Side-by-side · Research reference

PTD-DBMvsTirzepatide

Side-by-side comparison across mechanism, dosage, evidence, side effects, administration, and stack synergies. Citations on every claim where available.

AAnimal-StrongHUMAN-REVIEWED10/40 cited

BFDA-ApprovedFlagship14/45 cited

PTD-DBM

Wnt Pathway Activator · Fusion Peptide

Topical / SQAdministrationLee 2023 Ryu 2023

Animal-onlyEvidence level

Wnt/β-cateninPrimary pathway

Topical / SQ · Study-dependent

Tirzepatide

GIP+GLP-1 Dual Agonist · FDA-Approved

2.5–15 mgWeekly doseZEPBOUND (tirzepatide) injecti 2023

20.9%Body-weight ↓Jastreboff 2022

~5 daysHalf-lifeZEPBOUND (tirzepatide) injecti 2023

SQ · Abdomen / thigh / arm · Once weekly

01Mechanism of Action

Parameter

PTD-DBM

Tirzepatide

Primary target

CXXC5–Dishevelled protein-protein interaction

GIP receptor (GIPR) + GLP-1 receptor (GLP-1R)Frias 2018

Pathway

Inhibit CXXC5 binding to Dishevelled → Release Wnt/β-catenin pathway inhibitionLee 2015 Ryu 2023

Dual GIPR/GLP-1R agonism → ↑insulin (glucose-dependent), ↓glucagon, ↓gastric emptying, ↓appetite, ↑energy expenditure (via GIP component)Jastreboff 2022 Frias 2018

Downstream effect

Activated Wnt/β-catenin signaling promotes hair follicle regeneration, dermal stem cell activation, reduced myofibroblast differentiation

Profound glycemic improvement and weight reduction; cardiometabolic benefitsJastreboff 2022

Feedback intact?

Not applicable — pathway derepression rather than receptor agonism

Glucose-dependent insulin release preserves physiological feedback

Origin

Engineered fusion: cell-penetrating PTD sequence + Dvl-binding motif targeting CXXC5

39-AA peptide with C-20 fatty-acid acylation. Single molecule with balanced GIP + GLP-1 affinityFrias 2018

Antibody development

—

02Dosage Protocols

Parameter

PTD-DBM

Tirzepatide

Wound healing protocol

Hydrogel patch delivery (concentration not disclosed)

Pyrogallol-HA patch, murine model.

—

Hair regeneration protocol

Topical application (exact dose not disclosed)

Wound-induced hair neogenesis model, mice.

—

Evidence basis

Animal models only (mice)

FDA-approved · Phase 3 RCTs (SURMOUNT, SURPASS)Jastreboff 2022 ZEPBOUND (tirzepatide) injecti 2023

Co-administration

Valproic acid (GSK-3β inhibitor) for wound healing synergyLee 2023

Combined treatment maximized scar reduction.

—

Human translation

No published human studies

—

Standard dose (T2D)

—

5–15 mg / weekZEPBOUND (tirzepatide) injecti 2023

Standard dose (weight)

—

5, 10, or 15 mg / week (titrated)ZEPBOUND (tirzepatide) injecti 2023 Jastreboff 2022

Titration schedule

—

2.5 mg → +2.5 mg every 4 weeks → 15 mg max

Slower titration mitigates GI side effects.

Duration

—

Indefinite for chronic indication

Reconstitution

—

Pre-filled commercial pen. Research vial: bacteriostatic water per label.

Timing

—

Once weekly, any time of day

Half-life

—

~5 days (116 h)ZEPBOUND (tirzepatide) injecti 2023

04Side Effects & Safety

Parameter

PTD-DBM

Tirzepatide

Reported adverse events

None reported in animal studies

—

Wnt pathway activation risks

Theoretical risk of aberrant proliferation; Wnt dysregulation linked to tumorigenesis

—

Long-term safety

Unknown — no chronic dosing or human data

—

Delivery vehicle effects

HA-PG hydrogel well-tolerated in mice; human translation pending

—

GI symptoms

—

Nausea, vomiting, diarrhea (common, dose-dependent)Jastreboff 2022

Injection site reaction

—

Mild erythema, pruritus

Pancreatitis risk

—

Rare; discontinue if suspectedZEPBOUND (tirzepatide) injecti 2023

Thyroid C-cell tumours

—

Boxed warning — contraindicated in MEN2 / MTC historyZEPBOUND (tirzepatide) injecti 2023

Hypoglycemia

—

Low as monotherapy; risk with sulfonylureas / insulin

Gallbladder events

—

Increased cholelithiasis

Pregnancy / OB

—

Contraindicated

Diabetic retinopathy

—

Rapid glycemic improvement may transiently worsen

Absolute Contraindications

PTD-DBM

·Active malignancy (Wnt pathway involvement in tumorigenesis)
·Pregnancy / lactation (no safety data)

Tirzepatide

·MTC personal or family history; MEN2
·Pregnancy / breastfeeding
·Hypersensitivity to tirzepatide

Relative Contraindications

PTD-DBM

·History of Wnt-driven tumors
·Skin lesions with uncertain malignant potential

Tirzepatide

·Severe gastroparesis
·History of pancreatitis
·Diabetic retinopathy

05Administration Protocol

Parameter

PTD-DBM

Tirzepatide

1. Wound Healing Protocol (Animal Model)

Pyrogallol-functionalized hyaluronic acid (HA-PG) hydrogel patch loaded with PTD-DBM peptide, applied directly to wound bed. Adhesive hydrogel provides sustained release over multiple days.Lee 2023

Commercial: pre-filled pen / vial. Research lyophilised: bacteriostatic water per label.

2. Hair Regeneration Protocol (Animal Model)

Topical application to scalp or wound site. Precise formulation not disclosed; studies used Cxxc5 knockout or direct peptide application in wound-induced hair neogenesis models.Ryu 2023

SQ — abdomen, thigh, or upper arm. Rotate weekly.

3. Combination Therapy

PTD-DBM + valproic acid (GSK-3β inhibitor) in HA-PG patch showed synergistic effect on scar reduction and regenerative wound healing. VPA enhances Wnt pathway activation downstream.Lee 2023

Once weekly, same day. Day change allowed if ≥3 days separate doses.

4. Storage & Handling

Not disclosed in available literature. Peptide stability and storage conditions not published.

Refrigerate 2–8 °C unopened. Room temp ≤30 °C up to 21 days after first use.

5. Needle

—

Pen-supplied. Research vial: 27–31G insulin syringe.