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Руководство · Обновлено Март 2026

Healing and Regeneration Research

Accelerating tissue repair and wound healing in preclinical models

Только для исследований: Вся информация предназначена исключительно для научных исследований. Эти пептиды не одобрены для терапевтического применения у людей. Соблюдайте этические нормы и нормативные требования вашего учреждения.

Пептиды в этой категории:

BPC-157 — Сравнить цены в России →TB-500 — Сравнить цены в России →

Что Это за Категория?

BPC-157 and TB-500 are the most widely self-researched peptides in the recovery and healing space. BPC-157 was originally derived from a protein found in gastric juice and has shown remarkable tissue-repair properties in animal models — from torn tendons to gut ulcers to nerve injuries. TB-500 is a synthetic fragment of Thymosin Beta-4, a protein present in virtually every cell of the body that plays a central role in tissue repair and new blood vessel formation. Together they represent two distinct but complementary approaches to accelerating the body's natural healing processes. Both are available from Russia-accessible research vendors and are among the most studied peptides in the self-research community.

Для Чего Исследуют

→Accelerating recovery from tendon, ligament, and muscle injuries
→Supporting gut health and reducing gastrointestinal inflammation
→Post-surgery tissue recovery support (based on animal study evidence)
→Chronic joint pain and overuse injuries
→Stacking BPC-157 + TB-500 together for synergistic tissue repair
→Nerve injury and neuroprotection research

Плюсы и Минусы

+Extensive preclinical evidence across multiple tissue types and injury models

+Effective at very low doses — GI protection demonstrated at nanogram-per-kilogram levels in rodents

+Excellent safety profile: no dose-limiting toxicity found in published animal studies up to 10 mg/kg

+Both oral and injectable routes studied for BPC-157 (oral route active in animal GI models)

+Complementary mechanisms: BPC-157 (NO/VEGF) + TB-500 (actin/cell migration) provide broader coverage when stacked

+Well-characterised: among the most extensively researched peptides in preclinical literature

−No completed human clinical trials for either compound — all evidence is from animal models

−Injection required for most systemic applications; oral bioavailability in humans not established

−Purity and dosing accuracy vary between Russia-accessible vendors — COA verification is essential

−Multi-week courses add up in cost (€25–€80 per peptide per course)

−No regulatory approval anywhere; long-term human safety data does not exist

−Results from animal studies may not translate to human biology

Хронология Эффектов

На основе опубликованных временных рамок исследований. Экстраполяция на человека является приблизительной — индивидуальные результаты могут варьироваться.

Начало

Days 3–7

Максимальный Эффект

Weeks 2–4

Примечания

Gastric ulcer models show cytoprotection within 3–7 days. Tendon and muscle models show peak measurable improvement (collagen, tensile strength) at day 14. Structural tissue healing takes longer than subjective comfort improvement.

Правовой Статус в России: BPC-157 and TB-500 are unscheduled research chemicals in Russia. They are not approved as medicines by Roszdravnadzor. Sale is legal as research compounds; purchase for personal research is a legal grey area that varies by country. Always verify local regulations before ordering.

Научный Обзор

The healing and regeneration category encompasses peptides that modulate the body's endogenous repair machinery. BPC-157 (Body Protection Compound) and TB-500 (Thymosin Beta-4) are the two most extensively studied candidates in this space. Both peptides appear to accelerate tissue repair through complementary but distinct mechanisms: BPC-157 acts primarily via the nitric oxide (NO) system and growth factor upregulation, while TB-500 promotes actin polymerisation and cell migration. Research spanning gastric ulcer models, tendon transection assays, and crush injury protocols has consistently demonstrated accelerated macroscopic and histological healing in rodent subjects.

Механизм Действия

BPC-157 stabilises the Janus kinase 2 (JAK2) / signal transducer and activator of transcription 3 (STAT3) pathway, upregulates vascular endothelial growth factor (VEGF), and modulates nitric oxide synthesis. TB-500 sequesters G-actin via a WH2 domain, promoting lamellipodia formation and directed cell migration. Together these effects converge on collagen deposition, angiogenesis, and reduction of pro-inflammatory cytokines IL-6 and TNF-α.

Методы Введения

Путь 1Subcutaneous injection

Подготовка

Reconstitute lyophilised powder with 1 mL bacteriostatic water (BAC water). Resulting concentration: 1 mg/mL. Store at 4 °C after reconstitution; use within 30 days.

Типичная Концентрация

200–500 µg/mL

Примечания

Preferred route for systemic distribution in rodent models. Injection sites should be rotated. Standard 28–31 gauge insulin syringes are appropriate for small-volume SC dosing.

Путь 2Intramuscular injection

Подготовка

Same reconstitution as SC. IM delivery is used when the target tissue is proximal to a large muscle group (e.g., quadriceps in hind-limb injury models).

Типичная Концентрация

200–500 µg/mL

Примечания

Provides faster peak plasma levels than SC; commonly used in acute trauma models.

Путь 3Intraperitoneal injection (animal models only)

Подготовка

Dilute in sterile saline to working concentration immediately before dosing.

Типичная Концентрация

10 µg/kg–10 mg/kg (dose-dependent on model)

Примечания

IP route is standard in rodent pharmacokinetic studies. Not applicable to non-animal research contexts.

Протоколы Исследований

Acute Tendon Transection Model

BPC-157TB-500

Длительность

14 days

Частота

Once daily

Диапазон Дозировки

10 µg/kg – 10 mg/kg (BPC-157); 2.5 mg per animal (TB-500)

Основные Критерии

Histological staining (H&E, Masson trichrome) for collagen organisation; tensile strength biomechanical testing at day 14

Примечания к протоколу: Sham-operated and vehicle controls are essential. Blinded histology scoring recommended.

Gastric Ulcer Cytoprotection Model

BPC-157

Длительность

7 days

Частота

Twice daily

Диапазон Дозировки

10 ng/kg – 10 µg/kg

Основные Критерии

Ulcer index (macroscopic scoring), myeloperoxidase (MPO) activity, mucosal blood flow via laser Doppler

Примечания к протоколу: Model uses ethanol/HCl or indomethacin-induced ulceration. BPC-157 has shown efficacy even at nanogram doses in this model (Sikiric et al., 1997).

Muscle Crush Injury Recovery Model

BPC-157TB-500

Длительность

21 days

Частота

Once daily for 10 days, then every other day

Диапазон Дозировки

2 µg/kg (BPC-157); 2.5 mg per animal (TB-500)

Основные Критерии

Grip strength (grams force), muscle fibre cross-sectional area (immunofluorescence), VEGF immunohistochemistry

Примечания к протоколу: Crush injury is induced under isoflurane anaesthesia using calibrated forceps. Recovery is assessed with weekly locomotor scoring.

Ключевые Опубликованные Исследования

Stable gastric pentadecapeptide BPC 157 in trials for inflammatory bowel disease (PL-10, PLD-116, PL14736, Pliva, Croatia)

2006

BPC-157 demonstrated significant cytoprotective activity across multiple GI injury models and showed a strong safety profile in Phase II trials, with no adverse events attributable to the peptide.

Методология: Human Phase II trial, n=24 (IBD cohort); preclinical rat models (n=10 per group)

PubMed: 16318581 ↗

Thymosin beta 4 accelerates wound healing

2004

TB-4 (the full endogenous protein from which TB-500 is derived) significantly reduced healing time in a full-thickness dermal wound model by promoting re-epithelialisation and blood vessel formation.

Методология: Mouse excisional wound model, n=30, randomised, blinded histology

PubMed: 15345245 ↗

BPC 157 effect on tendon healing: partial and full tendon transection model in rats

2010

Tendon specimens from BPC-157-treated rats showed significantly superior collagen organisation and 40% higher peak load-to-failure values compared to controls at day 14.

Методология: Sprague-Dawley rat model, n=40, SC dosing 10 µg/kg once daily

PubMed: 20451534 ↗

Ожидаемые Результаты

На основе совокупности опубликованных доклинических данных. Результаты могут варьироваться в зависимости от модели, дозы и пути введения.

✓Increased collagen deposition and organisation in injured tissue (Masson trichrome staining)
✓Elevated VEGF expression and microvessel density in repair zone
✓Reduced pro-inflammatory cytokines (IL-6, TNF-α) at injury site
✓Improved biomechanical properties (tensile strength, peak load-to-failure) in tendon models
✓Accelerated mucosal re-epithelialisation in GI ulcer models
✓Enhanced grip strength and locomotor score in muscle injury models

Вопросы Безопасности

⚠Both peptides have shown no dose-dependent toxicity in published rodent studies up to 10 mg/kg.
⚠Sterile technique is essential; bacteriostatic water must be pharmaceutical grade.
⚠Reconstituted peptides should be stored at 4 °C and discarded after 30 days.
⚠All research must comply with local IACUC/ethics committee protocols.
⚠These compounds are not approved for human therapeutic use.

Часто Задаваемые Вопросы

What is the difference between BPC-157 and TB-500?

BPC-157 is a synthetic 15-amino-acid peptide derived from a gastric protein, primarily studied for GI protection and soft-tissue healing. TB-500 is a synthetic analogue of the actin-binding domain of Thymosin Beta-4, primarily studied for muscle, tendon, and cardiovascular repair. Research often combines them for broader tissue coverage.

Which administration route shows the best bioavailability in rodent models?

Intraperitoneal (IP) injection shows the most consistent bioavailability in rodent studies. Subcutaneous is preferred for chronic dosing due to ease of administration and reduced handling stress in the animals.

What are the typical dosing ranges used in published studies?

BPC-157 is commonly studied at 10 ng/kg to 10 µg/kg in GI models and 2–10 µg/kg in musculoskeletal models. TB-500 (as Thymosin Beta-4) is typically dosed at 150 µg/kg to 2.5 mg per animal depending on the model and species.

Практические Заметки для Самостоятельных Исследователей

Только в образовательных целях. Самостоятельное введение исследовательских соединений сопряжено со значительными рисками и не одобрено PeptideRU. Проконсультируйтесь с квалифицированным медицинским специалистом перед рассмотрением любого протокола самостоятельного исследования.

What storage setup is needed for reconstituted BPC-157?

A standard refrigerator at 4°C is sufficient after reconstitution with bacteriostatic water (BAC water). This gives approximately 30 days of stability. Avoid repeated freeze/thaw cycles, which degrade the peptide. Store in light-opaque vials. Lyophilised (freeze-dried) powder before reconstitution is stable at −20°C for much longer.

What should I look for on a vendor's Certificate of Analysis (COA) for BPC-157?

Look for: HPLC purity ≥98%, mass spectrometry identity confirmation matching the correct molecular weight (1419.5 Da for BPC-157), and endotoxin testing result ≤1 EU/mg. Peptide.ru and SwissChems publish COAs directly on their product pages. Avoid vendors who cannot produce these documents on request.

What are the most common reconstitution errors?

The most frequent errors are: using plain distilled or tap water instead of bacteriostatic water (causes bacterial contamination risk), injecting water directly onto the peptide powder forcefully (causes foaming that can denature the peptide — always drip water down the vial side), and storing reconstituted peptide at room temperature. Swirl gently to mix; never shake.

What is the typical dosing range used in studies, and how long do courses run?

Animal studies use BPC-157 at 10 ng/kg to 10 µg/kg once or twice daily, for 7–21 days depending on the injury model. TB-500 is typically 2.5 mg per animal (rat) once or twice weekly. Self-researchers commonly report using 4–12 week courses. There is no established safe or effective human dose — these figures are extrapolated from preclinical data only.

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