaLevels.md b/docs/2026-01-17_AI-Reseach_SimulatingLDXandD-AmphetaminePlasmaLevels.md
index 01493f7..5dc4bd2 100644
--- a/docs/2026-01-17_AI-Reseach_SimulatingLDXandD-AmphetaminePlasmaLevels.md
+++ b/docs/2026-01-17_AI-Reseach_SimulatingLDXandD-AmphetaminePlasmaLevels.md
@@ -1,10 +1,8 @@
-**
+# Pharmacometric Modeling and Simulation of Lisdexamfetamine Dimesylate
 
-Pharmacometric Modeling and Simulation of Lisdexamfetamine Dimesylate: A Comprehensive Analysis of Prodrug Kinetics and Volume of Distribution Anomalies
-========================================================================================================================================================
+***A Comprehensive Analysis of Prodrug Kinetics and Volume of Distribution Anomalies***
 
-1\. Executive Summary and Strategic Recommendations
----------------------------------------------------
+## 1\. Executive Summary and Strategic Recommendations
 
 ### 1.1 The Core Pharmacokinetic Conflict
 
@@ -14,32 +12,31 @@ Current simulation logic utilizes a shared Volume of Distribution (Vd) of approx
 
 Clinical data from healthy adults administered a 70 mg dose establishes the "ground truth":
 
--   Intact LDX: Peaks at ~58 ng/mL with a half-life of < 1 hour.
+- **Intact LDX:** Peaks at **~58 ng/mL** with a half-life of **< 1 hour**.
 
--   Active d-Amphetamine: Peaks at ~80 ng/mL with a half-life of ~10--11 hours.
+- **Active d-Amphetamine:** Peaks at **~80 ng/mL** with a half-life of **~10--11 hours**.
 
-For the simulation to reproduce this crossover (where the prodrug peak is lower than the metabolite peak despite a higher administered mass), the apparent Volume of Distribution for LDX must be increased significantly. This analysis confirms that Option A (LDX-Specific Vd) is the correct remedial approach.
+For the simulation to reproduce this crossover (where the prodrug peak is lower than the metabolite peak despite a higher administered mass), the apparent Volume of Distribution for LDX must be increased significantly. This analysis confirms that **Option A (LDX-Specific Vd)** is the correct remedial approach.
 
 ### 1.2 The "Apparent" Volume Paradox
 
-The high apparent Vd required for LDX (calculated in this report to be ~710--750 L, or roughly 2.0x to 2.5x the Vd of d-amphetamine) does not represent true tissue distribution. Rather, it is a mathematical artifact of the drug's rapid clearance mechanism. LDX is hydrolyzed efficiently by red blood cells (RBCs) with such velocity that it acts as a "metabolic sink," suppressing plasma concentrations to levels that mimic dilution into a massive volume.
+The high apparent Vd required for LDX (calculated in this report to be **~710--750 L**, or roughly **2.0x to 2.5x** the Vd of d-amphetamine) does not represent true tissue distribution. Rather, it is a mathematical artifact of the drug's rapid clearance mechanism. LDX is hydrolyzed efficiently by red blood cells (RBCs) with such velocity that it acts as a "metabolic sink," suppressing plasma concentrations to levels that mimic dilution into a massive volume.
 
 ### 1.3 Strategic Recommendations for Simulation Architecture
 
 To align the application with verified clinical pharmacokinetics, the following architectural changes are recommended:
 
-1.  Parameter Decoupling: The simulation must treat ldxVd and damphVd as distinct constants. The assumption that physicochemical properties (like molecular weight or solubility) predict Vd linearity fails for rapidly metabolized prodrugs.
+1. **Parameter Decoupling:** The simulation must treat `ldxVd` and `damphVd` as distinct constants. The assumption that physicochemical properties (like molecular weight or solubility) predict Vd linearity fails for rapidly metabolized prodrugs.
 
-2.  Implementation of Apparent Vd: Adopt an apparent Vd for intact LDX of 750 L (Standard Adult Model). This is empirically derived from Area Under the Curve (AUC) data in 70 mg dose studies.
+2. **Implementation of Apparent Vd:** Adopt an apparent Vd for intact LDX of **750 L** (Standard Adult Model). This is empirically derived from Area Under the Curve (AUC) data in 70 mg dose studies.
 
-3.  Stoichiometric Mass Transfer: Ensure the conversion logic accounts for the molecular weight disparity. Only 29.68% of the LDX mass converts to active d-amphetamine base (MW 135.21 / MW 455.60).
+3. **Stoichiometric Mass Transfer:** Ensure the conversion logic accounts for the molecular weight disparity. Only **29.68%** of the LDX mass converts to active d-amphetamine base (MW 135.21 / MW 455.60).
 
-4.  First-Order Kinetics: Despite the enzymatic nature of the hydrolysis, RBC capacity is non-saturable at therapeutic doses. Simple first-order decay equations (as currently used) remain valid; Michaelis-Menten kinetics are unnecessary for standard dosage simulation.
+4. **First-Order Kinetics:** Despite the enzymatic nature of the hydrolysis, RBC capacity is non-saturable at therapeutic doses. Simple first-order decay equations (as currently used) remain valid; Michaelis-Menten kinetics are unnecessary for standard dosage simulation.
 
 * * * *
 
-2\. Theoretical Framework: Prodrug Pharmacokinetics and Simulation Engineering
------------------------------------------------------------------------------------------
+## 2\. Theoretical Framework: Prodrug Pharmacokinetics and Simulation Engineering
 
 To build a robust medication planner that accurately simulates plasma levels, it is necessary to move beyond simple kinetic equations and understand the physiological behaviors governing the drug. Lisdexamfetamine Dimesylate (LDX) represents a sophisticated class of psychostimulants designed specifically to alter the absorption and activation profile of amphetamine.
 
@@ -47,130 +44,123 @@ To build a robust medication planner that accurately simulates plasma levels, it
 
 Lisdexamfetamine is the l-lysine conjugate of d-amphetamine. It was developed to address the limitations of immediate-release (IR) and extended-release (ER) amphetamine formulations. IR formulations produce rapid spikes in plasma concentration, associated with euphoria and abuse potential. ER formulations, often using beaded technology, rely on gastrointestinal pH and transit time, introducing intra-subject variability.
 
-The LDX molecule is therapeutically inactive. It has no affinity for the dopamine transporter (DAT) or norepinephrine transporter (NET).1 This inactivity is the foundation of its abuse-deterrent profile; the drug must be biologically activated to have an effect.
+The LDX molecule is therapeutically inactive. It has no affinity for the dopamine transporter (DAT) or norepinephrine transporter (NET). This inactivity is the foundation of its abuse-deterrent profile; the drug must be biologically activated to have an effect.[^1]
 
-Chemical Structure Implications:
+**Chemical Structure Implications:**
 
--   Molecular Weight (LDX Dimesylate): 455.60 g/mol.2
+- **Molecular Weight (LDX Dimesylate):** 455.60 g/mol.[^2]
 
--   Molecular Weight (d-Amphetamine Base): 135.21 g/mol.3
+- **Molecular Weight (d-Amphetamine Base):** 135.21 g/mol.[^3]
 
--   Solubility: LDX is highly water-soluble (792 mg/mL).2
+- **Solubility:** LDX is highly water-soluble (792 mg/mL).[^2][^4]
 
-In a simulation, the user inputs a dose (e.g., 50 mg). This is the mass of the salt. The simulation must track this mass as it moves through absorption, conversion, and elimination compartments.
+In a simulation, the user inputs a dose (e.g., 50 mg). This is the mass of the *salt*. The simulation must track this mass as it moves through absorption, conversion, and elimination compartments.
 
 ### 2.2 Compartmental Modeling for Prodrugs
 
-The most accurate mathematical representation for LDX is a Two-Compartment Model with First-Order Input and Metabolic Linkage.
+The most accurate mathematical representation for LDX is a **Two-Compartment Model with First-Order Input and Metabolic Linkage**.
 
-1.  Compartment 1 (Central LDX): Represents the systemic circulation of the intact prodrug.
+1. **Compartment 1 (Central LDX):** Represents the systemic circulation of the intact prodrug.
 
--   Input: Absorption from the GI tract (via PEPT1 transporter).
+    - *Input:* Absorption from the GI tract (via PEPT1 transporter).
 
--   Output: Elimination, which is overwhelmingly dominated by conversion to Compartment 2.
+    - *Output:* Elimination, which is overwhelmingly dominated by conversion to Compartment 2.
 
-2.  Compartment 2 (Central d-Amphetamine): Represents the systemic circulation of the active drug.
+2. **Compartment 2 (Central d-Amphetamine):** Represents the systemic circulation of the active drug.
 
--   Input: Formation from Compartment 1 (scaled by stoichiometry).
+    - *Input:* Formation from Compartment 1 (scaled by stoichiometry).
 
--   Output: Elimination via hepatic metabolism and renal excretion.
+    - *Output:* Elimination via hepatic metabolism and renal excretion.
 
-The "Vd Paradox" Explained:
+**The "Vd Paradox" Explained:** In pharmacokinetic simulation, Concentration (C) is defined as Amount (A) divided by Volume (V).
 
-In pharmacokinetic simulation, Concentration (![](data:image/png;base64,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)) is defined as Amount (![](data:image/png;base64,iVBORw0KGgoAAAANSUhEUgAAAA8AAAAYCAYAAAAlBadpAAAA+klEQVR4AezQsY4BURjF8dnd7Ca72QaRIEJDpSQKhU4tUWk8hl6UeAKNJ1DyAIgCnUbCCyBKCg3/M8mdIMGEEjm/6475TsbcT+uJz7t8/fAK3FrhLG4OzEejBj9+4cRNucT0AEpYi3GvnGewA/OXQ+yd3Cp7mPrGHEsoQS3GrXKRoTaUtRa4KucY7OMAxXXZy3QLU6gsXfbK3SdXmUri40SUvRLQYly+s053wU1zQGztbOzVsq6edpyBBpq4zJYfdojAiZ6c5mqCGWIY4wcmFTY9/OEfQ5RhqTxik8IX9J4JvvcwUTnLhe5Jhn0ddlnfD9GTHyqq9IrlIwAAAP//cXpLlQAAAAZJREFUAwDJ4iExygDb9QAAAABJRU5ErkJggg==)) divided by Volume (![](data:image/png;base64,iVBORw0KGgoAAAANSUhEUgAAABAAAAAYCAYAAADzoH0MAAABI0lEQVR4AeyUP2oCQRjFJynSpguBJCSENLlByAlSJIFUgRTpLES8gI3YCuIJPIC1Nt7A0kZERPzXWNhoq6i/p7MyO6u4YKu8375vdr557MwuXpoTf+cAY3QGF5xjBaawsrTwN3BVYhDMj6h/YROgm18M/kFS4ytFHVwlGDTgGx6gDJsAuRjqAnewTyluVkFPi22lLWwrY7q2eLLu2i2DH8hBSG7AjJkxPIPOBdspT5WEBYTkBmiix+UKbiDQJ4X23sYj8gP6tuPR+jX+B0XYq0MB97Y7i2dAbwqLyg8Y2BYFvFM3IXgqyqj8AJ2Bul646NvQN0F5WH5Ax7Z+4AU4Kj9AW5izKg0TOCo/YMkKvcYaHkt+QKxFbtM5wIT+D9yziV2vAQAA//+tmV2GAAAABklEQVQDAGdJKjFRbd6JAAAAAElFTkSuQmCC)).
-
-![](data:image/png;base64,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)
+$$C(t)=\frac{A(t)}{V}$$
 
 Physiologically, a highly water-soluble molecule like LDX should be confined to the extracellular fluid (~14--16 L in adults). If the simulation used a physiological Vd of 15 L, a 70 mg dose would produce a theoretical peak concentration of:
 
-![](data:image/png;base64,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)
+$$\frac{70,000,000 \text{ ng}}{15,000 \text{ mL}} \approx 4,666 \text{ ng/mL}$$
 
-However, clinical observations show a peak of only ~58 ng/mL.5 This discrepancy of nearly two orders of magnitude indicates that the drug is disappearing from the plasma almost instantly upon entry. In mathematical modeling, if we cannot change the Input (Absorption), we must increase the Volume term to force the Concentration down to observed levels. Thus, the Apparent Vd becomes a mathematical necessity to describe the rapid "disappearance" (hydrolysis) of the drug.
+However, clinical observations show a peak of only **~58 ng/mL**. This discrepancy of nearly two orders of magnitude indicates that the drug is disappearing from the plasma almost instantly upon entry. In mathematical modeling, if we cannot change the Input (Absorption), we must increase the Volume term to force the Concentration down to observed levels. Thus, the **Apparent Vd** becomes a mathematical necessity to describe the rapid "disappearance" (hydrolysis) of the drug.[^5]
 
 ### 2.3 The Role of PEPT1 and Absorption Kinetics
 
-Unlike free amphetamine, which absorbs via passive diffusion, LDX is a substrate for Peptide Transporter 1 (PEPT1).6 This transporter is located in the brush border of the small intestine.
+Unlike free amphetamine, which absorbs via passive diffusion, LDX is a substrate for **Peptide Transporter 1 (PEPT1)**. This transporter is located in the brush border of the small intestine.[^6][^7]
 
--   Simulation Relevance: PEPT1 transport is active but high-capacity. While theoretically saturable, studies indicate that up to 250 mg doses in humans show linear pharmacokinetics.8 Therefore, the simulation does not need to account for non-linear absorption saturation (Michaelis-Menten absorption). A standard first-order absorption rate constant (![](data:image/png;base64,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)) is sufficient.
+- **Simulation Relevance:** PEPT1 transport is active but high-capacity. While theoretically saturable, studies indicate that up to 250 mg doses in humans show linear pharmacokinetics. Therefore, the simulation does not need to account for non-linear absorption saturation (Michaelis-Menten absorption). A standard first-order absorption rate constant ($ka$​) is sufficient.[^8]
 
--   Food Effect: A critical variable for medication planners is food timing. Clinical data indicates that high-fat meals prolong ![](data:image/png;base64,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) of d-amphetamine by approximately 1 hour (from 3.8 to 4.7 hours) but do not significantly alter the Area Under the Curve (AUC) or ![](data:image/png;base64,iVBORw0KGgoAAAANSUhEUgAAACQAAAAVCAYAAAAuJkyQAAACdklEQVR4AeyWSUhVURjHLxFNRIsWFUTjqggaKIp6lQUtGqFVBW0qqkVRQUED0UwU1aaiiIiKoKh1FE1UNFJGiCKCqOC0EBQRFBQH/P0e78hT9Im+99CFj//vfN93z73nfu+Md1Q0zH4jCfU3ICM9NNgemsWD5+ELlMFvKIB9oG5R5EDG1duQneMtRbARrsN8WAmLYTbkwiH4AxlXz4Qe84bLcApWwXtoAdVOYd007FdohowrOaGjtL4XLsBd6E1tXCyEj5AVhYSm0PoVKIFrkEp5VL6BrCgkdJrWJ8F9aIVU8t7iVDekUxcS2pRoxLmRcIfGmNBYXj0PnKT52FTaQeUMyJpMyFVUzhvGwRjoSxOoOADVkDWZkI0/s4AwdLjdNJnoJTjhO7DqMMVrcGW6d7ky3bd2cc0V+wm7HoL03VZucOEmnAE1muIe+PyjkJA3fUhcXItN1mqCF+DO/RmrXADuS1UEm+EquEcdx9bCHfgBYTefi/8KLsJJWAqloA5SPIEjEAsJNRJsgbNgw3+xz8EkbGw7vssdE5e9ZI+tILoNxsuw3mPP4EZLKCpBnaB4CxXgOxdgv4Oyl//huPXMtBI/Lje9p3jrYDnsBpNzOJ3whF3yD5jEHK6EI8R//Y1YjaewnXdYd/ZF2JDAQvw6aALvC0l7PP1KToj6AWkNd/+EsG/F8EPvOF8cMg/pDVyvAYcXE22j8Dzcj50OD+AY+ExuOgl52IYeob3IQ9ivAn17cCKO88OhdY5tJXZKmJwreiqxJ4M9beL1xDnpJORLXAy0E5dfAg1xL4pM1Am9h9ip8B/rpPWZh/g7wQMcE/nl4GK4RBDrBAAA//8EU4MBAAAABklEQVQDABzceSt6f3TiAAAAAElFTkSuQmCC).2
+- **Food Effect:** A critical variable for medication planners is food timing. Clinical data indicates that high-fat meals prolong $T_{max}$​ of d-amphetamine by approximately 1 hour (from 3.8 to 4.7 hours) but do not significantly alter the Area Under the Curve (AUC) or $C_{max}$​.[^2][^9]
 
--   Modeling Note: This implies that food affects the ![](data:image/png;base64,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) (absorption rate) but not the bioavailability fraction (![](data:image/png;base64,iVBORw0KGgoAAAANSUhEUgAAAA8AAAAYCAYAAAAlBadpAAABIElEQVR4AeySvWoCQRSFJyEQki5lkjpFIEWaEMgPhIQ0gbSp0yQvYGPls9hZ2ggWioiKKGIlFmIpChYW4k+jqN9BB3R2mcbW5Xwzd++dszN7mWOzx3MwG/NE/6owgyU0IAMl6IFylku3YWUWPEIepC+GT3iBKziCH5hC3zWTM+cMz1CBDrhKkmjBIsz8SuEMUmB1TRAF6ZShDibM/K4CpEHSUWMEI5AmDH8QatbOqunras6Cl3+wfSBcy935gvQD6MjaUdzx3oUm7Mg1v1E9gSJYzQmyEJBrtv+7bdaukYCThGv+IDeEGliNCQYQ0Lb5lqooMOuoTH7JrKPqCiY2S7+Z2xAHr2TOsUJX8J5Z3RU3xL/glczeBb7iwezrTkhtBQAA//9f6j54AAAABklEQVQDAJ8SMDHCe9tLAAAAAElFTkSuQmCC)).
+  - *Modeling Note:* This implies that food affects the ka​ (absorption rate) but not the bioavailability fraction ($F$).
 
 * * * *
 
-3\. Detailed Pharmacokinetics of Intact Lisdexamfetamine
--------------------------------------------------------------------
+## 3\. Detailed Pharmacokinetics of Intact Lisdexamfetamine
 
 To correct the "Option A" parameters, we must derive precise values from the literature, specifically analyzing the kinetic behavior of the parent molecule.
 
 ### 3.1 Metabolism: The Red Blood Cell Sink
 
-The rapid clearance of LDX is driven by hydrolytic enzymes in red blood cell (RBC) cytosol.10 This is a crucial distinction from hepatic metabolism.
+The rapid clearance of LDX is driven by hydrolytic enzymes in red blood cell (RBC) cytosol. This is a crucial distinction from hepatic metabolism.[^10][^11]
 
--   Mechanism: An aminopeptidase enzyme cleaves the amide bond.
+- **Mechanism:** An aminopeptidase enzyme cleaves the amide bond.
 
--   Location: Cytosol of RBCs.
+- **Location:** Cytosol of RBCs.
 
--   Capacity: High capacity, non-saturable at therapeutic doses.
+- **Capacity:** High capacity, non-saturable at therapeutic doses.
 
--   Rate: The hydrolysis is rapid. The half-life (![](data:image/png;base64,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)) of intact LDX is consistently reported as < 1 hour, typically averaging 0.4 to 0.6 hours.5
+- **Rate:** The hydrolysis is rapid. The half-life ($t_{1/2}$) of intact LDX is consistently reported as **< 1 hour**, typically averaging **0.4 to 0.6 hours**.[^5][^12]
 
-This mechanism creates a "sink" effect. As soon as LDX molecules are absorbed from the gut into the portal blood, they enter RBCs and are converted. This keeps the plasma concentration of intact LDX low, even though the total flux of drug through the system is high.
+This mechanism creates a "sink" effect. As soon as LDX molecules are absorbed from the gut into the portal blood, they enter RBCs and are converted. This keeps the *plasma* concentration of intact LDX low, even though the total flux of drug through the system is high.
 
 ### 3.2 Quantitative Derivation of Apparent Vd
 
-The user's simulation currently fails because it lacks the correct scalar for the LDX volume. We can calculate the required scalar using data from Study NRP104.102 (Single 70 mg dose in healthy adults).5
+The user's simulation currently fails because it lacks the correct scalar for the LDX volume. We can calculate the required scalar using data from Study NRP104.102 (Single 70 mg dose in healthy adults).[^5]
 
-Clinical Data Points (70 mg Dose):
+**Clinical Data Points (70 mg Dose):**
 
--   Dose (![](data:image/png;base64,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)): 70 mg
+- **Dose ($D$):** 70 mg
 
--   AUC (![](data:image/png;base64,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)): 67.0 ng-h/mL
+- **AUC ($AUC0-∞$​):** 67.0 ng-h/mL
 
--   Half-life (![](data:image/png;base64,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)): 0.47 h
+- **Half-life ($t_{1/2}$​):** 0.47 h
 
-Step 1: Calculate Total Clearance (CL/F)
+**Step 1: Calculate Total Clearance (CL/F)** Clearance is the volume of plasma cleared of drug per unit time.
 
-Clearance is the volume of plasma cleared of drug per unit time.
+$$CL/F=\frac{Dose}{AUC}$$
 
-![](data:image/png;base64,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)
+$$CL/F=\frac{70,000,000 \text{ ng}}{67.0 \text{ ng⋅h/mL}} \approx 1,044,776 \text{ mL/h}$$
 
-![](data:image/png;base64,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)
+$$CL/F \approx 1,045 \text{ L/h}$$
 
-![](data:image/png;base64,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)
+**Step 2: Calculate Elimination Rate Constant (kel​)**
 
-Step 2: Calculate Elimination Rate Constant (![](data:image/png;base64,iVBORw0KGgoAAAANSUhEUgAAABYAAAAYCAYAAAD+vg1LAAABsElEQVR4AeyTyysGURjGx/2ykFIkFlayoKRICgss7CwkxUZRkg12UqIUCzsLlHKL8AeQIrlEuUTKX+CWS2Il99/zfWY6icw0UcrX8zvve87Meeac95wv1Pqh37+xU9hfKUUzn7uAV2gBXzJXPIBTB0jbavxgGsunmOYWNsGXTOMwnEphAZ7Bl0zjXJwSYRGkQpo52AHthOBepnHZ+zQZN5KnwTykQyZ40kfjQ2ZXwjVMwCnMwCR8JXkM8vAR4iAgDSpJoNHWs4i1kAQRoHo3EHWghE/1wugo7MMdBGQblwR6lqVaVpC3wgi4leZtmC/bxkUM3oAeHhN3IRsk7UC3RXkqzTD0whhEgyTjLSU2prFM7WsWxQtnoCtYTlyBZJiFLmiHB4iHcJDxEtGRjPXVDEamwFYfSSyswRA8QROEQD3oH6q6npPnwxFcgiMZ39OLhGmwpdXrMAsYWAUph2YctOJuot4hWCqjFqDcQcZO55vkhOcxIOnGdJKkQB6sQw848mKsuuo69jNbZVgm6mN7xGo4AEdejK+YVQdtUAP29lWWKvo6WEJQXoyDM1y2f8/4DQAA//+JrIa1AAAABklEQVQDAA1zSjFJ98IPAAAAAElFTkSuQmCC))
+$$k_{el} = \frac{\ln(2)}{t_{1/2}}$$
 
-![](data:image/png;base64,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)
+$$k_{el} = \frac{0.6931}{0.47 \text{ h}} \approx 1.475 \text{ h}^{-1}$$
 
-![](data:image/png;base64,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)
+**Step 3: Calculate Apparent Volume of Distribution (V/F)**
 
-Step 3: Calculate Apparent Volume of Distribution (V/F)
+$$V/F=\frac{CL/F}{kel}$$
 
-![](data:image/png;base64,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)
+$$V/F=\frac{1,045 \text{ L/h}}{1.475 \text{ h}^{-1}} \approx 708.5 \text{ L}$$
 
-![](data:image/png;base64,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)
-
-Result: The derived apparent Volume of Distribution for intact LDX is approximately 710 Liters.
-
-This value is mathematically robust and explains the user's observation. If the user applies a standard d-amphetamine Vd (e.g., 377 L) to LDX, the simulated concentration will be roughly double the clinical reality (![](data:image/png;base64,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)).
+**Result:** The derived apparent Volume of Distribution for intact LDX is approximately **710 Liters**. This value is mathematically robust and explains the user's observation. If the user applies a standard d-amphetamine Vd (e.g., 377 L) to LDX, the simulated concentration will be roughly double the clinical reality ($710/377≈1.88$).
 
 ### 3.3 Simulation Constants for Intact LDX
 
 Based on this derivation, the following parameters should be hard-coded or configured for the Intact LDX compartment in the React app:
 
-| Parameter | Recommended Value | Source/Logic |
-| --- |  --- |  --- |
-| Apparent Vd | 710 L (Range: 650--800) | Derived from 5 |
-| Half-Life (![](data:image/png;base64,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)) | 0.5 h (Range: 0.4--0.6) | 2 |
-| Elimination Rate (![](data:image/png;base64,iVBORw0KGgoAAAANSUhEUgAAAAkAAAAVCAYAAACUhcTwAAAA4UlEQVR4AczQP+tBURzH8V8/+ZNVsZpkURaLwoDBZjBalcHC7AnYLQaTInkAZCQZMHkKopRks4j3R53bySCDgT6ve8/5+nS75/7/ffD79VKNMxxxRx1O7BdvM21CWeli2CXNMlwuWMKJXXIxzWGCG5zYpQTTIKZQUlxGWNulPANFpSqLMMaIvJa2DEs4oYc9hqYUYKPHx7iXEYIber+KKWUZKDpdkUUDXTxjSml2ZyywwwZxKGW7pII5upd/D9BnKajkYxNFHyYtFn7M0VHpysKDAUz0VB0kyWCmEvf3+V7pAQAA//87Y8PYAAAABklEQVQDAGcyJCtqKI3MAAAAAElFTkSuQmCC)) | 1.386 h⁻¹ | $ \\ln(2) / 0.5 $ |
-| Tmax | 1.0 h | 6 |
+| Parameter                | Recommended Value           | Source/Logic    |
+|--------------------------|-----------------------------|-----------------|
+| **Apparent Vd**          | **710 L** (Range: 650--800) | Derived from    |
+|                          |                             |                 |
+| **Half-Life (t1/2​)**     | **0.5 h** (Range: 0.4--0.6) |                 |
+| **Elimination Rate (k)** | **1.386 h⁻¹**               | $\\ln(2) / 0.5$ |
+| **Tmax**                 | **1.0 h**                   |                 |
 
 * * * *
 
-4\. Detailed Pharmacokinetics of d-Amphetamine (The Metabolite)
---------------------------------------------------------------------------
+## 4\. Detailed Pharmacokinetics of d-Amphetamine (The Metabolite)
 
 The simulation of the active metabolite requires handling the input from the prodrug and modeling its subsequent distinct distribution and elimination.
 
@@ -178,79 +168,77 @@ The simulation of the active metabolite requires handling the input from the pro
 
 A common error in prodrug simulation is assuming a 1:1 mass transfer (e.g., "50 mg of LDX becomes 50 mg of Amphetamine"). This violates the law of conservation of mass regarding the lysine moiety.
 
--   LDX Mass: 455.60 g/mol.
+- **LDX Mass:** 455.60 g/mol.
 
--   d-Amphetamine Mass: 135.21 g/mol.
+- **d-Amphetamine Mass:** 135.21 g/mol.
 
--   Lysine Mass: ~146 g/mol (plus mesylate salts).
+- **Lysine Mass:** ~146 g/mol (plus mesylate salts).
 
-The Conversion Factor (![](data:image/png;base64,iVBORw0KGgoAAAANSUhEUgAAAA8AAAAXCAYAAADUUxW8AAABKUlEQVR4AdySLWtCURjH7zZW17a1pbG8wco+wBiMpY2trm6YBIvfwWBSo0UMisFgNWg0CoLFJIgGg2AR0d//cs7Fez3CFZNe/r/n7Z7nvNxzz70DnhNqXvEZXFSoh+Q68xkjRA4vfWGUf+NDss2fVH/hCqwWJpgbL/eAScIHeLb5lqQIDYhKR1DtHtOFBIwgaM6T9OAFLsClZ4qXUIYOBM2Khxjt5Abvkq1P7EsNtnHfBNqeQn0kecuTCQbGh1ZumuK78dHtP1IfQxt8ba5cpaIJ/vDXYKVJMiRq/sdPwddmswqvmDSUwL8OfBbu4AdqECjavORNAd6gBVIKo8ZYfxhjPd3tTAEoxm0rurJGaLDQ+ZTXMcpjrawrcrHz32by/eXaduxZjrR5DQAA//8yw80eAAAABklEQVQDAEJtLi9nppfeAAAAAElFTkSuQmCC)) is the ratio of the molecular weights of the active base to the prodrug salt:
+The **Conversion Factor** ($Ψ$) is the ratio of the molecular weights of the active base to the prodrug salt:
 
-![](data:image/png;base64,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)
+$$Ψ = \frac{135.21}{455.60} \approx 0.2968$$
 
-Simulation Logic: For every milligram of LDX eliminated from Compartment 1, exactly 0.2968 mg of d-amphetamine enters Compartment 2. The remaining mass represents the lysine and mesylate groups, which are biologically ubiquitous and pharmacologically irrelevant.
+**Simulation Logic:** For every milligram of LDX eliminated from Compartment 1, exactly **0.2968 mg** of d-amphetamine enters Compartment 2. The remaining mass represents the lysine and mesylate groups, which are biologically ubiquitous and pharmacologically irrelevant.
 
 ### 4.2 Distribution of d-Amphetamine
 
-Unlike the prodrug, d-amphetamine is a lipophilic, basic amine (![](data:image/png;base64,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)). It crosses the blood-brain barrier efficiently and binds to tissues.
+Unlike the prodrug, d-amphetamine is a lipophilic, basic amine ($pKa≈9.9$). It crosses the blood-brain barrier efficiently and binds to tissues.
 
--   Vd: The user's current value of 377 L is well-supported by population pharmacokinetic studies.15 Other studies suggest a range of 300--420 L depending on body weight.16
+- **Vd:** The user's current value of **377 L** is well-supported by population pharmacokinetic studies. Other studies suggest a range of 300--420 L depending on body weight.[^15][^16]
 
--   Comparison: The Vd of the metabolite (377 L) is actually smaller than the apparent Vd of the prodrug (710 L), confirming the user's visual intuition that "Option A" (increasing LDX Vd) is the correct path to fixing the chart discrepancy.
+- **Comparison:** The Vd of the metabolite (377 L) is actually *smaller* than the apparent Vd of the prodrug (710 L), confirming the user's visual intuition that "Option A" (increasing LDX Vd) is the correct path to fixing the chart discrepancy.
 
 ### 4.3 Elimination of d-Amphetamine
 
--   Half-Life: Clinical data consistently places the ![](data:image/png;base64,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) of d-amphetamine derived from LDX at 10--13 hours in adults.5
+- **Half-Life:** Clinical data consistently places the $t_{1/2}$ of d-amphetamine derived from LDX at **10--13 hours** in adults.[^5][^17]
 
--   Mechanism: Elimination involves hepatic metabolism (CYP2D6 hydroxylation and deamination) and renal excretion of unchanged drug.
+- **Mechanism:** Elimination involves hepatic metabolism (CYP2D6 hydroxylation and deamination) and renal excretion of unchanged drug.
 
--   pH Sensitivity: Renal excretion is highly sensitive to urinary pH. Acidic urine accelerates excretion (shortening ![](data:image/png;base64,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)), while alkaline urine promotes reabsorption (extending ![](data:image/png;base64,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)).2
+- **pH Sensitivity:** Renal excretion is highly sensitive to urinary pH. Acidic urine accelerates excretion (shortening $t_{1/2}$), while alkaline urine promotes reabsorption (extending $t_{1/2}$).[^2][^18]
 
--   Simulation Note: A sophisticated app might allow users to toggle "Urinary pH" factors (e.g., taking Vitamin C vs. Antacids), modifying the ![](data:image/png;base64,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) of the d-amphetamine compartment.
+  - *Simulation Note:* A sophisticated app might allow users to toggle "Urinary pH" factors (e.g., taking Vitamin C vs. Antacids), modifying the kel​ of the d-amphetamine compartment.
 
 * * * *
 
-5\. Quantitative Analysis of Clinical Data Validation
-----------------------------------------------------------------
+## 5\. Quantitative Analysis of Clinical Data Validation
 
 To validate the proposed model, we must compare the simulated outputs against the "Gold Standard" curves found in the literature. The user mentioned visual discrepancies; this section provides the numerical targets to ensure the fix works.
 
 ### 5.1 The 70 mg Reference Case
 
-Clinical Data Source: 5 (Single 70 mg dose, healthy adults).
+**Clinical Data Source:**  (Single 70 mg dose, healthy adults).[^5]
 
-| Metric | Target (Clinical) | Current Sim (Est. 377L Vd) | Fixed Sim (710L Vd) |
-| --- |  --- |  --- |  --- |
-| LDX Peak (![](data:image/png;base64,iVBORw0KGgoAAAANSUhEUgAAACQAAAAVCAYAAAAuJkyQAAACdklEQVR4AeyWSUhVURjHLxFNRIsWFUTjqggaKIp6lQUtGqFVBW0qqkVRQUED0UwU1aaiiIiKoKh1FE1UNFJGiCKCqOC0EBQRFBQH/P0e78hT9Im+99CFj//vfN93z73nfu+Md1Q0zH4jCfU3ICM9NNgemsWD5+ELlMFvKIB9oG5R5EDG1duQneMtRbARrsN8WAmLYTbkwiH4AxlXz4Qe84bLcApWwXtoAdVOYd007FdohowrOaGjtL4XLsBd6E1tXCyEj5AVhYSm0PoVKIFrkEp5VL6BrCgkdJrWJ8F9aIVU8t7iVDekUxcS2pRoxLmRcIfGmNBYXj0PnKT52FTaQeUMyJpMyFVUzhvGwRjoSxOoOADVkDWZkI0/s4AwdLjdNJnoJTjhO7DqMMVrcGW6d7ky3bd2cc0V+wm7HoL03VZucOEmnAE1muIe+PyjkJA3fUhcXItN1mqCF+DO/RmrXADuS1UEm+EquEcdx9bCHfgBYTefi/8KLsJJWAqloA5SPIEjEAsJNRJsgbNgw3+xz8EkbGw7vssdE5e9ZI+tILoNxsuw3mPP4EZLKCpBnaB4CxXgOxdgv4Oyl//huPXMtBI/Lje9p3jrYDnsBpNzOJ3whF3yD5jEHK6EI8R//Y1YjaewnXdYd/ZF2JDAQvw6aALvC0l7PP1KToj6AWkNd/+EsG/F8EPvOF8cMg/pDVyvAYcXE22j8Dzcj50OD+AY+ExuOgl52IYeob3IQ9ivAn17cCKO88OhdY5tJXZKmJwreiqxJ4M9beL1xDnpJORLXAy0E5dfAg1xL4pM1Am9h9ip8B/rpPWZh/g7wQMcE/nl4GK4RBDrBAAA//8EU4MBAAAABklEQVQDABzceSt6f3TiAAAAAElFTkSuQmCC)) | ~58 ng/mL | ~110--130 ng/mL | ~55--65 ng/mL |
-| LDX Time to Peak (![](data:image/png;base64,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)) | 1.0 hour | 1.0 hour | 1.0 hour |
-| d-Amph Peak (![](data:image/png;base64,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)) | ~80 ng/mL | ~80 ng/mL | ~80 ng/mL |
-| d-Amph Time to Peak | 3.5--4.5 hours | 3.5--4.5 hours | 3.5--4.5 hours |
-| Crossover Point | ~1.5 hours | \> 3.0 hours (incorrect) | ~1.5 hours |
+| Metric                           | Target (Clinical)  | Current Sim (Est. 377L Vd) | Fixed Sim (710L Vd) |
+|----------------------------------|--------------------|----------------------------|---------------------|
+| **LDX Peak ($C_{max}$​)**         | **~58 ng/mL**      | ~110--130 ng/mL            | ~55--65 ng/mL       |
+| **LDX Time to Peak ($T_{max}$​)** | **1.0 hour**       | 1.0 hour                   | 1.0 hour            |
+| **d-Amph Peak ($_{max}$​)**       | **~80 ng/mL**      | ~80 ng/mL                  | ~80 ng/mL           |
+| **d-Amph Time to Peak**          | **3.5--4.5 hours** | 3.5--4.5 hours             | 3.5--4.5 hours      |
+| **Crossover Point**              | **~1.5 hours**     | > 3.0 hours (incorrect)    | ~1.5 hours          |
 
-Analysis of the Fix:
+**Analysis of the Fix:**
 
--   Peak Height Reversal: In the "Current Sim," LDX (110+) > d-Amph (80). In the "Fixed Sim," LDX (58) < d-Amph (80). This accurately replicates the literature charts.6
+- **Peak Height Reversal:** In the "Current Sim," LDX (110+) > d-Amph (80). In the "Fixed Sim," LDX (58) < d-Amph (80). This accurately replicates the literature charts.[^6][^14]
 
--   Shape: The LDX curve becomes a sharp "spike" that disappears quickly, while d-amphetamine becomes a broad "hill."
+- **Shape:** The LDX curve becomes a sharp "spike" that disappears quickly, while d-amphetamine becomes a broad "hill."
 
 ### 5.2 Pediatric vs. Adult Modeling
 
-The snippets contain crucial data regarding age-dependent kinetics.19
+The snippets contain crucial data regarding age-dependent kinetics.[^19]
 
--   Children (6--12 years):
+- **Children (6--12 years):**
 
--   ![](data:image/png;base64,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) of d-amphetamine is shorter (~9 hours vs 11 hours in adults) due to higher weight-normalized metabolic rate.
+  - $t_{1/2}$​ of d-amphetamine is shorter (~9 hours vs 11 hours in adults) due to higher weight-normalized metabolic rate.
 
--   ![](data:image/png;base64,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) is similar (~3.5 hours).
+  - $T_{max}$​ is similar (~3.5 hours).
 
--   Vd scales with body weight.
+  - $Vd$ scales with body weight.
 
--   App Logic: If the app supports pediatric profiles, the d-amphetamine elimination rate constant should be increased slightly (![](data:image/png;base64,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) instead of ![](data:image/png;base64,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)).
+- **App Logic:** If the app supports pediatric profiles, the d-amphetamine elimination rate constant should be increased slightly ($k_{el}​≈0.077 h^{-1}$ instead of $0.063$).
 
 * * * *
 
-6\. Simulation Engineering: Implementation Guide
------------------------------------------------------------
+## 6\. Simulation Engineering: Implementation Guide
 
 This section translates the biological findings into executable logic for the React application.
 
@@ -260,22 +248,26 @@ The simulation should utilize a discrete time-step algorithm (e.g., Euler method
 
 JavaScript
 
+```js
 // PHARMACOKINETIC CONSTANTS (ADULT MALE STANDARD)
 const PARAMS = {
-    LDX: {
-        Vd: 710.0,      // Apparent Vd in Liters (Validated Option A)
-        t\_half: 0.5,    // Hours (Rapid hydrolysis)
-        ka: 2.0         // Absorption rate (1/h) ~ Tmax 1h
-    },
-    DAMPH: {
-        Vd: 377.0,      // Population Vd in Liters
-        t\_half: 11.0    // Hours
-    },
-    STOICHIOMETRY: 0.2968 // MW Ratio (135.21 / 455.60)
+    LDX: {
+        Vd: 710.0,      // Apparent Vd in Liters (Validated Option A)
+        t_half: 0.5,    // Hours (Rapid hydrolysis)
+        ka: 2.0         // Absorption rate (1/h) ~ Tmax 1h
+    },
+    DAMPH: {
+        Vd: 377.0,      // Population Vd in Liters
+        t_half: 11.0    // Hours
+    },
+    STOICHIOMETRY: 0.2968 // MW Ratio (135.21 / 455.60)
 };
+
 // DERIVED RATE CONSTANTS (1/h)
-const k\_el\_ldx = 0.6931 / PARAMS.LDX.t\_half;
-const k\_el\_damph = 0.6931 / PARAMS.DAMPH.t\_half;
+const k_el_ldx = 0.6931 / PARAMS.LDX.t_half;
+const k_el_damph = 0.6931 / PARAMS.DAMPH.t_half;
+
+```
 
 ### 6.2 The Simulation Loop
 
@@ -283,181 +275,182 @@ The core loop must calculate the flux between compartments.
 
 JavaScript
 
+```js
 function simulateStep(state, dt) {
-    // state.ldx\_gut: Amount in gut (mg)
-    // state.ldx\_plasma: Amount in central circulation (mg)
-    // state.damph\_plasma: Amount in central circulation (mg)
-    // 1. ABSORPTION (Gut -> LDX Plasma)
-    // First-order absorption
-    const absorptionRate = PARAMS.LDX.ka \* state.ldx\_gut;
-    const absorbed = absorptionRate \* dt;
-    // 2. CONVERSION (LDX Plasma -> d-Amph Plasma)
-    // This is the elimination of LDX (via RBC hydrolysis)
-    const eliminationRateLdx = k\_el\_ldx \* state.ldx\_plasma;
-    const eliminatedLdx = eliminationRateLdx \* dt;
-   
-    // Stoichiometric conversion to active drug
-    const createdDamph = eliminatedLdx \* PARAMS.STOICHIOMETRY;
-    // 3. ELIMINATION (d-Amph Plasma -> Urine/Metabolites)
-    const eliminationRateDamph = k\_el\_damph \* state.damph\_plasma;
-    const eliminatedDamph = eliminationRateDamph \* dt;
-    // 4. UPDATE STATE
-    state.ldx\_gut -= absorbed;
-    state.ldx\_plasma += (absorbed - eliminatedLdx);
-    state.damph\_plasma += (createdDamph - eliminatedDamph);
-    // 5. CALCULATE CONCENTRATIONS (ng/mL)
-    // (mg / L) \* 1000 = ng/mL
-    const ldxConc = (state.ldx\_plasma / PARAMS.LDX.Vd) \* 1000;
-    const damphConc = (state.damph\_plasma / PARAMS.DAMPH.Vd) \* 1000;
-    return { ldxConc, damphConc };
+    // state.ldx_gut: Amount in gut (mg)
+    // state.ldx_plasma: Amount in central circulation (mg)
+    // state.damph_plasma: Amount in central circulation (mg)
+
+    // 1. ABSORPTION (Gut -> LDX Plasma)
+    // First-order absorption
+    const absorptionRate = PARAMS.LDX.ka * state.ldx_gut;
+    const absorbed = absorptionRate * dt;
+
+    // 2. CONVERSION (LDX Plasma -> d-Amph Plasma)
+    // This is the elimination of LDX (via RBC hydrolysis)
+    const eliminationRateLdx = k_el_ldx * state.ldx_plasma;
+    const eliminatedLdx = eliminationRateLdx * dt;
+
+    // Stoichiometric conversion to active drug
+    const createdDamph = eliminatedLdx * PARAMS.STOICHIOMETRY;
+
+    // 3. ELIMINATION (d-Amph Plasma -> Urine/Metabolites)
+    const eliminationRateDamph = k_el_damph * state.damph_plasma;
+    const eliminatedDamph = eliminationRateDamph * dt;
+
+    // 4. UPDATE STATE
+    state.ldx_gut -= absorbed;
+    state.ldx_plasma += (absorbed - eliminatedLdx);
+    state.damph_plasma += (createdDamph - eliminatedDamph);
+
+    // 5. CALCULATE CONCENTRATIONS (ng/mL)
+    // (mg / L) * 1000 = ng/mL
+    const ldxConc = (state.ldx_plasma / PARAMS.LDX.Vd) * 1000;
+    const damphConc = (state.damph_plasma / PARAMS.DAMPH.Vd) * 1000;
+
+    return { ldxConc, damphConc };
 }
 
+```
+
 ### 6.3 Addressing "Option B" (Empirical Factor)
 
 The user's "Option B" suggested an empirical correction factor of 0.4.
 
--   Analysis: ![](data:image/png;base64,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).
+- **Analysis:** $Vd_{ratio} = \frac{377}{710} \approx 0.53$.
 
--   Verdict: An empirical factor of 0.4--0.5 applied to the concentration calculation is mathematically equivalent to increasing the Vd. However, implementing the explicit Vd (Option A) is superior because it preserves the physical meaning of the variables, making the code easier to maintain and adjust for variables like body weight in the future.
+- **Verdict:** An empirical factor of 0.4--0.5 applied to the *concentration* calculation is mathematically equivalent to increasing the Vd. However, implementing the explicit Vd (Option A) is superior because it preserves the physical meaning of the variables, making the code easier to maintain and adjust for variables like body weight in the future.
 
 * * * *
 
-7\. Comparative Pharmacology and Abuse Deterrence
-------------------------------------------------------------
+## 7\. Comparative Pharmacology and Abuse Deterrence
 
-Understanding why the curves look this way provides confidence in the simulation's validity. The unique profile of LDX---simulated by the parameters above---is the mechanism of its abuse deterrence.
+Understanding *why* the curves look this way provides confidence in the simulation's validity. The unique profile of LDX---simulated by the parameters above---is the mechanism of its abuse deterrence.
 
 ### 7.1 Blunted Cmax and Delayed Tmax
 
-Immediate-release d-amphetamine peaks rapidly (Tmax ~1-2 h), creating a steep rise in plasma levels that correlates with subjective "drug liking" and euphoria.
+Immediate-release d-amphetamine peaks rapidly (Tmax ~1-2 h), creating a steep rise in plasma levels that correlates with subjective "drug liking" and euphoria. The simulation of LDX produces a **blunted** profile for d-amphetamine:
 
-The simulation of LDX produces a blunted profile for d-amphetamine:
+- **Lower Cmax:** The peak is lower than an equivalent molar dose of IR amphetamine because the drug is released gradually over hours.
 
--   Lower Cmax: The peak is lower than an equivalent molar dose of IR amphetamine because the drug is released gradually over hours.
+- **Delayed Tmax:** The peak occurs at 3.5--4.5 hours.
 
--   Delayed Tmax: The peak occurs at 3.5--4.5 hours.
-
-This "blunting" is verified by the snippets showing lower "drug liking" scores for LDX compared to IR d-amphetamine.14 The simulation must reflect this: if the d-amphetamine curve rises too sharply, the hydrolysis rate constant (![](data:image/png;base64,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)) or the absorption rate (![](data:image/png;base64,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)) is likely set too high. The recommended ![](data:image/png;base64,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) of 0.5h for LDX usually provides the correct buffering.
+This "blunting" is verified by the snippets showing lower "drug liking" scores for LDX compared to IR d-amphetamine. The simulation must reflect this: if the d-amphetamine curve rises too sharply, the hydrolysis rate constant ($k_{el\_ldx}$) or the absorption rate ($ka$) is likely set too high. The recommended $t_{1/2}$​ of 0.5h for LDX usually provides the correct buffering.[^14][^20]
 
 ### 7.2 Route Independence
 
 A key feature of LDX is that its activation is rate-limited by the RBC enzymes, not the route of entry.
 
--   Intranasal/IV: Even if injected or snorted, LDX must still pass through the RBC hydrolysis step.
+- **Intranasal/IV:** Even if injected or snorted, LDX must still pass through the RBC hydrolysis step.
 
--   Simulation Implication: Unlike IR stimulants where IV administration effectively sets ![](data:image/png;base64,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) (instant absorption), for LDX, the "input" to the d-amphetamine compartment is always throttled by the RBC hydrolysis rate. A robust simulation of LDX could technically model IV administration simply by bypassing the Gut compartment but maintaining the hydrolysis step---predicting correctly that the d-amphetamine surge remains blunted.21
+- **Simulation Implication:** Unlike IR stimulants where IV administration effectively sets $ka \to \infty$ (instant absorption), for LDX, the "input" to the d-amphetamine compartment is *always* throttled by the RBC hydrolysis rate. A robust simulation of LDX could technically model IV administration simply by bypassing the Gut compartment but maintaining the hydrolysis step---predicting correctly that the d-amphetamine surge remains blunted.[^21]
 
 * * * *
 
-8\. Variabilities and Covariates
--------------------------------------------
+## 8\. Variabilities and Covariates
 
 To elevate the app from a "hobby project" to a robust tool, the developer might consider implementing covariates identified in the research.
 
 ### 8.1 Effect of Body Weight
 
-Pharmacokinetic parameters for amphetamines are strongly correlated with body weight.15
+Pharmacokinetic parameters for amphetamines are strongly correlated with body weight.[^15]
 
--   Recommendation: Rather than fixed Vd values (710L / 377L), use weight-based scaling if the user provides weight.
+- **Recommendation:** Rather than fixed $Vd$ values (710L / 377L), use weight-based scaling if the user provides weight.
 
--   d-Amph: ![](data:image/png;base64,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) (e.g., 70 kg ![](data:image/png;base64,iVBORw0KGgoAAAANSUhEUgAAABMAAAAXCAYAAADpwXTaAAAAtUlEQVR4AeyQOwoCQQxAF8EDCN5Bz2Bvr60I2gk2ViJWXsJebSw8gaCn8AKWglew8WWZDQS2SdhqP+TNJkPyYNLJKvxamX+Z9dvZpGwJ0WcukfXARFR2xLICE1HZE0sfRqARlYlgx7GBPXQhK2QXioeTO/0D2MIcVLagGDuZ0f+GIZxAZZJ7kBedGVjDF/KQyzxxHlP6r/ABjahMdnRTS0qisgPzPzARlb2MJRVRWRq3v4bI/gAAAP//ksgEMwAAAAZJREFUAwCL8BwvdFhJgAAAAABJRU5ErkJggg==) 315 L).
+  - **d-Amph:** $Vd \approx 4.5 L/kg$ (e.g., 70 kg → 315 L).
 
--   LDX: ![](data:image/png;base64,iVBORw0KGgoAAAANSUhEUgAAAIQAAAAYCAYAAAA74FWfAAAHtUlEQVR4AeyZBawkRRCGB3cJENwluIYEdw3u7gTnCH64BYIkhCABAsHd3d0lgaDB3cnhEFy+b5na6503s2/29nj3gH2pf6q6Wnamu7qqut/oWe+vNwPJDPQMIpmMnphlPYP4d1rBRf/Ua/8fDGJGJm8MUEZTozwPPACeAjuBurQEDa8HD4EHwbKgHT1M5Z8lOBFdJ+TvfpV3WAt+ODgbrAK6pv+qQYzNzCwMjgLPAmVYC01B6W7wDFgBbAQOBPaBtaXFqb0WnACWA8eCu8CKoIo0GA3z1bzBQvDRwFDQCW1B42uANBaP1cEuYFrQNWkQvtQtjPQNCAt+BdmPhjXJnRT1H6DdFFTRxFQ8Bmz/I3wcMJD0Fj92HFgKTA7K6OBceWbO/aaTkfcETjSskk6n5jrwNJDu5aG32Bvejv6g0vmAZcGV60KD0kM4t/a5gcfuYKSRBuGirc2I2wDJhZ8b4UmQku70ORTrgBnAVaCKvqXCxbD9E8g/g4Ek328NfvAeUEUbUqHhw5r0OpIGVNwMqJs0B9KiwLawJllentKYoA5pHHXapW30Bnq1VPdbWuhW1iBijPdzYbqcF9keKG4FehNYvzQNLXSLj8AHG5k7zMRLfQ1S0ktaNgzIy7BIriz2dRNMRJ0bAdYvuRGbjWoKm9DuapDS72mhWzk1CN2s483sowAncH10R4O6tF7e0IQtF0vZtmg/B07Q2/AbwWKgjHZDORnolqbPB/g158F+yYXZcl7GYsOMSN90PL83Lfcnj0uDBYBeF1ZJF1Lj2IGlKQdth2Bo03Pabgjlk4B5zYTwlmOnFv4pylmBeQWsSXZyMarck+2NyRrV4/S6BGwMhoFHQRW5Sw+jcj+gq3Z33YZ8JTgCmBzCGqQhmFAVd2ajssPHBBXtY7e1yyHG76Jv2rXTkGGIK3qHdLyQnXvX6SAUU4GY/1OR9wd6GU8k3yPvC84F5k+NuU49BPrsHR5WTAkP8mijVb4WihLuj2kwK1O3JDDJMnO/E9mXg5WScd7cxI/4khafAF9Ql+04L1LWOC6Fa8UaZqcTSdc+FJ6gWOGuUheGoVxE0TNEffRt973RdkT4ZnRynmClZMKpARxJrXmex1k9L8UG6R3Mc+L97kNrNJgProE4/y0eAn32bvb3nztXaRIe7spT4FW0ARW6HsOJBkUxe9MHuB+0I72J5/NiG/MZE6itqXgeeEewILxu/kLTFtKDpYrGx6Mo6p1U1FnUKxcRdVV9446g2K9O2c24ZUlDj8h6tQ9L6kKlh3WRTZTvCGXCf0B2fFiDwoBbDLzoIcIgIsZqbYfQPToj9iFd+09oU3fmmRtVpoeQV8HFnoVK+3qO9zxvnETVII91xyN5zNN76Dk80qLqir7IexuXc7HBxms8s1oGMSJ98+ErmaejlUpqDRceMUuqmirXSWPVE8zV1A4XzkL09OTaehJal7InwJY1KhrEezSS7KTLfplCGAliHzKezo/Wm7rv4EGGDi98XMTQlXF35MVU+CHeB7yEfBrwcsgdgdhCW1Fq586pLqXibja3eYOWk4KU3ImWfXd5GaKurK8bw/Ba1q+OzjsG87hiWy/N2h3zba+HNm/ziG8IV5fCnME5dvP57XqyVWkQIQQx6xMywuXPTq13E95JIFaSBiXcydHIXbYMBfMIM1cXmGIpGRbMdnel9iZgvuBtnyHDK+Ed0Wlwo8H3AXoqXR9iR2T/YgcnxviZ1ll2QczCo73fsnkU4G4Qw9y8yClZNiHuJundngE/AymZF7gJ0nwgrXdTWTYxtK9JugtdDD0m7JfR0I2uVzah1EhQDScXc3gpy7Qcyy6Ut3bK7eCAeofYLbrzm+lglu5OcSJTY6GqhTzCeeOXKk0az0exGvAj3JHmJMbIvdB1QuHWNcxiP8PTMJS6TlimIZvgHkAh4qrGcjvly0HcPyBmumUNN66L58myzOPdofD+KG5t03ju/Pn/CMfUe6VjmEzGVXWqDzk8afAzqPD47vcZgig26GOeJpr+78MretdmTnQtVDQIQ4aTMYRWxRdDVUpatUdVcwCTmWNo5W3aULihR6tELKVz0BouYH3IOL8DWifOewEtX5eMql/S67iTdaM29r30OOk1r2PpBY23ttfN+s6eaOwj9EgatrvT8dQJPemaCP4P4Qq48+Wpqt1JTK/ieBoPXTLbWha6b8dSr4eSB7zP8e4gyil3YZ1rdZ7ONCq9g+vhCcLfiDkwB9H4XR8NQyP35KbBN0+VRYNwd7oALq4/UgdOlBMbO9qbSWX/oWRS6gfXGWdktnEHOyHucOE3mZAaQ9Pf0Rj9B5Xtd6bCSYO1kCFDt23btMLJ9PvcaR65TZDT+qJsou279AdPCtHXHW4I0mBCl3KP4XoXx9TzGHpNEi0Lczzf0X9FuKZuMDepdcKbZOepGQ2KBpH+WE8e9TOgsZnrdPsm5g16iwsY6CMQpBHrpZsnu55BxNQMTu6lYJnX6vRt44TivU7a1xBiGDVna+h7BtGYhkH58KRnTmeu0+0Lmvx7UDDveYHBPEV5pe0djzB/Qp31OXY2lL3HoJgB3bzH8JH1MoYKTyyGB6+qPRWZ4BpGmr/R8xDNqRh0ghd23msM6IuNMoMY0K/s/VjtGfgLAAD//9bl3/MAAAAGSURBVAMAf29xQIZNXp4AAAAASUVORK5CYII=) (e.g., 70 kg ![](data:image/png;base64,iVBORw0KGgoAAAANSUhEUgAAABMAAAAXCAYAAADpwXTaAAAAtUlEQVR4AeyQOwoCQQxAF8EDCN5Bz2Bvr60I2gk2ViJWXsJebSw8gaCn8AKWglew8WWZDQS2SdhqP+TNJkPyYNLJKvxamX+Z9dvZpGwJ0WcukfXARFR2xLICE1HZE0sfRqARlYlgx7GBPXQhK2QXioeTO/0D2MIcVLagGDuZ0f+GIZxAZZJ7kBedGVjDF/KQyzxxHlP6r/ABjahMdnRTS0qisgPzPzARlb2MJRVRWRq3v4bI/gAAAP//ksgEMwAAAAZJREFUAwCL8BwvdFhJgAAAAABJRU5ErkJggg==) 700 L).
+  - **LDX:** $Vd \approx 10.0 L/kg$ (e.g., 70 kg → 700 L).
 
 ### 8.2 Renal Function
 
 As d-amphetamine is renally eliminated, impairment drastically affects the tail of the simulation curve.
 
--   Normal: ![](data:image/png;base64,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).
+- **Normal:** $t_{1/2} \approx 11$ h.
 
--   Severe Impairment: ![](data:image/png;base64,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) can extend significantly, leading to accumulation with daily dosing. The FDA label recommends capping doses at 50 mg (Severe) or 30 mg (ESRD).22
+- **Severe Impairment:** $t_{1/2}$ can extend significantly, leading to accumulation with daily dosing. The FDA label recommends capping doses at 50 mg (Severe) or 30 mg (ESRD).[^22]
 
--   App Logic: A "Renal Function" toggle could modify k\_el\_damph (e.g., reduce by 50%), demonstrating to the user why their dose cap is lower.
+- **App Logic:** A "Renal Function" toggle could modify `k_el_damph` (e.g., reduce by 50%), demonstrating to the user why their dose cap is lower.
 
 ### 8.3 Ethnic Insensitivity
 
-Studies comparing Japanese and Caucasian subjects showed no significant differences in PK profiles when corrected for body weight.23 This suggests the model does not need "Ethnicity" modifiers, reinforcing the robustness of the standard parameters.
+Studies comparing Japanese and Caucasian subjects showed no significant differences in PK profiles when corrected for body weight. This suggests the model does not need "Ethnicity" modifiers, reinforcing the robustness of the standard parameters.[^23][^24]
 
 * * * *
 
-9\. Conclusion
--------------------------
+## 9\. Conclusion
 
-The discrepancy observed in the medication planner app is a verified phenomenon rooted in the physical chemistry and enzymatic kinetics of Lisdexamfetamine. The prodrug's rapid hydrolysis in red blood cells creates a kinetic profile that, when modeled with standard compartmental equations, necessitates an Apparent Volume of Distribution significantly larger than that of its metabolite.
+The discrepancy observed in the medication planner app is a verified phenomenon rooted in the physical chemistry and enzymatic kinetics of Lisdexamfetamine. The prodrug's rapid hydrolysis in red blood cells creates a kinetic profile that, when modeled with standard compartmental equations, necessitates an **Apparent Volume of Distribution** significantly larger than that of its metabolite.
 
-Final Determinations for the Developer:
+**Final Determinations for the Developer:**
 
-1.  Validation of Option A: The user's intuition to increase LDX Vd is correct. The scalar is non-arbitrary and mathematically derived.
+1. **Validation of Option A:** The user's intuition to increase LDX Vd is correct. The scalar is non-arbitrary and mathematically derived.
 
-2.  Specific Parameters: Use 710 L for LDX Vd and 377 L for d-amphetamine Vd (a ratio of ~1.9).
+2. **Specific Parameters:** Use **710 L** for LDX Vd and **377 L** for d-amphetamine Vd (a ratio of ~1.9).
 
-3.  Stoichiometry: Ensure the 0.2968 mass conversion factor is applied during the hydrolysis step.
+3. **Stoichiometry:** Ensure the **0.2968** mass conversion factor is applied during the hydrolysis step.
 
 By implementing these parameters, the simulation will accurately reproduce the characteristic "crossover" seen in clinical literature: a fleeting, low-concentration peak of the prodrug followed by the sustained, therapeutic elevation of the active neurostimulant.
 
-10\. Table of Reference Parameters
-----------------------------------
+## 10\. Table of Reference Parameters
 
-| Parameter | Value | Unit | Notes | Reference |
-| --- |  --- |  --- |  --- |  --- |
-| Intact LDX Vd/F | 710 | L | Apparent Vd, derived from 70mg AUC | 5 |
-| Intact LDX t1/2 | 0.5 | h | RBC Hydrolysis Rate | 2 |
-| Intact LDX Tmax | 1.0 | h | Peak time | 12 |
-| d-Amph Vd/F | 377 | L | Population Mean | 15 |
-| d-Amph t1/2 | 11.0 | h | Elimination Rate | 5 |
-| d-Amph Tmax | 3.8 | h | Peak time (Fasted) | 9 |
-| Stoichiometry | 0.297 | \- | Mass fraction (135.21 / 455.60) | 2 |
+| Parameter           | Value     | Unit | Notes                              | Reference |
+|---------------------|-----------|------|------------------------------------|-----------|
+| **Intact LDX Vd/F** | **710**   | L    | Apparent Vd, derived from 70mg AUC |           |
+| **Intact LDX t1/2** | **0.5**   | h    | RBC Hydrolysis Rate                |           |
+| **Intact LDX Tmax** | **1.0**   | h    | Peak time                          |           |
+| **d-Amph Vd/F**     | **377**   | L    | Population Mean                    |           |
+| **d-Amph t1/2**     | **11.0**  | h    | Elimination Rate                   |           |
+| **d-Amph Tmax**     | **3.8**   | h    | Peak time (Fasted)                 | [^9]      |
+| **Stoichiometry**   | **0.297** | \-   | Mass fraction (135.21 / 455.60)    | [^2]      |
 
 This configuration provides the most scientifically accurate representation of Lisdexamfetamine pharmacokinetics available from current public literature.
 
-#### Works cited
+## Works cited
 
-1.  Australian public assessment report for Lisdexamfetamine dimesilate, accessed January 17, 2026, <https://www.tga.gov.au/sites/default/files/auspar-lisdexamfetamine-dimesilate-131023.pdf>
+[^1]: Australian public assessment report for Lisdexamfetamine dimesilate, accessed January 17, 2026, <https://www.tga.gov.au/sites/default/files/auspar-lisdexamfetamine-dimesilate-131023.pdf>
 
-2.  Vyvanse (lisdexamfetamine dimesylate) C- II Rx Only AMPHETAMINES HAVE A HIGH POTENTIAL FOR ABUSE. ADMINISTRATION OF AMPHETAMI - accessdata.fda.gov, accessed January 17, 2026, [https://www.accessdata.fda.gov/drugsatfda\_docs/label/2007/021977lbl.pdf](https://www.accessdata.fda.gov/drugsatfda_docs/label/2007/021977lbl.pdf)
+[^2]: Vyvanse (lisdexamfetamine dimesylate) C- II Rx Only AMPHETAMINES HAVE A HIGH POTENTIAL FOR ABUSE. ADMINISTRATION OF AMPHETAMI - accessdata.fda.gov, accessed January 17, 2026, [https://www.accessdata.fda.gov/drugsatfda\_docs/label/2007/021977lbl.pdf](https://www.accessdata.fda.gov/drugsatfda_docs/label/2007/021977lbl.pdf)
 
-3.  Template:Amphetamine base in marketed amphetamine medications - Wikipedia, accessed January 17, 2026, [https://en.wikipedia.org/wiki/Template:Amphetamine\_base\_in\_marketed\_amphetamine\_medications](https://en.wikipedia.org/wiki/Template:Amphetamine_base_in_marketed_amphetamine_medications)
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