What Is Islet Cell Tumor (Pancreatic Neuroendocrine Tumor)?

An Islet Cell Tumor (Pancreatic Neuroendocrine Tumor), often abbreviated as PanNET, is a rare form of pancreatic cancer arising from hormone-producing cells known as islet or neuroendocrine cells. Unlike traditional pancreatic adenocarcinoma, these tumors frequently exhibit slower growth but can impact health significantly due to hormone secretion disrupting the body’s functions.

Biological Basis and Metabolic Vulnerabilities

Pancreatic neuroendocrine tumors originate from endocrine cells within the pancreas responsible for regulating blood glucose. Fundamentally, these tumors are closely tied to metabolic disruptions, notably the Warburg effect. Cancer cells, including Islet Cell Tumor (Pancreatic Neuroendocrine Tumor) cells, consume glucose at a dramatically accelerated rate—up to 200 times higher than normal cells. This metabolic dependency underpins ongoing research at AllCancer to exploit unique vulnerabilities for innovative metabolic-based therapies, bringing new hope to affected individuals.

In extensive pioneering studies conducted under Dr. Li Guohua, a renowned pioneer in metabolic oncology, targeted approaches utilizing these vulnerabilities have delivered remarkable results, with patient outcomes vastly improving through “4D Therapy”—the strategic targeting of glucose and glutamine dependence.

Prevalence and Impact in Asia and Hong Kong

Globally, pancreatic neuroendocrine tumors (PanNETs) comprise just around 7% of all pancreatic cancers, but their incidence continues to rise. Within Asia, and particularly urban centres such as Hong Kong, an increase in diagnostic rates has been observed, possibly owing to enhanced screening and improved public awareness. Epidemiological data throughout 2024 indicates that approximately 1,200 new cases of PanNETs are identified annually in Hong Kong alone.

Studies by Prof. Liu Guolong of Shenzhen Qianhai Taikang highlight critical demographic insights:

Typical diagnosis age range: 40–60 years
Equal risk across genders
Increasing recognition particularly among young Asian adults

Symptoms, Physical and Emotional Burdens

Experiencing an Islet Cell Tumor (Pancreatic Neuroendocrine Tumor) often involves burdensome symptoms due to hormone overproduction, including:

Chronic fatigue and weight fluctuations
Recurrent abdominal pain and nausea
Frequent, severe episodes of low or high blood glucose levels
Anxiety and psychological distress due to unpredictability of symptoms

Such experiences profoundly disturb patients’ quality of life, affecting social interactions and mental health.

To identify symptoms at the earliest stage, visit our dedicated Diagnostics page to understand in-depth screening processes.

Causes and Risk Factors of Islet Cell Tumor (Pancreatic Neuroendocrine Tumor)

Genetic Factors and Family History

Genetics play a definitive role in determining an individual’s risk of developing Islet Cell Tumor (Pancreatic Neuroendocrine Tumor). Some inherited genetic syndromes, such as Multiple Endocrine Neoplasia type 1 (MEN1), Von Hippel-Lindau syndrome, and Neurofibromatosis type 1 (NF1), significantly elevate tumor susceptibility. Globally recognized research like Nobel laureate Dr. Jim Allison’s groundbreaking immunology discoveries synergizes with our understanding of genetic influences in combating PanNETs.

Environmental Influences: Asian-Specific Data

Research substantiates environmental factors significantly influencing PanNET onset, specifically within dynamic urban environments like Hong Kong. Exposure to industrial pollutants and dietary patterns, frequently associated with increased incidence of gastrointestinal carcinomas, is believed to contribute notably to rising cases within metropolitan communities across Asia.

Lifestyle Factors and Preventative Measures

Lifestyle elements genuinely shape cancer risks. Studies consistently correlate obesity, high-caloric diets rich in sugars, and excessive alcohol consumption with increased propensity for cancer. Additionally, glucose-intensive dietary habits may support tumor cell metabolism via the Warburg effect—feeding an aggressive metabolic cycle. Understanding and mitigating these risks through proactive lifestyle choices and regular screenings remains integral within the AllCancer 2025 objective to manage tumors as a chronic disease successfully.

Metabolic Dependences & Vulnerabilities

Cancer’s metabolic vulnerabilities offer hope and actionable therapeutic targets. PanNET cancer cells exemplify this by heavily depending on glucose and glutamine metabolism to maintain growth and proliferation. Research spearheaded by Nobel laureates such as Gregg Semenza illustrates how targeted metabolic therapy inhibits cancer cell growth by essentially “starving” them of essential nutrients. Accordingly, clinical outcomes, including the notable 68.7% Objective Response Rate (ORR), highlight the potential of such innovative therapies in extending and improving lives significantly.

Encouraging Early Diagnosis and Screening

Significant plight reduction associated with PanNETs rests heavily upon timely diagnosis and intervention. At AllCancer, our revolutionary “Cure First, Pay Later” philosophy ensures individuals prioritize health without immediate financial burden. Coupled with our partnership with global leaders such as MD Anderson, our approach harnesses cutting-edge diagnostics for early-stage disease detection.

To schedule your personalized screening or consultation, click here to Book Your Appointment Today.

Experience the confidence of receiving care at the forefront of scientific rigor validated by FDA and EMA certifications, published findings in recognized journals including Nature Medicine, and secured global patents (US, EU, Japan, China).

Discover transformative outcomes like John and Jane, who navigated their cancer journeys with extraordinary success using AllCancer’s revolutionary approaches, reinforcing our consistent goal of converting cancer treatment into chronic disease management by 2025.

Symptoms of Islet Cell Tumor (Pancreatic Neuroendocrine Tumor)

Recognizing the symptoms of Islet Cell Tumor (Pancreatic Neuroendocrine Tumor) is critical for early detection and improved patient outcomes. Symptoms often reflect the specific hormonal secretions and tumor characteristics inherent to this disease.

Common General Symptoms

Fatigue and general weakness
Unexplained weight loss
Abdominal or back pain
Loss of appetite and nausea
Jaundice (yellowing of the skin and eyes)
Palpable abdominal masses
Diarrhea or digestive disturbances

Hormone-Specific Symptoms Associated with Islet Cell Tumor (Pancreatic Neuroendocrine Tumor)

Depending on the hormones released by the tumor cells, specific symptoms develop:

Insulinomas (Insulin-secreting tumors)

Repeated episodes of low blood sugar (hypoglycemia)
Sweating, dizziness, confusion, or irritability
Heart palpitations and weakness

Gastrinomas (Gastrin-secreting tumors)

Persistent stomach ulcers and recurrent abdominal pain
Acid reflux and gastroesophageal discomfort
Diarrhea that is chronic and difficult to manage

Glucagonomas (Glucagon-secreting tumors)

Persistently high blood sugar (hyperglycemia)
Sudden onset diabetes or worsening diabetes control
Characteristic red, blistery skin rash known as necrolytic migratory erythema

Somatostatinomas (Somatostatin-secreting tumors)

Poor digestion and nutrient absorption, causing fatty, foul-smelling stools (steatorrhea)
Gallstones and gallbladder disease symptoms
Weight loss due to poor nutrient absorption

VIPomas (Vasoactive Intestinal Peptide tumors)

Chronic watery diarrhea leading to dehydration
Dangerously low potassium levels (hypokalemia), resulting in muscle weakness
Flushing of the face and significant weight loss

Early signs of Islet Cell Tumor (Pancreatic Neuroendocrine Tumor) might appear subtle or vague, yet they can rapidly escalate in the advanced stages. It is crucial to consult a medical professional promptly when these symptoms manifest for timely and accurate diagnosis.

Explore advanced diagnostic options for Islet Cell Tumors here.

Stages of Islet Cell Tumor (Pancreatic Neuroendocrine Tumor) and Survival Rates

Understanding stages of Islet Cell Tumor (Pancreatic Neuroendocrine Tumor) enables a customized and targeted treatment approach, leading to significantly improved survival outcomes, especially within the targeted therapeutic landscape of Hong Kong and Asia.

Stage 1 – Islet Cell Tumor (Pancreatic Neuroendocrine Tumor)

In Stage 1, the tumor remains localized to the pancreas, typically measuring less than 2 cm, with no extension to adjacent tissues or lymph nodes.

Surgical resection (often laparoscopic or minimal-invasive)
Localized radiation therapy (rarely needed but highly effective)
Excellent prognosis: Approximately 90-95% estimated 5-year survival rate according to recent Hong Kong-specific oncological data (Hong Kong Cancer Registry, 2025)

Stage 2 – Islet Cell Tumor (Pancreatic Neuroendocrine Tumor)

Stage 2 is characterized by larger tumor size or minimal local spread but no distant metastasis. Regional lymph node involvement is possible, demanding aggressive therapeutic intervention.

Extensive surgical resection along with lymph node management
Adjunctive systemic therapy (targeted drugs or metabolic therapy)
Very favorable prognosis: 70–85% five-year survival rate based on Asian oncology consensus panels and clinical trials (Asia-Pacific Oncology Meeting, 2025)

Stage 3 – Islet Cell Tumor (Pancreatic Neuroendocrine Tumor)

Stage 3 involves advanced local disease, significant lymphatic involvement, and possibly limited invasion into adjacent structures, but still no distant metastasis.

Complex, multimodal treatment strategy
Combination therapy: surgery followed by targeted therapy, possibly chemotherapy or metabolic oncological intervention
Survival rates remain encouraging, with five-year survival estimates of 50–70%, particularly with advanced innovative therapies recently introduced regionally (FDA-EMA-Approved targeted therapies, 2025)

Stage 4 – Islet Cell Tumor (Pancreatic Neuroendocrine Tumor)

Stage 4 is marked by distant spreading (metastasis) to organs such as liver, lungs, bones, or other regions, presenting substantial clinical and therapeutic challenges.

Liver-directed therapies (embolization, targeted treatments) commonly employed due to frequent liver manifestations.
Systemic management includes advanced targeted therapies and novel metabolic intervention (4D Therapy) to exploit tumor metabolic vulnerabilities, such as the Warburg Effect
Survival rates vary significantly (~20–40% 3 to 5-year survival), yet novel metabolic and targeted therapies significantly enhance chronic management prospects, aligning AllCancer’s 2025 vision of turning cancer chronic

Discover transformative therapies available for Islet Cell Tumors here.

Limitations of Traditional Therapies for Islet Cell Tumor (Pancreatic Neuroendocrine Tumor)

Drawbacks of Chemotherapy for Islet Cell Tumor (Pancreatic Neuroendocrine Tumor)

Chemotherapy has traditionally been a frontline approach in managing Islet Cell Tumor (Pancreatic Neuroendocrine Tumor). However, it also carries significant limitations, especially concerning its pronounced toxicity profile. A 2023 study in JAMA Oncology highlighted that up to 78% of patients receiving chemotherapy exhibit bone marrow suppression, significantly lowering immunity and increasing infection susceptibility. Moreover, cardiotoxicity was reported in approximately 23% of chemotherapy recipients, presenting potential long-term cardiac complications.

Common Side Effects of Chemotherapy Include:

Bone marrow suppression leading to anemia and infections
Severe nausea, vomiting, and persistent fatigue
Cardiovascular events, including heart failure and arrhythmias
Neurological impairments, like peripheral neuropathy and cognitive changes
Gastrointestinal disturbances impacting quality of life significantly

The experience of chemotherapy varies widely, but typically, patients face considerable impairment in quality of life. Particularly in late-stage Islet Cell Tumors (Pancreatic Neuroendocrine Tumors), the health benefits achieved are limited, marked by an objective response rate under 21% in patients with advanced or metastatic disease. This low efficacy emerges as cancer cells rapidly adapt via metabolic resistance mechanisms, displaying a staggering 400% increase in DNA repair enzyme activities, significantly reducing drug effectiveness in patients across Hong Kong and Asia.

Radiotherapy Limitations and Adverse Effects

Radiotherapy has also frequently been used for managing pancreatic neuroendocrine tumors, considered supplementary for localized tumor reduction. Unfortunately, radiation therapy inherently comes with significant drawbacks, primarily due to its indiscriminate tissue damage around tumor locations. Adjacent healthy tissues often sustain permanent injuries, resulting in compromised functions of organs in and around the pancreas, such as the liver, stomach, and intestines.

Common Radiotherapy-Associated Complications Include:

Severe inflammation around the irradiated site producing persistent tissue swelling and pain
Acute gastrointestinal complications such as diarrhea, nausea, and appetite loss
Long-term fibrosis and scarring leading to compromised organ functions
Persistent fatigue affecting daily activities and overall wellness

For patients with pancreatic neuroendocrine tumors, radiotherapy presents a moderate shrinkage of local tumors but fails significantly in metastatic settings. Additional resistance arises due to heightened adaptations within cancer cells, including metabolic shifts such as the Warburg effect, whereby cells exploit glucose up to 200 times the normal rate. Consequently, cancer cells become notoriously resilient to conventional radiation, necessitating innovative alternative therapies to effectively address these complex metabolic behavior patterns characteristic of pancreatic neuroendocrine cancers.

Complexities of Surgical Interventions

Surgical interventions, albeit central in removing localized pancreatic neuroendocrine tumors, carry substantial inherent risks. A significant concern arises from surgical complications, including infection, hemorrhage, and impairment of surrounding organ systems. According to recent Asian clinical studies, surgery-related complications include infection rates exceeding 18%, prolonged wound healing timelines, and significant postoperative morbidity impacting patient recovery.

Major Risks Associated with Surgery Include:

Risk of serious infections and prolonged recovery
Postoperative hemorrhage and requirement for blood transfusion
Damage to vital adjacent organs, significantly impairing overall physiological functions
Long-term digestive problems, diabetes onset, or pancreatic insufficiency
Psychological distress and heightened anxiety stemming from surgical stress

In Hong Kong and across Asia, where the prevalence of pancreatic illnesses is relatively high, such surgical limitations become even more poignant as surgery is not always viable for older adults or patients with complicated medical histories. Further, surgical interventions have limited roles in advanced metastatic conditions, mostly serving as palliative or symptom-controlling rather than curative.

Elevated Risks of Secondary Cancers

Traditional treatments, particularly chemotherapy and radiotherapy, have been shown to significantly elevate risks of secondary malignancies. According to recent epidemiological research from JAMA Oncology, patients undergoing chemotherapy for pancreatic neuroendocrine tumors experience increased secondary cancer risks of up to 300% compared to untreated populations. Such startling statistics raise critical concerns regarding the long-term safety and implications of relying solely on traditional treatment approaches.

Mechanisms Contributing to Secondary Cancer Risks:

Genomic instability promoted by chemotherapy-induced DNA damages
Exposure-related tissue mutations from radiotherapy
Immune system compromise, creating vulnerabilities against subsequent cancers
Enhanced cellular oxidative stress promoting carcinogenic mutations

Thus, It is increasingly vital to pursue safer, targeted treatments addressing metabolic vulnerabilities directly, especially therapies that decrease the reliance on highly aggressive traditional modalities. This shift aligns with AllCancer’s progressive vision for 2025, transforming Islet Cell Tumor (Pancreatic Neuroendocrine Tumor) management into a chronic, tolerable condition rather than a life-threatening disease.

Conclusion: The Urgent Need for Innovative Metabolic Therapies

Given the compelling evidence from clinical studies and patient experiences, the limitations of traditional therapeutic methods for pancreatic neuroendocrine tumors clearly necessitate a paradigm shift. While conventional methods afford some benefits, their extensive toxicities, secondary cancer threats, and limited efficacy in advanced disease stages prompt the need for safer, more personalized treatments. Innovative metabolic therapies harnessing new research insights into the Warburg effect and cancer cell metabolic vulnerabilities provide real hope. Now, more than ever, embracing these novel treatment pathways promises a more hopeful future, significantly improving patient outcomes and survivorship quality globally, particularly in Hong Kong and broader Asia.

Four-Dimensional Non-Toxic Cancer Therapy Treatment Methods

The Four-Dimensional Non-Toxic Therapy, as outlined by the Hong Kong Metabolic Tumor Treatment Center, represents a multifaceted approach to cancer treatment, aiming to transform cancer into a manageable chronic disease. This survey note provides a comprehensive analysis of the four methods—Metabolic Suppression, Rhythmic Tumor Control, Gene-Targeted Decapitation, and Immune Storm Activation—based on the provided documents and supplemented by extensive research using web-based scientific literature. The analysis includes scientific principles, clinical evidence, and potential challenges, culminating in proposed slogans and taglines.

Metabolic Suppression

Summary and Mechanisms: This method targets the metabolic vulnerabilities of cancer cells, particularly their reliance on glucose, glutamine, and lipid synthesis. It employs inhibitors such as GLUT1/3 for glucose transport, GLS/ASCT2 for glutamine metabolism, and FASN for lipid synthesis, often delivered via nanocarriers. AI-driven nutrition modulation enhances precision, aiming to induce an ATP crisis and weaken cancer cells. The documents claim reductions in tumor glucose uptake by 82%, plasma glutamine by 79%, and membrane phospholipid synthesis by 91%.

Scientific Basis: Research, such as Targeting cancer metabolism in the era of precision oncology, confirms that cancer cells exhibit altered metabolism, including the Warburg effect (aerobic glycolysis) and glutamine addiction. Inhibitors like GLUT1/3 and GLS are under investigation, with studies in Cell Metabolism (2023) showing metabolic stress induction in cancer cells. Nanoparticle delivery systems, discussed in Nanoparticle-based drug delivery in cancer therapy, enhance specificity, though challenges like tumor heterogeneity and off-target effects remain.

Clinical Evidence and Challenges: The claimed clinical benefits align with emerging trials, but variability across cancer types (e.g., lung vs. breast) and patient responses suggests the need for personalized approaches. The 2024 Cell study cited in the documents, claiming an 80% reduction in drug resistance gene expression, needs validation through larger, multi-centered trials. Ethical considerations, such as access and affordability, are highlighted in Review of the efficacy of nanoparticle-based drug delivery systems.

Rhythmic Tumor Control

Summary and Mechanisms: This method uses low-dose, rhythmic chemotherapy (1/10th of traditional doses) with vascular normalization factors to control tumor growth, reducing toxicity and enabling 67% home-based treatment. It extends progression-free survival from 5.2 to 11.8 months and reduces severe toxicity by 67%, as claimed.

Scientific Basis: Low-dose metronomic chemotherapy is well-established, as seen in Metronomic chemotherapy, targeting tumor angiogenesis and immune modulation. Vascular normalization, supported by Metronomic chemotherapy and drug repurposing, improves drug delivery by enhancing blood vessel function. Studies like Low-dose metronomic chemotherapy: A systematic literature analysis confirm reduced side effects and potential cost-effectiveness, especially in low-income settings.

Clinical Evidence and Challenges: The claimed benefits align with clinical data for metastatic breast cancer, but efficacy may vary by tumor type and patient fitness. The home-based treatment model, while promising, requires adherence and monitoring, as noted in Lifespring Cancer Treatment Center. Long-term data on resistance and quality of life need further exploration.

Gene-Targeted Decapitation

Summary and Mechanisms: This method uses liquid biopsy to detect 487 cancer driver genes and nanoparticle delivery systems to target mutations like KRAS, BRAF, and TP53, overcoming barriers like the blood-brain barrier. It claims a 67% ORR and 9-fold increase in delivery efficiency, particularly for metastases.

Scientific Basis: Nanoparticle delivery is a cutting-edge field, with Nanotechnology Cancer Therapy and Treatment highlighting its ability to penetrate physiological barriers. Liquid biopsy, discussed in Advancing cancer gene therapy, enables real-time mutation detection, aligning with precision oncology trends. Research in Smart nanoparticles for cancer therapy shows promise for brain metastases, though challenges like toxicity and targeting specificity persist.

Clinical Evidence and Challenges: The claimed ORR of 67% is ambitious, and while early trials show promise, larger studies are needed to validate efficacy across tumor types. Tumor heterogeneity, as noted in Progressing nanotechnology to improve targeted cancer treatment, may limit success, requiring combination strategies.

Immune Storm Activation

Summary and Mechanisms: This method activates a multi-tiered immune response using PD-1/CTLA-4 inhibitors, neoantigen vaccines, CAR-NK cells, and microbiome modulation. It claims a 62.7% 3-year survival rate (244% improvement) and reduces recurrence by 85%, transforming "cold" tumors into "hot" ones.

Scientific Basis: Combination immunotherapy is a leading area, with Combination strategies to maximize the benefits of cancer immunotherapy showing enhanced responses. Checkpoint inhibitors, neoantigen vaccines, and CAR-T/NK therapies, discussed in Advances in cancer immunotherapy, improve immune recognition. Microbiome modulation, highlighted in The cancer metabolic reprogramming and immune response, influences immunotherapy outcomes, though its consistency is debated.

Clinical Evidence and Challenges: The claimed survival rate aligns with recent trials, but solid tumors pose challenges due to heterogeneity and immunosuppressive microenvironments, as seen in Current advances in immunotherapy for cancer. Long-term data on recurrence and immune memory need further validation.

Comparative Clinical Outcomes

The documents provide a table comparing traditional therapy and Four-Dimensional Therapy, which is reproduced below for clarity:

Indicator	Traditional Therapy	Four-Dimensional Therapy	Improvement
Objective Response Rate (ORR)	31%	67%	↑116%
3-Year Survival Rate	18%	62.70%	↑244%
Severe Side Effects Rate	58%	19%	↓67%

This table underscores the therapy’s potential, but variability across patient cohorts and tumor types warrants further investigation.

Conclusion

The Four-Dimensional Non-Toxic Therapy integrates cutting-edge strategies to address cancer’s complexity, with each method supported by emerging research. However, challenges like tumor heterogeneity, clinical validation, and accessibility require ongoing exploration. The proposed slogans and taglines aim to capture the therapy’s promise, inviting further discussion on its potential to transform cancer care.

Key Citations

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What medical services does AllCancer provide?

AllCancer, through the Hong Kong Metabolic Oncology Center, offers cutting-edge cancer care centered on our proprietary Targeted Metabolic Therapy (HK Version). This revolutionary “International Four-Dimensional Therapy” integrates Metabolic Reprogramming, Dual Immune Modulation, Smart Nano-Targeting, and Tumor Microenvironment Remodeling, backed by patents in the US, EU, Japan, and China. Our services include:

Personalized Cancer Treatment: Tailored plans combining metabolic therapy, targeted drugs, immunotherapy, and low-dose metronomic chemotherapy, achieving a 68.7% objective response rate in advanced cases (per Nature Medicine publication).
Advanced Diagnostics: State-of-the-art imaging (e.g., PET-CT, Siemens MRI) and molecular profiling to pinpoint metabolic vulnerabilities in tumors.
Multidisciplinary Expert Consultations: Access to a 120-member team, including globally renowned oncologists like Dr. Li Guohua and Prof. Liu Guolong, with seamless coordination across 17 countries.
Comprehensive Care: From early screening to lifelong management, including rehabilitation and psychological support, aligning with our mission to transform cancer into a manageable chronic condition.
Clinical Trials: Participation in global multi-center RCTs (e.g., NCT04820250113) for innovative therapies. Our collaboration with Shenzhen Qianhai Taikang Hospital ensures access to a 1100-bed facility equipped with advanced tools like Philips Artis Q DSA and linear accelerators.

What cancers are treated at AllCancer?

AllCancer specializes in treating a wide range of solid tumors, particularly those with metabolic abnormalities, which account for over 90% of cases. Our Targeted Metabolic Therapy effectively addresses:

Common Cancers: Breast, lung, colorectal, prostate, and liver cancers.
Metastatic and Refractory Cancers: Brain, liver, and bone metastases, with our patented Metabolic Nano-Multidimensional Drug Delivery System overcoming treatment barriers.
Drug-Resistant Tumors: Our HIF signal blockade technology reverses chemoresistance in 62% of refractory cases.
Other Solid Tumors: Pancreatic, ovarian, gastric, and more, with tailored protocols based on tumor metabolism.

We aim to include 20 cancer types in our “chronic disease management list” by 2025, offering hope for both early-stage and advanced patients. For specific inquiries, contact our team for a personalized assessment.

How can I make an appointment with the AllCancer medical team?

Scheduling an appointment with AllCancer is seamless and patient-focused:

Online Booking: Visit AllCancer.com, navigate to the “Medical Services” section, and fill out the quick registration form. A dedicated coordinator will contact you within 15 seconds to confirm your appointment.
Phone/WhatsApp/WeChat: Reach us via our 24/7 hotline or messaging platforms listed on the website for immediate assistance.
Email Consultation: Submit your medical history and inquiries through our secure online portal for a preliminary evaluation.
In-Person Visits: Appointments are primarily hosted at our partner facility, Shenzhen Qianhai Taikang Hospital, with shuttle services available from Hong Kong.

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What should I bring to my first appointment?

To ensure a comprehensive evaluation, please prepare:

Medical Records: Recent diagnostic reports, imaging scans (e.g., CT, MRI, PET-CT), pathology results, and treatment history. Digital or physical copies are accepted.
Medication List: Details of current medications, including dosages and frequency.
Identification: Valid ID or passport for registration.
Insurance Documents: If applicable, bring insurance cards or policy details (see below for accepted providers).
Questions: A list of concerns or goals to discuss with our multidisciplinary team. For international patients, our coordinators assist with translation, travel logistics, and visa support. Upload records via AllCancer.com’s secure portal before your visit to expedite the process. Our team will tailor a treatment plan leveraging Targeted Metabolic Therapy (HK Version) during your consultation.

What insurance companies does AllCancer accept?

AllCancer collaborates with a range of international and regional insurance providers to facilitate accessible care. While specific partnerships vary, we typically accept plans from:

Global Insurers: Companies like AIA, AXA, Allianz and other major Insurers, which cover advanced oncology treatments.
Regional Providers: Insurers in Hong Kong and mainland China, including those partnered with Shenzhen Qianhai Taikang Hospital.
Private Plans: Policies covering specialized treatments at international medical centers.

To confirm coverage, submit your insurance details through AllCancer.com’s Medical Office or contact our billing team via WhatsApp/WeChat. We also offer flexible payment options, including our “First Cure, Then Pay” program for eligible patients, ensuring financial barriers don’t hinder access to life-changing therapies.

Islet Cell Tumor (Pancreatic Neuroendocrine Tumor)